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1 | //* Written by Microsoft Product Support Services, Windows Developer Support. * | |
2 | //***************************************************************************** | |
3 | // (C) Copyright Microsoft Corp. 1993. All rights reserved. | |
4 | // You have a royalty-free right to use, modify, reproduce and | |
5 | // distribute the Sample Files (and/or any modified version) in | |
6 | // any way you find useful, provided that you agree that | |
7 | // Microsoft has no warranty obligations or liability for any | |
8 | // Sample Application Files which are modified. | |
9 | ||
10 | // Modified by Petr Smilauer, March 1994 for wxWin library purposes! | |
11 | ||
12 | // For compilers that support precompilation, includes "wx.h". | |
13 | #include "wx/wxprec.h" | |
14 | ||
15 | #ifdef __BORLANDC__ | |
16 | #pragma hdrstop | |
17 | #endif | |
18 | ||
19 | #include <io.h> | |
20 | #include <windows.h> | |
21 | ||
22 | #ifdef __GNUWIN32__ | |
23 | #include "wx/msw/gnuwin32/extra.h" | |
24 | #endif | |
25 | ||
26 | #include "wx/msw/curicop.h" | |
27 | #include "wx/msw/curico.h" | |
28 | ||
29 | //***************************************************************************** | |
30 | //* Function : ReadIconFile() * | |
31 | //* Purpose : Reads an icon resource file and creates an icon based on that * | |
32 | //* information. * | |
33 | //* Parameters : char *szFileName - The icon resource file. * | |
34 | //* Returns : A handle to an icon. The handle will be NULL if an icon cannot * | |
35 | //* be created for any reason. * | |
36 | //***************************************************************************** | |
37 | ||
38 | HICON ReadIconFile( char *szFileName, HINSTANCE hInst, int *W, int *H) | |
39 | { HICON hIcon; | |
40 | HANDLE hDIB; | |
41 | ||
42 | if( (hDIB = ReadIcon(szFileName, W, H)) == NULL) | |
43 | // read the icon DIB from file | |
44 | return NULL; | |
45 | hIcon = MakeIcon( hDIB, hInst); // create an icon from DIB | |
46 | GlobalFree( hDIB); | |
47 | return hIcon; | |
48 | } | |
49 | ||
50 | //***************************************************************************** | |
51 | //* Function : CursorToIcon() * | |
52 | //* Purpose : Reads a cursor resource file and creates an icon based on that * | |
53 | //* information. * | |
54 | //* Parameters : char *szFileName - The cursor resource file. * | |
55 | //* Returns : A handle to an icon. The handle will be NULL if an icon cannot * | |
56 | //* be created for any reason. * | |
57 | //* Comments : A cursor is monochrome. So, the resulting icon will also be * | |
58 | //* monochrome. * | |
59 | //***************************************************************************** | |
60 | ||
61 | HICON CursorToIcon( char *szFileName, HINSTANCE hInst, int *W, int *H) | |
62 | { HANDLE hDIB; // Handle to DIB memory | |
63 | HICON hIcon; // Handle to Icon | |
64 | ||
65 | if( (hDIB = ReadCur( szFileName, NULL, W, H)) == NULL) | |
66 | // Read cursor DIB | |
67 | return NULL; | |
68 | hIcon = MakeIcon( hDIB, hInst); // make icon from cursor DIB | |
69 | GlobalFree( hDIB); | |
70 | return hIcon; | |
71 | } | |
72 | ||
73 | //***************************************************************************** | |
74 | //* Function : ReadIcon() * | |
75 | //* Purpose : Reads an icon resource file and extracts the DIB information. * | |
76 | //* Parameters : char *szFileName - The icon resource file. * | |
77 | //* Returns : A handle to a DIB. The handle will be NULL if the resource file* | |
78 | //* is corrupt or if memory cannot be allocated for the DIB info. * | |
79 | //***************************************************************************** | |
80 | ||
81 | HANDLE ReadIcon( char *szFileName, int *W, int *H) | |
82 | { ICONFILEHEADER iconFileHead; // ICON file header structure | |
83 | ICONFILERES iconFileRes; // ICON file resource | |
84 | WORD cbHead, | |
85 | cbRes, | |
86 | cbBits; // Used for reading in file | |
87 | int hFile; // File handle | |
88 | LPBITMAPINFO lpDIB; // Pointer to DIB memory | |
89 | HANDLE hDIB; | |
90 | int nWidth = GetSystemMetrics( SM_CXICON), | |
91 | nHeight = GetSystemMetrics( SM_CYICON), | |
92 | nDirEntries = 0; | |
93 | ||
94 | // Open and read the .ICO file header and the first ICONFILERES | |
95 | hFile = _lopen( szFileName, OF_READ); | |
96 | cbHead = _lread( hFile, (LPSTR)&iconFileHead, sizeof(ICONFILEHEADER)); | |
97 | cbRes = _lread( hFile, (LPSTR)&iconFileRes, sizeof(ICONFILERES)); | |
98 | ++nDirEntries; | |
99 | ||
100 | if((cbHead != sizeof( ICONFILEHEADER)) || (cbRes != sizeof( ICONFILERES))) | |
101 | return NULL; | |
102 | ||
103 | // Verify that it's an .ICON file | |
104 | if( iconFileHead.wResourceType != 1) | |
105 | return NULL; | |
106 | ||
107 | // inserted by P.S. | |
108 | while( (nDirEntries < iconFileHead.wResourceCount) && | |
109 | ((iconFileRes.bWidth != nWidth) || (iconFileRes.bHeight != nHeight))) | |
110 | { | |
111 | cbRes = _lread( hFile, (LPSTR )&iconFileRes, sizeof( ICONFILERES)); | |
112 | if(cbRes != sizeof( ICONFILERES)) | |
113 | return NULL; | |
114 | else | |
115 | ++nDirEntries; | |
116 | } | |
117 | ||
118 | if(W != 0) | |
119 | *W = iconFileRes.bWidth; | |
120 | if(H != 0) | |
121 | *H = iconFileRes.bHeight; | |
122 | ||
123 | // Allocate and lock memory to read in the DIB | |
124 | hDIB = GlobalAlloc(GHND, iconFileRes.dwDIBSize); | |
125 | if(hDIB == NULL) | |
126 | return NULL; | |
127 | #ifdef __WINDOWS_386__ | |
128 | lpDIB = (LPBITMAPINFO)MK_FP32(GlobalLock(hDIB)); | |
129 | #else | |
130 | lpDIB = (LPBITMAPINFO)GlobalLock(hDIB); | |
131 | #endif | |
132 | ||
133 | // Now read the DIB portion of the file, which follows the | |
134 | // end of icon resource table | |
135 | _llseek( hFile, iconFileRes.dwDIBOffset, 0); | |
136 | cbBits = _lread( hFile, (LPSTR )lpDIB, (WORD )iconFileRes.dwDIBSize); | |
137 | ||
138 | // Done reading file | |
139 | _lclose(hFile); | |
140 | ||
141 | GlobalUnlock( hDIB); | |
142 | ||
143 | if( (DWORD )cbBits != iconFileRes.dwDIBSize) | |
144 | { | |
145 | GlobalFree( hDIB); | |
146 | return NULL; | |
147 | } | |
148 | return hDIB; | |
149 | } | |
150 | ||
151 | //***************************************************************************** | |
152 | //* Function : MakeIcon() * | |
153 | //* Purpose : Creates an icon based on the DIB info. returned by ReadIcon. * | |
154 | //* Parameters : HANDLE hDIB - A handle to the icon's DIB information. * | |
155 | //* Returns : A handle to an Icon. NULL is returned if an icon cannot be * | |
156 | //* successfully created. * | |
157 | //* Comments : The steps involved in making an icon from a DIB are very * | |
158 | //* similar to those involved in making a cursor from a DIB. * | |
159 | //* Steps : 1) Obtain a pointer to the Icon's DIB bits. * | |
160 | //* 2) Divide the DIB'd height with 2 to account for the fact that the* | |
161 | //* DIB stores both the XOR and the AND masks, one after the other.* | |
162 | //* 3) Determine the offset to the XOR bits. * | |
163 | //* 4) Determine the offset to the AND bits. * | |
164 | //* 5) Create a device dependent bitmap with the XOR bits. * | |
165 | //* 6) Obtain the device dependent XOR bitmask and save in memory. * | |
166 | //* The AND bitmask is monochrome. Monochrome bits are identical * | |
167 | //* in both the device dependent bitmaps and device independent * | |
168 | //* bitmaps. So, no need to convert the AND bitmask. * | |
169 | //* 7) Since a DIB is stored upside down, flip the monochrome AND bits* | |
170 | //* by scanlines. * | |
171 | //* 8) Use the XOR and AND bits and create an icon with CreateIcon. * | |
172 | //***************************************************************************** | |
173 | ||
174 | HICON MakeIcon( HANDLE hDIB, HINSTANCE hInst) | |
175 | { LPSTR lpXORbits, | |
176 | lpANDbits; // Pointer to XOR and AND bits | |
177 | HBITMAP hbmXor; // handle to XOR bitmap | |
178 | BITMAP bmpXor; // Used to manipulate XOR bitmap | |
179 | DWORD dwBmpSize; // Size of XOR bitmap | |
180 | HANDLE hXorDDB; | |
181 | LPSTR lpXorDDB; | |
182 | LONG szFlip[32]; | |
183 | int j, | |
184 | k; | |
185 | HDC hDC; | |
186 | HICON hIcon; | |
187 | LPBITMAPINFO lpDIB; | |
188 | ||
189 | // 1) Obtain a pointer to the Icon's DIB bits. | |
190 | #ifdef __WINDOWS_386__ | |
191 | lpDIB = (LPBITMAPINFO )MK_FP32(GlobalLock( hDIB)); | |
192 | #else | |
193 | lpDIB = (LPBITMAPINFO )GlobalLock( hDIB); | |
194 | #endif | |
195 | ||
196 | // 2) Divide the DIB'd height with 2 to account for the fact that the | |
197 | // DIB stores both the XOR and the AND masks, one after the other. | |
198 | lpDIB->bmiHeader.biHeight /= 2; | |
199 | ||
200 | // 3) Determine the offset to the XOR bits. | |
201 | // To obtain this value, we have to skip the header, and color table | |
202 | lpXORbits = (LPSTR )lpDIB + (int )lpDIB->bmiHeader.biSize + | |
203 | (DIBNumColors( (LPSTR )lpDIB) * sizeof( RGBQUAD)); | |
204 | ||
205 | // 4) Determine the offset to the AND bits. | |
206 | // To obtain this value, skip the XOR bits | |
207 | lpANDbits = lpXORbits + (int )(lpDIB->bmiHeader.biHeight * | |
208 | (WIDTHBYTES ( lpDIB->bmiHeader.biWidth * | |
209 | lpDIB->bmiHeader.biBitCount))); | |
210 | ||
211 | // Get a hDC so we can create a bitmap compatible with it | |
212 | hDC = CreateDC( "DISPLAY", NULL, NULL, NULL); | |
213 | ||
214 | // 5) Create a device dependent bitmap with the XOR bits. | |
215 | hbmXor = CreateDIBitmap( hDC, (LPBITMAPINFOHEADER)&(lpDIB->bmiHeader), | |
216 | CBM_INIT, lpXORbits, lpDIB, DIB_RGB_COLORS); | |
217 | ||
218 | GetObject( hbmXor, sizeof(BITMAP), (LPSTR)&bmpXor); | |
219 | ||
220 | dwBmpSize = (DWORD )(bmpXor.bmWidthBytes * bmpXor.bmHeight * bmpXor.bmPlanes); | |
221 | hXorDDB = GlobalAlloc( GHND, dwBmpSize); | |
222 | if(hXorDDB == NULL) | |
223 | { | |
224 | // clean up before quitting | |
225 | DeleteObject( hbmXor); | |
226 | DeleteDC( hDC); | |
227 | GlobalUnlock( hDIB); | |
228 | return NULL; | |
229 | } | |
230 | ||
231 | #ifdef __WINDOWS_386__ | |
232 | lpXorDDB = (LPSTR)MK_FP32(GlobalLock( hXorDDB)); | |
233 | #else | |
234 | lpXorDDB = (LPSTR)GlobalLock( hXorDDB); | |
235 | #endif | |
236 | ||
237 | // 6) Obtain the device dependent XOR bitmask and save in memory. | |
238 | // The AND bitmask is monochrome. Monochrome bits are identical | |
239 | // in both the device dependent bitmaps and device independent | |
240 | // bitmaps. So, no need to convert the AND bitmask. | |
241 | GetBitmapBits( hbmXor, dwBmpSize, lpXorDDB); | |
242 | ||
243 | // 7) Since a DIB is stored upside down, flip the monochrome AND bits by scanlines. | |
244 | k = (int )lpDIB->bmiHeader.biHeight; | |
245 | for( j = 0 ; j < k ; j++, lpANDbits += sizeof(DWORD)) | |
246 | szFlip[(k - 1) - j] = *(DWORD FAR *)lpANDbits; | |
247 | ||
248 | // 8) Use the XOR and AND bits and create an icon with CreateIcon. | |
249 | hIcon = CreateIcon( hInst, bmpXor.bmWidth, bmpXor.bmHeight, bmpXor.bmPlanes, | |
250 | bmpXor.bmBitsPixel, (const BYTE *)szFlip, (const BYTE *)lpXorDDB); | |
251 | ||
252 | // Clean up before exiting. | |
253 | DeleteObject( hbmXor); | |
254 | GlobalUnlock( hXorDDB); | |
255 | GlobalFree( hXorDDB); | |
256 | DeleteDC( hDC); | |
257 | GlobalUnlock( hDIB); | |
258 | ||
259 | return hIcon; | |
260 | } | |
261 | ||
262 | // ************************************************************************** | |
263 | ||
264 | //***************************************************************************** | |
265 | //* Function : ReadCursorFile() * | |
266 | //* Purpose : Reads a cursor resource file and creates a cursor based on that* | |
267 | //* information. * | |
268 | //* Parameters : char *szFileName - The cursor resource file. * | |
269 | //* Returns : A handle to a cursor. The handle will be NULL if a cursor can't* | |
270 | //* be created for any reason. * | |
271 | //***************************************************************************** | |
272 | ||
273 | HCURSOR ReadCursorFile( char *szFileName, HINSTANCE hInst, int *W, int *H, | |
274 | int *XHot, int *YHot) | |
275 | { HANDLE hDIB; // Handle to DIB memory | |
276 | HCURSOR hCursor; | |
277 | POINT ptHotSpot; | |
278 | ||
279 | // read cur DIB from file | |
280 | if( (hDIB = ReadCur( szFileName, (LPPOINT )&ptHotSpot, W, H)) == NULL) | |
281 | return NULL; | |
282 | hCursor = MakeCursor( hDIB, (LPPOINT )&ptHotSpot, hInst);//create cur from DIB | |
283 | if(XHot != 0) | |
284 | *XHot = ptHotSpot.x; | |
285 | if(YHot != 0) | |
286 | *YHot = ptHotSpot.y; | |
287 | GlobalFree( hDIB); | |
288 | return ( hCursor); | |
289 | } | |
290 | ||
291 | //***************************************************************************** | |
292 | //* Function : IconToCursor() * | |
293 | //* Purpose : Reads an icon resource file and creates a cursor based on that * | |
294 | //* information. * | |
295 | //* Parameters : char *szFileName - The icon resource file. * | |
296 | //* Returns : A handle to a cursor. The handle will be NULL if a cursor can't* | |
297 | //* be created for any reason. * | |
298 | //* Comments : An icon may be in color. So, the DIB has to be forced to be * | |
299 | //* monochrome. * | |
300 | //***************************************************************************** | |
301 | ||
302 | HCURSOR IconToCursor( char *szFileName, HINSTANCE hInst, int XHot, int YHot, | |
303 | int *W, int *H) | |
304 | { HCURSOR hCursor; | |
305 | HANDLE hDIB; | |
306 | POINT ptHotSpot; | |
307 | ||
308 | if( (hDIB = ReadIcon( szFileName, W, H)) == NULL) | |
309 | //read icon file to get icon DIB | |
310 | return NULL; | |
311 | // Set the hot spot of the cursor | |
312 | ptHotSpot.x = XHot; | |
313 | ptHotSpot.y = YHot; | |
314 | hCursor = MakeCursor( hDIB, (LPPOINT )&ptHotSpot, hInst); | |
315 | //create cursor from DIB | |
316 | GlobalFree( hDIB); | |
317 | return hCursor; | |
318 | } | |
319 | ||
320 | //***************************************************************************** | |
321 | //* Function : ReadCur() * | |
322 | //* Purpose : Reads a cursor resource file and extracts the DIB information. * | |
323 | //* Parameters : LPSTR szFileName - The cursor resource file. * | |
324 | //* Returns : A handle to a DIB. The handle will be NULL if the resource file* | |
325 | //* is corrupt or if memory cannot be allocated for the DIB info. * | |
326 | //***************************************************************************** | |
327 | ||
328 | HANDLE ReadCur( char *szFileName, LPPOINT lpptHotSpot, int *W, int *H) | |
329 | { CURFILEHEADER curFileHead; // CURSOR file header structure | |
330 | CURFILERES curFileRes; // CURSOR file resource | |
331 | WORD cbHead, | |
332 | cbRes, | |
333 | cbBits; // Used for reading in file | |
334 | LPBITMAPINFO lpDIB; // Pointer to DIB memory | |
335 | int hFile; // Handle to File | |
336 | HANDLE hDIB; | |
337 | int nWidth = GetSystemMetrics( SM_CXCURSOR), | |
338 | nHeight = GetSystemMetrics( SM_CYCURSOR), | |
339 | nDirEntries = 0; | |
340 | ||
341 | // Open and read the .ICO file header and the first ICONFILERES | |
342 | hFile = _lopen( szFileName, OF_READ); | |
343 | cbHead = _lread( hFile, (LPSTR )&curFileHead, sizeof( CURFILEHEADER)); | |
344 | cbRes = _lread( hFile, (LPSTR )&curFileRes, sizeof( CURFILERES)); | |
345 | ++nDirEntries; | |
346 | ||
347 | if((cbHead != sizeof( CURFILEHEADER)) || (cbRes != sizeof( CURFILERES))) | |
348 | return NULL; | |
349 | ||
350 | // Verify that it's an .CUR file | |
351 | if ((curFileRes.bReserved1 != 0) || (curFileHead.wResourceType != 2)) | |
352 | return NULL; | |
353 | ||
354 | // following added by P.S. | |
355 | while( (nDirEntries < curFileHead.wResourceCount) && | |
356 | ((curFileRes.bWidth != nWidth) || (curFileRes.bHeight != nHeight))) | |
357 | { | |
358 | cbRes = _lread( hFile, (LPSTR )&curFileRes, sizeof( CURFILERES)); | |
359 | if(cbRes != sizeof( CURFILERES)) | |
360 | return NULL; | |
361 | else | |
362 | ++nDirEntries; | |
363 | } | |
364 | if(W != 0) | |
365 | *W = curFileRes.bWidth; | |
366 | if(H != 0) | |
367 | *H = curFileRes.bHeight; | |
368 | ||
369 | ||
370 | // Allocate & lock memory to read in the DIB | |
371 | hDIB = GlobalAlloc(GHND, curFileRes.dwDIBSize); | |
372 | if(hDIB == NULL) | |
373 | return NULL; | |
374 | ||
375 | #ifdef __WINDOWS_386__ | |
376 | lpDIB = (LPBITMAPINFO )MK_FP32(GlobalLock(hDIB)); | |
377 | #else | |
378 | lpDIB = (LPBITMAPINFO )GlobalLock(hDIB); | |
379 | #endif | |
380 | ||
381 | // Now read the DIB portion of the file, which follows the | |
382 | // end of icon resource table | |
383 | _llseek( hFile, curFileRes.dwDIBOffset, 0); | |
384 | cbBits = _lread( hFile, (LPSTR )lpDIB, (WORD )curFileRes.dwDIBSize); | |
385 | ||
386 | // Done reading file | |
387 | _lclose(hFile); | |
388 | ||
389 | if((DWORD)cbBits != curFileRes.dwDIBSize) | |
390 | { | |
391 | GlobalUnlock( hDIB); | |
392 | GlobalFree( hDIB); | |
393 | return NULL; | |
394 | } | |
395 | if(lpptHotSpot != NULL) // If it is necessary to know the hot spot | |
396 | { | |
397 | lpptHotSpot->x = (int )curFileRes.wXHotspot; | |
398 | lpptHotSpot->y = (int )curFileRes.wYHotspot; | |
399 | } | |
400 | GlobalUnlock( hDIB); | |
401 | return( hDIB); | |
402 | } | |
403 | ||
404 | //***************************************************************************** | |
405 | //* Function : ColorDDBToMonoDDB() * | |
406 | //* Purpose : Converts a color bitmap to a monochrome bitmap. * | |
407 | //* Parameters : HBITMAP hbm - The color bitmap. * | |
408 | //* Returns : A handle to a monochrome bitmap. * | |
409 | //***************************************************************************** | |
410 | HBITMAP ColorDDBToMonoDDB ( HBITMAP hbm) | |
411 | { BITMAP bm; | |
412 | BITMAPINFOHEADER bi; | |
413 | LPBITMAPINFOHEADER lpbi; | |
414 | DWORD dwLen; | |
415 | HANDLE hdib; | |
416 | HANDLE h; | |
417 | HDC hdc; | |
418 | HBITMAP hbmMono; | |
419 | ||
420 | GetObject( hbm, sizeof( bm), (LPSTR )&bm); | |
421 | ||
422 | bi.biSize = sizeof( BITMAPINFOHEADER); // size of this structure | |
423 | bi.biWidth = bm.bmWidth; // bitmap width in pixels | |
424 | bi.biHeight = bm.bmHeight; // bitmap height in pixels | |
425 | bi.biPlanes = 1; // # of planes always 1 for DIBs | |
426 | bi.biBitCount = bm.bmPlanes * bm.bmBitsPixel; // color bits per pixel | |
427 | bi.biCompression = BI_RGB; // no compression | |
428 | bi.biSizeImage = 0; // 0 means default size | |
429 | bi.biXPelsPerMeter = 0; // not used | |
430 | bi.biYPelsPerMeter = 0; // not used | |
431 | bi.biClrUsed = 0; // 0 means default colors | |
432 | bi.biClrImportant = 0; // 0 means defaults | |
433 | ||
434 | dwLen = bi.biSize + PaletteSize((LPSTR)&bi); | |
435 | ||
436 | hdc = GetDC( NULL); | |
437 | ||
438 | hdib = GlobalAlloc( GHND, dwLen); | |
439 | if (hdib == NULL) | |
440 | { | |
441 | ReleaseDC( NULL, hdc); | |
442 | return NULL; | |
443 | } | |
444 | ||
445 | #ifdef __WINDOWS_386__ | |
446 | lpbi = (LPBITMAPINFOHEADER )MK_FP32(GlobalLock( hdib)); | |
447 | #else | |
448 | lpbi = (LPBITMAPINFOHEADER )GlobalLock( hdib); | |
449 | #endif | |
450 | ||
451 | *lpbi = bi; | |
452 | ||
453 | // Call GetDIBits with a NULL lpBits parameter; it will calculate | |
454 | // the biSizeImage field. | |
455 | GetDIBits( hdc, hbm, 0, (WORD)bi.biHeight, | |
456 | NULL, (LPBITMAPINFO)lpbi, DIB_RGB_COLORS); | |
457 | ||
458 | bi = *lpbi; | |
459 | GlobalUnlock( hdib); | |
460 | ||
461 | // If the driver did not fill in the biSizeImage field, make one up. | |
462 | if(bi.biSizeImage == 0) | |
463 | bi.biSizeImage = WIDTHBYTES( (DWORD )bm.bmWidth * bi.biBitCount) * bm.bmHeight; | |
464 | ||
465 | // Reallocate the buffer big enough to hold all the bits. | |
466 | dwLen = bi.biSize + PaletteSize((LPSTR)&bi) + bi.biSizeImage; | |
467 | if( (h = GlobalReAlloc( hdib, dwLen, 0)) != 0) | |
468 | hdib = h; | |
469 | else | |
470 | { | |
471 | GlobalFree( hdib); | |
472 | ReleaseDC( NULL, hdc); | |
473 | return NULL; | |
474 | } | |
475 | ||
476 | // Call GetDIBits with a NON-NULL lpBits parameter, to actually | |
477 | // get the bits this time. | |
478 | ||
479 | #ifdef __WINDOWS_386__ | |
480 | lpbi = (LPBITMAPINFOHEADER )MK_FP32(GlobalLock( hdib)); | |
481 | #else | |
482 | lpbi = (LPBITMAPINFOHEADER )GlobalLock( hdib); | |
483 | #endif | |
484 | ||
485 | if( GetDIBits( hdc, hbm, 0, (WORD)bi.biHeight, | |
486 | (LPSTR)lpbi + (WORD)lpbi->biSize + PaletteSize((LPSTR)lpbi), | |
487 | (LPBITMAPINFO)lpbi, DIB_RGB_COLORS) == 0) | |
488 | { | |
489 | GlobalUnlock( hdib); | |
490 | hdib = NULL; | |
491 | ReleaseDC( NULL, hdc); | |
492 | return NULL; | |
493 | } | |
494 | ||
495 | // Finally, create a monochrome DDB, and put the DIB into | |
496 | // it. SetDIBits does smart color conversion. | |
497 | hbmMono = CreateBitmap((WORD)lpbi->biWidth, (WORD)lpbi->biHeight, 1, 1, NULL); | |
498 | SetDIBits( hdc, hbmMono, (WORD)0, (WORD)lpbi->biHeight, | |
499 | (LPSTR)lpbi + (int )lpbi->biSize + PaletteSize((LPSTR)lpbi), | |
500 | (LPBITMAPINFO)lpbi, DIB_RGB_COLORS); | |
501 | ||
502 | bi = *lpbi; | |
503 | GlobalUnlock( hdib); | |
504 | GlobalFree( hdib); | |
505 | ||
506 | ReleaseDC(NULL, hdc); | |
507 | return hbmMono; | |
508 | } | |
509 | ||
510 | //***************************************************************************** | |
511 | //* Function : MakeCursor() * | |
512 | //* Purpose : Creates a cursor based on the DIB info. returned by ReadCursor.* | |
513 | //* Parameters : HANDLE hDIB - A handle to the cursor's DIB information. * | |
514 | //* LPPOINT lppt - A pointer to a point struct. indicating the * | |
515 | //* location of the Cursor's hot spot. * | |
516 | //* Returns : A handle to a cursor. NULL is returned if a cursor cannot be * | |
517 | //* successfully created. * | |
518 | //* Comments : The steps involved in making a cursor from a DIB are very * | |
519 | //* similar to those involved in making an icon from a DIB. * | |
520 | //* Steps : 1) Obtain a pointer to the Cursor's DIB bits. * | |
521 | //* 2) Divide the DIB's height with 2 to account for the fact that the* | |
522 | //* DIB stores both the XOR and the AND masks, one after the other.* | |
523 | //* 3) Determine the offset to the XOR bits. * | |
524 | //* 4) Determine the offset to the AND bits. * | |
525 | //* 5) Create a device dependent bitmap with the XOR bits. * | |
526 | //* 6) Obtain the device dependent XOR bitmask and save in memory. * | |
527 | //* The AND bitmask is monochrome. Monochrome bits are identical * | |
528 | //* in both the device dependent bitmaps and device independent * | |
529 | //* bitmaps. So, no need to convert the AND bitmask. * | |
530 | //* 7) Since a DIB is stored upside down, flip the monochrome AND bits* | |
531 | //* by scanlines. * | |
532 | //* 8) Use the XOR and AND bits and create a cursor with CreateCursor.* | |
533 | //***************************************************************************** | |
534 | ||
535 | HCURSOR MakeCursor( HANDLE hDIB, LPPOINT lpptHotSpot, HINSTANCE hInst) | |
536 | { LPSTR lpXORbits, | |
537 | lpANDbits; // Pointer to XOR and AND bits | |
538 | HBITMAP hbmXor; // handle to XOR bitmap | |
539 | BITMAP bmpXor; // Used to manipulate XOR bitmap | |
540 | DWORD dwBmpSize; // Size of XOR bitmap | |
541 | HCURSOR hCursor; | |
542 | HANDLE hXorDDB; | |
543 | LPSTR lpXorDDB; | |
544 | LONG szFlip[32]; | |
545 | int j, | |
546 | k; | |
547 | HDC hDC; | |
548 | LPBITMAPINFO lpDIB; | |
549 | ||
550 | // 1) Obtain a pointer to the Cursor's DIB bits. | |
551 | #ifdef __WINDOWS_386__ | |
552 | lpDIB = (LPBITMAPINFO )MK_FP32(GlobalLock( hDIB)); | |
553 | #else | |
554 | lpDIB = (LPBITMAPINFO )GlobalLock( hDIB); | |
555 | #endif | |
556 | ||
557 | // 2) Divide the DIB's height with 2 to account for the fact that the | |
558 | // DIB stores both the XOR and the AND masks, one after the other. | |
559 | lpDIB->bmiHeader.biHeight /= 2; | |
560 | ||
561 | // 3) Determine the offset to the XOR bits. | |
562 | // To obtain this value, we have to skip the header, and color table | |
563 | lpXORbits = (LPSTR )lpDIB + (int )lpDIB->bmiHeader.biSize + | |
564 | (DIBNumColors((LPSTR)lpDIB) * sizeof(RGBQUAD)); | |
565 | ||
566 | // 4) Determine the offset to the AND bits | |
567 | // To obtain this value, skip the XOR bits | |
568 | lpANDbits = lpXORbits + (int )( lpDIB->bmiHeader.biHeight * | |
569 | (WIDTHBYTES( lpDIB->bmiHeader.biWidth * | |
570 | lpDIB->bmiHeader.biBitCount))); | |
571 | ||
572 | // Get a hDC so we can create a bitmap compatible with it | |
573 | hDC = CreateDC( "DISPLAY", NULL, NULL, NULL); | |
574 | ||
575 | // 5) Create a device dependent bitmap with the XOR bits. | |
576 | hbmXor = CreateBitmap( (int )lpDIB->bmiHeader.biWidth, | |
577 | (int )lpDIB->bmiHeader.biHeight, 1, 1, NULL); | |
578 | SetDIBits( hDC, hbmXor, 0, (WORD)lpDIB->bmiHeader.biHeight, lpXORbits, | |
579 | lpDIB, DIB_RGB_COLORS); | |
580 | GetObject( hbmXor, sizeof( BITMAP), (LPSTR )&bmpXor); | |
581 | ||
582 | dwBmpSize = (DWORD )(bmpXor.bmWidthBytes * bmpXor.bmHeight * bmpXor.bmPlanes); | |
583 | hXorDDB = GlobalAlloc( GHND, dwBmpSize); | |
584 | if(hXorDDB == NULL) | |
585 | { // clean up before quitting | |
586 | DeleteObject( hbmXor); | |
587 | DeleteDC( hDC); | |
588 | GlobalUnlock( hDIB); | |
589 | return NULL; | |
590 | } | |
591 | #ifdef __WINDOWS_386__ | |
592 | lpXorDDB = (LPSTR)MK_FP32(GlobalLock( hXorDDB)); | |
593 | #else | |
594 | lpXorDDB = (LPSTR)GlobalLock( hXorDDB); | |
595 | #endif | |
596 | ||
597 | // 6) Obtain the device dependent XOR bitmask and save in memory. | |
598 | // The AND bitmask is monochrome. Monochrome bits are identical | |
599 | // in both the device dependent bitmaps and device independent | |
600 | // bitmaps. So, no need to convert the AND bitmask. | |
601 | GetBitmapBits( hbmXor, dwBmpSize, lpXorDDB); | |
602 | ||
603 | // 7) Since a DIB is stored upside down, flip the monochrome AND bits by scanlines. | |
604 | k = (int)lpDIB->bmiHeader.biHeight; | |
605 | for( j = 0 ; j < k; j++, lpANDbits += sizeof( DWORD)) | |
606 | szFlip[(k - 1) - j] = *(DWORD FAR *)lpANDbits; | |
607 | ||
608 | // 8) Use the XOR and AND bits and create a cursor with CreateCursor. | |
609 | hCursor = CreateCursor( hInst, lpptHotSpot->x, lpptHotSpot->y, | |
610 | bmpXor.bmWidth, bmpXor.bmHeight, (LPSTR)szFlip, lpXorDDB); | |
611 | ||
612 | // Clean up before exiting. | |
613 | DeleteObject( hbmXor); | |
614 | GlobalUnlock( hXorDDB); | |
615 | GlobalFree( hXorDDB); | |
616 | DeleteDC( hDC); | |
617 | GlobalUnlock( hDIB); | |
618 | ||
619 | return hCursor; | |
620 | } | |
621 | ||
622 | //***************************************************************************** | |
623 | //* Function : PaletteSize() * | |
624 | //* Purpose : Calculates the palette size in bytes. If the info. block is of * | |
625 | //* the BITMAPCOREHEADER type, the number of colors is multiplied * | |
626 | //* by sizeof(RGBTRIPLE) to give the palette size, otherwise the * | |
627 | //* number of colors is multiplied by sizeof(RGBQUAD). * | |
628 | //* Parameters : LPSTR pv - pointer to the BITMAPINFOHEADER * | |
629 | //* Returns : The size of the palette. * | |
630 | //***************************************************************************** | |
631 | ||
632 | WORD PaletteSize( LPSTR pv) | |
633 | { LPBITMAPINFOHEADER lpbi; | |
634 | WORD NumColors; | |
635 | ||
636 | lpbi = (LPBITMAPINFOHEADER )pv; | |
637 | NumColors = DIBNumColors((LPSTR )lpbi); | |
638 | ||
639 | if(lpbi->biSize == sizeof( BITMAPCOREHEADER)) // OS/2 style DIBs | |
640 | return NumColors * sizeof( RGBTRIPLE); | |
641 | else | |
642 | return NumColors * sizeof( RGBQUAD); | |
643 | } | |
644 | ||
645 | //***************************************************************************** | |
646 | //* Function : DIBNumColors() * | |
647 | //* Purpose : This function calculates the number of colors in the DIB's * | |
648 | //* color table by finding the bits per pixel for the DIB (whether * | |
649 | //* Win3.0 or OS/2-style DIB). If bits per pixel is 1: colors=2, * | |
650 | //* if 4: colors=16, if 8: colors=256, if 24, no colors in color * | |
651 | //* table. * | |
652 | //* Parameters : LPSTR lpbi - pointer to packed-DIB memory block. * | |
653 | //* Returns : The number of colors in the color table. * | |
654 | //***************************************************************************** | |
655 | ||
656 | WORD DIBNumColors ( LPSTR pv) | |
657 | { int bits; | |
658 | BITMAPINFOHEADER *lpbi; | |
659 | BITMAPCOREHEADER *lpbc; | |
660 | ||
661 | lpbi = ((BITMAPINFOHEADER* )pv); // assume win 3.0 style DIBs | |
662 | lpbc = ((BITMAPCOREHEADER* )pv); // assume OS/2 style DIBs | |
663 | ||
664 | // With the BITMAPINFO format headers, the size of the palette | |
665 | // is in biClrUsed, whereas in the BITMAPCORE - style headers, it | |
666 | // is dependent on the bits per pixel ( = 2 raised to the power of | |
667 | // bits/pixel). | |
668 | ||
669 | if(lpbi->biSize != sizeof( BITMAPCOREHEADER)) | |
670 | { | |
671 | if(lpbi->biClrUsed != 0) | |
672 | return (WORD)lpbi->biClrUsed; | |
673 | bits = lpbi->biBitCount; | |
674 | } | |
675 | else | |
676 | bits = lpbc->bcBitCount; | |
677 | ||
678 | switch( bits) | |
679 | { | |
680 | case 1: | |
681 | return 2; | |
682 | case 4: | |
683 | return 16; | |
684 | case 8: | |
685 | return 256; | |
686 | default: | |
687 | // A 24 bitcount DIB has no color table | |
688 | return 0; | |
689 | } | |
690 | } | |
691 | ||
692 | #if 0 | |
693 | // ****************************************************************** | |
694 | BOOL fGetXPixmap( BOOL fIsIcon, char *szFileName, HINSTANCE hInst, | |
695 | char cData[], int &width, int &height) | |
696 | { HDC hdc, | |
697 | hdcMemory; | |
698 | HBITMAP hbmp, | |
699 | holdbmp; | |
700 | int i, | |
701 | j, | |
702 | w, | |
703 | h; | |
704 | BYTE *s, | |
705 | cByte, | |
706 | cMask; | |
707 | COLORREF rgb; | |
708 | HCURSOR hIconOrCursor = fIsIcon ? | |
709 | IconToCursor( szFileName, hInst, 0, 0, &w, &h) | |
710 | : ReadCursorFile( szFileName, hInst, &w, &h, 0, 0); | |
711 | int sum; | |
712 | ||
713 | if(hIconOrCursor == 0) | |
714 | return FALSE; | |
715 | ||
716 | hdc = GetDC( GetDesktopWindow()); | |
717 | hdcMemory = CreateCompatibleDC( hdc); | |
718 | hbmp = CreateCompatibleBitmap( hdc, w, h); | |
719 | holdbmp = SelectObject( hdcMemory, hbmp); | |
720 | PatBlt( hdcMemory, 0, 0, w, h, BLACKNESS); // or use WHITENESS?? | |
721 | DrawIcon( hdcMemory, 0, 0, hIconOrCursor); //using HCURSOR with DrawIcon is OK | |
722 | ||
723 | // the data retrieval follows: | |
724 | width = w; | |
725 | height = h; | |
726 | for( j = 0, s = (BYTE *)cData ; j < h ; ++j) | |
727 | for( i = 0 ; i < w ; ++i, cMask >>= 1) | |
728 | { | |
729 | if( (i % 8) == 0) | |
730 | { | |
731 | cByte = 0; | |
732 | cMask = 0x80; | |
733 | } | |
734 | rgb = GetPixel( hdcMemory, i, j); | |
735 | sum = (int )(rgb & 0xFFL); | |
736 | sum += (int )((rgb & 0xFF00L) >> 8); | |
737 | sum += (int )((rgb & 0xFF0000L) >> 16); | |
738 | if(sum > 381) | |
739 | cByte = cByte | cMask; | |
740 | if( (i % 8) == 7) | |
741 | { | |
742 | *s = cByte; | |
743 | ++s; | |
744 | } | |
745 | } | |
746 | SelectObject( hdcMemory, holdbmp); | |
747 | DeleteDC( hdcMemory); | |
748 | ReleaseDC( GetDesktopWindow(), hdc); | |
749 | DestroyCursor( hIconOrCursor); | |
750 | DeleteObject( hbmp); | |
751 | return TRUE; | |
752 | } | |
753 | #endif | |
754 | ||
755 | // Added from scavenged internet code, JACS 23/6/95 | |
756 | HCURSOR MakeCursorFromBitmap(HINSTANCE hInst, HBITMAP hBitmap, POINT *pPoint) | |
757 | { | |
758 | HDC hDCColor, hDCMono; | |
759 | HDC hDC; | |
760 | HBITMAP hBmpOld; | |
761 | HBITMAP hAndBmp; | |
762 | HBITMAP hXorBmp; | |
763 | HCURSOR hNewCursor; | |
764 | BITMAP bm; | |
765 | DWORD dwBytes; | |
766 | NPSTR andBits; | |
767 | NPSTR xorBits; | |
768 | ||
769 | hDC = GetDC(NULL); | |
770 | hDCColor = CreateCompatibleDC(hDC); | |
771 | hDCMono = CreateCompatibleDC(hDC); | |
772 | hAndBmp = CreateCompatibleBitmap(hDCMono, 32, 32); | |
773 | hXorBmp = CreateCompatibleBitmap(hDCMono, 32, 32); | |
774 | ||
775 | hBmpOld = SelectObject(hDCColor, hBitmap); | |
776 | SelectObject(hDCMono, hAndBmp); | |
777 | SetBkColor(hDCColor, RGB(191, 191, 191)); | |
778 | ||
779 | BitBlt(hDCMono, 0, 0, 32, 32, hDCColor, 0, 0, SRCCOPY); | |
780 | ||
781 | // Now we have the AND Mask | |
782 | ||
783 | GetObject(hAndBmp, sizeof(BITMAP), (LPSTR) &bm); | |
784 | dwBytes = (bm.bmWidthBytes * bm.bmHeight); | |
785 | andBits = (NPSTR) LocalAlloc(LPTR, dwBytes); | |
786 | GetBitmapBits(hAndBmp, dwBytes, andBits); | |
787 | ||
788 | SelectObject(hDCMono, hXorBmp); | |
789 | SetBkColor(hDCColor, RGB(0, 0, 0)); | |
790 | ||
791 | BitBlt(hDCMono, 0, 0, 32, 32, hDCColor, 0, 0, SRCCOPY); | |
792 | ||
793 | // Now we have the XOR Mask | |
794 | ||
795 | GetObject(hXorBmp, sizeof(BITMAP), (LPSTR) &bm); | |
796 | dwBytes = (bm.bmWidthBytes * bm.bmHeight); | |
797 | xorBits = (NPSTR) LocalAlloc(LPTR, dwBytes); | |
798 | GetBitmapBits(hXorBmp, dwBytes, xorBits); | |
799 | ||
800 | if (pPoint->x > 32) | |
801 | pPoint->x = 32; | |
802 | if (pPoint->y > 32) | |
803 | pPoint->y = 32; | |
804 | ||
805 | hNewCursor = CreateCursor(hInst, | |
806 | pPoint->x, pPoint->y, 32, 32, andBits, xorBits); | |
807 | ||
808 | SelectObject(hDCColor, hBmpOld); | |
809 | SelectObject(hDCMono, hBmpOld); | |
810 | DeleteDC(hDCColor); | |
811 | DeleteDC(hDCMono); | |
812 | DeleteObject(hAndBmp); | |
813 | DeleteObject(hXorBmp); | |
814 | ReleaseDC(NULL, hDC); | |
815 | #ifndef __WIN32__ | |
816 | LocalUnlock(LocalHandle((WORD) andBits)); | |
817 | LocalUnlock(LocalHandle((WORD) xorBits)); | |
818 | LocalFree(LocalHandle((WORD) andBits)); | |
819 | LocalFree(LocalHandle((WORD) xorBits)); | |
820 | #else | |
821 | LocalUnlock(LocalHandle((LPCVOID) andBits)); | |
822 | LocalUnlock(LocalHandle((LPCVOID) xorBits)); | |
823 | LocalFree(LocalHandle((LPCVOID) andBits)); | |
824 | LocalFree(LocalHandle((LPCVOID) xorBits)); | |
825 | #endif | |
826 | return hNewCursor; | |
827 | } | |
828 | ||
829 | /* | |
830 | * This doesn't work: just gives us a grey square. Ideas, anyone? | |
831 | */ | |
832 | ||
833 | HICON MakeIconFromBitmap(HINSTANCE hInst, HBITMAP hBitmap) | |
834 | { | |
835 | HDC hDCColor, hDCMono; | |
836 | HDC hDC; | |
837 | HBITMAP hBmpOld; | |
838 | HBITMAP hAndBmp; | |
839 | HBITMAP hXorBmp; | |
840 | HICON hNewIcon; | |
841 | BITMAP bm; | |
842 | DWORD dwBytes; | |
843 | NPSTR andBits; | |
844 | NPSTR xorBits; | |
845 | ||
846 | hDC = GetDC(NULL); | |
847 | hDCColor = CreateCompatibleDC(hDC); | |
848 | hDCMono = CreateCompatibleDC(hDC); | |
849 | hAndBmp = CreateCompatibleBitmap(hDCMono, 32, 32); | |
850 | hXorBmp = CreateCompatibleBitmap(hDCMono, 32, 32); | |
851 | ||
852 | hBmpOld = SelectObject(hDCColor, hBitmap); | |
853 | SelectObject(hDCMono, hAndBmp); | |
854 | SetBkColor(hDCColor, RGB(191, 191, 191)); | |
855 | ||
856 | BitBlt(hDCMono, 0, 0, 32, 32, hDCColor, 0, 0, SRCCOPY); | |
857 | ||
858 | // Now we have the AND Mask | |
859 | ||
860 | GetObject(hAndBmp, sizeof(BITMAP), (LPSTR) &bm); | |
861 | dwBytes = (bm.bmWidthBytes * bm.bmHeight); | |
862 | andBits = (NPSTR) LocalAlloc(LPTR, dwBytes); | |
863 | GetBitmapBits(hAndBmp, dwBytes, andBits); | |
864 | ||
865 | SelectObject(hDCMono, hXorBmp); | |
866 | SetBkColor(hDCColor, RGB(0, 0, 0)); | |
867 | ||
868 | BitBlt(hDCMono, 0, 0, 32, 32, hDCColor, 0, 0, SRCCOPY); | |
869 | ||
870 | // Now we have the XOR Mask | |
871 | ||
872 | GetObject(hXorBmp, sizeof(BITMAP), (LPSTR) &bm); | |
873 | dwBytes = (bm.bmWidthBytes * bm.bmHeight); | |
874 | xorBits = (NPSTR) LocalAlloc(LPTR, dwBytes); | |
875 | GetBitmapBits(hXorBmp, dwBytes, xorBits); | |
876 | ||
877 | hNewIcon = CreateIcon(hInst, 1, 4, 32, 32, (unsigned char *)andBits, (unsigned char *)xorBits); | |
878 | ||
879 | SelectObject(hDCColor, hBmpOld); | |
880 | SelectObject(hDCMono, hBmpOld); | |
881 | DeleteDC(hDCColor); | |
882 | DeleteDC(hDCMono); | |
883 | DeleteObject(hAndBmp); | |
884 | DeleteObject(hXorBmp); | |
885 | ReleaseDC(NULL, hDC); | |
886 | #ifndef __WIN32__ | |
887 | LocalUnlock(LocalHandle((WORD) andBits)); | |
888 | LocalUnlock(LocalHandle((WORD) xorBits)); | |
889 | LocalFree(LocalHandle((WORD) andBits)); | |
890 | LocalFree(LocalHandle((WORD) xorBits)); | |
891 | #else | |
892 | LocalUnlock(LocalHandle((LPCVOID) andBits)); | |
893 | LocalUnlock(LocalHandle((LPCVOID) xorBits)); | |
894 | LocalFree(LocalHandle((LPCVOID) andBits)); | |
895 | LocalFree(LocalHandle((LPCVOID) xorBits)); | |
896 | #endif | |
897 | return hNewIcon; | |
898 | } | |
899 |