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Comparing rxvt-unicode/src/background.C (file contents):
Revision 1.2 by sasha, Wed Sep 12 21:06:08 2007 UTC vs.
Revision 1.132 by sf-exg, Mon Jan 10 20:46:20 2011 UTC

1/*----------------------------------------------------------------------* 1/*----------------------------------------------------------------------*
2 * File: background.C - former xmp.C 2 * File: background.C - former xpm.C
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) 1997 Carsten Haitzler <raster@zip.com.au>
7 * Copyright (c) 1997,1998 Oezguer Kesim <kesim@math.fu-berlin.de>
8 * Copyright (c) 1998-2001 Geoff Wing <gcw@pobox.com>
9 * Copyright (c) 2005-2006 Marc Lehmann <pcg@goof.com> 6 * Copyright (c) 2005-2008 Marc Lehmann <pcg@goof.com>
10 * 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>
11 * 9 *
12 * 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
13 * 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
14 * the Free Software Foundation; either version 2 of the License, or 12 * the Free Software Foundation; either version 2 of the License, or
15 * (at your option) any later version. 13 * (at your option) any later version.
22 * 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
23 * along with this program; if not, write to the Free Software 21 * along with this program; if not, write to the Free Software
24 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. 22 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
25 *---------------------------------------------------------------------*/ 23 *---------------------------------------------------------------------*/
26 24
25#include <cmath>
27#include "../config.h" /* NECESSARY */ 26#include "../config.h" /* NECESSARY */
28#include "rxvt.h" /* NECESSARY */ 27#include "rxvt.h" /* NECESSARY */
29 28
29#if XRENDER
30# include <X11/extensions/Xrender.h>
31#endif
32
33#ifndef FilterConvolution
34#define FilterConvolution "convolution"
35#endif
36
30#define DO_TIMING_TEST 0 37#define DO_TIMING_TEST 0
31 38
32#if DO_TIMING_TEST 39#if DO_TIMING_TEST
40# include <sys/time.h>
33#define TIMING_TEST_START(id) \ 41#define TIMING_TEST_START(id) \
34 struct timeval timing_test_##id##_stv;\ 42 struct timeval timing_test_##id##_stv; \
35 gettimeofday (&timing_test_##id##_stv, NULL); 43 gettimeofday (&timing_test_##id##_stv, NULL);
36 44
37#define TIMING_TEST_PRINT_RESULT(id) \ 45#define TIMING_TEST_PRINT_RESULT(id) \
38 do{ struct timeval tv;gettimeofday (&tv, NULL); tv.tv_sec -= (timing_test_##id##_stv).tv_sec;\ 46 do { \
47 struct timeval tv; \
48 gettimeofday (&tv, NULL); \
49 tv.tv_sec -= (timing_test_##id##_stv).tv_sec; \
39 fprintf (stderr, "%s: %s: %d: elapsed %ld usec\n", #id, __FILE__, __LINE__,\ 50 fprintf (stderr, "%s: %s: %d: elapsed %ld usec\n", #id, __FILE__, __LINE__, \
40 tv.tv_sec * 1000000 + tv.tv_usec - (timing_test_##id##_stv).tv_usec);}while (0) 51 tv.tv_sec * 1000000 + tv.tv_usec - (timing_test_##id##_stv).tv_usec); \
52 } while (0)
41 53
42#else 54#else
43#define TIMING_TEST_START(id) do{}while (0) 55#define TIMING_TEST_START(id) do {} while (0)
44#define TIMING_TEST_PRINT_RESULT(id) do{}while (0) 56#define TIMING_TEST_PRINT_RESULT(id) do {} while (0)
45#endif 57#endif
46 58
47/* 59/*
48 * Pixmap geometry string interpretation : 60 * Pixmap geometry string interpretation :
49 * Each geometry string contains zero or one scale/position 61 * Each geometry string contains zero or one scale/position
50 * 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
51 * colon-delimited pixmap operations. 63 * colon-delimited pixmap operations.
52 * The following table shows the valid geometry strings and their 64 * The following table shows the valid geometry strings and their
53 * affects on the background image : 65 * effects on the background image :
54 * 66 *
55 * 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%.
56 * W and H are percentages of the terminal window size. 68 * W and H are percentages of the terminal window size.
57 * X and Y are also percentages; e.g., +50+50 centers 69 * X and Y are also percentages; e.g., +50+50 centers
58 * the image in the window. 70 * the image in the window.
59 * WxH+X Assumes Y == X
60 * WxH Assumes Y == X == 50 (centers the image)
61 * W+X+Y Assumes H == W
62 * W+X Assumes H == W and Y == X
63 * W Assumes H == W and Y == X == 50
64 *
65 * Adjusting position only :
66 * =+X+Y Set position to X% by Y% (absolute).
67 * =+X Set position to X% by X%.
68 * +X+Y Adjust position horizontally X% and vertically Y%
69 * from current position (relative).
70 * +X Adjust position horizontally X% and vertically X%
71 * from current position.
72 *
73 * Adjusting scale only :
74 * Wx0 Multiply horizontal scaling factor by W%
75 * 0xH Multiply vertical scaling factor by H%
76 * 0x0 No scaling (show image at normal size).
77 * 71 *
78 * Pixmap Operations : (should be prepended by a colon) 72 * Pixmap Operations : (should be prepended by a colon)
79 * tile Tile image. Scaling/position modifiers above will affect 73 * tile Tile image. Scaling/position modifiers above will affect
80 * the tile size and origin. 74 * the tile size and origin.
81 * propscale When scaling, scale proportionally. That is, maintain the 75 * propscale When scaling, scale proportionally. That is, maintain the
82 * proper aspect ratio for the image. Any portion of the 76 * proper aspect ratio for the image. Any portion of the
83 * background not covered by the image is filled with the 77 * background not covered by the image is filled with the
84 * current background color. 78 * current background color.
85 * hscale Scale horizontally, tile vertically ? 79 * hscale Scale horizontally, tile vertically ?
86 * vscale Tile horizontally, scale vertically ? 80 * vscale Tile horizontally, scale vertically ?
87 * scale Scale both up and down 81 * scale Scale both up and down
88 * auto Same as 100x100+50+50 82 * auto Same as 100x100+50+50
89 */ 83 */
90 84
91#ifdef HAVE_BG_PIXMAP 85#ifdef HAVE_BG_PIXMAP
92bgPixmap_t::bgPixmap_t() 86bgPixmap_t::bgPixmap_t ()
93{ 87{
88 // this is basically redundant as bgPixmap_t is only used in
89 // zero_initialised-derived structs
94#ifdef HAVE_AFTERIMAGE 90#ifdef HAVE_AFTERIMAGE
95 original_asim = NULL; 91 original_asim = NULL;
96#endif 92#endif
93#ifdef HAVE_PIXBUF
94 pixbuf = NULL;
95#endif
97#ifdef BG_IMAGE_FROM_FILE 96#ifdef BG_IMAGE_FROM_FILE
97 have_image = false;
98 h_scale = v_scale = 0; 98 h_scale = v_scale = 0;
99 h_align = v_align = 0; 99 h_align = v_align = 0;
100#endif 100#endif
101#ifdef ENABLE_TRANSPARENCY
102 shade = 100;
103#endif
101 flags = 0; 104 flags = 0;
102 pixmap = None; 105 pixmap = None;
106 valid_since = invalid_since = 0;
107 target = 0;
108 target_x = target_y = 0;
103} 109}
104 110
111void
112bgPixmap_t::destroy ()
113{
114#ifdef HAVE_AFTERIMAGE
115 if (original_asim)
116 safe_asimage_destroy (original_asim);
117#endif
118
119#ifdef HAVE_PIXBUF
120 if (pixbuf)
121 g_object_unref (pixbuf);
122#endif
123
124 if (pixmap && target)
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;
140}
105 141
106bool 142bool
107bgPixmap_t::window_size_sensitive () 143bgPixmap_t::window_size_sensitive ()
108{ 144{
109# ifdef BG_IMAGE_FROM_FILE
110# ifdef HAVE_AFTERIMAGE
111 if (original_asim != NULL)
112# endif
113 {
114 if (h_scale != 0 || v_scale != 0
115 || h_align != 0 || v_align != 0)
116 return true;
117 }
118# endif
119# ifdef ENABLE_TRANSPARENCY 145# ifdef ENABLE_TRANSPARENCY
120 if (flags & isTransparent) 146 if (flags & isTransparent)
121 return true; 147 return true;
122# endif 148# endif
149
150# ifdef BG_IMAGE_FROM_FILE
151 if (have_image)
152 {
153 if (flags & sizeSensitive)
154 return true;
155 }
156# endif
157
123 return false; 158 return false;
124} 159}
125 160
126bool bgPixmap_t::need_client_side_rendering () 161bool
162bgPixmap_t::window_position_sensitive ()
127{ 163{
128# ifdef HAVE_AFTERIMAGE 164# ifdef ENABLE_TRANSPARENCY
129 if (original_asim != NULL) 165 if (flags & isTransparent)
130 return true; 166 return true;
131# endif 167# endif
132# ifdef ENABLE_TRANSPARENCY 168
133 if (flags & isTransparent) 169# ifdef BG_IMAGE_FROM_FILE
170 if (have_image)
134 { 171 {
135 if (((flags & blurNeeded) && !(flags & blurServerSide)) 172 if (flags & rootAlign)
136 || ((flags & tintNeeded) && !(flags & tintServerSide)))
137 return true; 173 return true;
138 } 174 }
139# endif 175# endif
176
140 return false; 177 return false;
141} 178}
142 179
143# ifdef BG_IMAGE_FROM_FILE 180# ifdef BG_IMAGE_FROM_FILE
144static inline bool 181static inline bool
177 214
178static inline int 215static inline int
179make_align_position (int align, int window_size, int image_size) 216make_align_position (int align, int window_size, int image_size)
180{ 217{
181 int diff = window_size - image_size; 218 int diff = window_size - image_size;
182 int smaller = MIN (image_size,window_size); 219 int smaller = min (image_size, window_size);
183 220
184 if (align >= 0 && align <= 50) 221 if (align >= 0 && align <= 100)
185 return diff * align / 100; 222 return diff * align / 100;
186 else if (align > 50 && align <= 100)
187 return window_size - image_size - diff * (100 - align) / 100;
188 else if (align > 100 && align <= 200 ) 223 else if (align > 100 && align <= 200)
189 return ((align - 100) * smaller / 100) + window_size - smaller; 224 return ((align - 100) * smaller / 100) + window_size - smaller;
190 else if (align > -100 && align < 0) 225 else if (align >= -100 && align < 0)
191 return ((align + 100) * smaller / 100) - image_size; 226 return ((align + 100) * smaller / 100) - image_size;
192 return 0; 227 return 0;
193} 228}
194 229
195static inline int 230static inline int
196make_clip_rectangle (int pos, int size, int target_size, int &dst_pos, int &dst_size) 231make_clip_rectangle (int pos, int size, int target_size, int &dst_pos, int &dst_size)
197{ 232{
198 int src_pos = 0; 233 int src_pos = 0;
199 dst_pos = 0; 234 dst_pos = pos;
200 dst_size = size; 235 dst_size = size;
201 if (pos < 0 && size > target_size) 236 if (pos < 0)
202 { 237 {
203 src_pos = -pos; 238 src_pos = -pos;
239 dst_pos = 0;
204 dst_size += pos; 240 dst_size += pos;
205 } 241 }
206 else if (pos > 0)
207 dst_pos = pos;
208 242
209 if (dst_pos + dst_size > target_size) 243 if (dst_pos + dst_size > target_size)
210 dst_size = target_size - dst_pos; 244 dst_size = target_size - dst_pos;
211 return src_pos; 245 return src_pos;
212} 246}
213 247
214bool 248bool
215bgPixmap_t::set_geometry (const char *geom) 249bgPixmap_t::set_geometry (const char *geom, bool update)
216{ 250{
251 bool changed = false;
217 int geom_flags = 0, changed = 0; 252 int geom_flags = 0;
218 int x = 0, y = 0; 253 int x = 0, y = 0;
219 unsigned int w = 0, h = 0; 254 unsigned int w = 0, h = 0;
220 unsigned int n; 255 unsigned int n;
221 unsigned long new_flags = (flags & (~geometryFlags)); 256 unsigned long new_flags = (flags & (~geometryFlags));
222 char *p; 257 const char *ops;
223# define MAXLEN_GEOM 256 /* could be longer then regular geometry string */ 258# define MAXLEN_GEOM 256 /* could be longer than regular geometry string */
224 259
225 if (geom == NULL) 260 if (geom == NULL)
226 return false; 261 return false;
227 262
228 char str[MAXLEN_GEOM]; 263 char str[MAXLEN_GEOM];
229 264
230 while (isspace(*geom)) ++geom;
231 if ((p = strchr (geom, ';')) == NULL)
232 p = strchr (geom, '\0'); 265 ops = strchr (geom, ':');
233 266 if (ops == NULL)
267 n = strlen (geom);
268 else
234 n = (p - geom); 269 n = ops - geom;
270
235 if (n < MAXLEN_GEOM) 271 if (n >= MAXLEN_GEOM)
236 { 272 return false;
237 char *ops;
238 new_flags |= geometrySet;
239 273
240 strncpy (str, geom, n); 274 memcpy (str, geom, n);
241 str[n] = '\0'; 275 str[n] = '\0';
242 if (str[0] == ':') 276 rxvt_strtrim (str);
243 ops = &str[0];
244 else if (str[0] != 'x' && str[0] != 'X' && isalpha(str[0]))
245 ops = &str[0];
246 else
247 {
248 char *tmp;
249 ops = strchr (str, ':');
250 if (ops != NULL)
251 {
252 for (tmp = ops-1; tmp >= str && isspace(*tmp); --tmp);
253 *(++tmp) = '\0';
254 if (ops == tmp) ++ops;
255 }
256 }
257 277
258 if (ops > str || ops == NULL) 278 if (str[0])
259 { 279 {
260 /* we have geometry string - let's handle it prior to applying ops */ 280 /* we have geometry string - let's handle it prior to applying ops */
261 geom_flags = XParseGeometry (str, &x, &y, &w, &h); 281 geom_flags = XParseGeometry (str, &x, &y, &w, &h);
262
263 if ((geom_flags & XValue) && !(geom_flags & YValue))
264 {
265 y = x;
266 geom_flags |= YValue;
267 }
268
269 if (flags & geometrySet)
270 {/* new geometry is an adjustment to the old one ! */
271 if ((geom_flags & WidthValue) && (geom_flags & HeightValue))
272 {
273 if (w == 0 && h != 0)
274 {
275 w = h_scale;
276 h = (v_scale * h) / 100;
277 }
278 else if (h == 0 && w != 0)
279 {
280 w = (h_scale * w) / 100;
281 h = v_scale;
282 }
283 }
284 if (geom_flags & XValue)
285 {
286 if (str[0] != '=')
287 {
288 y += v_align;
289 x += h_align;
290 }
291 }
292 }
293 else /* setting up geometry from scratch */
294 {
295 if (!(geom_flags & XValue))
296 {/* use default geometry - centered */
297 x = y = defaultAlign;
298 }
299 else if (!(geom_flags & YValue))
300 y = x;
301
302 if ((geom_flags & (WidthValue|HeightValue)) == 0)
303 {/* use default geometry - scaled */
304 w = h = defaultScale;
305 }
306 else if (geom_flags & WidthValue)
307 {
308 if (!(geom_flags & HeightValue))
309 h = w;
310 }
311 else
312 w = h;
313 }
314 } /* done parsing geometry string */ 282 } /* done parsing geometry string */
315 else if (!(flags & geometrySet)) 283
316 { /* default geometry - scaled and centered */ 284 if (!update)
285 {
286 if (!(geom_flags & XValue))
317 x = y = defaultAlign; 287 x = y = defaultAlign;
288 else if (!(geom_flags & YValue))
289 y = x;
290
291 if (!(geom_flags & (WidthValue|HeightValue)))
318 w = h = defaultScale; 292 w = h = defaultScale;
319 } 293 else if (!(geom_flags & HeightValue))
320 294 h = w;
321 if (!(flags & geometrySet)) 295 else if (!(geom_flags & WidthValue))
296 w = h;
297
322 geom_flags |= WidthValue|HeightValue|XValue|YValue; 298 geom_flags |= WidthValue|HeightValue|XValue|YValue;
299 }
323 300
324 if (ops) 301 if (ops)
325 { 302 {
326 while (*ops) 303 char **arr = rxvt_strsplit (':', ops + 1);
304
305 for (int i = 0; arr[i]; i++)
327 { 306 {
328 while (*ops == ':' || isspace(*ops)) ++ops;
329# define CHECK_GEOM_OPS(op_str) (strncasecmp (ops, (op_str), sizeof(op_str)-1) == 0) 307# define CHECK_GEOM_OPS(op_str) (strcasecmp (arr[i], (op_str)) == 0)
330 if (CHECK_GEOM_OPS("tile")) 308 if (CHECK_GEOM_OPS ("tile"))
331 { 309 {
332 w = h = 0; 310 w = h = noScale;
333 geom_flags |= WidthValue|HeightValue; 311 geom_flags |= WidthValue|HeightValue;
334 } 312 }
335 else if (CHECK_GEOM_OPS("propscale")) 313 else if (CHECK_GEOM_OPS ("propscale"))
336 { 314 {
337 if (w == 0 && h == 0)
338 {
339 w = 100;
340 geom_flags |= WidthValue;
341 }
342 new_flags |= propScale; 315 new_flags |= propScale;
343 } 316 }
344 else if (CHECK_GEOM_OPS("hscale")) 317 else if (CHECK_GEOM_OPS ("hscale"))
345 { 318 {
346 if (w == 0) 319 if (w == 0) w = windowScale;
347 w = 100; 320
348 h = 0; 321 h = noScale;
349 geom_flags |= WidthValue|HeightValue; 322 geom_flags |= WidthValue|HeightValue;
350 } 323 }
351 else if (CHECK_GEOM_OPS("vscale")) 324 else if (CHECK_GEOM_OPS ("vscale"))
352 { 325 {
353 if (h == 0) 326 if (h == 0) h = windowScale;
354 h = 100; 327
355 w = 0; 328 w = noScale;
356 geom_flags |= WidthValue|HeightValue; 329 geom_flags |= WidthValue|HeightValue;
357 } 330 }
358 else if (CHECK_GEOM_OPS("scale")) 331 else if (CHECK_GEOM_OPS ("scale"))
359 { 332 {
360 if (h == 0) 333 if (h == 0) h = windowScale;
361 h = 100; 334 if (w == 0) w = windowScale;
362 if (w == 0) 335
363 w = 100;
364 geom_flags |= WidthValue|HeightValue; 336 geom_flags |= WidthValue|HeightValue;
365 } 337 }
366 else if (CHECK_GEOM_OPS("auto")) 338 else if (CHECK_GEOM_OPS ("auto"))
367 { 339 {
368 w = h = 100; 340 w = h = windowScale;
369 x = y = 50; 341 x = y = centerAlign;
370 geom_flags |= WidthValue|HeightValue|XValue|YValue; 342 geom_flags |= WidthValue|HeightValue|XValue|YValue;
371 } 343 }
344 else if (CHECK_GEOM_OPS ("root"))
345 {
346 new_flags |= rootAlign;
347 w = h = noScale;
348 geom_flags |= WidthValue|HeightValue;
349 }
372# undef CHECK_GEOM_OPS 350# undef CHECK_GEOM_OPS
373 while (*ops != ':' && *ops != '\0') ++ops;
374 } /* done parsing ops */ 351 } /* done parsing ops */
375 }
376 352
353 rxvt_free_strsplit (arr);
354 }
355
377 if (check_set_scale_value (geom_flags, WidthValue, h_scale, w)) 356 if (check_set_scale_value (geom_flags, WidthValue, h_scale, w)) changed = true;
378 ++changed;
379 if (check_set_scale_value (geom_flags, HeightValue, v_scale, h)) 357 if (check_set_scale_value (geom_flags, HeightValue, v_scale, h)) changed = true;
380 ++changed;
381 if (check_set_align_value (geom_flags, XValue, h_align, x)) 358 if (check_set_align_value (geom_flags, XValue, h_align, x)) changed = true;
382 ++changed;
383 if (check_set_align_value (geom_flags, YValue, v_align, y)) 359 if (check_set_align_value (geom_flags, YValue, v_align, y)) changed = true;
384 ++changed;
385 }
386 360
387 if (new_flags != flags) 361 if (new_flags != flags)
388 { 362 {
389 flags = new_flags; 363 flags = new_flags;
390 changed++; 364 changed = true;
391 } 365 }
392//fprintf( stderr, "flags = %lX, scale = %ux%u, align=%+d%+d\n", 366
393// flags, h_scale, v_scale, h_align, v_align);
394 return (changed > 0); 367 return changed;
368}
369
370void
371bgPixmap_t::get_image_geometry (int image_width, int image_height, int &w, int &h, int &x, int &y)
372{
373 int target_width = target->szHint.width;
374 int target_height = target->szHint.height;
375
376 if (flags & propScale)
377 {
378 float scale = (float)target_width / image_width;
379 min_it (scale, (float)target_height / image_height);
380 w = image_width * scale + 0.5;
381 h = image_height * scale + 0.5;
382 }
383 else
384 {
385 w = h_scale * target_width / 100;
386 h = v_scale * target_height / 100;
387 }
388
389 if (!w) w = image_width;
390 if (!h) h = image_height;
391
392 if (flags & rootAlign)
393 {
394 x = -target_x;
395 y = -target_y;
396 }
397 else
398 {
399 x = make_align_position (h_align, target_width, w);
400 y = make_align_position (v_align, target_height, h);
401 }
402
403 flags &= ~sizeSensitive;
404 if ((flags & propScale) || h_scale || v_scale
405 || (!(flags & rootAlign) && (h_align || v_align))
406 || w > target_width || h > target_height)
407 flags |= sizeSensitive;
395} 408}
396 409
397# ifdef HAVE_AFTERIMAGE 410# ifdef HAVE_AFTERIMAGE
398bool 411bool
399bgPixmap_t::render_asim (ASImage *background, ARGB32 background_tint) 412bgPixmap_t::render_image (unsigned long background_flags)
400{ 413{
401 if (target == NULL) 414 if (target == NULL)
402 return false; 415 return false;
403 416
417 target->init_asv ();
418
419 ASImage *background = NULL;
420 ARGB32 background_tint = TINT_LEAVE_SAME;
421
422# ifdef ENABLE_TRANSPARENCY
423 if (background_flags)
424 background = pixmap2ximage (target->asv, pixmap, 0, 0, pmap_width, pmap_height, AllPlanes, 100);
425
426 if (!(background_flags & transpPmapTinted) && (flags & tintNeeded))
427 {
428 ShadingInfo as_shade;
429 as_shade.shading = shade;
430
431 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC);
432 if (flags & tintSet)
433 tint.get (c);
434 as_shade.tintColor.red = c.r;
435 as_shade.tintColor.green = c.g;
436 as_shade.tintColor.blue = c.b;
437
438 background_tint = shading2tint32 (&as_shade);
439 }
440
441 if (!(background_flags & transpPmapBlurred) && (flags & blurNeeded) && background != NULL)
442 {
443 ASImage *tmp = blur_asimage_gauss (target->asv, background, h_blurRadius, v_blurRadius, 0xFFFFFFFF,
444 (original_asim == NULL || tint == TINT_LEAVE_SAME) ? ASA_XImage : ASA_ASImage,
445 100, ASIMAGE_QUALITY_DEFAULT);
446 if (tmp)
447 {
448 destroy_asimage (&background);
449 background = tmp;
450 }
451 }
452# endif
453
454 ASImage *result = 0;
455
404 int target_width = (int)target->szHint.width; 456 int target_width = target->szHint.width;
405 int target_height = (int)target->szHint.height; 457 int target_height = target->szHint.height;
406 int new_pmap_width = target_width, new_pmap_height = target_height; 458 int new_pmap_width = target_width;
407 ASImage *result = NULL; 459 int new_pmap_height = target_height;
408 460
409 int x = 0; 461 int x = 0;
410 int y = 0; 462 int y = 0;
411 int w = h_scale * target_width / 100; 463 int w = 0;
412 int h = v_scale * target_height / 100; 464 int h = 0;
413
414 TIMING_TEST_START (asim);
415 465
416 if (original_asim) 466 if (original_asim)
417 { 467 get_image_geometry (original_asim->width, original_asim->height, w, h, x, y);
418 x = make_align_position (h_align, target_width, w > 0 ? w : (int)original_asim->width);
419 y = make_align_position (v_align, target_height, h > 0 ? h : (int)original_asim->height);
420 }
421 468
422 if (original_asim == NULL 469 if (!original_asim
470 || (!(flags & rootAlign)
423 || x >= target_width 471 && (x >= target_width
424 || y >= target_height 472 || y >= target_height
425 || (w > 0 && x + w <= 0) 473 || (x + w <= 0)
426 || (h > 0 && y + h <= 0)) 474 || (y + h <= 0))))
427 { 475 {
428 if (background) 476 if (background)
429 { 477 {
430 new_pmap_width = background->width; 478 new_pmap_width = background->width;
431 new_pmap_height = background->height; 479 new_pmap_height = background->height;
432 result = background; 480 result = background;
481
433 if (background_tint != TINT_LEAVE_SAME) 482 if (background_tint != TINT_LEAVE_SAME)
434 { 483 {
435 ASImage* tmp = tile_asimage (target->asv, background, 0, 0, 484 ASImage *tmp = tile_asimage (target->asv, background, 0, 0,
436 target_width, target_height, background_tint, 485 target_width, target_height, background_tint,
437 ASA_XImage, 100, ASIMAGE_QUALITY_DEFAULT); 486 ASA_XImage, 100, ASIMAGE_QUALITY_DEFAULT);
438 if (tmp) 487 if (tmp)
439 result = tmp; 488 result = tmp;
440 } 489 }
443 new_pmap_width = new_pmap_height = 0; 492 new_pmap_width = new_pmap_height = 0;
444 } 493 }
445 else 494 else
446 { 495 {
447 result = original_asim; 496 result = original_asim;
497
448 if ((w > 0 && w != original_asim->width) 498 if ((w != original_asim->width)
449 || (h > 0 && h != original_asim->height)) 499 || (h != original_asim->height))
450 { 500 {
451 result = scale_asimage (target->asv, original_asim, 501 result = scale_asimage (target->asv, original_asim,
452 w > 0 ? w : original_asim->width, 502 w, h,
453 h > 0 ? h : original_asim->height,
454 background ? ASA_ASImage : ASA_XImage, 503 background ? ASA_ASImage : ASA_XImage,
455 100, ASIMAGE_QUALITY_DEFAULT); 504 100, ASIMAGE_QUALITY_DEFAULT);
456 } 505 }
506
457 if (background == NULL) 507 if (background == NULL)
458 {/* if tiling - pixmap has to be sized exactly as the image */ 508 {
459 if (h_scale == 0)
460 new_pmap_width = result->width;
461 if (v_scale == 0)
462 new_pmap_height = result->height;
463 /* we also need to tile our image in one or both directions */
464 if (h_scale == 0 || v_scale == 0) 509 if (h_scale == 0 || v_scale == 0)
465 { 510 {
511 /* if tiling - pixmap has to be sized exactly as the image,
512 but there is no need to make it bigger than the window! */
513 new_pmap_width = min (result->width, target_width);
514 new_pmap_height = min (result->height, target_height);
515
516 /* we also need to tile our image in both directions */
466 ASImage *tmp = tile_asimage (target->asv, result, 517 ASImage *tmp = tile_asimage (target->asv, result,
467 (h_scale > 0) ? 0 : (int)result->width - x, 518 (int)result->width - x,
468 (v_scale > 0) ? 0 : (int)result->height - y, 519 (int)result->height - y,
520 new_pmap_width,
469 result->width, result->height, 521 new_pmap_height,
470 TINT_LEAVE_SAME, ASA_XImage, 522 TINT_LEAVE_SAME, ASA_XImage,
471 100, ASIMAGE_QUALITY_DEFAULT); 523 100, ASIMAGE_QUALITY_DEFAULT);
472 if (tmp) 524 if (tmp)
473 { 525 {
474 if (result != original_asim) 526 if (result != original_asim)
475 destroy_asimage (&result); 527 destroy_asimage (&result);
528
476 result = tmp; 529 result = tmp;
477 } 530 }
478 } 531 }
479 } 532 }
480 else 533 else
534 {
481 {/* if blending background and image - pixmap has to be sized same as target window */ 535 /* if blending background and image - pixmap has to be sized same as target window */
482 ASImageLayer *layers = create_image_layers (2); 536 ASImageLayer *layers = create_image_layers (2);
483 ASImage *merged_im = NULL;
484 537
485 layers[0].im = background; 538 layers[0].im = background;
486 layers[0].clip_width = target_width; 539 layers[0].clip_width = target_width;
487 layers[0].clip_height = target_height; 540 layers[0].clip_height = target_height;
488 layers[0].tint = background_tint; 541 layers[0].tint = background_tint;
489 layers[1].im = result; 542 layers[1].im = result;
490 if (w <= 0) 543
544 if (h_scale == 0 || v_scale == 0)
545 {
491 {/* tile horizontally */ 546 /* tile horizontally */
492 while (x > 0) x -= (int)result->width; 547 while (x > 0) x -= (int)result->width;
493 layers[1].dst_x = x; 548 layers[1].dst_x = x;
494 layers[1].clip_width = result->width+target_width; 549 layers[1].clip_width = result->width+target_width;
495 } 550 }
496 else 551 else
552 {
497 {/* clip horizontally */ 553 /* clip horizontally */
498 layers[1].dst_x = x; 554 layers[1].dst_x = x;
499 layers[1].clip_width = result->width; 555 layers[1].clip_width = result->width;
500 } 556 }
501 if (h <= 0) 557
558 if (h_scale == 0 || v_scale == 0)
502 { 559 {
503 while (y > 0) y -= (int)result->height; 560 while (y > 0) y -= (int)result->height;
504 layers[1].dst_y = y; 561 layers[1].dst_y = y;
505 layers[1].clip_height = result->height + target_height; 562 layers[1].clip_height = result->height + target_height;
506 } 563 }
507 else 564 else
508 { 565 {
509 layers[1].dst_y = y; 566 layers[1].dst_y = y;
510 layers[1].clip_height = result->height; 567 layers[1].clip_height = result->height;
511 } 568 }
569
512 if (target->rs[Rs_blendtype]) 570 if (target->rs[Rs_blendtype])
513 { 571 {
514 layers[1].merge_scanlines = blend_scanlines_name2func (target->rs[Rs_blendtype]); 572 layers[1].merge_scanlines = blend_scanlines_name2func (target->rs[Rs_blendtype]);
515 if (layers[1].merge_scanlines == NULL) 573 if (layers[1].merge_scanlines == NULL)
516 layers[1].merge_scanlines = alphablend_scanlines; 574 layers[1].merge_scanlines = alphablend_scanlines;
517 } 575 }
576
518 ASImage *tmp = merge_layers (target->asv, layers, 2, target_width, target_height, 577 ASImage *tmp = merge_layers (target->asv, layers, 2, target_width, target_height,
519 ASA_XImage, 0, ASIMAGE_QUALITY_DEFAULT); 578 ASA_XImage, 0, ASIMAGE_QUALITY_DEFAULT);
579
520 if (tmp) 580 if (tmp)
521 { 581 {
522 if (result != original_asim) 582 if (result != original_asim)
523 destroy_asimage (&result); 583 destroy_asimage (&result);
584
524 result = tmp; 585 result = tmp;
525 } 586 }
587
526 free (layers); 588 free (layers);
527 } 589 }
528 } 590 }
529 TIMING_TEST_PRINT_RESULT (asim);
530 591
531 if (pixmap) 592 bool ret = false;
593
594 if (result)
532 { 595 {
533 if (result == NULL 596 XGCValues gcv;
597 GC gc;
598
599 /* create Pixmap */
600 if (pixmap == None
534 || pmap_width != new_pmap_width 601 || pmap_width != new_pmap_width
535 || pmap_height != new_pmap_height 602 || pmap_height != new_pmap_height
536 || pmap_depth != target->depth) 603 || pmap_depth != target->depth)
537 { 604 {
605 if (pixmap)
538 XFreePixmap (target->dpy, pixmap); 606 XFreePixmap (target->dpy, pixmap);
539 pixmap = None;
540 }
541 }
542
543 if (result)
544 {
545 XGCValues gcv;
546 GC gc;
547
548 /* create Pixmap */
549 if (pixmap == None)
550 {
551 pixmap = XCreatePixmap (target->dpy, target->vt, new_pmap_width, new_pmap_height, target->depth); 607 pixmap = XCreatePixmap (target->dpy, target->vt, new_pmap_width, new_pmap_height, target->depth);
552 pmap_width = new_pmap_width; 608 pmap_width = new_pmap_width;
553 pmap_height = new_pmap_height; 609 pmap_height = new_pmap_height;
554 pmap_depth = target->depth; 610 pmap_depth = target->depth;
555 } 611 }
556 /* fill with background color ( if result's not completely overlapping it)*/ 612 /* fill with background color (if result's not completely overlapping it) */
557 gcv.foreground = target->pix_colors[Color_bg]; 613 gcv.foreground = target->pix_colors[Color_bg];
558 gc = XCreateGC (target->dpy, target->vt, GCForeground, &gcv); 614 gc = XCreateGC (target->dpy, target->vt, GCForeground, &gcv);
559 615
560 int src_x = 0, src_y = 0, dst_x = 0, dst_y = 0; 616 int src_x = 0, src_y = 0, dst_x = 0, dst_y = 0;
561 int dst_width = result->width, dst_height = result->height; 617 int dst_width = result->width, dst_height = result->height;
562 if (background == NULL) 618 if (background == NULL)
563 { 619 {
564 if (h_scale > 0) 620 if (!(h_scale == 0 || v_scale == 0))
621 {
565 src_x = make_clip_rectangle (x, result->width, new_pmap_width, dst_x, dst_width); 622 src_x = make_clip_rectangle (x, result->width , new_pmap_width , dst_x, dst_width );
566 if (v_scale > 0)
567 src_y = make_clip_rectangle (y, result->height, new_pmap_height, dst_y, dst_height); 623 src_y = make_clip_rectangle (y, result->height, new_pmap_height, dst_y, dst_height);
624 }
568 625
569 if (dst_x > 0 || dst_y > 0 626 if (dst_x > 0 || dst_y > 0
570 || dst_x + dst_width < new_pmap_width 627 || dst_x + dst_width < new_pmap_width
571 || dst_y + dst_height < new_pmap_height) 628 || dst_y + dst_height < new_pmap_height)
572 {
573 XFillRectangle (target->dpy, pixmap, gc, 0, 0, new_pmap_width, new_pmap_height); 629 XFillRectangle (target->dpy, pixmap, gc, 0, 0, new_pmap_width, new_pmap_height);
574 }
575 } 630 }
576 631
577 /* put result on pixmap */ 632 /* put result on pixmap */
578 if (dst_x < new_pmap_width && dst_y < new_pmap_height) 633 if (dst_x < new_pmap_width && dst_y < new_pmap_height)
579 asimage2drawable (target->asv, pixmap, result, gc, src_x, src_y, dst_x, dst_y, dst_width, dst_height, True); 634 asimage2drawable (target->asv, pixmap, result, gc, src_x, src_y, dst_x, dst_y, dst_width, dst_height, True);
580 635
581 if (result != background && result != original_asim) 636 if (result != background && result != original_asim)
582 destroy_asimage (&result); 637 destroy_asimage (&result);
583 638
584 XFreeGC (target->dpy, gc); 639 XFreeGC (target->dpy, gc);
585 TIMING_TEST_PRINT_RESULT (asim); 640
641 ret = true;
642 }
643
644 if (background)
645 destroy_asimage (&background);
646
647 return ret;
648}
649# endif /* HAVE_AFTERIMAGE */
650
651# ifdef HAVE_PIXBUF
652bool
653bgPixmap_t::pixbuf_to_pixmap (GdkPixbuf *pixbuf, Pixmap pixmap, GC gc,
654 int src_x, int src_y, int dst_x, int dst_y,
655 unsigned int width, unsigned int height)
656{
657 XImage *ximage;
658 char *data, *line;
659 int bytes_per_pixel;
660 int width_r, width_g, width_b;
661 int sh_r, sh_g, sh_b;
662 int rowstride;
663 int channels;
664 unsigned char *row;
665 Visual *visual = target->visual;
666 int depth = target->depth;
667
668 if (visual->c_class != TrueColor)
669 return false;
670
671 if (depth == 24 || depth == 32)
672 bytes_per_pixel = 4;
673 else if (depth == 15 || depth == 16)
674 bytes_per_pixel = 2;
675 else
676 return false;
677
678 width_r = rxvt_popcount (visual->red_mask);
679 width_g = rxvt_popcount (visual->green_mask);
680 width_b = rxvt_popcount (visual->blue_mask);
681
682 if (width_r > 8 || width_g > 8 || width_b > 8)
683 return false;
684
685 sh_r = rxvt_ctz (visual->red_mask);
686 sh_g = rxvt_ctz (visual->green_mask);
687 sh_b = rxvt_ctz (visual->blue_mask);
688
689 if (width > INT_MAX / height / bytes_per_pixel)
690 return false;
691
692 data = (char *)malloc (width * height * bytes_per_pixel);
693 if (!data)
694 return false;
695
696 ximage = XCreateImage (target->dpy, visual, depth, ZPixmap, 0, data,
697 width, height, bytes_per_pixel * 8, 0);
698 if (!ximage)
586 } 699 {
700 free (data);
701 return false;
702 }
587 703
704 ximage->byte_order = byteorder::big_endian () ? MSBFirst : LSBFirst;
705
706 rowstride = gdk_pixbuf_get_rowstride (pixbuf);
707 channels = gdk_pixbuf_get_n_channels (pixbuf);
708 row = gdk_pixbuf_get_pixels (pixbuf) + src_y * rowstride + src_x * channels;
709 line = data;
710
711 for (int y = 0; y < height; y++)
712 {
713 for (int x = 0; x < width; x++)
714 {
715 unsigned char *pixel = row + x * channels;
716 uint32_t value;
717
718 value = ((pixel[0] >> (8 - width_r)) << sh_r)
719 | ((pixel[1] >> (8 - width_g)) << sh_g)
720 | ((pixel[2] >> (8 - width_b)) << sh_b);
721
722 if (bytes_per_pixel == 4)
723 ((uint32_t *)line)[x] = value;
724 else
725 ((uint16_t *)line)[x] = value;
726 }
727
728 row += rowstride;
729 line += ximage->bytes_per_line;
730 }
731
732 XPutImage (target->dpy, pixmap, gc, ximage, 0, 0, dst_x, dst_y, width, height);
733 XDestroyImage (ximage);
588 return true; 734 return true;
589} 735}
736
737bool
738bgPixmap_t::render_image (unsigned long background_flags)
739{
740 if (target == NULL)
741 return false;
742
743 if (!pixbuf)
744 return false;
745
746 if (background_flags
747 && !(flags & HAS_RENDER))
748 return false;
749
750 GdkPixbuf *result;
751
752 int image_width = gdk_pixbuf_get_width (pixbuf);
753 int image_height = gdk_pixbuf_get_height (pixbuf);
754
755 int target_width = target->szHint.width;
756 int target_height = target->szHint.height;
757 int new_pmap_width = target_width;
758 int new_pmap_height = target_height;
759
760 int x = 0;
761 int y = 0;
762 int w = 0;
763 int h = 0;
764
765 get_image_geometry (image_width, image_height, w, h, x, y);
766
767 if (!(flags & rootAlign)
768 && (x >= target_width
769 || y >= target_height
770 || (x + w <= 0)
771 || (y + h <= 0)))
772 return false;
773
774 result = pixbuf;
775
776 if ((w != image_width)
777 || (h != image_height))
778 {
779 result = gdk_pixbuf_scale_simple (pixbuf,
780 w, h,
781 GDK_INTERP_BILINEAR);
782 }
783
784 bool ret = false;
785
786 if (result)
787 {
788 XGCValues gcv;
789 GC gc;
790 Pixmap root_pmap;
791
792 image_width = gdk_pixbuf_get_width (result);
793 image_height = gdk_pixbuf_get_height (result);
794
795 if (background_flags)
796 {
797 root_pmap = pixmap;
798 pixmap = None;
799 }
800 else
801 {
802 if (h_scale == 0 || v_scale == 0)
803 {
804 new_pmap_width = min (image_width, target_width);
805 new_pmap_height = min (image_height, target_height);
806 }
807 }
808
809 if (pixmap == None
810 || pmap_width != new_pmap_width
811 || pmap_height != new_pmap_height
812 || pmap_depth != target->depth)
813 {
814 if (pixmap)
815 XFreePixmap (target->dpy, pixmap);
816 pixmap = XCreatePixmap (target->dpy, target->vt, new_pmap_width, new_pmap_height, target->depth);
817 pmap_width = new_pmap_width;
818 pmap_height = new_pmap_height;
819 pmap_depth = target->depth;
820 }
821
822 gcv.foreground = target->pix_colors[Color_bg];
823 gc = XCreateGC (target->dpy, target->vt, GCForeground, &gcv);
824
825 if (h_scale == 0 || v_scale == 0)
826 {
827 Pixmap tile = XCreatePixmap (target->dpy, target->vt, image_width, image_height, target->depth);
828 pixbuf_to_pixmap (result, tile, gc,
829 0, 0,
830 0, 0,
831 image_width, image_height);
832
833 gcv.tile = tile;
834 gcv.fill_style = FillTiled;
835 gcv.ts_x_origin = x;
836 gcv.ts_y_origin = y;
837 XChangeGC (target->dpy, gc, GCFillStyle | GCTile | GCTileStipXOrigin | GCTileStipYOrigin, &gcv);
838
839 XFillRectangle (target->dpy, pixmap, gc, 0, 0, new_pmap_width, new_pmap_height);
840 XFreePixmap (target->dpy, tile);
841 }
842 else
843 {
844 int src_x, src_y, dst_x, dst_y;
845 int dst_width, dst_height;
846
847 src_x = make_clip_rectangle (x, image_width , new_pmap_width , dst_x, dst_width );
848 src_y = make_clip_rectangle (y, image_height, new_pmap_height, dst_y, dst_height);
849
850 if (dst_x > 0 || dst_y > 0
851 || dst_x + dst_width < new_pmap_width
852 || dst_y + dst_height < new_pmap_height)
853 XFillRectangle (target->dpy, pixmap, gc, 0, 0, new_pmap_width, new_pmap_height);
854
855 if (dst_x < new_pmap_width && dst_y < new_pmap_height)
856 pixbuf_to_pixmap (result, pixmap, gc,
857 src_x, src_y,
858 dst_x, dst_y,
859 dst_width, dst_height);
860 }
861
862#if XRENDER
863 if (background_flags)
864 {
865 Display *dpy = target->dpy;
866 XRenderPictureAttributes pa;
867
868 XRenderPictFormat *src_format = XRenderFindVisualFormat (dpy, target->visual);
869 Picture src = XRenderCreatePicture (dpy, root_pmap, src_format, 0, &pa);
870
871 XRenderPictFormat *dst_format = XRenderFindVisualFormat (dpy, target->visual);
872 Picture dst = XRenderCreatePicture (dpy, pixmap, dst_format, 0, &pa);
873
874 pa.repeat = True;
875 Pixmap mask_pmap = XCreatePixmap (dpy, target->vt, 1, 1, 8);
876 XRenderPictFormat *mask_format = XRenderFindStandardFormat (dpy, PictStandardA8);
877 Picture mask = XRenderCreatePicture (dpy, mask_pmap, mask_format, CPRepeat, &pa);
878 XFreePixmap (dpy, mask_pmap);
879
880 if (src && dst && mask)
881 {
882 XRenderColor mask_c;
883
884 mask_c.alpha = 0x8000;
885 mask_c.red = 0;
886 mask_c.green = 0;
887 mask_c.blue = 0;
888 XRenderFillRectangle (dpy, PictOpSrc, mask, &mask_c, 0, 0, 1, 1);
889 XRenderComposite (dpy, PictOpOver, src, mask, dst, 0, 0, 0, 0, 0, 0, target_width, target_height);
890 }
891
892 XRenderFreePicture (dpy, src);
893 XRenderFreePicture (dpy, dst);
894 XRenderFreePicture (dpy, mask);
895
896 XFreePixmap (dpy, root_pmap);
897 }
898#endif
899
900 if (result != pixbuf)
901 g_object_unref (result);
902
903 XFreeGC (target->dpy, gc);
904
905 ret = true;
906 }
907
908 return ret;
909}
590# endif /* HAVE_AFTERIMAGE */ 910# endif /* HAVE_PIXBUF */
591 911
592bool 912bool
593bgPixmap_t::set_file (const char *file) 913bgPixmap_t::set_file (const char *file)
594{ 914{
595 char *f; 915 if (!file || !*file)
916 return false;
596 917
597 assert (file != NULL); 918 if (const char *p = strchr (file, ';'))
598 919 {
599 if (*file != '\0') 920 size_t len = p - file;
921 char *f = rxvt_temp_buf<char> (len + 1);
922 memcpy (f, file, len);
923 f[len] = '\0';
924 file = f;
600 { 925 }
926
601# ifdef HAVE_AFTERIMAGE 927# ifdef HAVE_AFTERIMAGE
602 if (target->asimman == NULL) 928 if (!target->asimman)
603 target->asimman = create_generic_imageman (target->rs[Rs_path]); 929 target->asimman = create_generic_imageman (target->rs[Rs_path]);
604 if ((f = strchr (file, ';')) == NULL)
605 original_asim = get_asimage (target->asimman, file, 0xFFFFFFFF, 100); 930 ASImage *image = get_asimage (target->asimman, file, 0xFFFFFFFF, 100);
606 else 931 if (image)
607 {
608 size_t len = f - file;
609 f = (char *)malloc (len + 1);
610 strncpy (f, file, len);
611 f[len] = '\0';
612 original_asim = get_asimage (target->asimman, f, 0xFFFFFFFF, 100);
613 free (f);
614 }
615 return (original_asim != NULL);
616# endif
617 } 932 {
933 if (original_asim)
934 safe_asimage_destroy (original_asim);
935 original_asim = image;
936 flags |= CLIENT_RENDER;
937 have_image = true;
938 return true;
939 }
940# endif
941
942# ifdef HAVE_PIXBUF
943 GdkPixbuf *image = gdk_pixbuf_new_from_file (file, NULL);
944 if (image)
945 {
946 if (pixbuf)
947 g_object_unref (pixbuf);
948 pixbuf = image;
949 have_image = true;
950 return true;
951 }
952# endif
953
618 return false; 954 return false;
619} 955}
620 956
621# endif /* BG_IMAGE_FROM_FILE */ 957# endif /* BG_IMAGE_FROM_FILE */
622 958
623# ifdef ENABLE_TRANSPARENCY 959# ifdef ENABLE_TRANSPARENCY
624bool 960bool
625bgPixmap_t::set_transparent () 961bgPixmap_t::set_transparent ()
626{ 962{
627 if (!(flags & isTransparent)) 963 if (!(flags & isTransparent))
628 { 964 {
629 flags |= isTransparent; 965 flags |= isTransparent;
630 return true; 966 return true;
631 } 967 }
968
632 return false; 969 return false;
633} 970}
634 971
635bool 972bool
636bgPixmap_t::set_blur_radius (const char *geom) 973bgPixmap_t::set_blur_radius (const char *geom)
637{ 974{
638 int changed = 0; 975 bool changed = false;
639 unsigned int hr, vr; 976 unsigned int hr, vr;
640 int junk; 977 int junk;
641 int geom_flags = XParseGeometry (geom, &junk, &junk, &hr, &vr); 978 int geom_flags = XParseGeometry (geom, &junk, &junk, &hr, &vr);
642 979
643 if (!(geom_flags&WidthValue)) 980 if (!(geom_flags & WidthValue))
644 hr = 1; 981 hr = 1;
645 if (!(geom_flags&HeightValue)) 982 if (!(geom_flags & HeightValue))
646 vr = hr; 983 vr = hr;
647 984
985 min_it (hr, 128);
986 min_it (vr, 128);
987
648 if (h_blurRadius != hr) 988 if (h_blurRadius != hr)
649 { 989 {
650 ++changed; 990 changed = true;
651 h_blurRadius = hr; 991 h_blurRadius = hr;
652 } 992 }
653 993
654 if (v_blurRadius != vr) 994 if (v_blurRadius != vr)
655 { 995 {
656 ++changed; 996 changed = true;
657 v_blurRadius = vr; 997 v_blurRadius = vr;
658 } 998 }
659 999
660 if (v_blurRadius == 0 && h_blurRadius == 0) 1000 if (v_blurRadius == 0 && h_blurRadius == 0)
661 flags &= ~blurNeeded; 1001 flags &= ~blurNeeded;
662 else 1002 else
663 flags |= blurNeeded; 1003 flags |= blurNeeded;
664 1004
665 return (changed>0); 1005 return changed;
666} 1006}
667 1007
668static inline unsigned long 1008static inline unsigned long
669compute_tint_shade_flags (rxvt_color *tint, int shade) 1009compute_tint_shade_flags (rxvt_color *tint, int shade)
670{ 1010{
671 unsigned long flags = 0; 1011 unsigned long flags = 0;
672 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC); 1012 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC);
1013 bool has_shade = shade != 100;
673 1014
674 if (tint) 1015 if (tint)
675 { 1016 {
676 tint->get (c); 1017 tint->get (c);
677# define IS_COMPONENT_WHOLESOME(cmp) ((cmp) <= 0x000700 || (cmp) >= 0x00f700) 1018# define IS_COMPONENT_WHOLESOME(cmp) ((cmp) <= 0x00ff || (cmp) >= 0xff00)
1019 if (!has_shade
678 if (IS_COMPONENT_WHOLESOME (c.r) 1020 && IS_COMPONENT_WHOLESOME (c.r)
679 && IS_COMPONENT_WHOLESOME (c.g) 1021 && IS_COMPONENT_WHOLESOME (c.g)
680 && IS_COMPONENT_WHOLESOME (c.b)) 1022 && IS_COMPONENT_WHOLESOME (c.b))
681 flags |= bgPixmap_t::tintWholesome; 1023 flags |= bgPixmap_t::tintWholesome;
682# undef IS_COMPONENT_WHOLESOME 1024# undef IS_COMPONENT_WHOLESOME
683 } 1025 }
684 1026
685 if ((shade > 0 && shade < 100) || (shade > 100 && shade < 200)) 1027 if (has_shade || tint)
686 flags |= bgPixmap_t::tintNeeded; 1028 flags |= bgPixmap_t::tintNeeded;
687 else if (tint)
688 {
689 if ((c.r > 0x000700 || c.g > 0x000700 || c.b > 0x000700)
690 && (c.r < 0x00f700 || c.g < 0x00f700 || c.b < 0x00f700))
691 {
692 flags |= bgPixmap_t::tintNeeded;
693 }
694 }
695
696 if (flags & bgPixmap_t::tintNeeded)
697 {
698 if (flags & bgPixmap_t::tintWholesome)
699 flags |= bgPixmap_t::tintServerSide;
700#if XFT
701 flags |= bgPixmap_t::tintServerSide;
702#endif
703 }
704 1029
705 return flags; 1030 return flags;
706} 1031}
707 1032
708bool 1033bool
709bgPixmap_t::set_tint (rxvt_color &new_tint) 1034bgPixmap_t::set_tint (rxvt_color &new_tint)
710{ 1035{
711 if (tint != new_tint) 1036 if (!(flags & tintSet) || tint != new_tint)
712 { 1037 {
713 unsigned long new_flags = compute_tint_shade_flags (&new_tint, shade); 1038 unsigned long new_flags = compute_tint_shade_flags (&new_tint, shade);
714 tint = new_tint; 1039 tint = new_tint;
715 flags = (flags & ~tintFlags) | new_flags | tintSet; 1040 flags = (flags & ~tintFlags) | new_flags | tintSet;
716 return true; 1041 return true;
717 } 1042 }
718 return false;
719}
720 1043
721bool
722bgPixmap_t::unset_tint ()
723{
724 unsigned long new_flags = compute_tint_shade_flags (NULL, shade);
725
726 if (new_flags != (flags & tintFlags))
727 {
728 flags = (flags&~tintFlags)|new_flags;
729 return true;
730 }
731 return false; 1044 return false;
732} 1045}
733 1046
734bool 1047bool
735bgPixmap_t::set_shade (const char *shade_str) 1048bgPixmap_t::set_shade (const char *shade_str)
736{ 1049{
737 int new_shade = (shade_str) ? atoi (shade_str) : 0; 1050 int new_shade = (shade_str) ? atoi (shade_str) : 100;
738 1051
1052 clamp_it (new_shade, -100, 200);
739 if (new_shade == 100) 1053 if (new_shade < 0)
740 new_shade = 0; 1054 new_shade = 200 - (100 + new_shade);
741 1055
742 if (new_shade != shade) 1056 if (new_shade != shade)
743 { 1057 {
744 unsigned long new_flags = compute_tint_shade_flags ((flags & tintSet) ? &tint : NULL, new_shade); 1058 unsigned long new_flags = compute_tint_shade_flags ((flags & tintSet) ? &tint : NULL, new_shade);
745 shade = new_shade; 1059 shade = new_shade;
746 flags = (flags & ~tintFlags) | new_flags; 1060 flags = (flags & (~tintFlags | tintSet)) | new_flags;
747 return true; 1061 return true;
748 } 1062 }
1063
749 return false; 1064 return false;
750} 1065}
751 1066
1067#if XRENDER
1068static void
1069get_gaussian_kernel (int radius, int width, double *kernel, XFixed *params)
1070{
1071 double sigma = radius / 2.0;
1072 double scale = sqrt (2.0 * M_PI) * sigma;
1073 double sum = 0.0;
1074
1075 for (int i = 0; i < width; i++)
1076 {
1077 double x = i - width / 2;
1078 kernel[i] = exp (-(x * x) / (2.0 * sigma * sigma)) / scale;
1079 sum += kernel[i];
1080 }
1081
1082 params[0] = XDoubleToFixed (width);
1083 params[1] = XDoubleToFixed (1);
1084
1085 for (int i = 0; i < width; i++)
1086 params[i+2] = XDoubleToFixed (kernel[i] / sum);
1087}
1088#endif
1089
1090bool
1091bgPixmap_t::blur_pixmap (Pixmap pixmap, Visual *visual, int width, int height)
1092{
1093 bool ret = false;
1094#if XRENDER
1095 int size = max (h_blurRadius, v_blurRadius) * 2 + 1;
1096 double *kernel = (double *)malloc (size * sizeof (double));
1097 XFixed *params = (XFixed *)malloc ((size + 2) * sizeof (XFixed));
1098
1099 Display *dpy = target->dpy;
1100 XRenderPictureAttributes pa;
1101 XRenderPictFormat *format = XRenderFindVisualFormat (dpy, visual);
1102
1103 Picture src = XRenderCreatePicture (dpy, pixmap, format, 0, &pa);
1104 Picture dst = XRenderCreatePicture (dpy, pixmap, format, 0, &pa);
1105
1106 if (kernel && params && src && dst)
1107 {
1108 if (h_blurRadius)
1109 {
1110 size = h_blurRadius * 2 + 1;
1111 get_gaussian_kernel (h_blurRadius, size, kernel, params);
1112
1113 XRenderSetPictureFilter (dpy, src, FilterConvolution, params, size+2);
1114 XRenderComposite (dpy,
1115 PictOpSrc,
1116 src,
1117 None,
1118 dst,
1119 0, 0,
1120 0, 0,
1121 0, 0,
1122 width, height);
1123 }
1124
1125 if (v_blurRadius)
1126 {
1127 size = v_blurRadius * 2 + 1;
1128 get_gaussian_kernel (v_blurRadius, size, kernel, params);
1129 swap (params[0], params[1]);
1130
1131 XRenderSetPictureFilter (dpy, src, FilterConvolution, params, size+2);
1132 XRenderComposite (dpy,
1133 PictOpSrc,
1134 src,
1135 None,
1136 dst,
1137 0, 0,
1138 0, 0,
1139 0, 0,
1140 width, height);
1141 }
1142
1143 ret = true;
1144 }
1145
1146 free (kernel);
1147 free (params);
1148 XRenderFreePicture (dpy, src);
1149 XRenderFreePicture (dpy, dst);
1150#endif
1151 return ret;
1152}
1153
1154bool
1155bgPixmap_t::tint_pixmap (Pixmap pixmap, Visual *visual, int width, int height)
1156{
1157 Display *dpy = target->dpy;
1158 bool ret = false;
1159
1160 if (flags & tintWholesome)
1161 {
1162 XGCValues gcv;
1163 GC gc;
1164
1165 /* In this case we can tint image server-side getting significant
1166 * performance improvements, as we eliminate XImage transfer
1167 */
1168 gcv.foreground = Pixel (tint);
1169 gcv.function = GXand;
1170 gcv.fill_style = FillSolid;
1171 gc = XCreateGC (dpy, pixmap, GCFillStyle | GCForeground | GCFunction, &gcv);
1172 if (gc)
1173 {
1174 XFillRectangle (dpy, pixmap, gc, 0, 0, width, height);
1175 ret = true;
1176 XFreeGC (dpy, gc);
1177 }
1178 }
1179 else
1180 {
1181# if XRENDER
1182 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC);
1183
1184 if (flags & tintSet)
1185 tint.get (c);
1186
1187 if (shade <= 100)
1188 {
1189 c.r = (c.r * shade) / 100;
1190 c.g = (c.g * shade) / 100;
1191 c.b = (c.b * shade) / 100;
1192 }
1193 else
1194 {
1195 c.r = (c.r * (200 - shade)) / 100;
1196 c.g = (c.g * (200 - shade)) / 100;
1197 c.b = (c.b * (200 - shade)) / 100;
1198 }
1199
1200 XRenderPictFormat *solid_format = XRenderFindStandardFormat (dpy, PictStandardARGB32);
1201 XRenderPictFormat *format = XRenderFindVisualFormat (dpy, visual);
1202 XRenderPictureAttributes pa;
1203
1204 Picture back_pic = XRenderCreatePicture (dpy, pixmap, format, 0, &pa);
1205
1206 pa.repeat = True;
1207
1208 Pixmap overlay_pmap = XCreatePixmap (dpy, pixmap, 1, 1, 32);
1209 Picture overlay_pic = XRenderCreatePicture (dpy, overlay_pmap, solid_format, CPRepeat, &pa);
1210 XFreePixmap (dpy, overlay_pmap);
1211
1212 pa.component_alpha = True;
1213 Pixmap mask_pmap = XCreatePixmap (dpy, pixmap, 1, 1, 32);
1214 Picture mask_pic = XRenderCreatePicture (dpy, mask_pmap, solid_format, CPRepeat|CPComponentAlpha, &pa);
1215 XFreePixmap (dpy, mask_pmap);
1216
1217 if (mask_pic && overlay_pic && back_pic)
1218 {
1219 XRenderColor mask_c;
1220
1221 mask_c.red = mask_c.green = mask_c.blue = 0;
1222 mask_c.alpha = 0xffff;
1223 XRenderFillRectangle (dpy, PictOpSrc, overlay_pic, &mask_c, 0, 0, 1, 1);
1224
1225 mask_c.alpha = 0;
1226 mask_c.red = 0xffff - c.r;
1227 mask_c.green = 0xffff - c.g;
1228 mask_c.blue = 0xffff - c.b;
1229 XRenderFillRectangle (dpy, PictOpSrc, mask_pic, &mask_c, 0, 0, 1, 1);
1230 XRenderComposite (dpy, PictOpOver, overlay_pic, mask_pic, back_pic, 0, 0, 0, 0, 0, 0, width, height);
1231
1232 if (shade > 100)
1233 {
1234 mask_c.red = mask_c.green = mask_c.blue = 0xffff * (shade - 100) / 100;
1235 mask_c.alpha = 0;
1236 XRenderFillRectangle (dpy, PictOpSrc, overlay_pic, &mask_c, 0, 0, 1, 1);
1237
1238 XRenderComposite (dpy, PictOpOver, overlay_pic, None, back_pic, 0, 0, 0, 0, 0, 0, width, height);
1239 }
1240
1241 ret = true;
1242 }
1243
1244 XRenderFreePicture (dpy, mask_pic);
1245 XRenderFreePicture (dpy, overlay_pic);
1246 XRenderFreePicture (dpy, back_pic);
1247# endif
1248 }
1249
1250 return ret;
1251}
1252
752/* make_transparency_pixmap() 1253/* make_transparency_pixmap()
753 * Builds a pixmap sized the same as terminal window, with depth same as the root window 1254 * Builds a pixmap of the same size as the terminal window that contains
754 * that pixmap contains tiled portion of the root pixmap that is supposed to be covered by 1255 * the tiled portion of the root pixmap that is supposed to be covered by
755 * our window. 1256 * our window.
756 */ 1257 */
757unsigned long 1258unsigned long
758bgPixmap_t::make_transparency_pixmap () 1259bgPixmap_t::make_transparency_pixmap ()
759{ 1260{
760 unsigned long result = 0; 1261 unsigned long result = 0;
761 1262
762 if (target == NULL) 1263 if (target == NULL)
763 return 0; 1264 return 0;
764 1265
765 /* root dimentions may change from call to call - but Display structure should 1266 /* root dimensions may change from call to call - but Display structure should
766 * be always up-to-date, so let's use it : 1267 * be always up-to-date, so let's use it :
767 */ 1268 */
768 Window root = target->display->root;
769 int screen = target->display->screen; 1269 int screen = target->display->screen;
770 Display *dpy = target->dpy; 1270 Display *dpy = target->dpy;
1271 int root_depth = DefaultDepth (dpy, screen);
771 int root_width = DisplayWidth (dpy, screen); 1272 int root_width = DisplayWidth (dpy, screen);
772 int root_height = DisplayHeight (dpy, screen); 1273 int root_height = DisplayHeight (dpy, screen);
773 unsigned int root_pmap_width, root_pmap_height; 1274 unsigned int root_pmap_width, root_pmap_height;
774 int window_width = target->szHint.width; 1275 int window_width = target->szHint.width;
775 int window_height = target->szHint.height; 1276 int window_height = target->szHint.height;
776 int sx, sy; 1277 int sx, sy;
777 XGCValues gcv; 1278 XGCValues gcv;
1279 GC gc;
778 1280
779 TIMING_TEST_START (tp); 1281 sx = target_x;
780 target->get_window_origin (sx, sy); 1282 sy = target_y;
781 1283
782 /* check if we are outside of the visible part of the virtual screen : */ 1284 /* check if we are outside of the visible part of the virtual screen : */
783 if (sx + window_width <= 0 || sy + window_height <= 0 1285 if (sx + window_width <= 0 || sy + window_height <= 0
784 || sx >= root_width || sy >= root_height) 1286 || sx >= root_width || sy >= root_height)
785 return 0; 1287 return 0;
786 1288
1289 // validate root pixmap and get its size
787 if (root_pixmap != None) 1290 if (root_pixmap != None)
788 {/* we want to validate the pixmap and get it's size at the same time : */ 1291 {
1292 Window wdummy;
789 int junk; 1293 int idummy;
790 unsigned int ujunk; 1294 unsigned int udummy;
791 /* root pixmap may be bad - allow a error */ 1295
792 target->allowedxerror = -1; 1296 target->allowedxerror = -1;
793 1297
794 if (!XGetGeometry (dpy, root_pixmap, &root, &junk, &junk, &root_pmap_width, &root_pmap_height, &ujunk, &ujunk)) 1298 if (!XGetGeometry (dpy, root_pixmap, &wdummy, &idummy, &idummy, &root_pmap_width, &root_pmap_height, &udummy, &udummy))
795 root_pixmap = None; 1299 root_pixmap = None;
796 1300
797 target->allowedxerror = 0; 1301 target->allowedxerror = 0;
798 } 1302 }
799 1303
1304 Pixmap recoded_root_pmap = root_pixmap;
1305
1306 if (root_pixmap != None && root_depth != target->depth)
1307 {
1308#if XRENDER
1309 if (flags & HAS_RENDER)
1310 {
1311 XRenderPictureAttributes pa;
1312
1313 XRenderPictFormat *src_format = XRenderFindVisualFormat (dpy, DefaultVisual (dpy, screen));
1314 Picture src = XRenderCreatePicture (dpy, root_pixmap, src_format, 0, &pa);
1315
1316 recoded_root_pmap = XCreatePixmap (dpy, target->vt, root_pmap_width, root_pmap_height, target->depth);
1317 XRenderPictFormat *dst_format = XRenderFindVisualFormat (dpy, target->visual);
1318 Picture dst = XRenderCreatePicture (dpy, recoded_root_pmap, dst_format, 0, &pa);
1319
1320 if (src && dst)
1321 XRenderComposite (dpy, PictOpSrc, src, None, dst, 0, 0, 0, 0, 0, 0, root_pmap_width, root_pmap_height);
1322 else
1323 {
1324 XFreePixmap (dpy, recoded_root_pmap);
1325 root_pixmap = None;
1326 }
1327
1328 XRenderFreePicture (dpy, src);
1329 XRenderFreePicture (dpy, dst);
1330 }
1331 else
1332#endif
1333 root_pixmap = None;
1334 }
1335
1336 if (root_pixmap == None)
1337 return 0;
1338
800 Pixmap tiled_root_pmap = XCreatePixmap (dpy, root, window_width, window_height, root_depth); 1339 Pixmap tiled_root_pmap = XCreatePixmap (dpy, target->vt, window_width, window_height, target->depth);
801 GC gc = NULL;
802 1340
803 if (tiled_root_pmap == None) /* something really bad happened - abort */ 1341 if (tiled_root_pmap == None) /* something really bad happened - abort */
804 return 0; 1342 return 0;
805 1343
806 if (root_pixmap == None)
807 { /* use tricks to obtain the root background image :*/
808 /* we want to create Overrideredirect window overlapping out window
809 with background type of Parent Relative and then grab it */
810 XSetWindowAttributes attr;
811 Window src;
812 bool success = false;
813
814 attr.background_pixmap = ParentRelative;
815 attr.backing_store = Always;
816 attr.event_mask = ExposureMask;
817 attr.override_redirect = True;
818 src = XCreateWindow (dpy, root, sx, sy, window_width, window_height, 0,
819 CopyFromParent, CopyFromParent, CopyFromParent,
820 CWBackPixmap|CWBackingStore|CWOverrideRedirect|CWEventMask,
821 &attr);
822
823 if (src != None)
824 {
825 XEvent event;
826 int ev_count = 0;
827 XGrabServer (dpy);
828 XMapRaised (dpy, src);
829 XSync (dpy, False);
830
831 /* XSync should get window where it's properly exposed,
832 * but to be on the safe side - let's check for the actuall event to arrive : */
833 while (XCheckWindowEvent (dpy, src, ExposureMask, &event))
834 ++ev_count;
835
836 if (ev_count > 0);
837 { /* hooray! - we can grab the image! */
838 gc = XCreateGC (dpy, root, 0, NULL);
839 if (gc)
840 {
841 XCopyArea (dpy, src, tiled_root_pmap, gc, 0, 0, window_width, window_height, 0, 0);
842 success = true;
843 }
844 }
845 XDestroyWindow (dpy, src);
846 XUngrabServer (dpy);
847 //fprintf (stderr, "%s:%d: ev_count = %d\n", __FUNCTION__, __LINE__, ev_count);
848 }
849
850 if (!success)
851 {
852 XFreePixmap (dpy, tiled_root_pmap);
853 tiled_root_pmap = None;
854 }
855 else
856 result |= transpPmapTiled;
857 }
858 else
859 {/* strightforward pixmap copy */ 1344 /* straightforward pixmap copy */
1345 while (sx < 0) sx += (int)root_width;
1346 while (sy < 0) sy += (int)root_height;
1347
860 gcv.tile = root_pixmap; 1348 gcv.tile = recoded_root_pmap;
861 gcv.fill_style = FillTiled; 1349 gcv.fill_style = FillTiled;
862
863 while (sx < 0) sx += (int)window_width;
864 while (sy < 0) sy += (int)window_height;
865
866 gcv.ts_x_origin = -sx; 1350 gcv.ts_x_origin = -sx;
867 gcv.ts_y_origin = -sy; 1351 gcv.ts_y_origin = -sy;
868 gc = XCreateGC (dpy, root, GCFillStyle | GCTile | GCTileStipXOrigin | GCTileStipYOrigin, &gcv); 1352 gc = XCreateGC (dpy, target->vt, GCFillStyle | GCTile | GCTileStipXOrigin | GCTileStipYOrigin, &gcv);
869 1353
870 if (gc) 1354 if (gc)
871 { 1355 {
872 XFillRectangle (dpy, tiled_root_pmap, gc, 0, 0, window_width, window_height); 1356 XFillRectangle (dpy, tiled_root_pmap, gc, 0, 0, window_width, window_height);
873 result |= transpPmapTiled; 1357 result |= transpPmapTiled;
1358 XFreeGC (dpy, gc);
1359
1360 if (!(flags & CLIENT_RENDER))
874 } 1361 {
875 } 1362 if ((flags & blurNeeded)
876 TIMING_TEST_PRINT_RESULT (tp); 1363 && (flags & HAS_RENDER_CONV))
877
878 if (tiled_root_pmap != None)
879 {
880 if (!need_client_side_rendering ())
881 { 1364 {
1365 if (blur_pixmap (tiled_root_pmap, target->visual, window_width, window_height))
1366 result |= transpPmapBlurred;
1367 }
882 if ((flags & tintNeeded)) 1368 if ((flags & tintNeeded)
883 {
884 if (flags & tintWholesome) 1369 && (flags & (tintWholesome | HAS_RENDER)))
885 { 1370 {
886 /* In this case we can tint image server-side getting significant 1371 if (tint_pixmap (tiled_root_pmap, target->visual, window_width, window_height))
887 * performance improvements, as we eliminate XImage transfer
888 */
889 gcv.foreground = Pixel (tint);
890 gcv.function = GXand;
891 gcv.fill_style = FillSolid;
892 if (gc)
893 XChangeGC (dpy, gc, GCFillStyle | GCForeground | GCFunction, &gcv);
894 else
895 gc = XCreateGC (dpy, root, GCFillStyle | GCForeground | GCFunction, &gcv);
896 if (gc)
897 {
898 XFillRectangle (dpy, tiled_root_pmap, gc, 0, 0, window_width, window_height);
899 result |= transpPmapTinted; 1372 result |= transpPmapTinted;
900 }
901 }
902 else
903 {
904# if XFT
905 Picture back_pic = 0;
906 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC);
907
908 if (flags & tintSet)
909 tint.get (c);
910
911 if (shade > 0 && shade < 100)
912 {
913 c.r = (c.r * shade) / 100;
914 c.g = (c.g * shade) / 100;
915 c.b = (c.b * shade) / 100;
916 }
917 else if( shade > 100 && shade < 200)
918 {
919 c.r = (c.r * (200 - shade)) / 100;
920 c.g = (c.g * (200 - shade)) / 100;
921 c.b = (c.b * (200 - shade)) / 100;
922 }
923
924 XRenderPictFormat pf;
925 pf.type = PictTypeDirect;
926 pf.depth = 32;
927 pf.direct.redMask = 0xff;
928 pf.direct.greenMask = 0xff;
929 pf.direct.blueMask = 0xff;
930 pf.direct.alphaMask = 0xff;
931
932 XRenderPictFormat *solid_format = XRenderFindFormat (dpy,
933 (PictFormatType|
934 PictFormatDepth|
935 PictFormatRedMask|
936 PictFormatGreenMask|
937 PictFormatBlueMask|
938 PictFormatAlphaMask),
939 &pf,
940 0);
941 XRenderPictFormat *root_format = XRenderFindVisualFormat (dpy, DefaultVisualOfScreen (ScreenOfDisplay (dpy, target->display->screen)));
942 XRenderPictureAttributes pa ;
943
944 back_pic = XRenderCreatePicture (dpy, tiled_root_pmap, root_format, 0, &pa);
945
946 pa.repeat = True;
947
948 Pixmap overlay_pmap = XCreatePixmap (dpy, root, 1, 1, 32);
949 Picture overlay_pic = XRenderCreatePicture (dpy, overlay_pmap, solid_format, CPRepeat, &pa);
950 XFreePixmap (dpy, overlay_pmap);
951
952 pa.component_alpha = True;
953 Pixmap mask_pmap = XCreatePixmap (dpy, root, 1, 1, 32);
954 Picture mask_pic = XRenderCreatePicture (dpy, mask_pmap, solid_format, CPRepeat|CPComponentAlpha, &pa);
955 XFreePixmap (dpy, mask_pmap);
956
957 if (mask_pic && overlay_pic && back_pic)
958 {
959 XRenderColor mask_c;
960
961 memset (&mask_c, (shade > 100) ? 0xFF : 0x0, sizeof (mask_c));
962 mask_c.alpha = 0xffff;
963 XRenderFillRectangle (dpy, PictOpSrc, overlay_pic, &mask_c, 0, 0, 1, 1);
964 memset (&mask_c, 0x0, sizeof (mask_c));
965 mask_c.alpha = 0;
966
967 if (c.r == c.b && c.b == c.g) /* pure shading */
968 {
969 mask_c.red = mask_c.green = mask_c.blue = 0xffff - c.r;
970 XRenderFillRectangle (dpy, PictOpSrc, mask_pic, &mask_c, 0, 0, 1, 1);
971 XRenderComposite (dpy, PictOpOver, overlay_pic, mask_pic, back_pic, 0, 0, 0, 0, 0, 0, window_width, window_height);
972 }
973 else
974 {
975 mask_c.red = 0xffff - c.r;
976 XRenderFillRectangle (dpy, PictOpSrc, mask_pic, &mask_c, 0, 0, 1, 1);
977 XRenderComposite (dpy, PictOpOver, overlay_pic, mask_pic, back_pic, 0, 0, 0, 0, 0, 0, window_width, window_height);
978 mask_c.red = 0;
979 mask_c.green = 0xffff - c.g;
980 XRenderFillRectangle (dpy, PictOpSrc, mask_pic, &mask_c, 0, 0, 1, 1);
981 XRenderComposite (dpy, PictOpOver, overlay_pic, mask_pic, back_pic, 0, 0, 0, 0, 0, 0, window_width, window_height);
982 mask_c.green = 0;
983 mask_c.blue = 0xffff - c.b;
984 XRenderFillRectangle (dpy, PictOpSrc, mask_pic, &mask_c, 0, 0, 1, 1);
985 XRenderComposite (dpy, PictOpOver, overlay_pic, mask_pic, back_pic, 0, 0, 0, 0, 0, 0, window_width, window_height);
986 }
987 result |= transpPmapTinted;
988 }
989 XRenderFreePicture (dpy, mask_pic);
990 XRenderFreePicture (dpy, overlay_pic);
991 XRenderFreePicture (dpy, back_pic);
992# if DO_TIMING_TEST
993 XSync (dpy, False);
994# endif
995# endif
996 }
997 } 1373 }
998 } /* server side rendering completed */ 1374 } /* server side rendering completed */
999 1375
1000 if (pixmap) 1376 if (pixmap)
1001 XFreePixmap (dpy, pixmap); 1377 XFreePixmap (dpy, pixmap);
1002 1378
1003 pixmap = tiled_root_pmap; 1379 pixmap = tiled_root_pmap;
1004 pmap_width = window_width; 1380 pmap_width = window_width;
1005 pmap_height = window_height; 1381 pmap_height = window_height;
1006 pmap_depth = root_depth; 1382 pmap_depth = target->depth;
1007 }
1008
1009 if (gc)
1010 XFreeGC (dpy, gc);
1011
1012 TIMING_TEST_PRINT_RESULT (tp);
1013 1383 }
1384 else
1385 XFreePixmap (dpy, tiled_root_pmap);
1386
1387 if (recoded_root_pmap != root_pixmap)
1388 XFreePixmap (dpy, recoded_root_pmap);
1389
1014 return result; 1390 return result;
1015} 1391}
1016 1392
1017bool 1393void
1018bgPixmap_t::set_root_pixmap () 1394bgPixmap_t::set_root_pixmap ()
1019{ 1395{
1020 Pixmap new_root_pixmap = None;
1021
1022 new_root_pixmap = target->get_pixmap_property (XA_XROOTPMAP_ID); 1396 Pixmap new_root_pixmap = target->get_pixmap_property (target->xa[XA_XROOTPMAP_ID]);
1023 if (new_root_pixmap == None) 1397 if (new_root_pixmap == None)
1024 new_root_pixmap = target->get_pixmap_property (XA_ESETROOT_PMAP_ID); 1398 new_root_pixmap = target->get_pixmap_property (target->xa[XA_ESETROOT_PMAP_ID]);
1025 1399
1026 if (new_root_pixmap != root_pixmap)
1027 {
1028 root_pixmap = new_root_pixmap; 1400 root_pixmap = new_root_pixmap;
1029 return true;
1030 }
1031 return false;
1032} 1401}
1033# endif /* ENABLE_TRANSPARENCY */ 1402# endif /* ENABLE_TRANSPARENCY */
1034 1403
1035# ifndef HAVE_AFTERIMAGE 1404#if defined(ENABLE_TRANSPARENCY) && !defined(HAVE_AFTERIMAGE)
1036static void ShadeXImage(rxvt_term *term, XImage* srcImage, int shade, int rm, int gm, int bm); 1405static void shade_ximage (Visual *visual, XImage *ximage, int shade, const rgba &c);
1037# endif 1406# endif
1038
1039 1407
1040bool 1408bool
1041bgPixmap_t::render () 1409bgPixmap_t::render ()
1042{ 1410{
1043 unsigned long background_flags = 0; 1411 unsigned long background_flags = 0;
1044 1412
1045 if (target == NULL) 1413 if (target == NULL)
1046 return false; 1414 return false;
1047 1415
1048 invalidate(); 1416 invalidate ();
1049# ifdef ENABLE_TRANSPARENCY 1417# ifdef ENABLE_TRANSPARENCY
1050 if (flags & isTransparent) 1418 if (flags & isTransparent)
1051 { 1419 {
1052 /* we need to re-generate transparency pixmap in that case ! */ 1420 /* we need to re-generate transparency pixmap in that case ! */
1053 background_flags = make_transparency_pixmap (); 1421 background_flags = make_transparency_pixmap ();
1054 if (background_flags == 0) 1422 if (background_flags == 0)
1055 return false; 1423 return false;
1056 else if ((background_flags & transpTransformations) == (flags & transpTransformations) 1424 else if ((background_flags & transpTransformations) == (flags & transpTransformations))
1057 && pmap_depth == target->depth)
1058 flags = flags & ~isInvalid; 1425 flags &= ~isInvalid;
1059 } 1426 }
1060# endif 1427# endif
1061 1428
1429# ifdef BG_IMAGE_FROM_FILE
1430 if (have_image
1431 || (background_flags & transpTransformations) != (flags & transpTransformations))
1432 {
1433 if (render_image (background_flags))
1434 flags &= ~isInvalid;
1435 }
1436# endif
1437
1438# if defined(ENABLE_TRANSPARENCY) && !defined(HAVE_AFTERIMAGE)
1062 XImage *result = NULL; 1439 XImage *result = NULL;
1063# ifdef HAVE_AFTERIMAGE 1440
1064 if (original_asim 1441 if (background_flags && (flags & isInvalid))
1065 || (background_flags & transpTransformations) != (flags & transpTransformations)) 1442 {
1443 result = XGetImage (target->dpy, pixmap, 0, 0, pmap_width, pmap_height, AllPlanes, ZPixmap);
1066 { 1444 }
1067 ASImage *background = NULL;
1068 ARGB32 as_tint = TINT_LEAVE_SAME;
1069 if (background_flags)
1070 background = pixmap2ximage (target->asv, pixmap, 0, 0, pmap_width, pmap_height, AllPlanes, 100);
1071 1445
1072# ifdef ENABLE_TRANSPARENCY 1446 if (result)
1447 {
1448 /* our own client-side tinting */
1073 if (!(background_flags & transpPmapTinted) && (flags & tintNeeded)) 1449 if (!(background_flags & transpPmapTinted) && (flags & tintNeeded))
1074 { 1450 {
1075 ShadingInfo as_shade;
1076 as_shade.shading = (shade == 0) ? 100 : shade;
1077
1078 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC); 1451 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC);
1079 if (flags & tintSet) 1452 if (flags & tintSet)
1080 tint.get (c); 1453 tint.get (c);
1081 as_shade.tintColor.red = c.r; 1454 shade_ximage (DefaultVisual (target->dpy, target->display->screen), result, shade, c);
1082 as_shade.tintColor.green = c.g;
1083 as_shade.tintColor.blue = c.b;
1084
1085 as_tint = shading2tint32 (&as_shade);
1086 }
1087 if (!(background_flags & transpPmapBlured) && (flags & blurNeeded) && background != NULL)
1088 { 1455 }
1089 ASImage* tmp = blur_asimage_gauss (target->asv, background, h_blurRadius, v_blurRadius, 0xFFFFFFFF,
1090 (original_asim == NULL || tint == TINT_LEAVE_SAME)?ASA_XImage:ASA_ASImage,
1091 100, ASIMAGE_QUALITY_DEFAULT);
1092 if (tmp)
1093 {
1094 destroy_asimage (&background);
1095 background = tmp;
1096 }
1097 }
1098# endif
1099 1456
1100 if (render_asim (background, as_tint))
1101 flags = flags & ~isInvalid;
1102 if (background)
1103 destroy_asimage (&background);
1104 }
1105 else if (background_flags && pmap_depth != target->depth)
1106 {
1107 result = XGetImage (target->dpy, pixmap, 0, 0, pmap_width, pmap_height, AllPlanes, ZPixmap);
1108 }
1109# else /* our own client-side tinting */
1110 if (background_flags && (flags & isInvalid))
1111 {
1112 result = XGetImage (target->dpy, pixmap, 0, 0, pmap_width, pmap_height, AllPlanes, ZPixmap);
1113 if (result != NULL && !(background_flags & transpPmapTinted) && (flags & tintNeeded))
1114 {
1115 rgba c (rgba::MAX_CC,rgba::MAX_CC,rgba::MAX_CC);
1116 if (flags & tintSet)
1117 tint.get (c);
1118 ShadeXImage (target, result, shade, c.r, c.g, c.b);
1119 }
1120 }
1121# endif /* HAVE_AFTERIMAGE */
1122
1123 if (result != NULL)
1124 {
1125 GC gc = XCreateGC (target->dpy, target->vt, 0UL, NULL); 1457 GC gc = XCreateGC (target->dpy, target->vt, 0UL, NULL);
1458
1126 if (gc) 1459 if (gc)
1127 { 1460 {
1128 if (/*pmap_depth != target->depth &&*/ pixmap != None)
1129 {
1130 XFreePixmap (target->dpy, pixmap);
1131 pixmap = None;
1132 }
1133 if (pixmap == None)
1134 {
1135 pixmap = XCreatePixmap (target->dpy, target->vt, result->width, result->height, target->depth);
1136 pmap_width = result->width;
1137 pmap_height = result->height;
1138 pmap_depth = target->depth;
1139 }
1140 if (pmap_depth != result->depth)
1141 { /* Bad Match error will ensue ! stupid X !!!! */
1142 if( result->depth == 24 && pmap_depth == 32)
1143 result->depth = 32;
1144 else if( result->depth == 32 && pmap_depth == 24)
1145 result->depth = 24;
1146 else
1147 {
1148 /* TODO: implement image recoding */
1149 }
1150 }
1151 if (pmap_depth == result->depth)
1152 XPutImage (target->dpy, pixmap, gc, result, 0, 0, 0, 0, result->width, result->height); 1461 XPutImage (target->dpy, pixmap, gc, result, 0, 0, 0, 0, result->width, result->height);
1462
1153 XFreeGC (target->dpy, gc); 1463 XFreeGC (target->dpy, gc);
1154 flags = flags & ~isInvalid; 1464 flags &= ~isInvalid;
1155 } 1465 }
1466
1156 XDestroyImage (result); 1467 XDestroyImage (result);
1157 } 1468 }
1469# endif
1158 1470
1159 if (flags & isInvalid) 1471 if (flags & isInvalid)
1160 { 1472 {
1161 if (pixmap != None) 1473 if (pixmap != None)
1162 { 1474 {
1165 } 1477 }
1166 } 1478 }
1167 1479
1168 apply (); 1480 apply ();
1169 1481
1482 valid_since = ev::now ();
1483
1170 return true; 1484 return true;
1171} 1485}
1172 1486
1173bool 1487void
1174bgPixmap_t::set_target (rxvt_term *new_target) 1488bgPixmap_t::set_target (rxvt_term *new_target)
1175{ 1489{
1176 if (new_target)
1177 if (target != new_target)
1178 {
1179 target = new_target; 1490 target = new_target;
1491
1492 flags &= ~(HAS_RENDER | HAS_RENDER_CONV);
1493#if XRENDER
1494 int major, minor;
1495 if (XRenderQueryVersion (target->dpy, &major, &minor))
1496 flags |= HAS_RENDER;
1497 XFilters *filters = XRenderQueryFilters (target->dpy, target->vt);
1498 if (filters)
1499 {
1500 for (int i = 0; i < filters->nfilter; i++)
1501 if (!strcmp (filters->filter[i], FilterConvolution))
1502 flags |= HAS_RENDER_CONV;
1503
1504 XFree (filters);
1505 }
1506#endif
1507}
1508
1509void
1510bgPixmap_t::apply ()
1511{
1512 if (target == NULL)
1513 return;
1514
1515 if (pixmap != None)
1516 {
1517 /* set target's background to pixmap */
1180# ifdef ENABLE_TRANSPARENCY 1518# ifdef ENABLE_TRANSPARENCY
1181 root_depth = DefaultDepthOfScreen (ScreenOfDisplay (target->dpy, target->display->screen)); 1519 if (flags & isTransparent)
1520 {
1521 XSetWindowBackgroundPixmap (target->dpy, target->parent[0], pixmap);
1522 XSetWindowBackgroundPixmap (target->dpy, target->vt, ParentRelative);
1523
1524 if (target->scrollBar.win)
1525 XSetWindowBackgroundPixmap (target->dpy, target->scrollBar.win, ParentRelative);
1526 }
1527 else
1182# endif 1528# endif
1183 return true;
1184 }
1185 return false;
1186}
1187
1188void
1189bgPixmap_t::apply()
1190{
1191 if (target)
1192 {
1193 flags &= ~isVtOrigin;
1194 if (pixmap != None)
1195 { /* set target's background to pixmap */
1196# ifdef ENABLE_TRANSPARENCY
1197 if (flags & isTransparent)
1198 { 1529 {
1199 XSetWindowBackgroundPixmap (target->dpy, target->parent[0], pixmap);
1200 XSetWindowBackgroundPixmap (target->dpy, target->vt, ParentRelative);
1201# if HAVE_SCROLLBARS
1202 if (target->scrollBar.win)
1203 XSetWindowBackgroundPixmap (target->dpy, target->scrollBar.win, ParentRelative);
1204# endif
1205 }
1206 else
1207# endif
1208 {
1209 flags |= isVtOrigin;
1210 /* force old pixmap dereference in case it was transparent before :*/ 1530 /* force old pixmap dereference in case it was transparent before :*/
1211 XSetWindowBackground (target->dpy, target->parent[0], target->pix_colors[Color_border]);
1212 XSetWindowBackgroundPixmap (target->dpy, target->vt, pixmap);
1213 /* do we also need to set scrollbar's background here ? */
1214# if HAVE_SCROLLBARS
1215 if (target->scrollBar.win)
1216 XSetWindowBackground (target->dpy, target->scrollBar.win, target->pix_colors[Color_border]);
1217# endif
1218 }
1219 }
1220 else
1221 { /* set target background to a pixel */
1222 XSetWindowBackground (target->dpy, target->parent[0], target->pix_colors[Color_border]); 1531 XSetWindowBackground (target->dpy, target->parent[0], target->pix_colors[Color_border]);
1223 XSetWindowBackground (target->dpy, target->vt, target->pix_colors[Color_bg]); 1532 XSetWindowBackgroundPixmap (target->dpy, target->vt, pixmap);
1224 /* do we also need to set scrollbar's background here ? */ 1533 /* do we also need to set scrollbar's background here ? */
1225# if HAVE_SCROLLBARS 1534
1226 if (target->scrollBar.win) 1535 if (target->scrollBar.win)
1227 XSetWindowBackground (target->dpy, target->scrollBar.win, target->pix_colors[Color_border]); 1536 XSetWindowBackground (target->dpy, target->scrollBar.win, target->pix_colors[Color_border]);
1228# endif
1229 } 1537 }
1230 1538 }
1231 /* don't want Expose on the parent */ 1539 else
1232 XClearArea (target->dpy, target->parent[0], 0, 0, 0, 0, False); 1540 {
1233 /* do want Expose on the vt, so we get refreshed properly */ 1541 /* set target background to a pixel */
1234 XClearArea (target->dpy, target->vt, 0, 0, 0, 0, True); 1542 XSetWindowBackground (target->dpy, target->parent[0], target->pix_colors[Color_border]);
1235 1543 XSetWindowBackground (target->dpy, target->vt, target->pix_colors[Color_bg]);
1236# if HAVE_SCROLLBARS 1544 /* do we also need to set scrollbar's background here ? */
1237 if (target->scrollBar.win) 1545 if (target->scrollBar.win)
1238 { 1546 XSetWindowBackground (target->dpy, target->scrollBar.win, target->pix_colors[Color_border]);
1239 target->scrollBar.setIdle (); 1547 }
1548
1549 /* don't want Expose on the parent or vt. It is better to use
1550 scr_touch or we get a great deal of flicker otherwise: */
1551 XClearWindow (target->dpy, target->parent[0]);
1552
1553 if (target->scrollBar.state && target->scrollBar.win)
1554 {
1555 target->scrollBar.state = STATE_IDLE;
1240 target->scrollbar_show (0); 1556 target->scrollBar.show (0);
1241 }
1242# endif
1243 } 1557 }
1244}
1245 1558
1559 target->want_refresh = 1;
1560 flags |= hasChanged;
1561}
1562
1246#endif /* HAVE_BG_PIXMAP */ 1563#endif /* HAVE_BG_PIXMAP */
1247 1564
1248#if defined(ENABLE_TRANSPARENCY) && !defined(HAVE_AFTERIMAGE) 1565#if defined(ENABLE_TRANSPARENCY) && !defined(HAVE_AFTERIMAGE)
1249/* taken from aterm-0.4.2 */ 1566/* taken from aterm-0.4.2 */
1250 1567
1251typedef uint32_t RUINT32T;
1252
1253static void 1568static void
1254ShadeXImage(rxvt_term *term, XImage* srcImage, int shade, int rm, int gm, int bm) 1569shade_ximage (Visual *visual, XImage *ximage, int shade, const rgba &c)
1255{ 1570{
1256 int sh_r, sh_g, sh_b; 1571 int sh_r, sh_g, sh_b;
1257 RUINT32T mask_r, mask_g, mask_b; 1572 uint32_t mask_r, mask_g, mask_b;
1258 RUINT32T *lookup, *lookup_r, *lookup_g, *lookup_b; 1573 uint32_t *lookup, *lookup_r, *lookup_g, *lookup_b;
1259 unsigned int lower_lim_r, lower_lim_g, lower_lim_b; 1574 rgba low;
1260 unsigned int upper_lim_r, upper_lim_g, upper_lim_b; 1575 rgba high;
1261 int i; 1576 int i;
1577 int host_byte_order = byteorder::big_endian () ? MSBFirst : LSBFirst;
1262 1578
1263 Visual *visual = term->visual;
1264
1265 if (visual->c_class != TrueColor || srcImage->format != ZPixmap) return ; 1579 if (visual->c_class != TrueColor || ximage->format != ZPixmap) return;
1266
1267 if (shade == 0)
1268 shade = 100;
1269 1580
1270 /* for convenience */ 1581 /* for convenience */
1271 mask_r = visual->red_mask; 1582 mask_r = visual->red_mask;
1272 mask_g = visual->green_mask; 1583 mask_g = visual->green_mask;
1273 mask_b = visual->blue_mask; 1584 mask_b = visual->blue_mask;
1274 1585
1275 /* boring lookup table pre-initialization */ 1586 /* boring lookup table pre-initialization */
1276 switch (srcImage->bits_per_pixel) { 1587 switch (ximage->depth)
1588 {
1277 case 15: 1589 case 15:
1278 if ((mask_r != 0x7c00) || 1590 if ((mask_r != 0x7c00) ||
1279 (mask_g != 0x03e0) || 1591 (mask_g != 0x03e0) ||
1280 (mask_b != 0x001f)) 1592 (mask_b != 0x001f))
1281 return; 1593 return;
1282 lookup = (RUINT32T *) malloc (sizeof (RUINT32T)*(32+32+32)); 1594 lookup = (uint32_t *) malloc (sizeof (uint32_t)*(32+32+32));
1283 lookup_r = lookup; 1595 lookup_r = lookup;
1284 lookup_g = lookup+32; 1596 lookup_g = lookup+32;
1285 lookup_b = lookup+32+32; 1597 lookup_b = lookup+32+32;
1286 sh_r = 10; 1598 sh_r = 10;
1287 sh_g = 5; 1599 sh_g = 5;
1288 sh_b = 0; 1600 sh_b = 0;
1289 break; 1601 break;
1290 case 16: 1602 case 16:
1291 if ((mask_r != 0xf800) || 1603 if ((mask_r != 0xf800) ||
1292 (mask_g != 0x07e0) || 1604 (mask_g != 0x07e0) ||
1293 (mask_b != 0x001f)) 1605 (mask_b != 0x001f))
1294 return; 1606 return;
1295 lookup = (RUINT32T *) malloc (sizeof (RUINT32T)*(32+64+32)); 1607 lookup = (uint32_t *) malloc (sizeof (uint32_t)*(32+64+32));
1296 lookup_r = lookup; 1608 lookup_r = lookup;
1297 lookup_g = lookup+32; 1609 lookup_g = lookup+32;
1298 lookup_b = lookup+32+64; 1610 lookup_b = lookup+32+64;
1299 sh_r = 11; 1611 sh_r = 11;
1300 sh_g = 5; 1612 sh_g = 5;
1301 sh_b = 0; 1613 sh_b = 0;
1302 break; 1614 break;
1303 case 24: 1615 case 24:
1304 if ((mask_r != 0xff0000) || 1616 if ((mask_r != 0xff0000) ||
1305 (mask_g != 0x00ff00) || 1617 (mask_g != 0x00ff00) ||
1306 (mask_b != 0x0000ff)) 1618 (mask_b != 0x0000ff))
1307 return; 1619 return;
1308 lookup = (RUINT32T *) malloc (sizeof (RUINT32T)*(256+256+256)); 1620 lookup = (uint32_t *) malloc (sizeof (uint32_t)*(256+256+256));
1309 lookup_r = lookup; 1621 lookup_r = lookup;
1310 lookup_g = lookup+256; 1622 lookup_g = lookup+256;
1311 lookup_b = lookup+256+256; 1623 lookup_b = lookup+256+256;
1312 sh_r = 16; 1624 sh_r = 16;
1313 sh_g = 8; 1625 sh_g = 8;
1314 sh_b = 0; 1626 sh_b = 0;
1315 break; 1627 break;
1316 case 32: 1628 case 32:
1317 if ((mask_r != 0xff0000) || 1629 if ((mask_r != 0xff0000) ||
1318 (mask_g != 0x00ff00) || 1630 (mask_g != 0x00ff00) ||
1319 (mask_b != 0x0000ff)) 1631 (mask_b != 0x0000ff))
1320 return; 1632 return;
1321 lookup = (RUINT32T *) malloc (sizeof (RUINT32T)*(256+256+256)); 1633 lookup = (uint32_t *) malloc (sizeof (uint32_t)*(256+256+256));
1322 lookup_r = lookup; 1634 lookup_r = lookup;
1323 lookup_g = lookup+256; 1635 lookup_g = lookup+256;
1324 lookup_b = lookup+256+256; 1636 lookup_b = lookup+256+256;
1325 sh_r = 16; 1637 sh_r = 16;
1326 sh_g = 8; 1638 sh_g = 8;
1327 sh_b = 0; 1639 sh_b = 0;
1328 break; 1640 break;
1329 default: 1641 default:
1330 return; /* we do not support this color depth */ 1642 return; /* we do not support this color depth */
1331 } 1643 }
1332 1644
1333 /* prepare limits for color transformation (each channel is handled separately) */ 1645 /* prepare limits for color transformation (each channel is handled separately) */
1334 if (shade < 0) { 1646 if (shade > 100)
1647 {
1335 shade = -shade; 1648 shade = 200 - shade;
1336 if (shade < 0) shade = 0;
1337 if (shade > 100) shade = 100;
1338 1649
1339 lower_lim_r = 65535-rm; 1650 high.r = c.r * shade / 100;
1340 lower_lim_g = 65535-gm; 1651 high.g = c.g * shade / 100;
1341 lower_lim_b = 65535-bm; 1652 high.b = c.b * shade / 100;
1342 1653
1343 lower_lim_r = 65535-(unsigned int)(((RUINT32T)lower_lim_r)*((RUINT32T)shade)/100); 1654 low.r = 65535 * (100 - shade) / 100;
1344 lower_lim_g = 65535-(unsigned int)(((RUINT32T)lower_lim_g)*((RUINT32T)shade)/100); 1655 low.g = 65535 * (100 - shade) / 100;
1345 lower_lim_b = 65535-(unsigned int)(((RUINT32T)lower_lim_b)*((RUINT32T)shade)/100); 1656 low.b = 65535 * (100 - shade) / 100;
1346
1347 upper_lim_r = upper_lim_g = upper_lim_b = 65535;
1348 } else {
1349 if (shade < 0) shade = 0;
1350 if (shade > 100) shade = 100;
1351
1352 lower_lim_r = lower_lim_g = lower_lim_b = 0;
1353
1354 upper_lim_r = (unsigned int)((((RUINT32T)rm)*((RUINT32T)shade))/100);
1355 upper_lim_g = (unsigned int)((((RUINT32T)gm)*((RUINT32T)shade))/100);
1356 upper_lim_b = (unsigned int)((((RUINT32T)bm)*((RUINT32T)shade))/100);
1357 } 1657 }
1358 1658 else
1359 /* switch red and blue bytes if necessary, we need it for some weird XServers like XFree86 3.3.3.1 */
1360 if ((srcImage->bits_per_pixel == 24) && (mask_r >= 0xFF0000 ))
1361 { 1659 {
1362 unsigned int tmp; 1660 high.r = c.r * shade / 100;
1661 high.g = c.g * shade / 100;
1662 high.b = c.b * shade / 100;
1363 1663
1364 tmp = lower_lim_r; 1664 low.r = low.g = low.b = 0;
1365 lower_lim_r = lower_lim_b;
1366 lower_lim_b = tmp;
1367
1368 tmp = upper_lim_r;
1369 upper_lim_r = upper_lim_b;
1370 upper_lim_b = tmp;
1371 } 1665 }
1372 1666
1373 /* fill our lookup tables */ 1667 /* fill our lookup tables */
1374 for (i = 0; i <= mask_r>>sh_r; i++) 1668 for (i = 0; i <= mask_r>>sh_r; i++)
1375 { 1669 {
1376 RUINT32T tmp; 1670 uint32_t tmp;
1377 tmp = ((RUINT32T)i)*((RUINT32T)(upper_lim_r-lower_lim_r)); 1671 tmp = i * high.r;
1378 tmp += ((RUINT32T)(mask_r>>sh_r))*((RUINT32T)lower_lim_r); 1672 tmp += (mask_r>>sh_r) * low.r;
1379 lookup_r[i] = (tmp/65535)<<sh_r; 1673 lookup_r[i] = (tmp/65535)<<sh_r;
1380 } 1674 }
1381 for (i = 0; i <= mask_g>>sh_g; i++) 1675 for (i = 0; i <= mask_g>>sh_g; i++)
1382 { 1676 {
1383 RUINT32T tmp; 1677 uint32_t tmp;
1384 tmp = ((RUINT32T)i)*((RUINT32T)(upper_lim_g-lower_lim_g)); 1678 tmp = i * high.g;
1385 tmp += ((RUINT32T)(mask_g>>sh_g))*((RUINT32T)lower_lim_g); 1679 tmp += (mask_g>>sh_g) * low.g;
1386 lookup_g[i] = (tmp/65535)<<sh_g; 1680 lookup_g[i] = (tmp/65535)<<sh_g;
1387 } 1681 }
1388 for (i = 0; i <= mask_b>>sh_b; i++) 1682 for (i = 0; i <= mask_b>>sh_b; i++)
1389 { 1683 {
1390 RUINT32T tmp; 1684 uint32_t tmp;
1391 tmp = ((RUINT32T)i)*((RUINT32T)(upper_lim_b-lower_lim_b)); 1685 tmp = i * high.b;
1392 tmp += ((RUINT32T)(mask_b>>sh_b))*((RUINT32T)lower_lim_b); 1686 tmp += (mask_b>>sh_b) * low.b;
1393 lookup_b[i] = (tmp/65535)<<sh_b; 1687 lookup_b[i] = (tmp/65535)<<sh_b;
1394 } 1688 }
1395 1689
1396 /* apply table to input image (replacing colors by newly calculated ones) */ 1690 /* apply table to input image (replacing colors by newly calculated ones) */
1397 switch (srcImage->bits_per_pixel) 1691 if (ximage->bits_per_pixel == 32
1692 && (ximage->depth == 24 || ximage->depth == 32)
1693 && ximage->byte_order == host_byte_order)
1398 { 1694 {
1399 case 15:
1400 {
1401 unsigned short *p1, *pf, *p, *pl; 1695 uint32_t *p1, *pf, *p, *pl;
1402 p1 = (unsigned short *) srcImage->data; 1696 p1 = (uint32_t *) ximage->data;
1403 pf = (unsigned short *) (srcImage->data + srcImage->height * srcImage->bytes_per_line); 1697 pf = (uint32_t *) (ximage->data + ximage->height * ximage->bytes_per_line);
1698
1404 while (p1 < pf) 1699 while (p1 < pf)
1405 { 1700 {
1406 p = p1; 1701 p = p1;
1407 pl = p1 + srcImage->width; 1702 pl = p1 + ximage->width;
1408 for (; p < pl; p++) 1703 for (; p < pl; p++)
1409 { 1704 {
1410 *p = lookup_r[(*p & 0x7c00)>>10] |
1411 lookup_g[(*p & 0x03e0)>> 5] |
1412 lookup_b[(*p & 0x001f)];
1413 }
1414 p1 = (unsigned short *) ((char *) p1 + srcImage->bytes_per_line);
1415 }
1416 break;
1417 }
1418 case 16:
1419 {
1420 unsigned short *p1, *pf, *p, *pl;
1421 p1 = (unsigned short *) srcImage->data;
1422 pf = (unsigned short *) (srcImage->data + srcImage->height * srcImage->bytes_per_line);
1423 while (p1 < pf)
1424 {
1425 p = p1;
1426 pl = p1 + srcImage->width;
1427 for (; p < pl; p++)
1428 {
1429 *p = lookup_r[(*p & 0xf800)>>11] |
1430 lookup_g[(*p & 0x07e0)>> 5] |
1431 lookup_b[(*p & 0x001f)];
1432 }
1433 p1 = (unsigned short *) ((char *) p1 + srcImage->bytes_per_line);
1434 }
1435 break;
1436 }
1437 case 24:
1438 {
1439 unsigned char *p1, *pf, *p, *pl;
1440 p1 = (unsigned char *) srcImage->data;
1441 pf = (unsigned char *) (srcImage->data + srcImage->height * srcImage->bytes_per_line);
1442 while (p1 < pf)
1443 {
1444 p = p1;
1445 pl = p1 + srcImage->width * 3;
1446 for (; p < pl; p += 3)
1447 {
1448 p[0] = lookup_r[(p[0] & 0xff0000)>>16];
1449 p[1] = lookup_r[(p[1] & 0x00ff00)>> 8];
1450 p[2] = lookup_r[(p[2] & 0x0000ff)];
1451 }
1452 p1 = (unsigned char *) ((char *) p1 + srcImage->bytes_per_line);
1453 }
1454 break;
1455 }
1456 case 32:
1457 {
1458 RUINT32T *p1, *pf, *p, *pl;
1459 p1 = (RUINT32T *) srcImage->data;
1460 pf = (RUINT32T *) (srcImage->data + srcImage->height * srcImage->bytes_per_line);
1461
1462 while (p1 < pf)
1463 {
1464 p = p1;
1465 pl = p1 + srcImage->width;
1466 for (; p < pl; p++)
1467 {
1468 *p = lookup_r[(*p & 0xff0000)>>16] | 1705 *p = lookup_r[(*p & 0xff0000) >> 16] |
1469 lookup_g[(*p & 0x00ff00)>> 8] | 1706 lookup_g[(*p & 0x00ff00) >> 8] |
1470 lookup_b[(*p & 0x0000ff)] | 1707 lookup_b[(*p & 0x0000ff)] |
1471 (*p & ~0xffffff); 1708 (*p & 0xff000000);
1709 }
1710 p1 = (uint32_t *) ((char *) p1 + ximage->bytes_per_line);
1711 }
1712 }
1713 else
1714 {
1715 for (int y = 0; y < ximage->height; y++)
1716 for (int x = 0; x < ximage->width; x++)
1717 {
1718 unsigned long pixel = XGetPixel (ximage, x, y);
1719 pixel = lookup_r[(pixel & mask_r) >> sh_r] |
1720 lookup_g[(pixel & mask_g) >> sh_g] |
1721 lookup_b[(pixel & mask_b) >> sh_b];
1722 XPutPixel (ximage, x, y, pixel);
1472 } 1723 }
1473 p1 = (RUINT32T *) ((char *) p1 + srcImage->bytes_per_line);
1474 } 1724 }
1475 break;
1476 }
1477 }
1478 1725
1479 free (lookup); 1726 free (lookup);
1480} 1727}
1481#endif /* defined(ENABLE_TRANSPARENCY) && !defined(HAVE_AFTERIMAGE) */ 1728#endif /* defined(ENABLE_TRANSPARENCY) && !defined(HAVE_AFTERIMAGE) */

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