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1 /////////////////////////////////////////////////////////////////////////////
2 // Name: imagbmp.cpp
3 // Purpose: wxImage BMP,ICO and CUR handlers
4 // Author: Robert Roebling, Chris Elliott
5 // RCS-ID: $Id$
6 // Copyright: (c) Robert Roebling, Chris Elliott
7 // Licence: wxWindows licence
8 /////////////////////////////////////////////////////////////////////////////
9
10 #if defined(__GNUG__) && !defined(NO_GCC_PRAGMA)
11 #pragma implementation "imagbmp.h"
12 #endif
13
14 // For compilers that support precompilation, includes "wx.h".
15 #include "wx/wxprec.h"
16
17 #ifdef __BORLANDC__
18 #pragma hdrstop
19 #endif
20
21 #include "wx/defs.h"
22
23 #if wxUSE_IMAGE
24
25 #include "wx/imagbmp.h"
26 #include "wx/bitmap.h"
27 #include "wx/debug.h"
28 #include "wx/log.h"
29 #include "wx/app.h"
30 #include "wx/filefn.h"
31 #include "wx/wfstream.h"
32 #include "wx/intl.h"
33 #include "wx/module.h"
34 #include "wx/quantize.h"
35
36 // For memcpy
37 #include <string.h>
38
39 #ifdef __SALFORDC__
40 #ifdef FAR
41 #undef FAR
42 #endif
43 #endif
44
45 #ifdef __WXMSW__
46 #include "wx/msw/wrapwin.h"
47 #endif
48
49 //-----------------------------------------------------------------------------
50 // wxBMPHandler
51 //-----------------------------------------------------------------------------
52
53 IMPLEMENT_DYNAMIC_CLASS(wxBMPHandler,wxImageHandler)
54
55 #if wxUSE_STREAMS
56
57 #ifndef BI_RGB
58 #define BI_RGB 0
59 #endif
60
61 #ifndef BI_RLE8
62 #define BI_RLE8 1
63 #endif
64
65 #ifndef BI_RLE4
66 #define BI_RLE4 2
67 #endif
68
69 #ifndef BI_BITFIELDS
70 #define BI_BITFIELDS 3
71 #endif
72
73 #define poffset (line * width * 3 + column * 3)
74
75 bool wxBMPHandler::SaveFile(wxImage *image,
76 wxOutputStream& stream,
77 bool verbose)
78 {
79 return SaveDib(image, stream, verbose, true/*IsBmp*/, false/*IsMask*/);
80 }
81
82 bool wxBMPHandler::SaveDib(wxImage *image,
83 wxOutputStream& stream,
84 bool verbose,
85 bool IsBmp,
86 bool IsMask)
87
88 {
89 wxCHECK_MSG( image, false, _T("invalid pointer in wxBMPHandler::SaveFile") );
90
91 if ( !image->Ok() )
92 {
93 if ( verbose )
94 wxLogError(_("BMP: Couldn't save invalid image."));
95 return false;
96 }
97
98 // get the format of the BMP file to save, else use 24bpp
99 unsigned format = wxBMP_24BPP;
100 if ( image->HasOption(wxIMAGE_OPTION_BMP_FORMAT) )
101 format = image->GetOptionInt(wxIMAGE_OPTION_BMP_FORMAT);
102
103 wxUint16 bpp; // # of bits per pixel
104 int palette_size; // # of color map entries, ie. 2^bpp colors
105
106 // set the bpp and appropriate palette_size, and do additional checks
107 if ( (format == wxBMP_1BPP) || (format == wxBMP_1BPP_BW) )
108 {
109 bpp = 1;
110 palette_size = 2;
111 }
112 else if ( format == wxBMP_4BPP )
113 {
114 bpp = 4;
115 palette_size = 16;
116 }
117 else if ( (format == wxBMP_8BPP) || (format == wxBMP_8BPP_GREY) ||
118 (format == wxBMP_8BPP_RED) || (format == wxBMP_8BPP_PALETTE) )
119 {
120 // need to set a wxPalette to use this, HOW TO CHECK IF VALID, SIZE?
121 if ((format == wxBMP_8BPP_PALETTE)
122 #if wxUSE_PALETTE
123 && !image->HasPalette()
124 #endif // wxUSE_PALETTE
125 )
126 {
127 if ( verbose )
128 wxLogError(_("BMP: wxImage doesn't have own wxPalette."));
129 return false;
130 }
131 bpp = 8;
132 palette_size = 256;
133 }
134 else // you get 24bpp
135 {
136 format = wxBMP_24BPP;
137 bpp = 24;
138 palette_size = 0;
139 }
140
141 unsigned width = image->GetWidth();
142 unsigned row_padding = (4 - int(width*bpp/8.0) % 4) % 4; // # bytes to pad to dword
143 unsigned row_width = int(width * bpp/8.0) + row_padding; // # of bytes per row
144
145 struct
146 {
147 // BitmapHeader:
148 wxUint16 magic; // format magic, always 'BM'
149 wxUint32 filesize; // total file size, inc. headers
150 wxUint32 reserved; // for future use
151 wxUint32 data_offset; // image data offset in the file
152
153 // BitmapInfoHeader:
154 wxUint32 bih_size; // 2nd part's size
155 wxUint32 width, height; // bitmap's dimensions
156 wxUint16 planes; // num of planes
157 wxUint16 bpp; // bits per pixel
158 wxUint32 compression; // compression method
159 wxUint32 size_of_bmp; // size of the bitmap
160 wxUint32 h_res, v_res; // image resolution in dpi
161 wxUint32 num_clrs; // number of colors used
162 wxUint32 num_signif_clrs;// number of significant colors
163 } hdr;
164
165 wxUint32 hdr_size = 14/*BitmapHeader*/ + 40/*BitmapInfoHeader*/;
166
167 hdr.magic = wxUINT16_SWAP_ON_BE(0x4D42/*'BM'*/);
168 hdr.filesize = wxUINT32_SWAP_ON_BE( hdr_size + palette_size*4 +
169 row_width * image->GetHeight() );
170 hdr.reserved = 0;
171 hdr.data_offset = wxUINT32_SWAP_ON_BE(hdr_size + palette_size*4);
172
173 hdr.bih_size = wxUINT32_SWAP_ON_BE(hdr_size - 14);
174 hdr.width = wxUINT32_SWAP_ON_BE(image->GetWidth());
175 if ( IsBmp )
176 {
177 hdr.height = wxUINT32_SWAP_ON_BE(image->GetHeight());
178 }
179 else
180 {
181 hdr.height = wxUINT32_SWAP_ON_BE(2 * image->GetHeight());
182 }
183 hdr.planes = wxUINT16_SWAP_ON_BE(1); // always 1 plane
184 hdr.bpp = wxUINT16_SWAP_ON_BE(bpp);
185 hdr.compression = 0; // RGB uncompressed
186 hdr.size_of_bmp = wxUINT32_SWAP_ON_BE(row_width * image->GetHeight());
187 hdr.h_res = hdr.v_res = wxUINT32_SWAP_ON_BE(72); // 72dpi is standard
188 hdr.num_clrs = wxUINT32_SWAP_ON_BE(palette_size); // # colors in colormap
189 hdr.num_signif_clrs = 0; // all colors are significant
190
191 if ( IsBmp )
192 {
193 if (// VS: looks ugly but compilers tend to do ugly things with structs,
194 // like aligning hdr.filesize's ofset to dword :(
195 // VZ: we should add padding then...
196 !stream.Write(&hdr.magic, 2) ||
197 !stream.Write(&hdr.filesize, 4) ||
198 !stream.Write(&hdr.reserved, 4) ||
199 !stream.Write(&hdr.data_offset, 4)
200 )
201 {
202 if (verbose)
203 wxLogError(_("BMP: Couldn't write the file (Bitmap) header."));
204 return false;
205 }
206 }
207 if ( !IsMask )
208 {
209 if (
210 !stream.Write(&hdr.bih_size, 4) ||
211 !stream.Write(&hdr.width, 4) ||
212 !stream.Write(&hdr.height, 4) ||
213 !stream.Write(&hdr.planes, 2) ||
214 !stream.Write(&hdr.bpp, 2) ||
215 !stream.Write(&hdr.compression, 4) ||
216 !stream.Write(&hdr.size_of_bmp, 4) ||
217 !stream.Write(&hdr.h_res, 4) ||
218 !stream.Write(&hdr.v_res, 4) ||
219 !stream.Write(&hdr.num_clrs, 4) ||
220 !stream.Write(&hdr.num_signif_clrs, 4)
221 )
222 {
223 if (verbose)
224 wxLogError(_("BMP: Couldn't write the file (BitmapInfo) header."));
225 return false;
226 }
227 }
228
229 wxPalette *palette = NULL; // entries for quantized images
230 wxUint8 *rgbquad = NULL; // for the RGBQUAD bytes for the colormap
231 wxImage *q_image = NULL; // destination for quantized image
232
233 // if <24bpp use quantization to reduce colors for *some* of the formats
234 if ( (format == wxBMP_1BPP) || (format == wxBMP_4BPP) ||
235 (format == wxBMP_8BPP) || (format == wxBMP_8BPP_PALETTE) )
236 {
237 // make a new palette and quantize the image
238 if (format != wxBMP_8BPP_PALETTE)
239 {
240 q_image = new wxImage();
241
242 // I get a delete error using Quantize when desired colors > 236
243 int quantize = ((palette_size > 236) ? 236 : palette_size);
244 // fill the destination too, it gives much nicer 4bpp images
245 wxQuantize::Quantize( *image, *q_image, &palette, quantize, 0,
246 wxQUANTIZE_FILL_DESTINATION_IMAGE );
247 }
248 else
249 {
250 #if wxUSE_PALETTE
251 palette = new wxPalette(image->GetPalette());
252 #endif // wxUSE_PALETTE
253 }
254
255 int i;
256 unsigned char r, g, b;
257 rgbquad = new wxUint8 [palette_size*4];
258
259 for (i = 0; i < palette_size; i++)
260 {
261 #if wxUSE_PALETTE
262 if ( !palette->GetRGB(i, &r, &g, &b) )
263 #endif // wxUSE_PALETTE
264 r = g = b = 0;
265
266 rgbquad[i*4] = b;
267 rgbquad[i*4+1] = g;
268 rgbquad[i*4+2] = r;
269 rgbquad[i*4+3] = 0;
270 }
271 }
272 // make a 256 entry greyscale colormap or 2 entry black & white
273 else if ( (format == wxBMP_8BPP_GREY) || (format == wxBMP_8BPP_RED) ||
274 (format == wxBMP_1BPP_BW) )
275 {
276 rgbquad = new wxUint8 [palette_size*4];
277
278 for ( int i = 0; i < palette_size; i++ )
279 {
280 // if 1BPP_BW then the value should be either 0 or 255
281 wxUint8 c = (wxUint8)((i > 0) && (format == wxBMP_1BPP_BW) ? 255 : i);
282
283 rgbquad[i*4] =
284 rgbquad[i*4+1] =
285 rgbquad[i*4+2] = c;
286 rgbquad[i*4+3] = 0;
287 }
288 }
289
290 // if the colormap was made, then it needs to be written
291 if (rgbquad)
292 {
293 if ( !IsMask )
294 {
295 if ( !stream.Write(rgbquad, palette_size*4) )
296 {
297 if (verbose)
298 wxLogError(_("BMP: Couldn't write RGB color map."));
299 delete[] rgbquad;
300 #if wxUSE_PALETTE
301 delete palette;
302 #endif // wxUSE_PALETTE
303 delete q_image;
304 return false;
305 }
306 }
307 delete []rgbquad;
308 }
309
310 // pointer to the image data, use quantized if available
311 wxUint8 *data = (wxUint8*) image->GetData();
312 if (q_image) if (q_image->Ok()) data = (wxUint8*) q_image->GetData();
313
314 wxUint8 *buffer = new wxUint8[row_width];
315 memset(buffer, 0, row_width);
316 int y; unsigned x;
317 long int pixel;
318
319 for (y = image->GetHeight() -1; y >= 0; y--)
320 {
321 if ( format == wxBMP_24BPP ) // 3 bytes per pixel red,green,blue
322 {
323 for ( x = 0; x < width; x++ )
324 {
325 pixel = 3*(y*width + x);
326
327 buffer[3*x ] = data[pixel+2];
328 buffer[3*x + 1] = data[pixel+1];
329 buffer[3*x + 2] = data[pixel];
330 }
331 }
332 else if ((format == wxBMP_8BPP) || // 1 byte per pixel in color
333 (format == wxBMP_8BPP_PALETTE))
334 {
335 for (x = 0; x < width; x++)
336 {
337 pixel = 3*(y*width + x);
338 #if wxUSE_PALETTE
339 buffer[x] = (wxUint8)palette->GetPixel( data[pixel],
340 data[pixel+1],
341 data[pixel+2] );
342 #else
343 // FIXME: what should this be? use some std palette maybe?
344 buffer[x] = 0;
345 #endif // wxUSE_PALETTE
346 }
347 }
348 else if ( format == wxBMP_8BPP_GREY ) // 1 byte per pix, rgb ave to grey
349 {
350 for (x = 0; x < width; x++)
351 {
352 pixel = 3*(y*width + x);
353 buffer[x] = (wxUint8)(.299*data[pixel] +
354 .587*data[pixel+1] +
355 .114*data[pixel+2]);
356 }
357 }
358 else if ( format == wxBMP_8BPP_RED ) // 1 byte per pixel, red as greys
359 {
360 for (x = 0; x < width; x++)
361 {
362 buffer[x] = (wxUint8)data[3*(y*width + x)];
363 }
364 }
365 else if ( format == wxBMP_4BPP ) // 4 bpp in color
366 {
367 for (x = 0; x < width; x+=2)
368 {
369 pixel = 3*(y*width + x);
370
371 // fill buffer, ignore if > width
372 #if wxUSE_PALETTE
373 buffer[x/2] = (wxUint8)(
374 ((wxUint8)palette->GetPixel(data[pixel],
375 data[pixel+1],
376 data[pixel+2]) << 4) |
377 (((x+1) > width)
378 ? 0
379 : ((wxUint8)palette->GetPixel(data[pixel+3],
380 data[pixel+4],
381 data[pixel+5]) )) );
382 #else
383 // FIXME: what should this be? use some std palette maybe?
384 buffer[x/2] = 0;
385 #endif // wxUSE_PALETTE
386 }
387 }
388 else if ( format == wxBMP_1BPP ) // 1 bpp in "color"
389 {
390 for (x = 0; x < width; x+=8)
391 {
392 pixel = 3*(y*width + x);
393
394 #if wxUSE_PALETTE
395 buffer[x/8] = (wxUint8)(
396 ((wxUint8)palette->GetPixel(data[pixel], data[pixel+1], data[pixel+2]) << 7) |
397 (((x+1) > width) ? 0 : ((wxUint8)palette->GetPixel(data[pixel+3], data[pixel+4], data[pixel+5]) << 6)) |
398 (((x+2) > width) ? 0 : ((wxUint8)palette->GetPixel(data[pixel+6], data[pixel+7], data[pixel+8]) << 5)) |
399 (((x+3) > width) ? 0 : ((wxUint8)palette->GetPixel(data[pixel+9], data[pixel+10], data[pixel+11]) << 4)) |
400 (((x+4) > width) ? 0 : ((wxUint8)palette->GetPixel(data[pixel+12], data[pixel+13], data[pixel+14]) << 3)) |
401 (((x+5) > width) ? 0 : ((wxUint8)palette->GetPixel(data[pixel+15], data[pixel+16], data[pixel+17]) << 2)) |
402 (((x+6) > width) ? 0 : ((wxUint8)palette->GetPixel(data[pixel+18], data[pixel+19], data[pixel+20]) << 1)) |
403 (((x+7) > width) ? 0 : ((wxUint8)palette->GetPixel(data[pixel+21], data[pixel+22], data[pixel+23]) )) );
404 #else
405 // FIXME: what should this be? use some std palette maybe?
406 buffer[x/8] = 0;
407 #endif // wxUSE_PALETTE
408 }
409 }
410 else if ( format == wxBMP_1BPP_BW ) // 1 bpp B&W colormap from red color ONLY
411 {
412 for (x = 0; x < width; x+=8)
413 {
414 pixel = 3*(y*width + x);
415
416 buffer[x/8] = (wxUint8)(
417 (((wxUint8)(data[pixel] /128.)) << 7) |
418 (((x+1) > width) ? 0 : (((wxUint8)(data[pixel+3] /128.)) << 6)) |
419 (((x+2) > width) ? 0 : (((wxUint8)(data[pixel+6] /128.)) << 5)) |
420 (((x+3) > width) ? 0 : (((wxUint8)(data[pixel+9] /128.)) << 4)) |
421 (((x+4) > width) ? 0 : (((wxUint8)(data[pixel+12]/128.)) << 3)) |
422 (((x+5) > width) ? 0 : (((wxUint8)(data[pixel+15]/128.)) << 2)) |
423 (((x+6) > width) ? 0 : (((wxUint8)(data[pixel+18]/128.)) << 1)) |
424 (((x+7) > width) ? 0 : (((wxUint8)(data[pixel+21]/128.)) )) );
425 }
426 }
427
428 if ( !stream.Write(buffer, row_width) )
429 {
430 if (verbose)
431 wxLogError(_("BMP: Couldn't write data."));
432 delete[] buffer;
433 #if wxUSE_PALETTE
434 delete palette;
435 #endif // wxUSE_PALETTE
436 delete q_image;
437 return false;
438 }
439 }
440 delete[] buffer;
441 #if wxUSE_PALETTE
442 delete palette;
443 #endif // wxUSE_PALETTE
444 delete q_image;
445
446 return true;
447 }
448
449
450 typedef struct
451 {
452 unsigned char r, g, b;
453 } _cmap;
454
455 bool wxBMPHandler::DoLoadDib(wxImage * image, int width, int height,
456 int bpp, int ncolors, int comp,
457 wxFileOffset bmpOffset, wxInputStream& stream,
458 bool verbose, bool IsBmp, bool hasPalette)
459 {
460 wxInt32 aDword, rmask = 0, gmask = 0, bmask = 0;
461 int rshift = 0, gshift = 0, bshift = 0;
462 int rbits = 0, gbits = 0, bbits = 0;
463 wxInt32 dbuf[4];
464 wxInt8 bbuf[4];
465 wxUint8 aByte;
466 wxUint16 aWord;
467
468 // allocate space for palette if needed:
469 _cmap *cmap;
470
471 if ( bpp < 16 )
472 {
473 cmap = new _cmap[ncolors];
474 if ( !cmap )
475 {
476 if (verbose)
477 wxLogError(_("BMP: Couldn't allocate memory."));
478 return false;
479 }
480 }
481 else
482 cmap = NULL;
483
484 // destroy existing here instead of:
485 image->Destroy();
486 image->Create(width, height);
487
488 unsigned char *ptr = image->GetData();
489
490 if ( !ptr )
491 {
492 if ( verbose )
493 wxLogError( _("BMP: Couldn't allocate memory.") );
494 if ( cmap )
495 delete[] cmap;
496 return false;
497 }
498
499 // Reading the palette, if it exists:
500 if ( bpp < 16 && ncolors != 0 )
501 {
502 unsigned char* r = new unsigned char[ncolors];
503 unsigned char* g = new unsigned char[ncolors];
504 unsigned char* b = new unsigned char[ncolors];
505 for (int j = 0; j < ncolors; j++)
506 {
507 if (hasPalette)
508 {
509 stream.Read(bbuf, 4);
510 cmap[j].b = bbuf[0];
511 cmap[j].g = bbuf[1];
512 cmap[j].r = bbuf[2];
513
514 r[j] = cmap[j].r;
515 g[j] = cmap[j].g;
516 b[j] = cmap[j].b;
517 }
518 else
519 {
520 //used in reading .ico file mask
521 r[j] = cmap[j].r =
522 g[j] = cmap[j].g =
523 b[j] = cmap[j].b = ( j ? 255 : 0 );
524 }
525 }
526
527 #if wxUSE_PALETTE
528 // Set the palette for the wxImage
529 image->SetPalette(wxPalette(ncolors, r, g, b));
530 #endif // wxUSE_PALETTE
531
532 delete[] r;
533 delete[] g;
534 delete[] b;
535 }
536 else if ( bpp == 16 || bpp == 32 )
537 {
538 if ( comp == BI_BITFIELDS )
539 {
540 int bit = 0;
541 stream.Read(dbuf, 4 * 3);
542 rmask = wxINT32_SWAP_ON_BE(dbuf[0]);
543 gmask = wxINT32_SWAP_ON_BE(dbuf[1]);
544 bmask = wxINT32_SWAP_ON_BE(dbuf[2]);
545 // find shift amount (Least significant bit of mask)
546 for (bit = bpp-1; bit>=0; bit--)
547 {
548 if (bmask & (1 << bit))
549 bshift = bit;
550 if (gmask & (1 << bit))
551 gshift = bit;
552 if (rmask & (1 << bit))
553 rshift = bit;
554 }
555 // Find number of bits in mask (MSB-LSB+1)
556 for (bit = 0; bit < bpp; bit++)
557 {
558 if (bmask & (1 << bit))
559 bbits = bit-bshift+1;
560 if (gmask & (1 << bit))
561 gbits = bit-gshift+1;
562 if (rmask & (1 << bit))
563 rbits = bit-rshift+1;
564 }
565 }
566 else if ( bpp == 16 )
567 {
568 rmask = 0x7C00;
569 gmask = 0x03E0;
570 bmask = 0x001F;
571 rshift = 10;
572 gshift = 5;
573 bshift = 0;
574 rbits = 5;
575 gbits = 5;
576 bbits = 5;
577 }
578 else if ( bpp == 32 )
579 {
580 rmask = 0x00FF0000;
581 gmask = 0x0000FF00;
582 bmask = 0x000000FF;
583 rshift = 16;
584 gshift = 8;
585 bshift = 0;
586 rbits = 8;
587 gbits = 8;
588 bbits = 8;
589 }
590 }
591
592 /*
593 * Reading the image data
594 */
595 if ( IsBmp )
596 stream.SeekI(bmpOffset); // else icon, just carry on
597
598 unsigned char *data = ptr;
599
600 /* set the whole image to the background color */
601 if ( bpp < 16 && (comp == BI_RLE4 || comp == BI_RLE8) )
602 {
603 for (int i = 0; i < width * height; i++)
604 {
605 *ptr++ = cmap[0].r;
606 *ptr++ = cmap[0].g;
607 *ptr++ = cmap[0].b;
608 }
609 ptr = data;
610 }
611
612 int linesize = ((width * bpp + 31) / 32) * 4;
613
614 /* BMPs are stored upside down */
615 for ( int line = (height - 1); line >= 0; line-- )
616 {
617 int linepos = 0;
618 for ( int column = 0; column < width ; )
619 {
620 if ( bpp < 16 )
621 {
622 linepos++;
623 aByte = stream.GetC();
624 if ( bpp == 1 )
625 {
626 for (int bit = 0; bit < 8 && column < width; bit++)
627 {
628 int index = ((aByte & (0x80 >> bit)) ? 1 : 0);
629 ptr[poffset] = cmap[index].r;
630 ptr[poffset + 1] = cmap[index].g;
631 ptr[poffset + 2] = cmap[index].b;
632 column++;
633 }
634 }
635 else if ( bpp == 4 )
636 {
637 if ( comp == BI_RLE4 )
638 {
639 wxUint8 first;
640 first = aByte;
641 aByte = stream.GetC();
642 if ( first == 0 )
643 {
644 if ( aByte == 0 )
645 {
646 if ( column > 0 )
647 column = width;
648 }
649 else if ( aByte == 1 )
650 {
651 column = width;
652 line = -1;
653 }
654 else if ( aByte == 2 )
655 {
656 aByte = stream.GetC();
657 column += aByte;
658 linepos = column * bpp / 4;
659 aByte = stream.GetC();
660 line -= aByte; // upside down
661 }
662 else
663 {
664 int absolute = aByte;
665 wxUint8 nibble[2] ;
666 int readBytes = 0 ;
667 for (int k = 0; k < absolute; k++)
668 {
669 if ( !(k % 2 ) )
670 {
671 ++readBytes ;
672 aByte = stream.GetC();
673 nibble[0] = (wxUint8)( (aByte & 0xF0) >> 4 ) ;
674 nibble[1] = (wxUint8)( aByte & 0x0F ) ;
675 }
676 ptr[poffset ] = cmap[nibble[k%2]].r;
677 ptr[poffset + 1] = cmap[nibble[k%2]].g;
678 ptr[poffset + 2] = cmap[nibble[k%2]].b;
679 column++;
680 if ( k % 2 )
681 linepos++;
682 }
683 if ( readBytes & 0x01 )
684 aByte = stream.GetC();
685 }
686 }
687 else
688 {
689 wxUint8 nibble[2] ;
690 nibble[0] = (wxUint8)( (aByte & 0xF0) >> 4 ) ;
691 nibble[1] = (wxUint8)( aByte & 0x0F ) ;
692
693 for ( int l = 0; l < first && column < width; l++ )
694 {
695 ptr[poffset ] = cmap[nibble[l%2]].r;
696 ptr[poffset + 1] = cmap[nibble[l%2]].g;
697 ptr[poffset + 2] = cmap[nibble[l%2]].b;
698 column++;
699 if ( l % 2 )
700 linepos++;
701 }
702 }
703 }
704 else
705 {
706 for (int nibble = 0; nibble < 2 && column < width; nibble++)
707 {
708 int index = ((aByte & (0xF0 >> nibble * 4)) >> (!nibble * 4));
709 if ( index >= 16 )
710 index = 15;
711 ptr[poffset] = cmap[index].r;
712 ptr[poffset + 1] = cmap[index].g;
713 ptr[poffset + 2] = cmap[index].b;
714 column++;
715 }
716 }
717 }
718 else if ( bpp == 8 )
719 {
720 if ( comp == BI_RLE8 )
721 {
722 unsigned char first;
723 first = aByte;
724 aByte = stream.GetC();
725 if ( first == 0 )
726 {
727 if ( aByte == 0 )
728 {
729 /* column = width; */
730 }
731 else if ( aByte == 1 )
732 {
733 column = width;
734 line = -1;
735 }
736 else if ( aByte == 2 )
737 {
738 aByte = stream.GetC();
739 column += aByte;
740 linepos = column * bpp / 8;
741 aByte = stream.GetC();
742 line += aByte;
743 }
744 else
745 {
746 int absolute = aByte;
747 for (int k = 0; k < absolute; k++)
748 {
749 linepos++;
750 aByte = stream.GetC();
751 ptr[poffset ] = cmap[aByte].r;
752 ptr[poffset + 1] = cmap[aByte].g;
753 ptr[poffset + 2] = cmap[aByte].b;
754 column++;
755 }
756 if ( absolute & 0x01 )
757 aByte = stream.GetC();
758 }
759 }
760 else
761 {
762 for ( int l = 0; l < first && column < width; l++ )
763 {
764 ptr[poffset ] = cmap[aByte].r;
765 ptr[poffset + 1] = cmap[aByte].g;
766 ptr[poffset + 2] = cmap[aByte].b;
767 column++;
768 linepos++;
769 }
770 }
771 }
772 else
773 {
774 ptr[poffset ] = cmap[aByte].r;
775 ptr[poffset + 1] = cmap[aByte].g;
776 ptr[poffset + 2] = cmap[aByte].b;
777 column++;
778 // linepos += size; seems to be wrong, RR
779 }
780 }
781 }
782 else if ( bpp == 24 )
783 {
784 stream.Read(bbuf, 3);
785 linepos += 3;
786 ptr[poffset ] = (unsigned char)bbuf[2];
787 ptr[poffset + 1] = (unsigned char)bbuf[1];
788 ptr[poffset + 2] = (unsigned char)bbuf[0];
789 column++;
790 }
791 else if ( bpp == 16 )
792 {
793 unsigned char temp;
794 stream.Read(&aWord, 2);
795 aWord = wxUINT16_SWAP_ON_BE(aWord);
796 linepos += 2;
797 /* use the masks and calculated amonut of shift
798 to retrieve the color data out of the word. Then
799 shift it left by (8 - number of bits) such that
800 the image has the proper dynamic range */
801 temp = (unsigned char)((aWord & rmask) >> rshift << (8-rbits));
802 ptr[poffset] = temp;
803 temp = (unsigned char)((aWord & gmask) >> gshift << (8-gbits));
804 ptr[poffset + 1] = temp;
805 temp = (unsigned char)((aWord & bmask) >> bshift << (8-bbits));
806 ptr[poffset + 2] = temp;
807 column++;
808 }
809 else
810 {
811 unsigned char temp;
812 stream.Read(&aDword, 4);
813 aDword = wxINT32_SWAP_ON_BE(aDword);
814 linepos += 4;
815 temp = (unsigned char)((aDword & rmask) >> rshift);
816 ptr[poffset] = temp;
817 temp = (unsigned char)((aDword & gmask) >> gshift);
818 ptr[poffset + 1] = temp;
819 temp = (unsigned char)((aDword & bmask) >> bshift);
820 ptr[poffset + 2] = temp;
821 column++;
822 }
823 }
824 while ( (linepos < linesize) && (comp != 1) && (comp != 2) )
825 {
826 stream.Read(&aByte, 1);
827 linepos += 1;
828 if ( !stream )
829 break;
830 }
831 }
832
833 delete[] cmap;
834
835 image->SetMask(false);
836
837 const wxStreamError err = stream.GetLastError();
838 return err == wxSTREAM_NO_ERROR || err == wxSTREAM_EOF;
839 }
840
841 bool wxBMPHandler::LoadDib(wxImage *image, wxInputStream& stream,
842 bool verbose, bool IsBmp)
843 {
844 wxUint16 aWord;
845 wxInt32 dbuf[4];
846 wxInt8 bbuf[4];
847
848 wxFileOffset offset = 0; // keep gcc quiet
849 if ( IsBmp )
850 {
851 // read the header off the .BMP format file
852
853 offset = stream.TellI();
854 if (offset == wxInvalidOffset)
855 offset = 0;
856
857 stream.Read(bbuf, 2);
858 stream.Read(dbuf, 16);
859 }
860 else
861 {
862 stream.Read(dbuf, 4);
863 }
864 #if 0 // unused
865 wxInt32 size = wxINT32_SWAP_ON_BE(dbuf[0]);
866 #endif
867 offset = offset + wxINT32_SWAP_ON_BE(dbuf[2]);
868
869 stream.Read(dbuf, 4 * 2);
870 int width = wxINT32_SWAP_ON_BE((int)dbuf[0]);
871 int height = wxINT32_SWAP_ON_BE((int)dbuf[1]);
872 if ( !IsBmp)height = height / 2; // for icons divide by 2
873
874 if ( width > 32767 )
875 {
876 if (verbose)
877 wxLogError( _("DIB Header: Image width > 32767 pixels for file.") );
878 return false;
879 }
880 if ( height > 32767 )
881 {
882 if (verbose)
883 wxLogError( _("DIB Header: Image height > 32767 pixels for file.") );
884 return false;
885 }
886
887 stream.Read(&aWord, 2);
888 /*
889 TODO
890 int planes = (int)wxUINT16_SWAP_ON_BE( aWord );
891 */
892 stream.Read(&aWord, 2);
893 int bpp = wxUINT16_SWAP_ON_BE((int)aWord);
894 if ( bpp != 1 && bpp != 4 && bpp != 8 && bpp != 16 && bpp != 24 && bpp != 32 )
895 {
896 if (verbose)
897 wxLogError( _("DIB Header: Unknown bitdepth in file.") );
898 return false;
899 }
900
901 stream.Read(dbuf, 4 * 4);
902 int comp = wxINT32_SWAP_ON_BE((int)dbuf[0]);
903 if ( comp != BI_RGB && comp != BI_RLE4 && comp != BI_RLE8 &&
904 comp != BI_BITFIELDS )
905 {
906 if (verbose)
907 wxLogError( _("DIB Header: Unknown encoding in file.") );
908 return false;
909 }
910
911 stream.Read(dbuf, 4 * 2);
912 int ncolors = wxINT32_SWAP_ON_BE( (int)dbuf[0] );
913 if (ncolors == 0)
914 ncolors = 1 << bpp;
915 /* some more sanity checks */
916 if (((comp == BI_RLE4) && (bpp != 4)) ||
917 ((comp == BI_RLE8) && (bpp != 8)) ||
918 ((comp == BI_BITFIELDS) && (bpp != 16 && bpp != 32)))
919 {
920 if (verbose)
921 wxLogError( _("DIB Header: Encoding doesn't match bitdepth.") );
922 return false;
923 }
924
925 //read DIB; this is the BMP image or the XOR part of an icon image
926 if ( !DoLoadDib(image, width, height, bpp, ncolors, comp, offset, stream,
927 verbose, IsBmp, true) )
928 {
929 if (verbose)
930 wxLogError( _("Error in reading image DIB .") );
931 return false;
932 }
933
934 if ( !IsBmp )
935 {
936 //read Icon mask which is monochrome
937 //there is no palette, so we will create one
938 wxImage mask;
939 if ( !DoLoadDib(&mask, width, height, 1, 2, BI_RGB, offset, stream,
940 verbose, IsBmp, false) )
941 {
942 if (verbose)
943 wxLogError( _("ICO: Error in reading mask DIB.") );
944 return false;
945 }
946 image->SetMaskFromImage(mask, 255, 255, 255);
947
948 }
949
950 return true;
951 }
952
953 bool wxBMPHandler::LoadFile(wxImage *image, wxInputStream& stream,
954 bool verbose, int WXUNUSED(index))
955 {
956 // Read a single DIB fom the file:
957 return LoadDib(image, stream, verbose, true/*isBmp*/);
958 }
959
960 bool wxBMPHandler::DoCanRead(wxInputStream& stream)
961 {
962 unsigned char hdr[2];
963
964 if ( !stream.Read(hdr, WXSIZEOF(hdr)) )
965 return false;
966
967 // do we have the BMP file signature?
968 return hdr[0] == 'B' && hdr[1] == 'M';
969 }
970
971 #endif // wxUSE_STREAMS
972
973
974 #if wxUSE_ICO_CUR
975 //-----------------------------------------------------------------------------
976 // wxICOHandler
977 //-----------------------------------------------------------------------------
978
979 IMPLEMENT_DYNAMIC_CLASS(wxICOHandler, wxBMPHandler)
980
981 #if wxUSE_STREAMS
982
983 struct ICONDIRENTRY
984 {
985 wxUint8 bWidth; // Width of the image
986 wxUint8 bHeight; // Height of the image (times 2)
987 wxUint8 bColorCount; // Number of colors in image (0 if >=8bpp)
988 wxUint8 bReserved; // Reserved
989
990 // these two are different in icons and cursors:
991 // icon or cursor
992 wxUint16 wPlanes; // Color Planes or XHotSpot
993 wxUint16 wBitCount; // Bits per pixel or YHotSpot
994
995 wxUint32 dwBytesInRes; // how many bytes in this resource?
996 wxUint32 dwImageOffset; // where in the file is this image
997 };
998
999 struct ICONDIR
1000 {
1001 wxUint16 idReserved; // Reserved
1002 wxUint16 idType; // resource type (1 for icons, 2 for cursors)
1003 wxUint16 idCount; // how many images?
1004 };
1005
1006
1007 bool wxICOHandler::SaveFile(wxImage *image,
1008 wxOutputStream& stream,
1009 bool verbose)
1010
1011 {
1012 //sanity check; icon must be less than 127 pixels high and 255 wide
1013 if ( image->GetHeight () > 127 )
1014 {
1015 if ( verbose )
1016 wxLogError(_("ICO: Image too tall for an icon."));
1017 return false;
1018 }
1019 if ( image->GetWidth () > 255 )
1020 {
1021 if ( verbose )
1022 wxLogError(_("ICO: Image too wide for an icon."));
1023 return false;
1024 }
1025
1026 const int images = 1; // only generate one image
1027
1028 // VS: This is a hack of sort - since ICO and CUR files are almost
1029 // identical, we have all the meat in wxICOHandler and check for
1030 // the actual (handler) type when the code has to distinguish between
1031 // the two formats
1032 int type = (this->GetType() == wxBITMAP_TYPE_CUR) ? 2 : 1;
1033
1034 // write a header, (ICONDIR)
1035 // Calculate the header size
1036 wxUint32 offset = 3 * sizeof(wxUint16);
1037
1038 ICONDIR IconDir;
1039 IconDir.idReserved = 0;
1040 IconDir.idType = wxUINT16_SWAP_ON_BE((wxUint16)type);
1041 IconDir.idCount = wxUINT16_SWAP_ON_BE((wxUint16)images);
1042 stream.Write(&IconDir.idReserved, sizeof(IconDir.idReserved));
1043 stream.Write(&IconDir.idType, sizeof(IconDir.idType));
1044 stream.Write(&IconDir.idCount, sizeof(IconDir.idCount));
1045 if ( !stream.IsOk() )
1046 {
1047 if ( verbose )
1048 wxLogError(_("ICO: Error writing the image file!"));
1049 return false;
1050 }
1051
1052 // for each iamage write a description ICONDIRENTRY:
1053 ICONDIRENTRY icondirentry;
1054 for (int img = 0; img < images; img++)
1055 {
1056 wxImage mask;
1057
1058 if ( image->HasMask() )
1059 {
1060 // make another image with black/white:
1061 mask = image->ConvertToMono (image->GetMaskRed(), image->GetMaskGreen(), image->GetMaskBlue() );
1062
1063 // now we need to change the masked regions to black:
1064 unsigned char r = image->GetMaskRed();
1065 unsigned char g = image->GetMaskGreen();
1066 unsigned char b = image->GetMaskBlue();
1067 if ( (r != 0) || (g != 0) || (b != 0) )
1068 {
1069 // Go round and apply black to the masked bits:
1070 int i, j;
1071 for (i = 0; i < mask.GetWidth(); i++)
1072 {
1073 for (j = 0; j < mask.GetHeight(); j++)
1074 {
1075 if ((r == mask.GetRed(i, j)) &&
1076 (g == mask.GetGreen(i, j))&&
1077 (b == mask.GetBlue(i, j)) )
1078 image->SetRGB(i, j, 0, 0, 0 );
1079 }
1080 }
1081 }
1082 }
1083 else
1084 {
1085 // just make a black mask all over:
1086 mask = image->Copy();
1087 int i, j;
1088 for (i = 0; i < mask.GetWidth(); i++)
1089 for (j = 0; j < mask.GetHeight(); j++)
1090 mask.SetRGB(i, j, 0, 0, 0 );
1091 }
1092 // Set the formats for image and mask
1093 // (Windows never saves with more than 8 colors):
1094 image->SetOption(wxIMAGE_OPTION_BMP_FORMAT, wxBMP_8BPP);
1095
1096 // monochome bitmap:
1097 mask.SetOption(wxIMAGE_OPTION_BMP_FORMAT, wxBMP_1BPP_BW);
1098 bool IsBmp = false;
1099 bool IsMask = false;
1100
1101 //calculate size and offset of image and mask
1102 wxCountingOutputStream cStream;
1103 bool bResult = SaveDib(image, cStream, verbose, IsBmp, IsMask);
1104 if ( !bResult )
1105 {
1106 if ( verbose )
1107 wxLogError(_("ICO: Error writing the image file!"));
1108 return false;
1109 }
1110 IsMask = true;
1111
1112 bResult = SaveDib(&mask, cStream, verbose, IsBmp, IsMask);
1113 if ( !bResult )
1114 {
1115 if ( verbose )
1116 wxLogError(_("ICO: Error writing the image file!"));
1117 return false;
1118 }
1119 wxUint32 Size = cStream.GetSize();
1120
1121 // wxCountingOutputStream::Ok() always returns true for now and this
1122 // "if" provokes VC++ warnings in optimized build
1123 #if 0
1124 if ( !cStream.Ok() )
1125 {
1126 if ( verbose )
1127 wxLogError(_("ICO: Error writing the image file!"));
1128 return false;
1129 }
1130 #endif // 0
1131
1132 offset = offset + sizeof(ICONDIRENTRY);
1133
1134 icondirentry.bWidth = (wxUint8)image->GetWidth();
1135 icondirentry.bHeight = (wxUint8)(2 * image->GetHeight());
1136 icondirentry.bColorCount = 0;
1137 icondirentry.bReserved = 0;
1138 icondirentry.wPlanes = wxUINT16_SWAP_ON_BE(1);
1139 icondirentry.wBitCount = wxUINT16_SWAP_ON_BE(wxBMP_8BPP);
1140 if ( type == 2 /*CUR*/)
1141 {
1142 int hx = image->HasOption(wxIMAGE_OPTION_CUR_HOTSPOT_X) ?
1143 image->GetOptionInt(wxIMAGE_OPTION_CUR_HOTSPOT_X) :
1144 image->GetWidth() / 2;
1145 int hy = image->HasOption(wxIMAGE_OPTION_CUR_HOTSPOT_Y) ?
1146 image->GetOptionInt(wxIMAGE_OPTION_CUR_HOTSPOT_Y) :
1147 image->GetHeight() / 2;
1148
1149 // actually write the values of the hot spot here:
1150 icondirentry.wPlanes = wxUINT16_SWAP_ON_BE((wxUint16)hx);
1151 icondirentry.wBitCount = wxUINT16_SWAP_ON_BE((wxUint16)hy);
1152 }
1153 icondirentry.dwBytesInRes = wxUINT32_SWAP_ON_BE(Size);
1154 icondirentry.dwImageOffset = wxUINT32_SWAP_ON_BE(offset);
1155
1156 // increase size to allow for the data written:
1157 offset += Size;
1158
1159 // write to stream:
1160 stream.Write(&icondirentry.bWidth, sizeof(icondirentry.bWidth));
1161 stream.Write(&icondirentry.bHeight, sizeof(icondirentry.bHeight));
1162 stream.Write(&icondirentry.bColorCount, sizeof(icondirentry.bColorCount));
1163 stream.Write(&icondirentry.bReserved, sizeof(icondirentry.bReserved));
1164 stream.Write(&icondirentry.wPlanes, sizeof(icondirentry.wPlanes));
1165 stream.Write(&icondirentry.wBitCount, sizeof(icondirentry.wBitCount));
1166 stream.Write(&icondirentry.dwBytesInRes, sizeof(icondirentry.dwBytesInRes));
1167 stream.Write(&icondirentry.dwImageOffset, sizeof(icondirentry.dwImageOffset));
1168 if ( !stream.IsOk() )
1169 {
1170 if ( verbose )
1171 wxLogError(_("ICO: Error writing the image file!"));
1172 return false;
1173 }
1174
1175 // actually save it:
1176 IsMask = false;
1177 bResult = SaveDib(image, stream, verbose, IsBmp, IsMask);
1178 if ( !bResult )
1179 {
1180 if ( verbose )
1181 wxLogError(_("ICO: Error writing the image file!"));
1182 return false;
1183 }
1184 IsMask = true;
1185
1186 bResult = SaveDib(&mask, stream, verbose, IsBmp, IsMask);
1187 if ( !bResult )
1188 {
1189 if ( verbose )
1190 wxLogError(_("ICO: Error writing the image file!"));
1191 return false;
1192 }
1193
1194 } // end of for loop
1195
1196 return true;
1197 }
1198
1199 bool wxICOHandler::LoadFile(wxImage *image, wxInputStream& stream,
1200 bool verbose, int index)
1201 {
1202 stream.SeekI(0);
1203 return DoLoadFile(image, stream, verbose, index);
1204 }
1205
1206 bool wxICOHandler::DoLoadFile(wxImage *image, wxInputStream& stream,
1207 bool WXUNUSED(verbose), int index)
1208 {
1209 bool bResult wxDUMMY_INITIALIZE(false);
1210 bool IsBmp = false;
1211
1212 ICONDIR IconDir;
1213
1214 wxFileOffset iPos = stream.TellI();
1215 stream.Read(&IconDir, sizeof(IconDir));
1216 wxUint16 nIcons = wxUINT16_SWAP_ON_BE(IconDir.idCount);
1217 // nType is 1 for Icons, 2 for Cursors:
1218 wxUint16 nType = wxUINT16_SWAP_ON_BE(IconDir.idType);
1219
1220 // loop round the icons and choose the best one:
1221 ICONDIRENTRY *pIconDirEntry = new ICONDIRENTRY[nIcons];
1222 ICONDIRENTRY *pCurrentEntry = pIconDirEntry;
1223 int wMax = 0;
1224 int colmax = 0;
1225 int iSel = wxNOT_FOUND;
1226
1227 for (int i = 0; i < nIcons; i++ )
1228 {
1229 stream.Read(pCurrentEntry, sizeof(ICONDIRENTRY));
1230 // bHeight and bColorCount are wxUint8
1231 if ( pCurrentEntry->bWidth >= wMax )
1232 {
1233 // see if we have more colors, ==0 indicates > 8bpp:
1234 if ( pCurrentEntry->bColorCount == 0 )
1235 pCurrentEntry->bColorCount = 255;
1236 if ( pCurrentEntry->bColorCount >= colmax )
1237 {
1238 iSel = i;
1239 wMax = pCurrentEntry->bWidth;
1240 colmax = pCurrentEntry->bColorCount;
1241 }
1242 }
1243 pCurrentEntry++;
1244 }
1245
1246 if ( index != -1 )
1247 {
1248 // VS: Note that we *have* to run the loop above even if index != -1, because
1249 // it reads ICONDIRENTRies.
1250 iSel = index;
1251 }
1252
1253 if ( iSel == wxNOT_FOUND || iSel < 0 || iSel >= nIcons )
1254 {
1255 wxLogError(_("ICO: Invalid icon index."));
1256 bResult = false;
1257 }
1258 else
1259 {
1260 // seek to selected icon:
1261 pCurrentEntry = pIconDirEntry + iSel;
1262 stream.SeekI(iPos + wxUINT32_SWAP_ON_BE(pCurrentEntry->dwImageOffset), wxFromStart);
1263 bResult = LoadDib(image, stream, true, IsBmp);
1264 bool bIsCursorType = (this->GetType() == wxBITMAP_TYPE_CUR) || (this->GetType() == wxBITMAP_TYPE_ANI);
1265 if ( bResult && bIsCursorType && nType == 2 )
1266 {
1267 // it is a cursor, so let's set the hotspot:
1268 image->SetOption(wxIMAGE_OPTION_CUR_HOTSPOT_X, wxUINT16_SWAP_ON_BE(pCurrentEntry->wPlanes));
1269 image->SetOption(wxIMAGE_OPTION_CUR_HOTSPOT_Y, wxUINT16_SWAP_ON_BE(pCurrentEntry->wBitCount));
1270 }
1271 }
1272 delete[] pIconDirEntry;
1273 return bResult;
1274 }
1275
1276 int wxICOHandler::GetImageCount(wxInputStream& stream)
1277 {
1278 ICONDIR IconDir;
1279 wxFileOffset iPos = stream.TellI();
1280 stream.SeekI(0);
1281 stream.Read(&IconDir, sizeof(IconDir));
1282 wxUint16 nIcons = wxUINT16_SWAP_ON_BE(IconDir.idCount);
1283 stream.SeekI(iPos);
1284 return (int)nIcons;
1285 }
1286
1287 bool wxICOHandler::DoCanRead(wxInputStream& stream)
1288 {
1289 stream.SeekI(0);
1290 unsigned char hdr[4];
1291 if ( !stream.Read(hdr, WXSIZEOF(hdr)) )
1292 return false;
1293
1294 // hdr[2] is one for an icon and two for a cursor
1295 return hdr[0] == '\0' && hdr[1] == '\0' && hdr[2] == '\1' && hdr[3] == '\0';
1296 }
1297
1298 #endif // wxUSE_STREAMS
1299
1300
1301 //-----------------------------------------------------------------------------
1302 // wxCURHandler
1303 //-----------------------------------------------------------------------------
1304
1305 IMPLEMENT_DYNAMIC_CLASS(wxCURHandler, wxICOHandler)
1306
1307 #if wxUSE_STREAMS
1308
1309 bool wxCURHandler::DoCanRead(wxInputStream& stream)
1310 {
1311 stream.SeekI(0);
1312 unsigned char hdr[4];
1313 if ( !stream.Read(hdr, WXSIZEOF(hdr)) )
1314 return false;
1315
1316 // hdr[2] is one for an icon and two for a cursor
1317 return hdr[0] == '\0' && hdr[1] == '\0' && hdr[2] == '\2' && hdr[3] == '\0';
1318 }
1319
1320 #endif // wxUSE_STREAMS
1321
1322 //-----------------------------------------------------------------------------
1323 // wxANIHandler
1324 //-----------------------------------------------------------------------------
1325
1326 IMPLEMENT_DYNAMIC_CLASS(wxANIHandler, wxCURHandler)
1327
1328 #if wxUSE_STREAMS
1329
1330 bool wxANIHandler::LoadFile(wxImage *image, wxInputStream& stream,
1331 bool verbose, int index)
1332 {
1333 wxInt32 FCC1, FCC2;
1334 wxUint32 datalen;
1335
1336 wxInt32 riff32;
1337 memcpy( &riff32, "RIFF", 4 );
1338 wxInt32 list32;
1339 memcpy( &list32, "LIST", 4 );
1340 wxInt32 ico32;
1341 memcpy( &ico32, "icon", 4 );
1342 int iIcon = 0;
1343
1344 stream.SeekI(0);
1345 stream.Read(&FCC1, 4);
1346 if ( FCC1 != riff32 )
1347 return false;
1348
1349 // we have a riff file:
1350 while (stream.IsOk())
1351 {
1352 // we always have a data size
1353 stream.Read(&datalen, 4);
1354 datalen = wxINT32_SWAP_ON_BE(datalen) ;
1355 //data should be padded to make even number of bytes
1356 if (datalen % 2 == 1) datalen ++ ;
1357 //now either data or a FCC
1358 if ( (FCC1 == riff32) || (FCC1 == list32) )
1359 {
1360 stream.Read(&FCC2, 4);
1361 }
1362 else
1363 {
1364 if (FCC1 == ico32 && iIcon >= index)
1365 {
1366 return DoLoadFile(image, stream, verbose, -1);
1367 }
1368 else
1369 {
1370 stream.SeekI(stream.TellI() + datalen);
1371 if ( FCC1 == ico32 )
1372 iIcon ++;
1373 }
1374 }
1375
1376 // try to read next data chunk:
1377 stream.Read(&FCC1, 4);
1378 }
1379 return false;
1380 }
1381
1382 bool wxANIHandler::DoCanRead(wxInputStream& stream)
1383 {
1384 wxInt32 FCC1, FCC2;
1385 wxUint32 datalen ;
1386
1387 wxInt32 riff32;
1388 memcpy( &riff32, "RIFF", 4 );
1389 wxInt32 list32;
1390 memcpy( &list32, "LIST", 4 );
1391 wxInt32 ico32;
1392 memcpy( &ico32, "icon", 4 );
1393 wxInt32 anih32;
1394 memcpy( &anih32, "anih", 4 );
1395
1396 stream.SeekI(0);
1397 if ( !stream.Read(&FCC1, 4) )
1398 return false;
1399
1400 if ( FCC1 != riff32 )
1401 return false;
1402
1403 // we have a riff file:
1404 while ( stream.IsOk() )
1405 {
1406 if ( FCC1 == anih32 )
1407 return true;
1408 // we always have a data size:
1409 stream.Read(&datalen, 4);
1410 datalen = wxINT32_SWAP_ON_BE(datalen) ;
1411 //data should be padded to make even number of bytes
1412 if (datalen % 2 == 1) datalen ++ ;
1413 // now either data or a FCC:
1414 if ( (FCC1 == riff32) || (FCC1 == list32) )
1415 {
1416 stream.Read(&FCC2, 4);
1417 }
1418 else
1419 {
1420 stream.SeekI(stream.TellI() + datalen);
1421 }
1422
1423 // try to read next data chunk:
1424 if ( !stream.Read(&FCC1, 4) )
1425 {
1426 // reading failed -- either EOF or IO error, bail out anyhow
1427 return false;
1428 }
1429 }
1430
1431 return false;
1432 }
1433
1434 int wxANIHandler::GetImageCount(wxInputStream& stream)
1435 {
1436 wxInt32 FCC1, FCC2;
1437 wxUint32 datalen ;
1438
1439 wxInt32 riff32;
1440 memcpy( &riff32, "RIFF", 4 );
1441 wxInt32 list32;
1442 memcpy( &list32, "LIST", 4 );
1443 wxInt32 ico32;
1444 memcpy( &ico32, "icon", 4 );
1445 wxInt32 anih32;
1446 memcpy( &anih32, "anih", 4 );
1447
1448 stream.SeekI(0);
1449 stream.Read(&FCC1, 4);
1450 if ( FCC1 != riff32 )
1451 return wxNOT_FOUND;
1452
1453 // we have a riff file:
1454 while ( stream.IsOk() )
1455 {
1456 // we always have a data size:
1457 stream.Read(&datalen, 4);
1458 datalen = wxINT32_SWAP_ON_BE(datalen) ;
1459 //data should be padded to make even number of bytes
1460 if (datalen % 2 == 1) datalen ++ ;
1461 // now either data or a FCC:
1462 if ( (FCC1 == riff32) || (FCC1 == list32) )
1463 {
1464 stream.Read(&FCC2, 4);
1465 }
1466 else
1467 {
1468 if ( FCC1 == anih32 )
1469 {
1470 wxUint32 *pData = new wxUint32[datalen/4];
1471 stream.Read(pData, datalen);
1472 int nIcons = wxINT32_SWAP_ON_BE(*(pData + 1));
1473 delete[] pData;
1474 return nIcons;
1475 }
1476 else
1477 stream.SeekI(stream.TellI() + datalen);
1478 }
1479
1480 // try to read next data chunk:
1481 stream.Read(&FCC1, 4);
1482 }
1483
1484 return wxNOT_FOUND;
1485 }
1486
1487 #endif // wxUSE_STREAMS
1488
1489 #endif // wxUSE_ICO_CUR
1490
1491 #endif // wxUSE_IMAGE