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1 | /////////////////////////////////////////////////////////////////////////////// | |
2 | // Name: wx/rawbmp.h | |
3 | // Purpose: macros for fast, raw bitmap data access | |
4 | // Author: Eric Kidd, Vadim Zeitlin | |
5 | // Modified by: | |
6 | // Created: 10.03.03 | |
7 | // RCS-ID: $Id$ | |
8 | // Copyright: (c) 2002 Vadim Zeitlin <vadim@wxwidgets.org> | |
9 | // Licence: wxWindows licence | |
10 | /////////////////////////////////////////////////////////////////////////////// | |
11 | ||
12 | #ifndef _WX_RAWBMP_H_BASE_ | |
13 | #define _WX_RAWBMP_H_BASE_ | |
14 | ||
15 | #include "wx/image.h" | |
16 | ||
17 | // ---------------------------------------------------------------------------- | |
18 | // Abstract Pixel API | |
19 | // | |
20 | // We need to access our raw bitmap data (1) portably and (2) efficiently. | |
21 | // We do this using a two-dimensional "iteration" interface. Performance | |
22 | // is extremely important here: these functions will be called hundreds | |
23 | // of thousands of times in a row, and even small inefficiencies will | |
24 | // make applications seem slow. | |
25 | // | |
26 | // We can't always rely on inline functions, because not all compilers actually | |
27 | // bother to inline them unless we crank the optimization levels way up. | |
28 | // Therefore, we also provide macros to wring maximum speed out of compiler | |
29 | // unconditionally (e.g. even in debug builds). Of course, if the performance | |
30 | // isn't absolutely crucial for you you shouldn't be using them but the inline | |
31 | // functions instead. | |
32 | // ---------------------------------------------------------------------------- | |
33 | ||
34 | /* | |
35 | Usage example: | |
36 | ||
37 | typedef wxPixelData<wxBitmap, wxNativePixelFormat> PixelData; | |
38 | ||
39 | wxBitmap bmp; | |
40 | PixelData data(bmp); | |
41 | if ( !data ) | |
42 | { | |
43 | ... raw access to bitmap data unavailable, do something else ... | |
44 | return; | |
45 | } | |
46 | ||
47 | if ( data.GetWidth() < 20 || data.GetHeight() < 20 ) | |
48 | { | |
49 | ... complain: the bitmap it too small ... | |
50 | return; | |
51 | } | |
52 | ||
53 | PixelData::Iterator p(data); | |
54 | ||
55 | // we draw a (10, 10)-(20, 20) rect manually using the given r, g, b | |
56 | p.Offset(data, 10, 10); | |
57 | ||
58 | for ( int y = 0; y < 10; ++y ) | |
59 | { | |
60 | PixelData::Iterator rowStart = p; | |
61 | ||
62 | for ( int x = 0; x < 10; ++x, ++p ) | |
63 | { | |
64 | p.Red() = r; | |
65 | p.Green() = g; | |
66 | p.Blue() = b; | |
67 | } | |
68 | ||
69 | p = rowStart; | |
70 | p.OffsetY(data, 1); | |
71 | } | |
72 | */ | |
73 | ||
74 | /* | |
75 | Note: we do not use WXDLLEXPORT with classes in this file because VC++ has | |
76 | problems with exporting inner class defined inside a specialization of a | |
77 | template class from a DLL. Besides, as all the methods are inline it's not | |
78 | really necessary to put them in DLL at all. | |
79 | */ | |
80 | ||
81 | // ---------------------------------------------------------------------------- | |
82 | // wxPixelFormat | |
83 | // ---------------------------------------------------------------------------- | |
84 | ||
85 | /* | |
86 | wxPixelFormat is a template class describing the bitmap data format. It | |
87 | contains the constants describing the format of pixel data, but does not | |
88 | describe how the entire bitmap is stored (i.e. top-to-bottom, | |
89 | bottom-to-top, ...). It is also a "traits"-like class, i.e. it only | |
90 | contains some constants and maybe static methods but nothing more, so it | |
91 | can be safely used without incurring any overhead as all accesses to it are | |
92 | done at compile-time. | |
93 | ||
94 | Current limitations: we don't support RAGABA and ARAGAB formats supported | |
95 | by Mac OS X. If there is sufficient interest, these classes could be | |
96 | extended to deal with them. Neither do we support alpha channel having | |
97 | different representation from the RGB ones (happens under QNX/Photon I | |
98 | think), but again this could be achieved with some small extra effort. | |
99 | ||
100 | Template parameters are: | |
101 | - type of a single pixel component | |
102 | - size of the single pixel in bits | |
103 | - indices of red, green and blue pixel components inside the pixel | |
104 | - index of the alpha component or -1 if none | |
105 | - type which can contain the full pixel value (all channels) | |
106 | */ | |
107 | ||
108 | template <class Channel, | |
109 | size_t Bpp, int R, int G, int B, int A = -1, | |
110 | class Pixel = wxUint32> | |
111 | ||
112 | struct wxPixelFormat | |
113 | { | |
114 | // iterator over pixels is usually of type "ChannelType *" | |
115 | typedef Channel ChannelType; | |
116 | ||
117 | // the type which may hold the entire pixel value | |
118 | typedef Pixel PixelType; | |
119 | ||
120 | // NB: using static ints initialized inside the class declaration is not | |
121 | // portable as it doesn't work with VC++ 6, so we must use enums | |
122 | ||
123 | // size of one pixel in bits | |
124 | enum { BitsPerPixel = Bpp }; | |
125 | ||
126 | // size of one pixel in ChannelType units (usually bytes) | |
127 | enum { SizePixel = Bpp / (8 * sizeof(Channel)) }; | |
128 | ||
129 | // the channels indices inside the pixel | |
130 | enum | |
131 | { | |
132 | RED = R, | |
133 | GREEN = G, | |
134 | BLUE = B, | |
135 | ALPHA = A | |
136 | }; | |
137 | ||
138 | // true if we have an alpha channel (together with the other channels, this | |
139 | // doesn't cover the case of wxImage which stores alpha separately) | |
140 | enum { HasAlpha = A != -1 }; | |
141 | }; | |
142 | ||
143 | // some "predefined" pixel formats | |
144 | // ------------------------------- | |
145 | ||
146 | // wxImage format is common to all platforms | |
147 | typedef wxPixelFormat<unsigned char, 24, 0, 1, 2> wxImagePixelFormat; | |
148 | ||
149 | // the (most common) native bitmap format without alpha support | |
150 | #if defined(__WXMSW__) | |
151 | // under MSW the RGB components are reversed, they're in BGR order | |
152 | typedef wxPixelFormat<unsigned char, 24, 2, 1, 0> wxNativePixelFormat; | |
153 | ||
154 | #define wxPIXEL_FORMAT_ALPHA 3 | |
155 | #elif defined(__WXMAC__) | |
156 | // under Mac, first component is unused but still present, hence we use | |
157 | // 32bpp, not 24 | |
158 | typedef wxPixelFormat<unsigned char, 32, 1, 2, 3> wxNativePixelFormat; | |
159 | ||
160 | #define wxPIXEL_FORMAT_ALPHA 0 | |
161 | #elif defined(__WXCOCOA__) | |
162 | // Cocoa is standard RGB or RGBA (normally it is RGBA) | |
163 | typedef wxPixelFormat<unsigned char, 24, 0, 1, 2> wxNativePixelFormat; | |
164 | ||
165 | #define wxPIXEL_FORMAT_ALPHA 3 | |
166 | #elif defined(__WXGTK__) | |
167 | // Under GTK+ 2.X we use GdkPixbuf, which is standard RGB or RGBA | |
168 | typedef wxPixelFormat<unsigned char, 24, 0, 1, 2> wxNativePixelFormat; | |
169 | ||
170 | #define wxPIXEL_FORMAT_ALPHA 3 | |
171 | #endif | |
172 | ||
173 | // the (most common) native format for bitmaps with alpha channel | |
174 | #ifdef wxPIXEL_FORMAT_ALPHA | |
175 | typedef wxPixelFormat<unsigned char, 32, | |
176 | wxNativePixelFormat::RED, | |
177 | wxNativePixelFormat::GREEN, | |
178 | wxNativePixelFormat::BLUE, | |
179 | wxPIXEL_FORMAT_ALPHA> wxAlphaPixelFormat; | |
180 | #endif // wxPIXEL_FORMAT_ALPHA | |
181 | ||
182 | // we also define the (default/best) pixel format for the given class: this is | |
183 | // used as default value for the pixel format in wxPixelIterator template | |
184 | template <class T> struct wxPixelFormatFor; | |
185 | ||
186 | #if wxUSE_IMAGE | |
187 | // wxPixelFormatFor is only defined for wxImage, attempt to use it with other | |
188 | // classes (wxBitmap...) will result in compile errors which is exactly what we | |
189 | // want | |
190 | template <> | |
191 | struct wxPixelFormatFor<wxImage> | |
192 | { | |
193 | typedef wxImagePixelFormat Format; | |
194 | }; | |
195 | #endif //wxUSE_IMAGE | |
196 | ||
197 | // ---------------------------------------------------------------------------- | |
198 | // wxPixelData | |
199 | // ---------------------------------------------------------------------------- | |
200 | ||
201 | /* | |
202 | wxPixelDataBase is just a helper for wxPixelData: it contains things common | |
203 | to both wxImage and wxBitmap specializations. | |
204 | */ | |
205 | class wxPixelDataBase | |
206 | { | |
207 | public: | |
208 | // origin of the rectangular region we represent | |
209 | wxPoint GetOrigin() const { return m_ptOrigin; } | |
210 | ||
211 | // width and height of the region we represent | |
212 | int GetWidth() const { return m_width; } | |
213 | int GetHeight() const { return m_height; } | |
214 | ||
215 | wxSize GetSize() const { return wxSize(m_width, m_height); } | |
216 | ||
217 | // the distance between two rows | |
218 | int GetRowStride() const { return m_stride; } | |
219 | ||
220 | // private: -- see comment in the beginning of the file | |
221 | ||
222 | // the origin of this image inside the bigger bitmap (usually (0, 0)) | |
223 | wxPoint m_ptOrigin; | |
224 | ||
225 | // the size of the image we address, in pixels | |
226 | int m_width, | |
227 | m_height; | |
228 | ||
229 | // this parameter is the offset of the start of the (N+1)st row from the | |
230 | // Nth one and can be different from m_bypp*width in some cases: | |
231 | // a) the most usual one is to force 32/64 bit alignment of rows | |
232 | // b) another one is for bottom-to-top images where it's negative | |
233 | // c) finally, it could conceivably be 0 for the images with all | |
234 | // lines being identical | |
235 | int m_stride; | |
236 | ||
237 | protected: | |
238 | // ctor is protected because this class is only meant to be used as the | |
239 | // base class by wxPixelData | |
240 | wxPixelDataBase() | |
241 | { | |
242 | m_width = | |
243 | m_height = | |
244 | m_stride = 0; | |
245 | } | |
246 | }; | |
247 | ||
248 | /* | |
249 | wxPixelData represents the entire bitmap data, i.e. unlike | |
250 | wxPixelFormat (which it uses) it also stores the global bitmap | |
251 | characteristics such as its size, inter-row separation and so on. | |
252 | ||
253 | Because of this it can be used to move the pixel iterators (which don't | |
254 | have enough information about the bitmap themselves). This may seem a bit | |
255 | unnatural but must be done in this way to keep the iterator objects as | |
256 | small as possible for maximum efficiency as otherwise they wouldn't be put | |
257 | into the CPU registers by the compiler any more. | |
258 | ||
259 | Implementation note: we use the standard workaround for lack of partial | |
260 | template specialization support in VC (both 6 and 7): instead of partly | |
261 | specializing the class Foo<T, U> for some T we introduce FooOut<T> and | |
262 | FooIn<U> nested in it, make Foo<T, U> equivalent to FooOut<T>::FooIn<U> and | |
263 | fully specialize FooOut. | |
264 | ||
265 | Also note that this class doesn't have any default definition because we | |
266 | can't really do anything without knowing the exact image class. We do | |
267 | provide wxPixelDataBase to make it simpler to write new wxPixelData | |
268 | specializations. | |
269 | */ | |
270 | ||
271 | // we need to define this skeleton template to mollify VC++ | |
272 | template <class Image> | |
273 | struct wxPixelDataOut | |
274 | { | |
275 | template <class PixelFormat> | |
276 | class wxPixelDataIn | |
277 | { | |
278 | public: | |
279 | class Iterator { }; | |
280 | }; | |
281 | }; | |
282 | ||
283 | #if wxUSE_IMAGE | |
284 | // wxPixelData specialization for wxImage: this is the simplest case as we | |
285 | // don't have to care about different pixel formats here | |
286 | template <> | |
287 | struct wxPixelDataOut<wxImage> | |
288 | { | |
289 | // NB: this is a template class even though it doesn't use its template | |
290 | // parameter because otherwise wxPixelData couldn't compile | |
291 | template <class dummyPixelFormat> | |
292 | class wxPixelDataIn : public wxPixelDataBase | |
293 | { | |
294 | public: | |
295 | // the type of the class we're working with | |
296 | typedef wxImage ImageType; | |
297 | ||
298 | // the iterator which should be used for working with data in this | |
299 | // format | |
300 | class Iterator | |
301 | { | |
302 | public: | |
303 | // the pixel format we use | |
304 | typedef wxImagePixelFormat PixelFormat; | |
305 | ||
306 | // the type of the pixel components | |
307 | typedef typename dummyPixelFormat::ChannelType ChannelType; | |
308 | ||
309 | // the pixel data we're working with | |
310 | typedef | |
311 | wxPixelDataOut<wxImage>::wxPixelDataIn<PixelFormat> PixelData; | |
312 | ||
313 | // go back to (0, 0) | |
314 | void Reset(const PixelData& data) | |
315 | { | |
316 | *this = data.GetPixels(); | |
317 | } | |
318 | ||
319 | // creates the iterator pointing to the beginning of data | |
320 | Iterator(PixelData& data) | |
321 | { | |
322 | Reset(data); | |
323 | } | |
324 | ||
325 | // creates the iterator initially pointing to the image origin | |
326 | Iterator(const wxImage& image) | |
327 | { | |
328 | m_pRGB = image.GetData(); | |
329 | ||
330 | if ( image.HasAlpha() ) | |
331 | { | |
332 | m_pAlpha = image.GetAlpha(); | |
333 | } | |
334 | else // alpha is not used at all | |
335 | { | |
336 | m_pAlpha = NULL; | |
337 | } | |
338 | } | |
339 | ||
340 | // true if the iterator is valid | |
341 | bool IsOk() const { return m_pRGB != NULL; } | |
342 | ||
343 | ||
344 | // navigation | |
345 | // ---------- | |
346 | ||
347 | // advance the iterator to the next pixel, prefix version | |
348 | Iterator& operator++() | |
349 | { | |
350 | m_pRGB += PixelFormat::SizePixel; | |
351 | if ( m_pAlpha ) | |
352 | ++m_pAlpha; | |
353 | ||
354 | return *this; | |
355 | } | |
356 | ||
357 | // postfix (hence less efficient -- don't use it unless you | |
358 | // absolutely must) version | |
359 | Iterator operator++(int) | |
360 | { | |
361 | Iterator p(*this); | |
362 | ++*this; | |
363 | return p; | |
364 | } | |
365 | ||
366 | // move x pixels to the right and y down | |
367 | // | |
368 | // note that the rows don't wrap! | |
369 | void Offset(const PixelData& data, int x, int y) | |
370 | { | |
371 | m_pRGB += data.GetRowStride()*y + PixelFormat::SizePixel*x; | |
372 | if ( m_pAlpha ) | |
373 | m_pAlpha += data.GetWidth() + x; | |
374 | } | |
375 | ||
376 | // move x pixels to the right (again, no row wrapping) | |
377 | void OffsetX(const PixelData& WXUNUSED(data), int x) | |
378 | { | |
379 | m_pRGB += PixelFormat::SizePixel*x; | |
380 | if ( m_pAlpha ) | |
381 | m_pAlpha += x; | |
382 | } | |
383 | ||
384 | // move y rows to the bottom | |
385 | void OffsetY(const PixelData& data, int y) | |
386 | { | |
387 | m_pRGB += data.GetRowStride()*y; | |
388 | if ( m_pAlpha ) | |
389 | m_pAlpha += data.GetWidth(); | |
390 | } | |
391 | ||
392 | // go to the given position | |
393 | void MoveTo(const PixelData& data, int x, int y) | |
394 | { | |
395 | Reset(data); | |
396 | Offset(data, x, y); | |
397 | } | |
398 | ||
399 | ||
400 | // data access | |
401 | // ----------- | |
402 | ||
403 | // access to invidividual colour components | |
404 | ChannelType& Red() { return m_pRGB[PixelFormat::RED]; } | |
405 | ChannelType& Green() { return m_pRGB[PixelFormat::GREEN]; } | |
406 | ChannelType& Blue() { return m_pRGB[PixelFormat::BLUE]; } | |
407 | ChannelType& Alpha() { return *m_pAlpha; } | |
408 | ||
409 | // private: -- see comment in the beginning of the file | |
410 | ||
411 | // pointer into RGB buffer | |
412 | unsigned char *m_pRGB; | |
413 | ||
414 | // pointer into alpha buffer or NULL if alpha isn't used | |
415 | unsigned char *m_pAlpha; | |
416 | }; | |
417 | ||
418 | // initializes us with the data of the given image | |
419 | wxPixelDataIn(ImageType& image) : m_image(image), m_pixels(image) | |
420 | { | |
421 | m_width = image.GetWidth(); | |
422 | m_height = image.GetHeight(); | |
423 | m_stride = Iterator::SizePixel * m_width; | |
424 | } | |
425 | ||
426 | // initializes us with the given region of the specified image | |
427 | wxPixelDataIn(ImageType& image, | |
428 | const wxPoint& pt, | |
429 | const wxSize& sz) : m_image(image), m_pixels(image) | |
430 | { | |
431 | m_stride = Iterator::SizePixel * m_width; | |
432 | ||
433 | InitRect(pt, sz); | |
434 | } | |
435 | ||
436 | // initializes us with the given region of the specified image | |
437 | wxPixelDataIn(ImageType& image, | |
438 | const wxRect& rect) : m_image(image), m_pixels(image) | |
439 | { | |
440 | m_stride = Iterator::SizePixel * m_width; | |
441 | ||
442 | InitRect(rect.GetPosition(), rect.GetSize()); | |
443 | } | |
444 | ||
445 | // we evaluate to true only if we could get access to bitmap data | |
446 | // successfully | |
447 | operator bool() const { return m_pixels.IsOk(); } | |
448 | ||
449 | // get the iterator pointing to the origin | |
450 | Iterator GetPixels() const { return m_pixels; } | |
451 | ||
452 | private: | |
453 | void InitRect(const wxPoint& pt, const wxSize& sz) | |
454 | { | |
455 | m_width = sz.x; | |
456 | m_height = sz.y; | |
457 | ||
458 | m_ptOrigin = pt; | |
459 | m_pixels.Offset(*this, pt.x, pt.y); | |
460 | } | |
461 | ||
462 | // the image we're working with | |
463 | ImageType& m_image; | |
464 | ||
465 | // the iterator pointing to the image origin | |
466 | Iterator m_pixels; | |
467 | }; | |
468 | }; | |
469 | #endif //wxUSE_IMAGE | |
470 | ||
471 | #if wxUSE_GUI | |
472 | // wxPixelData specialization for wxBitmap: here things are more interesting as | |
473 | // we also have to support different pixel formats | |
474 | template <> | |
475 | struct wxPixelDataOut<wxBitmap> | |
476 | { | |
477 | template <class Format> | |
478 | class wxPixelDataIn : public wxPixelDataBase | |
479 | { | |
480 | public: | |
481 | // the type of the class we're working with | |
482 | typedef wxBitmap ImageType; | |
483 | ||
484 | class Iterator | |
485 | { | |
486 | public: | |
487 | // the pixel format we use | |
488 | typedef Format PixelFormat; | |
489 | ||
490 | // the type of the pixel components | |
491 | typedef typename PixelFormat::ChannelType ChannelType; | |
492 | ||
493 | // the pixel data we're working with | |
494 | typedef wxPixelDataOut<wxBitmap>::wxPixelDataIn<Format> PixelData; | |
495 | ||
496 | ||
497 | // go back to (0, 0) | |
498 | void Reset(const PixelData& data) | |
499 | { | |
500 | *this = data.GetPixels(); | |
501 | } | |
502 | ||
503 | // initializes the iterator to point to the origin of the given | |
504 | // pixel data | |
505 | Iterator(PixelData& data) | |
506 | { | |
507 | Reset(data); | |
508 | } | |
509 | ||
510 | // initializes the iterator to point to the origin of the given | |
511 | // bitmap | |
512 | Iterator(wxBitmap& bmp, PixelData& data) | |
513 | { | |
514 | // using cast here is ugly but it should be safe as | |
515 | // GetRawData() real return type should be consistent with | |
516 | // BitsPerPixel (which is in turn defined by ChannelType) and | |
517 | // this is the only thing we can do without making GetRawData() | |
518 | // a template function which is undesirable | |
519 | m_ptr = (ChannelType *) | |
520 | bmp.GetRawData(data, PixelFormat::BitsPerPixel); | |
521 | } | |
522 | ||
523 | // default constructor | |
524 | Iterator() | |
525 | { | |
526 | m_ptr = NULL; | |
527 | } | |
528 | ||
529 | // return true if this iterator is valid | |
530 | bool IsOk() const { return m_ptr != NULL; } | |
531 | ||
532 | ||
533 | // navigation | |
534 | // ---------- | |
535 | ||
536 | // advance the iterator to the next pixel, prefix version | |
537 | Iterator& operator++() | |
538 | { | |
539 | m_ptr += PixelFormat::SizePixel; | |
540 | ||
541 | return *this; | |
542 | } | |
543 | ||
544 | // postfix (hence less efficient -- don't use it unless you | |
545 | // absolutely must) version | |
546 | Iterator operator++(int) | |
547 | { | |
548 | Iterator p(*this); | |
549 | ++*this; | |
550 | return p; | |
551 | } | |
552 | ||
553 | // move x pixels to the right and y down | |
554 | // | |
555 | // note that the rows don't wrap! | |
556 | void Offset(const PixelData& data, int x, int y) | |
557 | { | |
558 | m_ptr += data.GetRowStride()*y + PixelFormat::SizePixel*x; | |
559 | } | |
560 | ||
561 | // move x pixels to the right (again, no row wrapping) | |
562 | void OffsetX(const PixelData& WXUNUSED(data), int x) | |
563 | { | |
564 | m_ptr += PixelFormat::SizePixel*x; | |
565 | } | |
566 | ||
567 | // move y rows to the bottom | |
568 | void OffsetY(const PixelData& data, int y) | |
569 | { | |
570 | m_ptr += data.GetRowStride()*y; | |
571 | } | |
572 | ||
573 | // go to the given position | |
574 | void MoveTo(const PixelData& data, int x, int y) | |
575 | { | |
576 | Reset(data); | |
577 | Offset(data, x, y); | |
578 | } | |
579 | ||
580 | ||
581 | // data access | |
582 | // ----------- | |
583 | ||
584 | // access to invidividual colour components | |
585 | ChannelType& Red() { return m_ptr[PixelFormat::RED]; } | |
586 | ChannelType& Green() { return m_ptr[PixelFormat::GREEN]; } | |
587 | ChannelType& Blue() { return m_ptr[PixelFormat::BLUE]; } | |
588 | ChannelType& Alpha() { return m_ptr[PixelFormat::ALPHA]; } | |
589 | ||
590 | // address the pixel contents directly | |
591 | // | |
592 | // warning: the format is platform dependent | |
593 | typename PixelFormat::PixelType& Data() | |
594 | { return *(typename PixelFormat::PixelType *)m_ptr; } | |
595 | ||
596 | // private: -- see comment in the beginning of the file | |
597 | ||
598 | // for efficiency reasons this class should not have any other | |
599 | // fields, otherwise it won't be put into a CPU register (as it | |
600 | // should inside the inner loops) by some compilers, notably gcc | |
601 | ChannelType *m_ptr; | |
602 | }; | |
603 | ||
604 | // ctor associates this pointer with a bitmap and locks the bitmap for | |
605 | // raw access, it will be unlocked only by our dtor and so these | |
606 | // objects should normally be only created on the stack, i.e. have | |
607 | // limited life-time | |
608 | wxPixelDataIn(wxBitmap& bmp) : m_bmp(bmp), m_pixels(bmp, *this) | |
609 | { | |
610 | } | |
611 | ||
612 | wxPixelDataIn(wxBitmap& bmp, const wxRect& rect) | |
613 | : m_bmp(bmp), m_pixels(bmp, *this) | |
614 | { | |
615 | InitRect(rect.GetPosition(), rect.GetSize()); | |
616 | } | |
617 | ||
618 | wxPixelDataIn(wxBitmap& bmp, const wxPoint& pt, const wxSize& sz) | |
619 | : m_bmp(bmp), m_pixels(bmp, *this) | |
620 | { | |
621 | InitRect(pt, sz); | |
622 | } | |
623 | ||
624 | // we evaluate to true only if we could get access to bitmap data | |
625 | // successfully | |
626 | operator bool() const { return m_pixels.IsOk(); } | |
627 | ||
628 | // get the iterator pointing to the origin | |
629 | Iterator GetPixels() const { return m_pixels; } | |
630 | ||
631 | // dtor unlocks the bitmap | |
632 | ~wxPixelDataIn() | |
633 | { | |
634 | m_bmp.UngetRawData(*this); | |
635 | } | |
636 | ||
637 | // call this to indicate that we should use the alpha channel | |
638 | void UseAlpha() { m_bmp.UseAlpha(); } | |
639 | ||
640 | // private: -- see comment in the beginning of the file | |
641 | ||
642 | // the bitmap we're associated with | |
643 | wxBitmap m_bmp; | |
644 | ||
645 | // the iterator pointing to the image origin | |
646 | Iterator m_pixels; | |
647 | ||
648 | private: | |
649 | void InitRect(const wxPoint& pt, const wxSize& sz) | |
650 | { | |
651 | m_pixels.Offset(*this, pt.x, pt.y); | |
652 | ||
653 | m_ptOrigin = pt; | |
654 | m_width = sz.x; | |
655 | m_height = sz.y; | |
656 | } | |
657 | }; | |
658 | }; | |
659 | #endif //wxUSE_GUI | |
660 | ||
661 | template <class Image, class PixelFormat = wxPixelFormatFor<Image> > | |
662 | class wxPixelData : | |
663 | public wxPixelDataOut<Image>::template wxPixelDataIn<PixelFormat> | |
664 | { | |
665 | public: | |
666 | typedef | |
667 | typename wxPixelDataOut<Image>::template wxPixelDataIn<PixelFormat> | |
668 | Base; | |
669 | ||
670 | wxPixelData(Image& image) : Base(image) { } | |
671 | ||
672 | wxPixelData(Image& i, const wxRect& rect) : Base(i, rect) { } | |
673 | ||
674 | wxPixelData(Image& i, const wxPoint& pt, const wxSize& sz) | |
675 | : Base(i, pt, sz) | |
676 | { | |
677 | } | |
678 | }; | |
679 | ||
680 | ||
681 | // some "predefined" pixel data classes | |
682 | #if wxUSE_IMAGE | |
683 | typedef wxPixelData<wxImage> wxImagePixelData; | |
684 | #endif //wxUSE_IMAGE | |
685 | #if wxUSE_GUI | |
686 | typedef wxPixelData<wxBitmap, wxNativePixelFormat> wxNativePixelData; | |
687 | typedef wxPixelData<wxBitmap, wxAlphaPixelFormat> wxAlphaPixelData; | |
688 | ||
689 | #endif //wxUSE_GUI | |
690 | ||
691 | // ---------------------------------------------------------------------------- | |
692 | // wxPixelIterator | |
693 | // ---------------------------------------------------------------------------- | |
694 | ||
695 | /* | |
696 | wxPixel::Iterator represents something which points to the pixel data and | |
697 | allows us to iterate over it. In the simplest case of wxBitmap it is, | |
698 | indeed, just a pointer, but it can be something more complicated and, | |
699 | moreover, you are free to specialize it for other image classes and bitmap | |
700 | formats. | |
701 | ||
702 | Note that although it would have been much more intuitive to have a real | |
703 | class here instead of what we have now, this class would need two template | |
704 | parameters, and this can't be done because we'd need compiler support for | |
705 | partial template specialization then and neither VC6 nor VC7 provide it. | |
706 | */ | |
707 | template < class Image, class PixelFormat = wxPixelFormatFor<Image> > | |
708 | struct wxPixelIterator : public wxPixelData<Image, PixelFormat>::Iterator | |
709 | { | |
710 | }; | |
711 | ||
712 | #endif // _WX_RAWBMP_H_BASE_ | |
713 |