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Comparing rxvt-unicode/src/background.C (file contents):
Revision 1.46 by sf-exg, Mon Aug 30 23:08:06 2010 UTC vs.
Revision 1.125 by sf-exg, Tue Nov 23 18:31:13 2010 UTC

3 *----------------------------------------------------------------------* 3 *----------------------------------------------------------------------*
4 * 4 *
5 * All portions of code are copyright by their respective author/s. 5 * All portions of code are copyright by their respective author/s.
6 * Copyright (c) 2005-2008 Marc Lehmann <pcg@goof.com> 6 * Copyright (c) 2005-2008 Marc Lehmann <pcg@goof.com>
7 * Copyright (c) 2007 Sasha Vasko <sasha@aftercode.net> 7 * Copyright (c) 2007 Sasha Vasko <sasha@aftercode.net>
8 * Copyright (c) 2010 Emanuele Giaquinta <e.giaquinta@glauco.it>
8 * 9 *
9 * This program is free software; you can redistribute it and/or modify 10 * This program is free software; you can redistribute it and/or modify
10 * it under the terms of the GNU General Public License as published by 11 * it under the terms of the GNU General Public License as published by
11 * the Free Software Foundation; either version 2 of the License, or 12 * the Free Software Foundation; either version 2 of the License, or
12 * (at your option) any later version. 13 * (at your option) any later version.
19 * You should have received a copy of the GNU General Public License 20 * You should have received a copy of the GNU General Public License
20 * along with this program; if not, write to the Free Software 21 * along with this program; if not, write to the Free Software
21 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. 22 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
22 *---------------------------------------------------------------------*/ 23 *---------------------------------------------------------------------*/
23 24
25#include <cmath>
24#include "../config.h" /* NECESSARY */ 26#include "../config.h" /* NECESSARY */
25#include "rxvt.h" /* NECESSARY */ 27#include "rxvt.h" /* NECESSARY */
28
29#if XRENDER
30# include <X11/extensions/Xrender.h>
31#endif
32
33#ifndef FilterConvolution
34#define FilterConvolution "convolution"
35#endif
26 36
27#define DO_TIMING_TEST 0 37#define DO_TIMING_TEST 0
28 38
29#if DO_TIMING_TEST 39#if DO_TIMING_TEST
30# include <sys/time.h> 40# include <sys/time.h>
52 * adjustment and may optionally be followed by a colon and one or more 62 * adjustment and may optionally be followed by a colon and one or more
53 * colon-delimited pixmap operations. 63 * colon-delimited pixmap operations.
54 * The following table shows the valid geometry strings and their 64 * The following table shows the valid geometry strings and their
55 * effects on the background image : 65 * effects on the background image :
56 * 66 *
57 * WxH+X+Y Set scaling to W% by H%, and position to X% by Y%. 67 * WxH+X+Y Set scaling to W% by H%, and position to X% by Y%.
58 * W and H are percentages of the terminal window size. 68 * W and H are percentages of the terminal window size.
59 * X and Y are also percentages; e.g., +50+50 centers 69 * X and Y are also percentages; e.g., +50+50 centers
60 * the image in the window. 70 * the image in the window.
61 * WxH+X Assumes Y == X
62 * WxH Assumes Y == X == 50 (centers the image)
63 * W+X+Y Assumes H == W
64 * W+X Assumes H == W and Y == X
65 * W Assumes H == W and Y == X == 50
66 *
67 * Adjusting position only :
68 * =+X+Y Set position to X% by Y% (absolute).
69 * =+X Set position to X% by X%.
70 * +X+Y Adjust position horizontally X% and vertically Y%
71 * from current position (relative).
72 * +X Adjust position horizontally X% and vertically X%
73 * from current position.
74 *
75 * Adjusting scale only :
76 * Wx0 Multiply horizontal scaling factor by W%
77 * 0xH Multiply vertical scaling factor by H%
78 * 0x0 No scaling (show image at normal size).
79 * 71 *
80 * Pixmap Operations : (should be prepended by a colon) 72 * Pixmap Operations : (should be prepended by a colon)
81 * tile Tile image. Scaling/position modifiers above will affect 73 * tile Tile image. Scaling/position modifiers above will affect
82 * the tile size and origin. 74 * the tile size and origin.
83 * propscale When scaling, scale proportionally. That is, maintain the 75 * propscale When scaling, scale proportionally. That is, maintain the
84 * proper aspect ratio for the image. Any portion of the 76 * proper aspect ratio for the image. Any portion of the
85 * background not covered by the image is filled with the 77 * background not covered by the image is filled with the
86 * current background color. 78 * current background color.
87 * hscale Scale horizontally, tile vertically ? 79 * hscale Scale horizontally, tile vertically ?
88 * vscale Tile horizontally, scale vertically ? 80 * vscale Tile horizontally, scale vertically ?
96 // this is basically redundant as bgPixmap_t is only used in 88 // this is basically redundant as bgPixmap_t is only used in
97 // zero_initialised-derived structs 89 // zero_initialised-derived structs
98#ifdef HAVE_AFTERIMAGE 90#ifdef HAVE_AFTERIMAGE
99 original_asim = NULL; 91 original_asim = NULL;
100#endif 92#endif
93#ifdef HAVE_PIXBUF
94 pixbuf = NULL;
95#endif
101#ifdef BG_IMAGE_FROM_FILE 96#ifdef BG_IMAGE_FROM_FILE
97 have_image = false;
102 h_scale = v_scale = 0; 98 h_scale = v_scale = 0;
103 h_align = v_align = 0; 99 h_align = v_align = 0;
100#endif
101#ifdef ENABLE_TRANSPARENCY
102 shade = 100;
104#endif 103#endif
105 flags = 0; 104 flags = 0;
106 pixmap = None; 105 pixmap = None;
107 valid_since = invalid_since = 0; 106 valid_since = invalid_since = 0;
108 target = 0; 107 target = 0;
108 target_x = target_y = 0;
109} 109}
110 110
111void 111void
112bgPixmap_t::destroy () 112bgPixmap_t::destroy ()
113{ 113{
114#ifdef HAVE_AFTERIMAGE 114#ifdef HAVE_AFTERIMAGE
115 if (original_asim) 115 if (original_asim)
116 safe_asimage_destroy (original_asim); 116 safe_asimage_destroy (original_asim);
117#endif 117#endif
118 118
119#ifdef HAVE_PIXBUF
120 if (pixbuf)
121 g_object_unref (pixbuf);
122#endif
123
119 if (pixmap && target) 124 if (pixmap && target)
120 XFreePixmap (target->dpy, pixmap); 125 XFreePixmap (target->dpy, pixmap);
126}
127
128bool
129bgPixmap_t::set_position (int x, int y)
130{
131
132 if (target_x != x
133 || target_y != y)
134 {
135 target_x = x;
136 target_y = y;
137 return true;
138 }
139 return false;
121} 140}
122 141
123bool 142bool
124bgPixmap_t::window_size_sensitive () 143bgPixmap_t::window_size_sensitive ()
125{ 144{
127 if (flags & isTransparent) 146 if (flags & isTransparent)
128 return true; 147 return true;
129# endif 148# endif
130 149
131# ifdef BG_IMAGE_FROM_FILE 150# ifdef BG_IMAGE_FROM_FILE
132# ifdef HAVE_AFTERIMAGE 151 if (have_image)
133 if (original_asim)
134# endif
135 { 152 {
136 if (h_scale != 0 || v_scale != 0 153 if (flags & sizeSensitive)
137 || h_align != 0 || v_align != 0)
138 return true; 154 return true;
139 } 155 }
140# endif 156# endif
141 157
142 return false; 158 return false;
149 if (flags & isTransparent) 165 if (flags & isTransparent)
150 return true; 166 return true;
151# endif 167# endif
152 168
153# ifdef BG_IMAGE_FROM_FILE 169# ifdef BG_IMAGE_FROM_FILE
154# ifdef HAVE_AFTERIMAGE 170 if (have_image)
155 if (original_asim)
156# endif
157 { 171 {
158 if (h_align == rootAlign || v_align == rootAlign) 172 if (flags & rootAlign)
159 return true; 173 return true;
160 } 174 }
161# endif 175# endif
162 176
163 return false; 177 return false;
164}; 178}
165 179
166bool bgPixmap_t::need_client_side_rendering () 180bool bgPixmap_t::need_client_side_rendering ()
167{ 181{
168# ifdef HAVE_AFTERIMAGE 182# ifdef HAVE_AFTERIMAGE
169 if (original_asim) 183 if (original_asim)
170 return true; 184 return true;
171# endif 185# endif
172# ifdef ENABLE_TRANSPARENCY
173 if (flags & isTransparent)
174 {
175# ifdef HAVE_AFTERIMAGE // can't blur without libAI anyways
176 if ((flags & blurNeeded) && !(flags & blurServerSide))
177 return true;
178# endif
179 if ((flags & tintNeeded) && !(flags & tintServerSide))
180 return true;
181 }
182# endif
183 return false; 186 return false;
184} 187}
185 188
186# ifdef BG_IMAGE_FROM_FILE 189# ifdef BG_IMAGE_FROM_FILE
187static inline bool 190static inline bool
203static inline bool 206static inline bool
204check_set_align_value (int geom_flags, int flag, int &align, int new_value) 207check_set_align_value (int geom_flags, int flag, int &align, int new_value)
205{ 208{
206 if (geom_flags & flag) 209 if (geom_flags & flag)
207 { 210 {
208 if (new_value != bgPixmap_t::rootAlign)
209 {
210 if (new_value < -100) 211 if (new_value < -100)
211 new_value = -100; 212 new_value = -100;
212 else if (new_value > 200) 213 else if (new_value > 200)
213 new_value = 200; 214 new_value = 200;
214 }
215 if (new_value != align) 215 if (new_value != align)
216 { 216 {
217 align = new_value; 217 align = new_value;
218 return true; 218 return true;
219 } 219 }
223 223
224static inline int 224static inline int
225make_align_position (int align, int window_size, int image_size) 225make_align_position (int align, int window_size, int image_size)
226{ 226{
227 int diff = window_size - image_size; 227 int diff = window_size - image_size;
228 int smaller = MIN (image_size,window_size); 228 int smaller = min (image_size, window_size);
229 229
230 if (align >= 0 && align <= 50) 230 if (align >= 0 && align <= 100)
231 return diff * align / 100; 231 return diff * align / 100;
232 else if (align > 50 && align <= 100)
233 return window_size - image_size - diff * (100 - align) / 100;
234 else if (align > 100 && align <= 200 ) 232 else if (align > 100 && align <= 200)
235 return ((align - 100) * smaller / 100) + window_size - smaller; 233 return ((align - 100) * smaller / 100) + window_size - smaller;
236 else if (align > -100 && align < 0) 234 else if (align >= -100 && align < 0)
237 return ((align + 100) * smaller / 100) - image_size; 235 return ((align + 100) * smaller / 100) - image_size;
238 return 0; 236 return 0;
239} 237}
240 238
241static inline int 239static inline int
242make_clip_rectangle (int pos, int size, int target_size, int &dst_pos, int &dst_size) 240make_clip_rectangle (int pos, int size, int target_size, int &dst_pos, int &dst_size)
243{ 241{
244 int src_pos = 0; 242 int src_pos = 0;
245 dst_pos = 0; 243 dst_pos = pos;
246 dst_size = size; 244 dst_size = size;
247 if (pos < 0 && size > target_size) 245 if (pos < 0)
248 { 246 {
249 src_pos = -pos; 247 src_pos = -pos;
248 dst_pos = 0;
250 dst_size += pos; 249 dst_size += pos;
251 } 250 }
252 else if (pos > 0)
253 dst_pos = pos;
254 251
255 if (dst_pos + dst_size > target_size) 252 if (dst_pos + dst_size > target_size)
256 dst_size = target_size - dst_pos; 253 dst_size = target_size - dst_pos;
257 return src_pos; 254 return src_pos;
258} 255}
259 256
260bool 257bool
261bgPixmap_t::set_geometry (const char *geom) 258bgPixmap_t::set_geometry (const char *geom, bool update)
262{ 259{
260 bool changed = false;
263 int geom_flags = 0, changed = 0; 261 int geom_flags = 0;
264 int x = 0, y = 0; 262 int x = 0, y = 0;
265 unsigned int w = 0, h = 0; 263 unsigned int w = 0, h = 0;
266 unsigned int n; 264 unsigned int n;
267 unsigned long new_flags = (flags & (~geometryFlags)); 265 unsigned long new_flags = (flags & (~geometryFlags));
268 const char *p; 266 const char *ops;
269# define MAXLEN_GEOM 256 /* could be longer than regular geometry string */ 267# define MAXLEN_GEOM 256 /* could be longer than regular geometry string */
270 268
271 if (geom == NULL) 269 if (geom == NULL)
272 return false; 270 return false;
273 271
274 char str[MAXLEN_GEOM]; 272 char str[MAXLEN_GEOM];
275 273
276 while (isspace(*geom)) ++geom;
277 if ((p = strchr (geom, ';')) == NULL)
278 p = strchr (geom, '\0'); 274 ops = strchr (geom, ':');
279 275 if (ops == NULL)
276 n = strlen (geom);
277 else
280 n = (p - geom); 278 n = ops - geom;
279
281 if (n < MAXLEN_GEOM) 280 if (n >= MAXLEN_GEOM)
282 { 281 return false;
283 char *ops;
284 new_flags |= geometrySet;
285 282
286 memcpy (str, geom, n); 283 memcpy (str, geom, n);
287 str[n] = '\0'; 284 str[n] = '\0';
288 if (str[0] == ':') 285 rxvt_strtrim (str);
289 ops = &str[0];
290 else if (str[0] != 'x' && str[0] != 'X' && isalpha(str[0]))
291 ops = &str[0];
292 else
293 {
294 char *tmp;
295 ops = strchr (str, ':');
296 if (ops != NULL)
297 {
298 for (tmp = ops-1; tmp >= str && isspace(*tmp); --tmp);
299 *(++tmp) = '\0';
300 if (ops == tmp) ++ops;
301 }
302 }
303 286
304 if (ops > str || ops == NULL) 287 if (str[0])
305 { 288 {
306 /* we have geometry string - let's handle it prior to applying ops */ 289 /* we have geometry string - let's handle it prior to applying ops */
307 geom_flags = XParseGeometry (str, &x, &y, &w, &h); 290 geom_flags = XParseGeometry (str, &x, &y, &w, &h);
308
309 if ((geom_flags & XValue) && !(geom_flags & YValue))
310 {
311 y = x;
312 geom_flags |= YValue;
313 }
314
315 if (flags & geometrySet)
316 {
317 /* new geometry is an adjustment to the old one ! */
318 if ((geom_flags & WidthValue) && (geom_flags & HeightValue))
319 {
320 if (w == 0 && h != 0)
321 {
322 w = h_scale;
323 h = (v_scale * h) / 100;
324 }
325 else if (h == 0 && w != 0)
326 {
327 w = (h_scale * w) / 100;
328 h = v_scale;
329 }
330 }
331 if (geom_flags & XValue)
332 {
333 if (str[0] != '=')
334 {
335 y += v_align;
336 x += h_align;
337 }
338 }
339 }
340 else /* setting up geometry from scratch */
341 {
342 if (!(geom_flags & XValue))
343 {
344 /* use default geometry - centered */
345 x = y = defaultAlign;
346 }
347 else if (!(geom_flags & YValue))
348 y = x;
349
350 if ((geom_flags & (WidthValue|HeightValue)) == 0)
351 {
352 /* use default geometry - scaled */
353 w = h = defaultScale;
354 }
355 else if (geom_flags & WidthValue)
356 {
357 if (!(geom_flags & HeightValue))
358 h = w;
359 }
360 else
361 w = h;
362 }
363 } /* done parsing geometry string */ 291 } /* done parsing geometry string */
364 else if (!(flags & geometrySet)) 292
365 { 293 if (!update)
366 /* default geometry - scaled and centered */ 294 {
295 if (!(geom_flags & XValue))
367 x = y = defaultAlign; 296 x = y = defaultAlign;
297 else if (!(geom_flags & YValue))
298 y = x;
299
300 if (!(geom_flags & (WidthValue|HeightValue)))
368 w = h = defaultScale; 301 w = h = defaultScale;
369 } 302 else if (!(geom_flags & HeightValue))
303 h = w;
304 else if (!(geom_flags & WidthValue))
305 w = h;
370 306
371 if (!(flags & geometrySet))
372 geom_flags |= WidthValue|HeightValue|XValue|YValue; 307 geom_flags |= WidthValue|HeightValue|XValue|YValue;
308 }
373 309
374 if (ops) 310 if (ops)
375 { 311 {
376 while (*ops) 312 while (*ops)
377 { 313 {
378 while (*ops == ':' || isspace(*ops)) ++ops; 314 while (*ops == ':' || isspace(*ops)) ++ops;
379 315
380# define CHECK_GEOM_OPS(op_str) (strncasecmp (ops, (op_str), sizeof (op_str) - 1) == 0) 316# define CHECK_GEOM_OPS(op_str) (strncasecmp (ops, (op_str), sizeof (op_str) - 1) == 0)
381 if (CHECK_GEOM_OPS ("tile")) 317 if (CHECK_GEOM_OPS ("tile"))
382 { 318 {
383 w = h = noScale; 319 w = h = noScale;
384 geom_flags |= WidthValue|HeightValue; 320 geom_flags |= WidthValue|HeightValue;
385 } 321 }
386 else if (CHECK_GEOM_OPS ("propscale")) 322 else if (CHECK_GEOM_OPS ("propscale"))
387 { 323 {
388 if (w == 0 && h == 0)
389 {
390 w = windowScale;
391 geom_flags |= WidthValue;
392 }
393 new_flags |= propScale; 324 new_flags |= propScale;
394 } 325 }
395 else if (CHECK_GEOM_OPS ("hscale")) 326 else if (CHECK_GEOM_OPS ("hscale"))
396 { 327 {
397 if (w == 0) w = windowScale; 328 if (w == 0) w = windowScale;
398 329
399 h = noScale; 330 h = noScale;
400 geom_flags |= WidthValue|HeightValue; 331 geom_flags |= WidthValue|HeightValue;
401 } 332 }
402 else if (CHECK_GEOM_OPS ("vscale")) 333 else if (CHECK_GEOM_OPS ("vscale"))
403 { 334 {
404 if (h == 0) h = windowScale; 335 if (h == 0) h = windowScale;
405 336
406 w = noScale; 337 w = noScale;
407 geom_flags |= WidthValue|HeightValue; 338 geom_flags |= WidthValue|HeightValue;
408 } 339 }
409 else if (CHECK_GEOM_OPS ("scale")) 340 else if (CHECK_GEOM_OPS ("scale"))
410 { 341 {
411 if (h == 0) h = windowScale; 342 if (h == 0) h = windowScale;
412 if (w == 0) w = windowScale; 343 if (w == 0) w = windowScale;
413 344
414 geom_flags |= WidthValue|HeightValue; 345 geom_flags |= WidthValue|HeightValue;
415 } 346 }
416 else if (CHECK_GEOM_OPS ("auto")) 347 else if (CHECK_GEOM_OPS ("auto"))
417 { 348 {
418 w = h = windowScale; 349 w = h = windowScale;
419 x = y = centerAlign; 350 x = y = centerAlign;
420 geom_flags |= WidthValue|HeightValue|XValue|YValue; 351 geom_flags |= WidthValue|HeightValue|XValue|YValue;
421 } 352 }
422 else if (CHECK_GEOM_OPS ("root")) 353 else if (CHECK_GEOM_OPS ("root"))
423 { 354 {
355 new_flags |= rootAlign;
424 w = h = noScale; 356 w = h = noScale;
425 x = y = rootAlign;
426 geom_flags |= WidthValue|HeightValue|XValue|YValue; 357 geom_flags |= WidthValue|HeightValue;
427 } 358 }
428# undef CHECK_GEOM_OPS 359# undef CHECK_GEOM_OPS
429 360
430 while (*ops != ':' && *ops != '\0') ++ops; 361 while (*ops != ':' && *ops != '\0') ++ops;
431 } /* done parsing ops */ 362 } /* done parsing ops */
432 } 363 }
433 364
434 if (check_set_scale_value (geom_flags, WidthValue, h_scale, w)) ++changed; 365 if (check_set_scale_value (geom_flags, WidthValue, h_scale, w)) changed = true;
435 if (check_set_scale_value (geom_flags, HeightValue, v_scale, h)) ++changed; 366 if (check_set_scale_value (geom_flags, HeightValue, v_scale, h)) changed = true;
436 if (check_set_align_value (geom_flags, XValue, h_align, x)) ++changed; 367 if (check_set_align_value (geom_flags, XValue, h_align, x)) changed = true;
437 if (check_set_align_value (geom_flags, YValue, v_align, y)) ++changed; 368 if (check_set_align_value (geom_flags, YValue, v_align, y)) changed = true;
438 }
439 369
440 if (new_flags != flags) 370 if (new_flags != flags)
441 { 371 {
442 flags = new_flags; 372 flags = new_flags;
443 changed++; 373 changed = true;
444 } 374 }
445 375
446//fprintf (stderr, "flags = %lX, scale = %ux%u, align=%+d%+d\n",
447// flags, h_scale, v_scale, h_align, v_align);
448 return (changed > 0); 376 return changed;
377}
378
379void
380bgPixmap_t::get_image_geometry (int image_width, int image_height, int &w, int &h, int &x, int &y)
381{
382 int target_width = target->szHint.width;
383 int target_height = target->szHint.height;
384
385 if (flags & propScale)
386 {
387 float scale = (float)target_width / image_width;
388 min_it (scale, (float)target_height / image_height);
389 w = image_width * scale + 0.5;
390 h = image_height * scale + 0.5;
391 }
392 else
393 {
394 w = h_scale * target_width / 100;
395 h = v_scale * target_height / 100;
396 }
397
398 if (!w) w = image_width;
399 if (!h) h = image_height;
400
401 if (flags & rootAlign)
402 {
403 x = -target_x;
404 y = -target_y;
405 }
406 else
407 {
408 x = make_align_position (h_align, target_width, w);
409 y = make_align_position (v_align, target_height, h);
410 }
411
412 flags &= ~sizeSensitive;
413 if ((flags & propScale) || h_scale || v_scale
414 || (!(flags & rootAlign) && (h_align || v_align))
415 || w > target_width || h > target_height)
416 flags |= sizeSensitive;
449} 417}
450 418
451# ifdef HAVE_AFTERIMAGE 419# ifdef HAVE_AFTERIMAGE
452bool 420bool
453bgPixmap_t::render_asim (unsigned long background_flags) 421bgPixmap_t::render_image (unsigned long background_flags)
454{ 422{
455 if (target == NULL) 423 if (target == NULL)
456 return false; 424 return false;
457 425
458 target->init_asv (); 426 target->init_asv ();
465 background = pixmap2ximage (target->asv, pixmap, 0, 0, pmap_width, pmap_height, AllPlanes, 100); 433 background = pixmap2ximage (target->asv, pixmap, 0, 0, pmap_width, pmap_height, AllPlanes, 100);
466 434
467 if (!(background_flags & transpPmapTinted) && (flags & tintNeeded)) 435 if (!(background_flags & transpPmapTinted) && (flags & tintNeeded))
468 { 436 {
469 ShadingInfo as_shade; 437 ShadingInfo as_shade;
470 as_shade.shading = (shade == 0) ? 100 : shade; 438 as_shade.shading = shade;
471 439
472 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC); 440 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC);
473 if (flags & tintSet) 441 if (flags & tintSet)
474 tint.get (c); 442 tint.get (c);
475 as_shade.tintColor.red = c.r; 443 as_shade.tintColor.red = c.r;
477 as_shade.tintColor.blue = c.b; 445 as_shade.tintColor.blue = c.b;
478 446
479 background_tint = shading2tint32 (&as_shade); 447 background_tint = shading2tint32 (&as_shade);
480 } 448 }
481 449
482 if (!(background_flags & transpPmapBlured) && (flags & blurNeeded) && background != NULL) 450 if (!(background_flags & transpPmapBlurred) && (flags & blurNeeded) && background != NULL)
483 { 451 {
484 ASImage *tmp = blur_asimage_gauss (target->asv, background, h_blurRadius, v_blurRadius, 0xFFFFFFFF, 452 ASImage *tmp = blur_asimage_gauss (target->asv, background, h_blurRadius, v_blurRadius, 0xFFFFFFFF,
485 (original_asim == NULL || tint == TINT_LEAVE_SAME)?ASA_XImage:ASA_ASImage, 453 (original_asim == NULL || tint == TINT_LEAVE_SAME) ? ASA_XImage : ASA_ASImage,
486 100, ASIMAGE_QUALITY_DEFAULT); 454 100, ASIMAGE_QUALITY_DEFAULT);
487 if (tmp) 455 if (tmp)
488 { 456 {
489 destroy_asimage (&background); 457 destroy_asimage (&background);
490 background = tmp; 458 background = tmp;
499 int new_pmap_width = target_width; 467 int new_pmap_width = target_width;
500 int new_pmap_height = target_height; 468 int new_pmap_height = target_height;
501 469
502 int x = 0; 470 int x = 0;
503 int y = 0; 471 int y = 0;
504 int w = h_scale * target_width / 100; 472 int w = 0;
505 int h = v_scale * target_height / 100; 473 int h = 0;
506
507 TIMING_TEST_START (asim);
508 474
509 if (original_asim) 475 if (original_asim)
510 { 476 get_image_geometry (original_asim->width, original_asim->height, w, h, x, y);
511 if (h_align == rootAlign || v_align == rootAlign)
512 {
513 target->get_window_origin(x, y);
514 x = -x;
515 y = -y;
516 }
517
518 if (h_align != rootAlign)
519 x = make_align_position (h_align, target_width, w > 0 ? w : (int)original_asim->width);
520
521 if (v_align != rootAlign)
522 y = make_align_position (v_align, target_height, h > 0 ? h : (int)original_asim->height);
523 }
524 477
525 if (!original_asim 478 if (!original_asim
479 || (!(flags & rootAlign)
526 || x >= target_width 480 && (x >= target_width
527 || y >= target_height 481 || y >= target_height
528 || (w > 0 && x + w <= 0) 482 || (x + w <= 0)
529 || (h > 0 && y + h <= 0)) 483 || (y + h <= 0))))
530 { 484 {
531 if (background) 485 if (background)
532 { 486 {
533 new_pmap_width = background->width; 487 new_pmap_width = background->width;
534 new_pmap_height = background->height; 488 new_pmap_height = background->height;
548 } 502 }
549 else 503 else
550 { 504 {
551 result = original_asim; 505 result = original_asim;
552 506
553 if ((w > 0 && w != original_asim->width) 507 if ((w != original_asim->width)
554 || (h > 0 && h != original_asim->height)) 508 || (h != original_asim->height))
555 { 509 {
556 result = scale_asimage (target->asv, original_asim, 510 result = scale_asimage (target->asv, original_asim,
557 w > 0 ? w : original_asim->width, 511 w, h,
558 h > 0 ? h : original_asim->height,
559 background ? ASA_ASImage : ASA_XImage, 512 background ? ASA_ASImage : ASA_XImage,
560 100, ASIMAGE_QUALITY_DEFAULT); 513 100, ASIMAGE_QUALITY_DEFAULT);
561 } 514 }
562 515
563 if (background == NULL) 516 if (background == NULL)
564 { 517 {
565 /* if tiling - pixmap has to be sized exactly as the image,
566 but there is no need to make it bigger than the window! */
567 if (h_scale == 0)
568 new_pmap_width = min (result->width, target_width);
569 if (v_scale == 0)
570 new_pmap_height = min (result->height, target_height);
571 /* we also need to tile our image in one or both directions */
572 if (h_scale == 0 || v_scale == 0) 518 if (h_scale == 0 || v_scale == 0)
573 { 519 {
520 /* if tiling - pixmap has to be sized exactly as the image,
521 but there is no need to make it bigger than the window! */
522 new_pmap_width = min (result->width, target_width);
523 new_pmap_height = min (result->height, target_height);
524
525 /* we also need to tile our image in both directions */
574 ASImage *tmp = tile_asimage (target->asv, result, 526 ASImage *tmp = tile_asimage (target->asv, result,
575 (h_scale > 0) ? 0 : (int)result->width - x, 527 (int)result->width - x,
576 (v_scale > 0) ? 0 : (int)result->height - y, 528 (int)result->height - y,
577 new_pmap_width, 529 new_pmap_width,
578 new_pmap_height, 530 new_pmap_height,
579 TINT_LEAVE_SAME, ASA_XImage, 531 TINT_LEAVE_SAME, ASA_XImage,
580 100, ASIMAGE_QUALITY_DEFAULT); 532 100, ASIMAGE_QUALITY_DEFAULT);
581 if (tmp) 533 if (tmp)
596 layers[0].clip_width = target_width; 548 layers[0].clip_width = target_width;
597 layers[0].clip_height = target_height; 549 layers[0].clip_height = target_height;
598 layers[0].tint = background_tint; 550 layers[0].tint = background_tint;
599 layers[1].im = result; 551 layers[1].im = result;
600 552
601 if (w <= 0) 553 if (h_scale == 0 || v_scale == 0)
602 { 554 {
603 /* tile horizontally */ 555 /* tile horizontally */
604 while (x > 0) x -= (int)result->width; 556 while (x > 0) x -= (int)result->width;
605 layers[1].dst_x = x; 557 layers[1].dst_x = x;
606 layers[1].clip_width = result->width+target_width; 558 layers[1].clip_width = result->width+target_width;
610 /* clip horizontally */ 562 /* clip horizontally */
611 layers[1].dst_x = x; 563 layers[1].dst_x = x;
612 layers[1].clip_width = result->width; 564 layers[1].clip_width = result->width;
613 } 565 }
614 566
615 if (h <= 0) 567 if (h_scale == 0 || v_scale == 0)
616 { 568 {
617 while (y > 0) y -= (int)result->height; 569 while (y > 0) y -= (int)result->height;
618 layers[1].dst_y = y; 570 layers[1].dst_y = y;
619 layers[1].clip_height = result->height + target_height; 571 layers[1].clip_height = result->height + target_height;
620 } 572 }
643 } 595 }
644 596
645 free (layers); 597 free (layers);
646 } 598 }
647 } 599 }
648 TIMING_TEST_PRINT_RESULT (asim);
649 600
650 if (pixmap) 601 bool ret = false;
602
603 if (result)
651 { 604 {
652 if (result == NULL 605 XGCValues gcv;
606 GC gc;
607
608 /* create Pixmap */
609 if (pixmap == None
653 || pmap_width != new_pmap_width 610 || pmap_width != new_pmap_width
654 || pmap_height != new_pmap_height 611 || pmap_height != new_pmap_height
655 || pmap_depth != target->depth) 612 || pmap_depth != target->depth)
656 { 613 {
614 if (pixmap)
657 XFreePixmap (target->dpy, pixmap); 615 XFreePixmap (target->dpy, pixmap);
658 pixmap = None;
659 }
660 }
661
662 if (result)
663 {
664 XGCValues gcv;
665 GC gc;
666
667 /* create Pixmap */
668 if (pixmap == None)
669 {
670 pixmap = XCreatePixmap (target->dpy, target->vt, new_pmap_width, new_pmap_height, target->depth); 616 pixmap = XCreatePixmap (target->dpy, target->vt, new_pmap_width, new_pmap_height, target->depth);
671 pmap_width = new_pmap_width; 617 pmap_width = new_pmap_width;
672 pmap_height = new_pmap_height; 618 pmap_height = new_pmap_height;
673 pmap_depth = target->depth; 619 pmap_depth = target->depth;
674 } 620 }
675 /* fill with background color ( if result's not completely overlapping it)*/ 621 /* fill with background color (if result's not completely overlapping it) */
676 gcv.foreground = target->pix_colors[Color_bg]; 622 gcv.foreground = target->pix_colors[Color_bg];
677 gc = XCreateGC (target->dpy, target->vt, GCForeground, &gcv); 623 gc = XCreateGC (target->dpy, target->vt, GCForeground, &gcv);
678 624
679 int src_x = 0, src_y = 0, dst_x = 0, dst_y = 0; 625 int src_x = 0, src_y = 0, dst_x = 0, dst_y = 0;
680 int dst_width = result->width, dst_height = result->height; 626 int dst_width = result->width, dst_height = result->height;
681 if (background == NULL) 627 if (background == NULL)
682 { 628 {
629 if (!(h_scale == 0 || v_scale == 0))
630 {
683 if (h_scale > 0) src_x = make_clip_rectangle (x, result->width , new_pmap_width , dst_x, dst_width ); 631 src_x = make_clip_rectangle (x, result->width , new_pmap_width , dst_x, dst_width );
684 if (v_scale > 0) src_y = make_clip_rectangle (y, result->height, new_pmap_height, dst_y, dst_height); 632 src_y = make_clip_rectangle (y, result->height, new_pmap_height, dst_y, dst_height);
633 }
685 634
686 if (dst_x > 0 || dst_y > 0 635 if (dst_x > 0 || dst_y > 0
687 || dst_x + dst_width < new_pmap_width 636 || dst_x + dst_width < new_pmap_width
688 || dst_y + dst_height < new_pmap_height) 637 || dst_y + dst_height < new_pmap_height)
689 XFillRectangle (target->dpy, pixmap, gc, 0, 0, new_pmap_width, new_pmap_height); 638 XFillRectangle (target->dpy, pixmap, gc, 0, 0, new_pmap_width, new_pmap_height);
695 644
696 if (result != background && result != original_asim) 645 if (result != background && result != original_asim)
697 destroy_asimage (&result); 646 destroy_asimage (&result);
698 647
699 XFreeGC (target->dpy, gc); 648 XFreeGC (target->dpy, gc);
700 TIMING_TEST_PRINT_RESULT (asim); 649
650 ret = true;
701 } 651 }
702 652
703 if (background) 653 if (background)
704 destroy_asimage (&background); 654 destroy_asimage (&background);
705 655
706 return true; 656 return ret;
707} 657}
708# endif /* HAVE_AFTERIMAGE */ 658# endif /* HAVE_AFTERIMAGE */
659
660# ifdef HAVE_PIXBUF
661bool
662bgPixmap_t::render_image (unsigned long background_flags)
663{
664 if (target == NULL)
665 return false;
666
667 if (!pixbuf)
668 return false;
669
670 if (background_flags
671 && !(flags & HAS_RENDER))
672 return false;
673
674 GdkPixbuf *result;
675
676 int image_width = gdk_pixbuf_get_width (pixbuf);
677 int image_height = gdk_pixbuf_get_height (pixbuf);
678
679 int target_width = target->szHint.width;
680 int target_height = target->szHint.height;
681 int new_pmap_width = target_width;
682 int new_pmap_height = target_height;
683
684 int x = 0;
685 int y = 0;
686 int w = 0;
687 int h = 0;
688
689 get_image_geometry (image_width, image_height, w, h, x, y);
690
691 if (!(flags & rootAlign)
692 && (x >= target_width
693 || y >= target_height
694 || (x + w <= 0)
695 || (y + h <= 0)))
696 return false;
697
698 result = pixbuf;
699
700 if ((w != image_width)
701 || (h != image_height))
702 {
703 result = gdk_pixbuf_scale_simple (pixbuf,
704 w, h,
705 GDK_INTERP_BILINEAR);
706 }
707
708 bool ret = false;
709
710 if (result)
711 {
712 XGCValues gcv;
713 GC gc;
714 Pixmap root_pmap;
715
716 image_width = gdk_pixbuf_get_width (result);
717 image_height = gdk_pixbuf_get_height (result);
718
719 if (background_flags)
720 {
721 root_pmap = pixmap;
722 pixmap = None;
723 }
724 else
725 {
726 if (h_scale == 0 || v_scale == 0)
727 {
728 new_pmap_width = min (image_width, target_width);
729 new_pmap_height = min (image_height, target_height);
730 }
731 }
732
733 if (pixmap == None
734 || pmap_width != new_pmap_width
735 || pmap_height != new_pmap_height
736 || pmap_depth != target->depth)
737 {
738 if (pixmap)
739 XFreePixmap (target->dpy, pixmap);
740 pixmap = XCreatePixmap (target->dpy, target->vt, new_pmap_width, new_pmap_height, target->depth);
741 pmap_width = new_pmap_width;
742 pmap_height = new_pmap_height;
743 pmap_depth = target->depth;
744 }
745
746 gcv.foreground = target->pix_colors[Color_bg];
747 gc = XCreateGC (target->dpy, target->vt, GCForeground, &gcv);
748
749 if (h_scale == 0 || v_scale == 0)
750 {
751 Pixmap tile = XCreatePixmap (target->dpy, target->vt, image_width, image_height, target->depth);
752 gdk_pixbuf_xlib_render_to_drawable (result, tile, gc,
753 0, 0,
754 0, 0,
755 image_width, image_height,
756 XLIB_RGB_DITHER_NONE,
757 0, 0);
758
759 gcv.tile = tile;
760 gcv.fill_style = FillTiled;
761 gcv.ts_x_origin = x;
762 gcv.ts_y_origin = y;
763 XChangeGC (target->dpy, gc, GCFillStyle | GCTile | GCTileStipXOrigin | GCTileStipYOrigin, &gcv);
764
765 XFillRectangle (target->dpy, pixmap, gc, 0, 0, new_pmap_width, new_pmap_height);
766 XFreePixmap (target->dpy, tile);
767 }
768 else
769 {
770 int src_x, src_y, dst_x, dst_y;
771 int dst_width, dst_height;
772
773 src_x = make_clip_rectangle (x, image_width , new_pmap_width , dst_x, dst_width );
774 src_y = make_clip_rectangle (y, image_height, new_pmap_height, dst_y, dst_height);
775
776 if (dst_x > 0 || dst_y > 0
777 || dst_x + dst_width < new_pmap_width
778 || dst_y + dst_height < new_pmap_height)
779 XFillRectangle (target->dpy, pixmap, gc, 0, 0, new_pmap_width, new_pmap_height);
780
781 if (dst_x < new_pmap_width && dst_y < new_pmap_height)
782 gdk_pixbuf_xlib_render_to_drawable (result, pixmap, gc,
783 src_x, src_y,
784 dst_x, dst_y,
785 dst_width, dst_height,
786 XLIB_RGB_DITHER_NONE,
787 0, 0);
788 }
789
790#if XRENDER
791 if (background_flags)
792 {
793 Display *dpy = target->dpy;
794 XRenderPictureAttributes pa;
795
796 XRenderPictFormat *src_format = XRenderFindVisualFormat (dpy, target->visual);
797 Picture src = XRenderCreatePicture (dpy, root_pmap, src_format, 0, &pa);
798
799 XRenderPictFormat *dst_format = XRenderFindVisualFormat (dpy, target->visual);
800 Picture dst = XRenderCreatePicture (dpy, pixmap, dst_format, 0, &pa);
801
802 pa.repeat = True;
803 Pixmap mask_pmap = XCreatePixmap (dpy, target->vt, 1, 1, 8);
804 XRenderPictFormat *mask_format = XRenderFindStandardFormat (dpy, PictStandardA8);
805 Picture mask = XRenderCreatePicture (dpy, mask_pmap, mask_format, CPRepeat, &pa);
806 XFreePixmap (dpy, mask_pmap);
807
808 if (src && dst && mask)
809 {
810 XRenderColor mask_c;
811
812 mask_c.alpha = 0x8000;
813 mask_c.red = 0;
814 mask_c.green = 0;
815 mask_c.blue = 0;
816 XRenderFillRectangle (dpy, PictOpSrc, mask, &mask_c, 0, 0, 1, 1);
817 XRenderComposite (dpy, PictOpOver, src, mask, dst, 0, 0, 0, 0, 0, 0, target_width, target_height);
818 }
819
820 XRenderFreePicture (dpy, src);
821 XRenderFreePicture (dpy, dst);
822 XRenderFreePicture (dpy, mask);
823
824 XFreePixmap (dpy, root_pmap);
825 }
826#endif
827
828 if (result != pixbuf)
829 g_object_unref (result);
830
831 XFreeGC (target->dpy, gc);
832
833 ret = true;
834 }
835
836 return ret;
837}
838# endif /* HAVE_PIXBUF */
709 839
710bool 840bool
711bgPixmap_t::set_file (const char *file) 841bgPixmap_t::set_file (const char *file)
712{ 842{
713 assert (file); 843 if (!file || !*file)
844 return false;
714 845
715 if (*file)
716 {
717 if (const char *p = strchr (file, ';')) 846 if (const char *p = strchr (file, ';'))
718 { 847 {
719 size_t len = p - file; 848 size_t len = p - file;
720 char *f = rxvt_temp_buf<char> (len + 1); 849 char *f = rxvt_temp_buf<char> (len + 1);
721 memcpy (f, file, len); 850 memcpy (f, file, len);
722 f[len] = '\0'; 851 f[len] = '\0';
723 file = f; 852 file = f;
724 } 853 }
725 854
726# ifdef HAVE_AFTERIMAGE 855# ifdef HAVE_AFTERIMAGE
727 if (!target->asimman) 856 if (!target->asimman)
728 target->asimman = create_generic_imageman (target->rs[Rs_path]); 857 target->asimman = create_generic_imageman (target->rs[Rs_path]);
729 original_asim = get_asimage (target->asimman, file, 0xFFFFFFFF, 100); 858 ASImage *image = get_asimage (target->asimman, file, 0xFFFFFFFF, 100);
730 return original_asim; 859 if (image)
860 {
861 if (original_asim)
862 safe_asimage_destroy (original_asim);
863 original_asim = image;
864 have_image = true;
865 return true;
866 }
731# endif 867# endif
868
869# ifdef HAVE_PIXBUF
870 GdkPixbuf *image = gdk_pixbuf_new_from_file (file, NULL);
871 if (image)
732 } 872 {
873 if (pixbuf)
874 g_object_unref (pixbuf);
875 pixbuf = image;
876 have_image = true;
877 return true;
878 }
879# endif
733 880
734 return false; 881 return false;
735} 882}
736 883
737# endif /* BG_IMAGE_FROM_FILE */ 884# endif /* BG_IMAGE_FROM_FILE */
750} 897}
751 898
752bool 899bool
753bgPixmap_t::set_blur_radius (const char *geom) 900bgPixmap_t::set_blur_radius (const char *geom)
754{ 901{
755 int changed = 0; 902 bool changed = false;
756 unsigned int hr, vr; 903 unsigned int hr, vr;
757 int junk; 904 int junk;
758 int geom_flags = XParseGeometry (geom, &junk, &junk, &hr, &vr); 905 int geom_flags = XParseGeometry (geom, &junk, &junk, &hr, &vr);
759 906
760 if (!(geom_flags&WidthValue)) 907 if (!(geom_flags & WidthValue))
761 hr = 1; 908 hr = 1;
762 if (!(geom_flags&HeightValue)) 909 if (!(geom_flags & HeightValue))
763 vr = hr; 910 vr = hr;
764 911
912 min_it (hr, 128);
913 min_it (vr, 128);
914
765 if (h_blurRadius != hr) 915 if (h_blurRadius != hr)
766 { 916 {
767 ++changed; 917 changed = true;
768 h_blurRadius = hr; 918 h_blurRadius = hr;
769 } 919 }
770 920
771 if (v_blurRadius != vr) 921 if (v_blurRadius != vr)
772 { 922 {
773 ++changed; 923 changed = true;
774 v_blurRadius = vr; 924 v_blurRadius = vr;
775 } 925 }
776 926
777 if (v_blurRadius == 0 && h_blurRadius == 0) 927 if (v_blurRadius == 0 && h_blurRadius == 0)
778 flags &= ~blurNeeded; 928 flags &= ~blurNeeded;
779 else 929 else
780 flags |= blurNeeded; 930 flags |= blurNeeded;
781 931
782 return (changed>0); 932 return changed;
783} 933}
784 934
785static inline unsigned long 935static inline unsigned long
786compute_tint_shade_flags (rxvt_color *tint, int shade) 936compute_tint_shade_flags (rxvt_color *tint, int shade)
787{ 937{
788 unsigned long flags = 0; 938 unsigned long flags = 0;
789 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC); 939 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC);
790 bool has_shade = (shade > 0 && shade < 100) || (shade > 100 && shade < 200); 940 bool has_shade = shade != 100;
791 941
792 if (tint) 942 if (tint)
793 { 943 {
794 tint->get (c); 944 tint->get (c);
795# define IS_COMPONENT_WHOLESOME(cmp) ((cmp) <= 0x000700 || (cmp) >= 0x00f700) 945# define IS_COMPONENT_WHOLESOME(cmp) ((cmp) <= 0x00ff || (cmp) >= 0xff00)
946 if (!has_shade
796 if (!has_shade && IS_COMPONENT_WHOLESOME (c.r) 947 && IS_COMPONENT_WHOLESOME (c.r)
797 && IS_COMPONENT_WHOLESOME (c.g) 948 && IS_COMPONENT_WHOLESOME (c.g)
798 && IS_COMPONENT_WHOLESOME (c.b)) 949 && IS_COMPONENT_WHOLESOME (c.b))
799 flags |= bgPixmap_t::tintWholesome; 950 flags |= bgPixmap_t::tintWholesome;
800# undef IS_COMPONENT_WHOLESOME 951# undef IS_COMPONENT_WHOLESOME
801 } 952 }
802 953
803 if (has_shade) 954 if (has_shade || tint)
804 flags |= bgPixmap_t::tintNeeded; 955 flags |= bgPixmap_t::tintNeeded;
805 else if (tint)
806 {
807 if ((c.r > 0x000700 || c.g > 0x000700 || c.b > 0x000700)
808 && (c.r < 0x00f700 || c.g < 0x00f700 || c.b < 0x00f700))
809 {
810 flags |= bgPixmap_t::tintNeeded;
811 }
812 }
813
814 if (flags & bgPixmap_t::tintNeeded)
815 {
816 if (flags & bgPixmap_t::tintWholesome)
817 flags |= bgPixmap_t::tintServerSide;
818 else
819 {
820#if XFT
821 flags |= bgPixmap_t::tintServerSide;
822#endif
823 }
824 }
825 956
826 return flags; 957 return flags;
827} 958}
828 959
829bool 960bool
830bgPixmap_t::set_tint (rxvt_color &new_tint) 961bgPixmap_t::set_tint (rxvt_color &new_tint)
831{ 962{
832 if (tint != new_tint) 963 if (!(flags & tintSet) || tint != new_tint)
833 { 964 {
834 unsigned long new_flags = compute_tint_shade_flags (&new_tint, shade); 965 unsigned long new_flags = compute_tint_shade_flags (&new_tint, shade);
835 tint = new_tint; 966 tint = new_tint;
836 flags = (flags & ~tintFlags) | new_flags | tintSet; 967 flags = (flags & ~tintFlags) | new_flags | tintSet;
837 return true; 968 return true;
845{ 976{
846 unsigned long new_flags = compute_tint_shade_flags (NULL, shade); 977 unsigned long new_flags = compute_tint_shade_flags (NULL, shade);
847 978
848 if (new_flags != (flags & tintFlags)) 979 if (new_flags != (flags & tintFlags))
849 { 980 {
850 flags = (flags&~tintFlags)|new_flags; 981 flags = (flags & ~tintFlags) | new_flags;
851 return true; 982 return true;
852 } 983 }
853 984
854 return false; 985 return false;
855} 986}
856 987
857bool 988bool
858bgPixmap_t::set_shade (const char *shade_str) 989bgPixmap_t::set_shade (const char *shade_str)
859{ 990{
860 int new_shade = (shade_str) ? atoi (shade_str) : 0; 991 int new_shade = (shade_str) ? atoi (shade_str) : 100;
861 992
862 if (new_shade < 0 && new_shade > -100) 993 clamp_it (new_shade, -100, 200);
994 if (new_shade < 0)
863 new_shade = 200 - (100 + new_shade); 995 new_shade = 200 - (100 + new_shade);
864 else if (new_shade == 100)
865 new_shade = 0;
866 996
867 if (new_shade != shade) 997 if (new_shade != shade)
868 { 998 {
869 unsigned long new_flags = compute_tint_shade_flags ((flags & tintSet) ? &tint : NULL, new_shade); 999 unsigned long new_flags = compute_tint_shade_flags ((flags & tintSet) ? &tint : NULL, new_shade);
870 shade = new_shade; 1000 shade = new_shade;
873 } 1003 }
874 1004
875 return false; 1005 return false;
876} 1006}
877 1007
1008#if XRENDER
1009static void
1010get_gaussian_kernel (int radius, int width, double *kernel, XFixed *params)
1011{
1012 double sigma = radius / 2.0;
1013 double scale = sqrt (2.0 * M_PI) * sigma;
1014 double sum = 0.0;
1015
1016 for (int i = 0; i < width; i++)
1017 {
1018 double x = i - width / 2;
1019 kernel[i] = exp (-(x * x) / (2.0 * sigma * sigma)) / scale;
1020 sum += kernel[i];
1021 }
1022
1023 params[0] = XDoubleToFixed (width);
1024 params[1] = XDoubleToFixed (1);
1025
1026 for (int i = 0; i < width; i++)
1027 params[i+2] = XDoubleToFixed (kernel[i] / sum);
1028}
1029#endif
1030
1031bool
1032bgPixmap_t::blur_pixmap (Pixmap pixmap, Visual *visual, int width, int height)
1033{
1034 bool ret = false;
1035#if XRENDER
1036 int size = max (h_blurRadius, v_blurRadius) * 2 + 1;
1037 double *kernel = (double *)malloc (size * sizeof (double));
1038 XFixed *params = (XFixed *)malloc ((size + 2) * sizeof (XFixed));
1039
1040 Display *dpy = target->dpy;
1041 XRenderPictureAttributes pa;
1042 XRenderPictFormat *format = XRenderFindVisualFormat (dpy, visual);
1043
1044 Picture src = XRenderCreatePicture (dpy, pixmap, format, 0, &pa);
1045 Picture dst = XRenderCreatePicture (dpy, pixmap, format, 0, &pa);
1046
1047 if (kernel && params && src && dst)
1048 {
1049 if (h_blurRadius)
1050 {
1051 size = h_blurRadius * 2 + 1;
1052 get_gaussian_kernel (h_blurRadius, size, kernel, params);
1053
1054 XRenderSetPictureFilter (dpy, src, FilterConvolution, params, size+2);
1055 XRenderComposite (dpy,
1056 PictOpSrc,
1057 src,
1058 None,
1059 dst,
1060 0, 0,
1061 0, 0,
1062 0, 0,
1063 width, height);
1064 }
1065
1066 if (v_blurRadius)
1067 {
1068 size = v_blurRadius * 2 + 1;
1069 get_gaussian_kernel (v_blurRadius, size, kernel, params);
1070 swap (params[0], params[1]);
1071
1072 XRenderSetPictureFilter (dpy, src, FilterConvolution, params, size+2);
1073 XRenderComposite (dpy,
1074 PictOpSrc,
1075 src,
1076 None,
1077 dst,
1078 0, 0,
1079 0, 0,
1080 0, 0,
1081 width, height);
1082 }
1083
1084 ret = true;
1085 }
1086
1087 free (kernel);
1088 free (params);
1089 XRenderFreePicture (dpy, src);
1090 XRenderFreePicture (dpy, dst);
1091#endif
1092 return ret;
1093}
1094
1095bool
1096bgPixmap_t::tint_pixmap (Pixmap pixmap, Visual *visual, int width, int height)
1097{
1098 Display *dpy = target->dpy;
1099 bool ret = false;
1100
1101 if (flags & tintWholesome)
1102 {
1103 XGCValues gcv;
1104 GC gc;
1105
1106 /* In this case we can tint image server-side getting significant
1107 * performance improvements, as we eliminate XImage transfer
1108 */
1109 gcv.foreground = Pixel (tint);
1110 gcv.function = GXand;
1111 gcv.fill_style = FillSolid;
1112 gc = XCreateGC (dpy, pixmap, GCFillStyle | GCForeground | GCFunction, &gcv);
1113 if (gc)
1114 {
1115 XFillRectangle (dpy, pixmap, gc, 0, 0, width, height);
1116 ret = true;
1117 XFreeGC (dpy, gc);
1118 }
1119 }
1120 else
1121 {
1122# if XRENDER
1123 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC);
1124
1125 if (flags & tintSet)
1126 tint.get (c);
1127
1128 if (shade <= 100)
1129 {
1130 c.r = (c.r * shade) / 100;
1131 c.g = (c.g * shade) / 100;
1132 c.b = (c.b * shade) / 100;
1133 }
1134 else
1135 {
1136 c.r = (c.r * (200 - shade)) / 100;
1137 c.g = (c.g * (200 - shade)) / 100;
1138 c.b = (c.b * (200 - shade)) / 100;
1139 }
1140
1141 XRenderPictFormat *solid_format = XRenderFindStandardFormat (dpy, PictStandardARGB32);
1142 XRenderPictFormat *format = XRenderFindVisualFormat (dpy, visual);
1143 XRenderPictureAttributes pa;
1144
1145 Picture back_pic = XRenderCreatePicture (dpy, pixmap, format, 0, &pa);
1146
1147 pa.repeat = True;
1148
1149 Pixmap overlay_pmap = XCreatePixmap (dpy, pixmap, 1, 1, 32);
1150 Picture overlay_pic = XRenderCreatePicture (dpy, overlay_pmap, solid_format, CPRepeat, &pa);
1151 XFreePixmap (dpy, overlay_pmap);
1152
1153 pa.component_alpha = True;
1154 Pixmap mask_pmap = XCreatePixmap (dpy, pixmap, 1, 1, 32);
1155 Picture mask_pic = XRenderCreatePicture (dpy, mask_pmap, solid_format, CPRepeat|CPComponentAlpha, &pa);
1156 XFreePixmap (dpy, mask_pmap);
1157
1158 if (mask_pic && overlay_pic && back_pic)
1159 {
1160 XRenderColor mask_c;
1161
1162 mask_c.red = mask_c.green = mask_c.blue = 0;
1163 mask_c.alpha = 0xffff;
1164 XRenderFillRectangle (dpy, PictOpSrc, overlay_pic, &mask_c, 0, 0, 1, 1);
1165
1166 mask_c.alpha = 0;
1167 mask_c.red = 0xffff - c.r;
1168 mask_c.green = 0xffff - c.g;
1169 mask_c.blue = 0xffff - c.b;
1170 XRenderFillRectangle (dpy, PictOpSrc, mask_pic, &mask_c, 0, 0, 1, 1);
1171 XRenderComposite (dpy, PictOpOver, overlay_pic, mask_pic, back_pic, 0, 0, 0, 0, 0, 0, width, height);
1172
1173 if (shade > 100)
1174 {
1175 mask_c.red = mask_c.green = mask_c.blue = 0xffff * (shade - 100) / 100;
1176 mask_c.alpha = 0;
1177 XRenderFillRectangle (dpy, PictOpSrc, overlay_pic, &mask_c, 0, 0, 1, 1);
1178
1179 XRenderComposite (dpy, PictOpOver, overlay_pic, None, back_pic, 0, 0, 0, 0, 0, 0, width, height);
1180 }
1181
1182 ret = true;
1183 }
1184
1185 XRenderFreePicture (dpy, mask_pic);
1186 XRenderFreePicture (dpy, overlay_pic);
1187 XRenderFreePicture (dpy, back_pic);
1188# endif
1189 }
1190
1191 return ret;
1192}
1193
878/* make_transparency_pixmap() 1194/* make_transparency_pixmap()
879 * Builds a pixmap sized the same as terminal window, with depth same as the root window 1195 * Builds a pixmap of the same size as the terminal window that contains
880 * that pixmap contains tiled portion of the root pixmap that is supposed to be covered by 1196 * the tiled portion of the root pixmap that is supposed to be covered by
881 * our window. 1197 * our window.
882 */ 1198 */
883unsigned long 1199unsigned long
884bgPixmap_t::make_transparency_pixmap () 1200bgPixmap_t::make_transparency_pixmap ()
885{ 1201{
889 return 0; 1205 return 0;
890 1206
891 /* root dimensions may change from call to call - but Display structure should 1207 /* root dimensions may change from call to call - but Display structure should
892 * be always up-to-date, so let's use it : 1208 * be always up-to-date, so let's use it :
893 */ 1209 */
894 Window root = target->display->root;
895 int screen = target->display->screen; 1210 int screen = target->display->screen;
896 Display *dpy = target->dpy; 1211 Display *dpy = target->dpy;
1212 int root_depth = DefaultDepth (dpy, screen);
897 int root_width = DisplayWidth (dpy, screen); 1213 int root_width = DisplayWidth (dpy, screen);
898 int root_height = DisplayHeight (dpy, screen); 1214 int root_height = DisplayHeight (dpy, screen);
899 unsigned int root_pmap_width, root_pmap_height; 1215 unsigned int root_pmap_width, root_pmap_height;
900 int window_width = target->szHint.width; 1216 int window_width = target->szHint.width;
901 int window_height = target->szHint.height; 1217 int window_height = target->szHint.height;
902 int sx, sy; 1218 int sx, sy;
903 XGCValues gcv; 1219 XGCValues gcv;
1220 GC gc;
904 1221
905 TIMING_TEST_START (tp); 1222 sx = target_x;
906 target->get_window_origin (sx, sy); 1223 sy = target_y;
907 1224
908 /* check if we are outside of the visible part of the virtual screen : */ 1225 /* check if we are outside of the visible part of the virtual screen : */
909 if (sx + window_width <= 0 || sy + window_height <= 0 1226 if (sx + window_width <= 0 || sy + window_height <= 0
910 || sx >= root_width || sy >= root_height) 1227 || sx >= root_width || sy >= root_height)
911 return 0; 1228 return 0;
912 1229
1230 // validate root pixmap and get its size
913 if (root_pixmap != None) 1231 if (root_pixmap != None)
914 { 1232 {
915 /* we want to validate the pixmap and get it's size at the same time : */ 1233 Window wdummy;
916 int junk; 1234 int idummy;
917 unsigned int ujunk; 1235 unsigned int udummy;
918 /* root pixmap may be bad - allow a error */ 1236
919 target->allowedxerror = -1; 1237 target->allowedxerror = -1;
920 1238
921 if (!XGetGeometry (dpy, root_pixmap, &root, &junk, &junk, &root_pmap_width, &root_pmap_height, &ujunk, &ujunk)) 1239 if (!XGetGeometry (dpy, root_pixmap, &wdummy, &idummy, &idummy, &root_pmap_width, &root_pmap_height, &udummy, &udummy))
922 root_pixmap = None; 1240 root_pixmap = None;
923 1241
924 target->allowedxerror = 0; 1242 target->allowedxerror = 0;
925 } 1243 }
926 1244
1245 Pixmap recoded_root_pmap = root_pixmap;
1246
1247 if (root_pixmap != None && root_depth != target->depth)
1248 {
1249#if XRENDER
1250 if (flags & HAS_RENDER)
1251 {
1252 XRenderPictureAttributes pa;
1253
1254 XRenderPictFormat *src_format = XRenderFindVisualFormat (dpy, DefaultVisual (dpy, screen));
1255 Picture src = XRenderCreatePicture (dpy, root_pixmap, src_format, 0, &pa);
1256
1257 recoded_root_pmap = XCreatePixmap (dpy, target->vt, root_pmap_width, root_pmap_height, target->depth);
1258 XRenderPictFormat *dst_format = XRenderFindVisualFormat (dpy, target->visual);
1259 Picture dst = XRenderCreatePicture (dpy, recoded_root_pmap, dst_format, 0, &pa);
1260
1261 if (src && dst)
1262 XRenderComposite (dpy, PictOpSrc, src, None, dst, 0, 0, 0, 0, 0, 0, root_pmap_width, root_pmap_height);
1263 else
1264 {
1265 XFreePixmap (dpy, recoded_root_pmap);
1266 root_pixmap = None;
1267 }
1268
1269 XRenderFreePicture (dpy, src);
1270 XRenderFreePicture (dpy, dst);
1271 }
1272 else
1273#endif
1274 root_pixmap = None;
1275 }
1276
1277 if (root_pixmap == None)
1278 return 0;
1279
927 Pixmap tiled_root_pmap = XCreatePixmap (dpy, root, window_width, window_height, root_depth); 1280 Pixmap tiled_root_pmap = XCreatePixmap (dpy, target->vt, window_width, window_height, target->depth);
928 GC gc = NULL;
929 1281
930 if (tiled_root_pmap == None) /* something really bad happened - abort */ 1282 if (tiled_root_pmap == None) /* something really bad happened - abort */
931 return 0; 1283 return 0;
932 1284
933 if (root_pixmap == None)
934 {
935 /* use tricks to obtain the root background image :*/
936 /* we want to create Overrideredirect window overlapping out window
937 with background type of Parent Relative and then grab it */
938 XSetWindowAttributes attr;
939 Window src;
940 bool success = false;
941
942 attr.background_pixmap = ParentRelative;
943 attr.backing_store = Always;
944 attr.event_mask = ExposureMask;
945 attr.override_redirect = True;
946 src = XCreateWindow (dpy, root, sx, sy, window_width, window_height, 0,
947 CopyFromParent, CopyFromParent, CopyFromParent,
948 CWBackPixmap|CWBackingStore|CWOverrideRedirect|CWEventMask,
949 &attr);
950
951 if (src != None)
952 {
953 XEvent event;
954 int ev_count = 0;
955 XGrabServer (dpy);
956 XMapRaised (dpy, src);
957 XSync (dpy, False);
958
959 /* XSync should get window where it's properly exposed,
960 * but to be on the safe side - let's check for the actual event to arrive : */
961 while (XCheckWindowEvent (dpy, src, ExposureMask, &event))
962 ++ev_count;
963
964 if (ev_count > 0);
965 {
966 /* hooray! - we can grab the image! */
967 gc = XCreateGC (dpy, root, 0, NULL);
968 if (gc)
969 {
970 XCopyArea (dpy, src, tiled_root_pmap, gc, 0, 0, window_width, window_height, 0, 0);
971 success = true;
972 }
973 }
974
975 XDestroyWindow (dpy, src);
976 XUngrabServer (dpy);
977 //fprintf (stderr, "%s:%d: ev_count = %d\n", __FUNCTION__, __LINE__, ev_count);
978 }
979
980 if (!success)
981 {
982 XFreePixmap (dpy, tiled_root_pmap);
983 tiled_root_pmap = None;
984 }
985 else
986 result |= transpPmapTiled;
987 }
988 else
989 {
990 /* straightforward pixmap copy */ 1285 /* straightforward pixmap copy */
991 gcv.tile = root_pixmap;
992 gcv.fill_style = FillTiled;
993
994 while (sx < 0) sx += (int)root_width; 1286 while (sx < 0) sx += (int)root_width;
995 while (sy < 0) sy += (int)root_height; 1287 while (sy < 0) sy += (int)root_height;
996 1288
1289 gcv.tile = recoded_root_pmap;
1290 gcv.fill_style = FillTiled;
997 gcv.ts_x_origin = -sx; 1291 gcv.ts_x_origin = -sx;
998 gcv.ts_y_origin = -sy; 1292 gcv.ts_y_origin = -sy;
999 gc = XCreateGC (dpy, root, GCFillStyle | GCTile | GCTileStipXOrigin | GCTileStipYOrigin, &gcv); 1293 gc = XCreateGC (dpy, target->vt, GCFillStyle | GCTile | GCTileStipXOrigin | GCTileStipYOrigin, &gcv);
1000 1294
1001 if (gc) 1295 if (gc)
1002 { 1296 {
1003 XFillRectangle (dpy, tiled_root_pmap, gc, 0, 0, window_width, window_height); 1297 XFillRectangle (dpy, tiled_root_pmap, gc, 0, 0, window_width, window_height);
1004 result |= transpPmapTiled; 1298 result |= transpPmapTiled;
1005 } 1299 XFreeGC (dpy, gc);
1006 }
1007 TIMING_TEST_PRINT_RESULT (tp);
1008 1300
1009 if (tiled_root_pmap != None)
1010 {
1011 if (!need_client_side_rendering ()) 1301 if (!need_client_side_rendering ())
1012 { 1302 {
1303 if ((flags & blurNeeded)
1304 && (flags & HAS_RENDER_CONV))
1305 {
1306 if (blur_pixmap (tiled_root_pmap, target->visual, window_width, window_height))
1307 result |= transpPmapBlurred;
1308 }
1013 if ((flags & tintNeeded)) 1309 if ((flags & tintNeeded)
1014 {
1015 if (flags & tintWholesome) 1310 && (flags & (tintWholesome | HAS_RENDER)))
1016 { 1311 {
1017 /* In this case we can tint image server-side getting significant 1312 if (tint_pixmap (tiled_root_pmap, target->visual, window_width, window_height))
1018 * performance improvements, as we eliminate XImage transfer
1019 */
1020 gcv.foreground = Pixel (tint);
1021 gcv.function = GXand;
1022 gcv.fill_style = FillSolid;
1023 if (gc)
1024 XChangeGC (dpy, gc, GCFillStyle | GCForeground | GCFunction, &gcv);
1025 else
1026 gc = XCreateGC (dpy, root, GCFillStyle | GCForeground | GCFunction, &gcv);
1027 if (gc)
1028 {
1029 XFillRectangle (dpy, tiled_root_pmap, gc, 0, 0, window_width, window_height);
1030 result |= transpPmapTinted; 1313 result |= transpPmapTinted;
1031 }
1032 }
1033 else
1034 {
1035# if XFT
1036 Picture back_pic = 0;
1037 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC);
1038
1039 if (flags & tintSet)
1040 tint.get (c);
1041
1042 if (shade > 0 && shade < 100)
1043 {
1044 c.r = (c.r * shade) / 100;
1045 c.g = (c.g * shade) / 100;
1046 c.b = (c.b * shade) / 100;
1047 }
1048 else if (shade > 100 && shade < 200)
1049 {
1050 c.r = (c.r * (200 - shade)) / 100;
1051 c.g = (c.g * (200 - shade)) / 100;
1052 c.b = (c.b * (200 - shade)) / 100;
1053 }
1054
1055 XRenderPictFormat pf;
1056 pf.type = PictTypeDirect;
1057 pf.depth = 32;
1058 pf.direct.redMask = 0xff;
1059 pf.direct.greenMask = 0xff;
1060 pf.direct.blueMask = 0xff;
1061 pf.direct.alphaMask = 0xff;
1062
1063 XRenderPictFormat *solid_format = XRenderFindFormat (dpy,
1064 (PictFormatType|
1065 PictFormatDepth|
1066 PictFormatRedMask|
1067 PictFormatGreenMask|
1068 PictFormatBlueMask|
1069 PictFormatAlphaMask),
1070 &pf,
1071 0);
1072 XRenderPictFormat *root_format = XRenderFindVisualFormat (dpy, DefaultVisualOfScreen (ScreenOfDisplay (dpy, target->display->screen)));
1073 XRenderPictureAttributes pa ;
1074
1075 back_pic = XRenderCreatePicture (dpy, tiled_root_pmap, root_format, 0, &pa);
1076
1077 pa.repeat = True;
1078
1079 Pixmap overlay_pmap = XCreatePixmap (dpy, root, 1, 1, 32);
1080 Picture overlay_pic = XRenderCreatePicture (dpy, overlay_pmap, solid_format, CPRepeat, &pa);
1081 XFreePixmap (dpy, overlay_pmap);
1082
1083 pa.component_alpha = True;
1084 Pixmap mask_pmap = XCreatePixmap (dpy, root, 1, 1, 32);
1085 Picture mask_pic = XRenderCreatePicture (dpy, mask_pmap, solid_format, CPRepeat|CPComponentAlpha, &pa);
1086 XFreePixmap (dpy, mask_pmap);
1087
1088 if (mask_pic && overlay_pic && back_pic)
1089 {
1090 XRenderColor mask_c;
1091
1092 memset (&mask_c, (shade > 100) ? 0xFF : 0x0, sizeof (mask_c));
1093 mask_c.alpha = 0xffff;
1094 XRenderFillRectangle (dpy, PictOpSrc, overlay_pic, &mask_c, 0, 0, 1, 1);
1095
1096 mask_c.alpha = 0;
1097 mask_c.red = 0xffff - c.r;
1098 mask_c.green = 0xffff - c.g;
1099 mask_c.blue = 0xffff - c.b;
1100 XRenderFillRectangle (dpy, PictOpSrc, mask_pic, &mask_c, 0, 0, 1, 1);
1101 XRenderComposite (dpy, PictOpOver, overlay_pic, mask_pic, back_pic, 0, 0, 0, 0, 0, 0, window_width, window_height);
1102 result |= transpPmapTinted;
1103 }
1104
1105 XRenderFreePicture (dpy, mask_pic);
1106 XRenderFreePicture (dpy, overlay_pic);
1107 XRenderFreePicture (dpy, back_pic);
1108# if DO_TIMING_TEST
1109 XSync (dpy, False);
1110# endif
1111# endif
1112 }
1113 } 1314 }
1114 } /* server side rendering completed */ 1315 } /* server side rendering completed */
1115 1316
1116 if (pixmap) 1317 if (pixmap)
1117 XFreePixmap (dpy, pixmap); 1318 XFreePixmap (dpy, pixmap);
1118 1319
1119 pixmap = tiled_root_pmap; 1320 pixmap = tiled_root_pmap;
1120 pmap_width = window_width; 1321 pmap_width = window_width;
1121 pmap_height = window_height; 1322 pmap_height = window_height;
1122 pmap_depth = root_depth; 1323 pmap_depth = target->depth;
1123 } 1324 }
1325 else
1326 XFreePixmap (dpy, tiled_root_pmap);
1124 1327
1125 if (gc) 1328 if (recoded_root_pmap != root_pixmap)
1126 XFreeGC (dpy, gc); 1329 XFreePixmap (dpy, recoded_root_pmap);
1127
1128 TIMING_TEST_PRINT_RESULT (tp);
1129 1330
1130 return result; 1331 return result;
1131} 1332}
1132 1333
1133bool 1334void
1134bgPixmap_t::set_root_pixmap () 1335bgPixmap_t::set_root_pixmap ()
1135{ 1336{
1136 Pixmap new_root_pixmap = target->get_pixmap_property (XA_XROOTPMAP_ID); 1337 Pixmap new_root_pixmap = target->get_pixmap_property (XA_XROOTPMAP_ID);
1137 if (new_root_pixmap == None) 1338 if (new_root_pixmap == None)
1138 new_root_pixmap = target->get_pixmap_property (XA_ESETROOT_PMAP_ID); 1339 new_root_pixmap = target->get_pixmap_property (XA_ESETROOT_PMAP_ID);
1139 1340
1140 if (new_root_pixmap != root_pixmap)
1141 {
1142 root_pixmap = new_root_pixmap; 1341 root_pixmap = new_root_pixmap;
1143 return true;
1144 }
1145
1146 return false;
1147} 1342}
1148# endif /* ENABLE_TRANSPARENCY */ 1343# endif /* ENABLE_TRANSPARENCY */
1149 1344
1150# ifndef HAVE_AFTERIMAGE 1345#if defined(ENABLE_TRANSPARENCY) && !defined(HAVE_AFTERIMAGE)
1151static void ShadeXImage(rxvt_term *term, XImage *srcImage, int shade, int rm, int gm, int bm); 1346static void ShadeXImage(Visual *visual, XImage *srcImage, int shade, const rgba &c);
1152# endif 1347# endif
1153 1348
1154bool 1349bool
1155bgPixmap_t::render () 1350bgPixmap_t::render ()
1156{ 1351{
1157 unsigned long background_flags = 0; 1352 unsigned long background_flags = 0;
1158 1353
1159 if (target == NULL) 1354 if (target == NULL)
1160 return false; 1355 return false;
1161
1162 TIMING_TEST_START (tp);
1163 1356
1164 invalidate (); 1357 invalidate ();
1165# ifdef ENABLE_TRANSPARENCY 1358# ifdef ENABLE_TRANSPARENCY
1166 if (flags & isTransparent) 1359 if (flags & isTransparent)
1167 { 1360 {
1168 /* we need to re-generate transparency pixmap in that case ! */ 1361 /* we need to re-generate transparency pixmap in that case ! */
1169 background_flags = make_transparency_pixmap (); 1362 background_flags = make_transparency_pixmap ();
1170 if (background_flags == 0) 1363 if (background_flags == 0)
1171 return false; 1364 return false;
1172 else if ((background_flags & transpTransformations) == (flags & transpTransformations) 1365 else if ((background_flags & transpTransformations) == (flags & transpTransformations))
1173 && pmap_depth == target->depth)
1174 flags = flags & ~isInvalid; 1366 flags &= ~isInvalid;
1175 } 1367 }
1176# endif 1368# endif
1177 1369
1178# ifdef HAVE_AFTERIMAGE 1370# ifdef BG_IMAGE_FROM_FILE
1179 if (original_asim 1371 if (have_image
1180 || (background_flags & transpTransformations) != (flags & transpTransformations)) 1372 || (background_flags & transpTransformations) != (flags & transpTransformations))
1181 { 1373 {
1182 if (render_asim (background_flags)) 1374 if (render_image (background_flags))
1183 flags = flags & ~isInvalid; 1375 flags &= ~isInvalid;
1184 } 1376 }
1185# endif 1377# endif
1186 1378
1379# if defined(ENABLE_TRANSPARENCY) && !defined(HAVE_AFTERIMAGE)
1187 XImage *result = NULL; 1380 XImage *result = NULL;
1188 1381
1189 if (background_flags && (flags & isInvalid)) 1382 if (background_flags && (flags & isInvalid))
1190 { 1383 {
1191 result = XGetImage (target->dpy, pixmap, 0, 0, pmap_width, pmap_height, AllPlanes, ZPixmap); 1384 result = XGetImage (target->dpy, pixmap, 0, 0, pmap_width, pmap_height, AllPlanes, ZPixmap);
1385 }
1192 1386
1193# if !defined(HAVE_AFTERIMAGE) && !XFT 1387 if (result)
1388 {
1194 /* our own client-side tinting */ 1389 /* our own client-side tinting */
1195 /* ATTENTION: We ASSUME that XFT will let us do all the tinting necessary server-side.
1196 This may need to be changed in need_client_side_rendering() logic is altered !!! */
1197 if (result != NULL && !(background_flags & transpPmapTinted) && (flags & tintNeeded)) 1390 if (!(background_flags & transpPmapTinted) && (flags & tintNeeded))
1198 { 1391 {
1199 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC); 1392 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC);
1200 if (flags & tintSet) 1393 if (flags & tintSet)
1201 tint.get (c); 1394 tint.get (c);
1202 ShadeXImage (target, result, shade, c.r, c.g, c.b); 1395 ShadeXImage (DefaultVisual (target->dpy, target->display->screen), result, shade, c);
1203 } 1396 }
1204# endif
1205 }
1206 1397
1207 if (result)
1208 {
1209 GC gc = XCreateGC (target->dpy, target->vt, 0UL, NULL); 1398 GC gc = XCreateGC (target->dpy, target->vt, 0UL, NULL);
1210 1399
1211 if (gc) 1400 if (gc)
1212 { 1401 {
1213 if (/*pmap_depth != target->depth &&*/ pixmap != None)
1214 {
1215 XFreePixmap (target->dpy, pixmap);
1216 pixmap = None;
1217 }
1218
1219 if (pixmap == None)
1220 {
1221 pixmap = XCreatePixmap (target->dpy, target->vt, result->width, result->height, target->depth);
1222 pmap_width = result->width;
1223 pmap_height = result->height;
1224 pmap_depth = target->depth;
1225 }
1226
1227 if (pmap_depth != result->depth)
1228 {
1229 /* Bad Match error will ensue ! stupid X !!!! */
1230 if (result->depth == 24 && pmap_depth == 32)
1231 result->depth = 32;
1232 else if (result->depth == 32 && pmap_depth == 24)
1233 result->depth = 24;
1234 else
1235 {
1236 /* TODO: implement image recoding */
1237 }
1238 }
1239
1240 if (pmap_depth == result->depth)
1241 XPutImage (target->dpy, pixmap, gc, result, 0, 0, 0, 0, result->width, result->height); 1402 XPutImage (target->dpy, pixmap, gc, result, 0, 0, 0, 0, result->width, result->height);
1242 1403
1243 XFreeGC (target->dpy, gc); 1404 XFreeGC (target->dpy, gc);
1244 flags = flags & ~isInvalid; 1405 flags &= ~isInvalid;
1245 } 1406 }
1246 1407
1247 XDestroyImage (result); 1408 XDestroyImage (result);
1248 } 1409 }
1410# endif
1249 1411
1250 if (flags & isInvalid) 1412 if (flags & isInvalid)
1251 { 1413 {
1252 if (pixmap != None) 1414 if (pixmap != None)
1253 { 1415 {
1256 } 1418 }
1257 } 1419 }
1258 1420
1259 apply (); 1421 apply ();
1260 1422
1261 XSync (target->dpy, False);
1262 valid_since = ev::now (); 1423 valid_since = ev::now ();
1263 1424
1264 TIMING_TEST_PRINT_RESULT (tp);
1265
1266 return true; 1425 return true;
1267} 1426}
1268 1427
1269bool 1428void
1270bgPixmap_t::set_target (rxvt_term *new_target) 1429bgPixmap_t::set_target (rxvt_term *new_target)
1271{ 1430{
1272 if (new_target)
1273 if (target != new_target)
1274 {
1275 target = new_target; 1431 target = new_target;
1276# ifdef ENABLE_TRANSPARENCY 1432
1277 root_depth = DefaultDepthOfScreen (ScreenOfDisplay (target->dpy, target->display->screen)); 1433 flags &= ~(HAS_RENDER | HAS_RENDER_CONV);
1434#if XRENDER
1435 int major, minor;
1436 if (XRenderQueryVersion (target->dpy, &major, &minor))
1437 flags |= HAS_RENDER;
1438 XFilters *filters = XRenderQueryFilters (target->dpy, target->vt);
1439 if (filters)
1440 {
1441 for (int i = 0; i < filters->nfilter; i++)
1442 if (!strcmp (filters->filter[i], FilterConvolution))
1443 flags |= HAS_RENDER_CONV;
1444
1445 XFree (filters);
1446 }
1278# endif 1447#endif
1279 return true;
1280 }
1281
1282 return false;
1283} 1448}
1284 1449
1285void 1450void
1286bgPixmap_t::apply () 1451bgPixmap_t::apply ()
1287{ 1452{
1288 if (target) 1453 if (target == NULL)
1289 { 1454 return;
1290 flags &= ~isVtOrigin;
1291 1455
1292 if (pixmap != None) 1456 if (pixmap != None)
1293 { 1457 {
1294 /* set target's background to pixmap */ 1458 /* set target's background to pixmap */
1295# ifdef ENABLE_TRANSPARENCY 1459# ifdef ENABLE_TRANSPARENCY
1296 if (flags & isTransparent) 1460 if (flags & isTransparent)
1297 { 1461 {
1298 XSetWindowBackgroundPixmap (target->dpy, target->parent[0], pixmap); 1462 XSetWindowBackgroundPixmap (target->dpy, target->parent[0], pixmap);
1299 XSetWindowBackgroundPixmap (target->dpy, target->vt, ParentRelative); 1463 XSetWindowBackgroundPixmap (target->dpy, target->vt, ParentRelative);
1300 1464
1301 if (target->scrollBar.win) 1465 if (target->scrollBar.win)
1302 XSetWindowBackgroundPixmap (target->dpy, target->scrollBar.win, ParentRelative); 1466 XSetWindowBackgroundPixmap (target->dpy, target->scrollBar.win, ParentRelative);
1303 } 1467 }
1304 else 1468 else
1305# endif 1469# endif
1306 { 1470 {
1307 flags |= isVtOrigin;
1308 /* force old pixmap dereference in case it was transparent before :*/ 1471 /* force old pixmap dereference in case it was transparent before :*/
1309 XSetWindowBackground (target->dpy, target->parent[0], target->pix_colors[Color_border]);
1310 XSetWindowBackgroundPixmap (target->dpy, target->vt, pixmap);
1311 /* do we also need to set scrollbar's background here ? */
1312
1313 if (target->scrollBar.win)
1314 XSetWindowBackground (target->dpy, target->scrollBar.win, target->pix_colors[Color_border]);
1315 }
1316 }
1317 else
1318 {
1319 /* set target background to a pixel */
1320 XSetWindowBackground (target->dpy, target->parent[0], target->pix_colors[Color_border]); 1472 XSetWindowBackground (target->dpy, target->parent[0], target->pix_colors[Color_border]);
1321 XSetWindowBackground (target->dpy, target->vt, target->pix_colors[Color_bg]); 1473 XSetWindowBackgroundPixmap (target->dpy, target->vt, pixmap);
1322 /* do we also need to set scrollbar's background here ? */ 1474 /* do we also need to set scrollbar's background here ? */
1475
1323 if (target->scrollBar.win) 1476 if (target->scrollBar.win)
1324 XSetWindowBackground (target->dpy, target->scrollBar.win, target->pix_colors[Color_border]); 1477 XSetWindowBackground (target->dpy, target->scrollBar.win, target->pix_colors[Color_border]);
1325 } 1478 }
1479 }
1480 else
1481 {
1482 /* set target background to a pixel */
1483 XSetWindowBackground (target->dpy, target->parent[0], target->pix_colors[Color_border]);
1484 XSetWindowBackground (target->dpy, target->vt, target->pix_colors[Color_bg]);
1485 /* do we also need to set scrollbar's background here ? */
1486 if (target->scrollBar.win)
1487 XSetWindowBackground (target->dpy, target->scrollBar.win, target->pix_colors[Color_border]);
1488 }
1326 1489
1327 /* don't want Expose on the parent or vt. It is better to use 1490 /* don't want Expose on the parent or vt. It is better to use
1328 scr_touch or we get a great deal of flicker otherwise: */ 1491 scr_touch or we get a great deal of flicker otherwise: */
1329 XClearWindow (target->dpy, target->parent[0]); 1492 XClearWindow (target->dpy, target->parent[0]);
1330 1493
1331 if (target->scrollBar.state && target->scrollBar.win) 1494 if (target->scrollBar.state && target->scrollBar.win)
1332 { 1495 {
1333 target->scrollBar.state = STATE_IDLE; 1496 target->scrollBar.state = STATE_IDLE;
1334 target->scrollBar.show (0); 1497 target->scrollBar.show (0);
1335 } 1498 }
1336 1499
1337 target->want_refresh = 1; 1500 target->want_refresh = 1;
1338 flags |= hasChanged; 1501 flags |= hasChanged;
1339 }
1340} 1502}
1341 1503
1342#endif /* HAVE_BG_PIXMAP */ 1504#endif /* HAVE_BG_PIXMAP */
1343 1505
1344#if defined(ENABLE_TRANSPARENCY) && !defined(HAVE_AFTERIMAGE) && !XFT 1506#if defined(ENABLE_TRANSPARENCY) && !defined(HAVE_AFTERIMAGE)
1345/* taken from aterm-0.4.2 */ 1507/* taken from aterm-0.4.2 */
1346 1508
1347typedef uint32_t RUINT32T;
1348
1349static void 1509static void
1350ShadeXImage(rxvt_term *term, XImage *srcImage, int shade, int rm, int gm, int bm) 1510ShadeXImage(Visual *visual, XImage *srcImage, int shade, const rgba &c)
1351{ 1511{
1352 int sh_r, sh_g, sh_b; 1512 int sh_r, sh_g, sh_b;
1353 RUINT32T mask_r, mask_g, mask_b; 1513 uint32_t mask_r, mask_g, mask_b;
1354 RUINT32T *lookup, *lookup_r, *lookup_g, *lookup_b; 1514 uint32_t *lookup, *lookup_r, *lookup_g, *lookup_b;
1355 unsigned int lower_lim_r, lower_lim_g, lower_lim_b; 1515 rgba low;
1356 unsigned int upper_lim_r, upper_lim_g, upper_lim_b; 1516 rgba high;
1357 int i; 1517 int i;
1518 int host_byte_order = byteorder.big_endian () ? MSBFirst : LSBFirst;
1358 1519
1359 Visual *visual = term->visual;
1360
1361 if (visual->c_class != TrueColor || srcImage->format != ZPixmap) return ; 1520 if (visual->c_class != TrueColor || srcImage->format != ZPixmap) return;
1362
1363 if (shade == 0)
1364 shade = 100;
1365 1521
1366 /* for convenience */ 1522 /* for convenience */
1367 mask_r = visual->red_mask; 1523 mask_r = visual->red_mask;
1368 mask_g = visual->green_mask; 1524 mask_g = visual->green_mask;
1369 mask_b = visual->blue_mask; 1525 mask_b = visual->blue_mask;
1370 1526
1371 /* boring lookup table pre-initialization */ 1527 /* boring lookup table pre-initialization */
1372 switch (srcImage->bits_per_pixel) { 1528 switch (srcImage->depth)
1529 {
1373 case 15: 1530 case 15:
1374 if ((mask_r != 0x7c00) || 1531 if ((mask_r != 0x7c00) ||
1375 (mask_g != 0x03e0) || 1532 (mask_g != 0x03e0) ||
1376 (mask_b != 0x001f)) 1533 (mask_b != 0x001f))
1377 return; 1534 return;
1378 lookup = (RUINT32T *) malloc (sizeof (RUINT32T)*(32+32+32)); 1535 lookup = (uint32_t *) malloc (sizeof (uint32_t)*(32+32+32));
1379 lookup_r = lookup; 1536 lookup_r = lookup;
1380 lookup_g = lookup+32; 1537 lookup_g = lookup+32;
1381 lookup_b = lookup+32+32; 1538 lookup_b = lookup+32+32;
1382 sh_r = 10; 1539 sh_r = 10;
1383 sh_g = 5; 1540 sh_g = 5;
1384 sh_b = 0; 1541 sh_b = 0;
1385 break; 1542 break;
1386 case 16: 1543 case 16:
1387 if ((mask_r != 0xf800) || 1544 if ((mask_r != 0xf800) ||
1388 (mask_g != 0x07e0) || 1545 (mask_g != 0x07e0) ||
1389 (mask_b != 0x001f)) 1546 (mask_b != 0x001f))
1390 return; 1547 return;
1391 lookup = (RUINT32T *) malloc (sizeof (RUINT32T)*(32+64+32)); 1548 lookup = (uint32_t *) malloc (sizeof (uint32_t)*(32+64+32));
1392 lookup_r = lookup; 1549 lookup_r = lookup;
1393 lookup_g = lookup+32; 1550 lookup_g = lookup+32;
1394 lookup_b = lookup+32+64; 1551 lookup_b = lookup+32+64;
1395 sh_r = 11; 1552 sh_r = 11;
1396 sh_g = 5; 1553 sh_g = 5;
1397 sh_b = 0; 1554 sh_b = 0;
1398 break; 1555 break;
1399 case 24: 1556 case 24:
1400 if ((mask_r != 0xff0000) || 1557 if ((mask_r != 0xff0000) ||
1401 (mask_g != 0x00ff00) || 1558 (mask_g != 0x00ff00) ||
1402 (mask_b != 0x0000ff)) 1559 (mask_b != 0x0000ff))
1403 return; 1560 return;
1404 lookup = (RUINT32T *) malloc (sizeof (RUINT32T)*(256+256+256)); 1561 lookup = (uint32_t *) malloc (sizeof (uint32_t)*(256+256+256));
1405 lookup_r = lookup; 1562 lookup_r = lookup;
1406 lookup_g = lookup+256; 1563 lookup_g = lookup+256;
1407 lookup_b = lookup+256+256; 1564 lookup_b = lookup+256+256;
1408 sh_r = 16; 1565 sh_r = 16;
1409 sh_g = 8; 1566 sh_g = 8;
1410 sh_b = 0; 1567 sh_b = 0;
1411 break; 1568 break;
1412 case 32: 1569 case 32:
1413 if ((mask_r != 0xff0000) || 1570 if ((mask_r != 0xff0000) ||
1414 (mask_g != 0x00ff00) || 1571 (mask_g != 0x00ff00) ||
1415 (mask_b != 0x0000ff)) 1572 (mask_b != 0x0000ff))
1416 return; 1573 return;
1417 lookup = (RUINT32T *) malloc (sizeof (RUINT32T)*(256+256+256)); 1574 lookup = (uint32_t *) malloc (sizeof (uint32_t)*(256+256+256));
1418 lookup_r = lookup; 1575 lookup_r = lookup;
1419 lookup_g = lookup+256; 1576 lookup_g = lookup+256;
1420 lookup_b = lookup+256+256; 1577 lookup_b = lookup+256+256;
1421 sh_r = 16; 1578 sh_r = 16;
1422 sh_g = 8; 1579 sh_g = 8;
1423 sh_b = 0; 1580 sh_b = 0;
1424 break; 1581 break;
1425 default: 1582 default:
1426 return; /* we do not support this color depth */ 1583 return; /* we do not support this color depth */
1427 } 1584 }
1428 1585
1429 /* prepare limits for color transformation (each channel is handled separately) */ 1586 /* prepare limits for color transformation (each channel is handled separately) */
1430 if (shade < 0) { 1587 if (shade > 100)
1588 {
1431 shade = -shade; 1589 shade = 200 - shade;
1432 if (shade < 0) shade = 0;
1433 if (shade > 100) shade = 100;
1434 1590
1435 lower_lim_r = 65535-rm; 1591 high.r = c.r * shade / 100;
1436 lower_lim_g = 65535-gm; 1592 high.g = c.g * shade / 100;
1437 lower_lim_b = 65535-bm; 1593 high.b = c.b * shade / 100;
1438 1594
1439 lower_lim_r = 65535-(unsigned int)(((RUINT32T)lower_lim_r)*((RUINT32T)shade)/100); 1595 low.r = 65535 * (100 - shade) / 100;
1440 lower_lim_g = 65535-(unsigned int)(((RUINT32T)lower_lim_g)*((RUINT32T)shade)/100); 1596 low.g = 65535 * (100 - shade) / 100;
1441 lower_lim_b = 65535-(unsigned int)(((RUINT32T)lower_lim_b)*((RUINT32T)shade)/100); 1597 low.b = 65535 * (100 - shade) / 100;
1442
1443 upper_lim_r = upper_lim_g = upper_lim_b = 65535;
1444 } else {
1445 if (shade < 0) shade = 0;
1446 if (shade > 100) shade = 100;
1447
1448 lower_lim_r = lower_lim_g = lower_lim_b = 0;
1449
1450 upper_lim_r = (unsigned int)((((RUINT32T)rm)*((RUINT32T)shade))/100);
1451 upper_lim_g = (unsigned int)((((RUINT32T)gm)*((RUINT32T)shade))/100);
1452 upper_lim_b = (unsigned int)((((RUINT32T)bm)*((RUINT32T)shade))/100);
1453 } 1598 }
1454 1599 else
1455 /* switch red and blue bytes if necessary, we need it for some weird XServers like XFree86 3.3.3.1 */
1456 if ((srcImage->bits_per_pixel == 24) && (mask_r >= 0xFF0000 ))
1457 { 1600 {
1458 unsigned int tmp; 1601 high.r = c.r * shade / 100;
1602 high.g = c.g * shade / 100;
1603 high.b = c.b * shade / 100;
1459 1604
1460 tmp = lower_lim_r; 1605 low.r = low.g = low.b = 0;
1461 lower_lim_r = lower_lim_b;
1462 lower_lim_b = tmp;
1463
1464 tmp = upper_lim_r;
1465 upper_lim_r = upper_lim_b;
1466 upper_lim_b = tmp;
1467 } 1606 }
1468 1607
1469 /* fill our lookup tables */ 1608 /* fill our lookup tables */
1470 for (i = 0; i <= mask_r>>sh_r; i++) 1609 for (i = 0; i <= mask_r>>sh_r; i++)
1471 { 1610 {
1472 RUINT32T tmp; 1611 uint32_t tmp;
1473 tmp = ((RUINT32T)i)*((RUINT32T)(upper_lim_r-lower_lim_r)); 1612 tmp = i * high.r;
1474 tmp += ((RUINT32T)(mask_r>>sh_r))*((RUINT32T)lower_lim_r); 1613 tmp += (mask_r>>sh_r) * low.r;
1475 lookup_r[i] = (tmp/65535)<<sh_r; 1614 lookup_r[i] = (tmp/65535)<<sh_r;
1476 } 1615 }
1477 for (i = 0; i <= mask_g>>sh_g; i++) 1616 for (i = 0; i <= mask_g>>sh_g; i++)
1478 { 1617 {
1479 RUINT32T tmp; 1618 uint32_t tmp;
1480 tmp = ((RUINT32T)i)*((RUINT32T)(upper_lim_g-lower_lim_g)); 1619 tmp = i * high.g;
1481 tmp += ((RUINT32T)(mask_g>>sh_g))*((RUINT32T)lower_lim_g); 1620 tmp += (mask_g>>sh_g) * low.g;
1482 lookup_g[i] = (tmp/65535)<<sh_g; 1621 lookup_g[i] = (tmp/65535)<<sh_g;
1483 } 1622 }
1484 for (i = 0; i <= mask_b>>sh_b; i++) 1623 for (i = 0; i <= mask_b>>sh_b; i++)
1485 { 1624 {
1486 RUINT32T tmp; 1625 uint32_t tmp;
1487 tmp = ((RUINT32T)i)*((RUINT32T)(upper_lim_b-lower_lim_b)); 1626 tmp = i * high.b;
1488 tmp += ((RUINT32T)(mask_b>>sh_b))*((RUINT32T)lower_lim_b); 1627 tmp += (mask_b>>sh_b) * low.b;
1489 lookup_b[i] = (tmp/65535)<<sh_b; 1628 lookup_b[i] = (tmp/65535)<<sh_b;
1490 } 1629 }
1491 1630
1492 /* apply table to input image (replacing colors by newly calculated ones) */ 1631 /* apply table to input image (replacing colors by newly calculated ones) */
1493 switch (srcImage->bits_per_pixel) 1632 if (srcImage->bits_per_pixel == 32
1633 && (srcImage->depth == 24 || srcImage->depth == 32)
1634 && srcImage->byte_order == host_byte_order)
1494 { 1635 {
1495 case 15:
1496 {
1497 unsigned short *p1, *pf, *p, *pl; 1636 uint32_t *p1, *pf, *p, *pl;
1498 p1 = (unsigned short *) srcImage->data; 1637 p1 = (uint32_t *) srcImage->data;
1499 pf = (unsigned short *) (srcImage->data + srcImage->height * srcImage->bytes_per_line); 1638 pf = (uint32_t *) (srcImage->data + srcImage->height * srcImage->bytes_per_line);
1639
1500 while (p1 < pf) 1640 while (p1 < pf)
1501 { 1641 {
1502 p = p1; 1642 p = p1;
1503 pl = p1 + srcImage->width; 1643 pl = p1 + srcImage->width;
1504 for (; p < pl; p++) 1644 for (; p < pl; p++)
1505 { 1645 {
1506 *p = lookup_r[(*p & 0x7c00)>>10] |
1507 lookup_g[(*p & 0x03e0)>> 5] |
1508 lookup_b[(*p & 0x001f)];
1509 }
1510 p1 = (unsigned short *) ((char *) p1 + srcImage->bytes_per_line);
1511 }
1512 break;
1513 }
1514 case 16:
1515 {
1516 unsigned short *p1, *pf, *p, *pl;
1517 p1 = (unsigned short *) srcImage->data;
1518 pf = (unsigned short *) (srcImage->data + srcImage->height * srcImage->bytes_per_line);
1519 while (p1 < pf)
1520 {
1521 p = p1;
1522 pl = p1 + srcImage->width;
1523 for (; p < pl; p++)
1524 {
1525 *p = lookup_r[(*p & 0xf800)>>11] |
1526 lookup_g[(*p & 0x07e0)>> 5] |
1527 lookup_b[(*p & 0x001f)];
1528 }
1529 p1 = (unsigned short *) ((char *) p1 + srcImage->bytes_per_line);
1530 }
1531 break;
1532 }
1533 case 24:
1534 {
1535 unsigned char *p1, *pf, *p, *pl;
1536 p1 = (unsigned char *) srcImage->data;
1537 pf = (unsigned char *) (srcImage->data + srcImage->height * srcImage->bytes_per_line);
1538 while (p1 < pf)
1539 {
1540 p = p1;
1541 pl = p1 + srcImage->width * 3;
1542 for (; p < pl; p += 3)
1543 {
1544 p[0] = lookup_r[(p[0] & 0xff0000)>>16];
1545 p[1] = lookup_r[(p[1] & 0x00ff00)>> 8];
1546 p[2] = lookup_r[(p[2] & 0x0000ff)];
1547 }
1548 p1 = (unsigned char *) ((char *) p1 + srcImage->bytes_per_line);
1549 }
1550 break;
1551 }
1552 case 32:
1553 {
1554 RUINT32T *p1, *pf, *p, *pl;
1555 p1 = (RUINT32T *) srcImage->data;
1556 pf = (RUINT32T *) (srcImage->data + srcImage->height * srcImage->bytes_per_line);
1557
1558 while (p1 < pf)
1559 {
1560 p = p1;
1561 pl = p1 + srcImage->width;
1562 for (; p < pl; p++)
1563 {
1564 *p = lookup_r[(*p & 0xff0000)>>16] | 1646 *p = lookup_r[(*p & 0xff0000) >> 16] |
1565 lookup_g[(*p & 0x00ff00)>> 8] | 1647 lookup_g[(*p & 0x00ff00) >> 8] |
1566 lookup_b[(*p & 0x0000ff)] | 1648 lookup_b[(*p & 0x0000ff)] |
1567 (*p & ~0xffffff); 1649 (*p & 0xff000000);
1650 }
1651 p1 = (uint32_t *) ((char *) p1 + srcImage->bytes_per_line);
1652 }
1653 }
1654 else
1655 {
1656 for (int y = 0; y < srcImage->height; y++)
1657 for (int x = 0; x < srcImage->width; x++)
1658 {
1659 unsigned long pixel = XGetPixel (srcImage, x, y);
1660 pixel = lookup_r[(pixel & mask_r) >> sh_r] |
1661 lookup_g[(pixel & mask_g) >> sh_g] |
1662 lookup_b[(pixel & mask_b) >> sh_b];
1663 XPutPixel (srcImage, x, y, pixel);
1568 } 1664 }
1569 p1 = (RUINT32T *) ((char *) p1 + srcImage->bytes_per_line);
1570 } 1665 }
1571 break;
1572 }
1573 }
1574 1666
1575 free (lookup); 1667 free (lookup);
1576} 1668}
1577#endif /* defined(ENABLE_TRANSPARENCY) && !defined(HAVE_AFTERIMAGE) */ 1669#endif /* defined(ENABLE_TRANSPARENCY) && !defined(HAVE_AFTERIMAGE) */

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