1 /* -*- indent-tabs-mode: nil; tab-width: 4; c-basic-offset: 4; -*-
3 render.c for the Openbox window manager
4 Copyright (c) 2006 Mikael Magnusson
5 Copyright (c) 2003-2007 Dana Jansens
6 Copyright (c) 2003 Derek Foreman
8 This program is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 2 of the License, or
11 (at your option) any later version.
13 This program is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 See the COPYING file for a copy of the GNU General Public License.
31 #include <X11/Xutil.h>
32 #include <X11/Xft/Xft.h>
38 static void pixel_data_to_pixmap(RrAppearance *l,
39 gint x, gint y, gint w, gint h);
41 Pixmap RrPaintPixmap(RrAppearance *a, gint w, gint h)
43 gint i, transferred = 0, force_transfer = 0;
45 RrRect tarea; /* area in which to draw textures */
48 if (w <= 0 || h <= 0) return None;
50 if (a->surface.parentx < 0 || a->surface.parenty < 0) {
51 /* ob_debug("Invalid parent co-ordinates\n"); */
55 if (a->surface.grad == RR_SURFACE_PARENTREL &&
56 (a->surface.parentx >= a->surface.parent->w ||
57 a->surface.parenty >= a->surface.parent->h))
62 resized = (a->w != w || a->h != h);
64 oldp = a->pixmap; /* save to free after changing the visible pixmap */
65 a->pixmap = XCreatePixmap(RrDisplay(a->inst),
66 RrRootWindow(a->inst),
67 w, h, RrDepth(a->inst));
69 g_assert(a->pixmap != None);
73 if (a->xftdraw != NULL)
74 XftDrawDestroy(a->xftdraw);
75 a->xftdraw = XftDrawCreate(RrDisplay(a->inst), a->pixmap,
76 RrVisual(a->inst), RrColormap(a->inst));
77 g_assert(a->xftdraw != NULL);
80 g_free(a->surface.pixel_data);
81 a->surface.pixel_data = g_new(RrPixel32, w * h);
88 RrMargins(a, &l, &t, &r, &b);
89 RECT_SET(tarea, l, t, w - l - r, h - t - b);
92 for (i = 0; i < a->textures; i++) {
93 switch (a->texture[i].type) {
99 if ((a->surface.grad != RR_SURFACE_SOLID)
100 || (a->surface.interlaced))
101 pixel_data_to_pixmap(a, 0, 0, w, h);
103 if (a->xftdraw == NULL) {
104 a->xftdraw = XftDrawCreate(RrDisplay(a->inst), a->pixmap,
106 RrColormap(a->inst));
108 RrFontDraw(a->xftdraw, &a->texture[i].data.text, &tarea);
110 case RR_TEXTURE_LINE_ART:
113 if ((a->surface.grad != RR_SURFACE_SOLID)
114 || (a->surface.interlaced))
115 pixel_data_to_pixmap(a, 0, 0, w, h);
117 XDrawLine(RrDisplay(a->inst), a->pixmap,
118 RrColorGC(a->texture[i].data.lineart.color),
119 a->texture[i].data.lineart.x1,
120 a->texture[i].data.lineart.y1,
121 a->texture[i].data.lineart.x2,
122 a->texture[i].data.lineart.y2);
124 case RR_TEXTURE_MASK:
127 if ((a->surface.grad != RR_SURFACE_SOLID)
128 || (a->surface.interlaced))
129 pixel_data_to_pixmap(a, 0, 0, w, h);
131 RrPixmapMaskDraw(a->pixmap, &a->texture[i].data.mask, &tarea);
133 case RR_TEXTURE_IMAGE:
134 g_assert(!transferred);
136 RrRect narea = tarea;
137 RrTextureImage *img = &a->texture[i].data.image;
139 narea.width = MIN(tarea.width, img->twidth);
141 narea.height = MIN(tarea.height, img->theight);
144 RrImageDrawImage(a->surface.pixel_data,
145 &a->texture[i].data.image,
151 case RR_TEXTURE_RGBA:
152 g_assert(!transferred);
154 RrRect narea = tarea;
155 RrTextureRGBA *rgb = &a->texture[i].data.rgba;
157 narea.width = MIN(tarea.width, rgb->twidth);
159 narea.height = MIN(tarea.height, rgb->theight);
162 RrImageDrawRGBA(a->surface.pixel_data,
163 &a->texture[i].data.rgba,
174 if ((a->surface.grad != RR_SURFACE_SOLID) || (a->surface.interlaced) ||
177 pixel_data_to_pixmap(a, 0, 0, w, h);
184 void RrPaint(RrAppearance *a, Window win, gint w, gint h)
188 oldp = RrPaintPixmap(a, w, h);
189 XSetWindowBackgroundPixmap(RrDisplay(a->inst), win, a->pixmap);
190 XClearWindow(RrDisplay(a->inst), win);
191 /* free this after changing the visible pixmap */
192 if (oldp) XFreePixmap(RrDisplay(a->inst), oldp);
195 RrAppearance *RrAppearanceNew(const RrInstance *inst, gint numtex)
199 out = g_new0(RrAppearance, 1);
201 out->textures = numtex;
202 out->surface.bevel_light_adjust = 128;
203 out->surface.bevel_dark_adjust = 64;
204 if (numtex) out->texture = g_new0(RrTexture, numtex);
209 void RrAppearanceRemoveTextures(RrAppearance *a)
215 void RrAppearanceAddTextures(RrAppearance *a, gint numtex)
217 g_assert(a->textures == 0);
219 a->textures = numtex;
220 if (numtex) a->texture = g_new0(RrTexture, numtex);
223 void RrAppearanceClearTextures(RrAppearance *a)
225 memset(a->texture, 0, a->textures * sizeof(RrTexture));
228 RrAppearance *RrAppearanceCopy(RrAppearance *orig)
230 RrSurface *spo, *spc;
231 RrAppearance *copy = g_new(RrAppearance, 1);
233 copy->inst = orig->inst;
235 spo = &(orig->surface);
236 spc = &(copy->surface);
237 spc->grad = spo->grad;
238 spc->relief = spo->relief;
239 spc->bevel = spo->bevel;
240 if (spo->primary != NULL)
241 spc->primary = RrColorNew(copy->inst,
245 else spc->primary = NULL;
247 if (spo->secondary != NULL)
248 spc->secondary = RrColorNew(copy->inst,
252 else spc->secondary = NULL;
254 if (spo->border_color != NULL)
255 spc->border_color = RrColorNew(copy->inst,
256 spo->border_color->r,
257 spo->border_color->g,
258 spo->border_color->b);
259 else spc->border_color = NULL;
261 if (spo->interlace_color != NULL)
262 spc->interlace_color = RrColorNew(copy->inst,
263 spo->interlace_color->r,
264 spo->interlace_color->g,
265 spo->interlace_color->b);
266 else spc->interlace_color = NULL;
268 if (spo->bevel_dark != NULL)
269 spc->bevel_dark = RrColorNew(copy->inst,
273 else spc->bevel_dark = NULL;
275 if (spo->bevel_light != NULL)
276 spc->bevel_light = RrColorNew(copy->inst,
279 spo->bevel_light->b);
280 else spc->bevel_light = NULL;
282 if (spo->split_primary != NULL)
283 spc->split_primary = RrColorNew(copy->inst,
284 spo->split_primary->r,
285 spo->split_primary->g,
286 spo->split_primary->b);
287 else spc->split_primary = NULL;
289 if (spo->split_secondary != NULL)
290 spc->split_secondary = RrColorNew(copy->inst,
291 spo->split_secondary->r,
292 spo->split_secondary->g,
293 spo->split_secondary->b);
294 else spc->split_secondary = NULL;
296 spc->interlaced = spo->interlaced;
297 spc->bevel_light_adjust = spo->bevel_light_adjust;
298 spc->bevel_dark_adjust = spo->bevel_dark_adjust;
299 spc->border = spo->border;
301 spc->parentx = spc->parenty = 0;
302 spc->pixel_data = NULL;
304 copy->textures = orig->textures;
305 copy->texture = g_memdup(orig->texture,
306 orig->textures * sizeof(RrTexture));
308 copy->xftdraw = NULL;
309 copy->w = copy->h = 0;
313 void RrAppearanceFree(RrAppearance *a)
318 if (a->pixmap != None) XFreePixmap(RrDisplay(a->inst), a->pixmap);
319 if (a->xftdraw != NULL) XftDrawDestroy(a->xftdraw);
323 RrColorFree(p->primary);
324 RrColorFree(p->secondary);
325 RrColorFree(p->border_color);
326 RrColorFree(p->interlace_color);
327 RrColorFree(p->bevel_dark);
328 RrColorFree(p->bevel_light);
329 RrColorFree(p->split_primary);
330 RrColorFree(p->split_secondary);
331 g_free(p->pixel_data);
332 p->pixel_data = NULL;
336 static void pixel_data_to_pixmap(RrAppearance *l,
337 gint x, gint y, gint w, gint h)
339 RrPixel32 *in, *scratch;
342 im = XCreateImage(RrDisplay(l->inst), RrVisual(l->inst), RrDepth(l->inst),
343 ZPixmap, 0, NULL, w, h, 32, 0);
344 g_assert(im != NULL);
346 in = l->surface.pixel_data;
349 /* this malloc is a complete waste of time on normal 32bpp
350 as reduce_depth just sets im->data = data and returns
352 scratch = g_new(RrPixel32, im->width * im->height);
353 im->data = (gchar*) scratch;
354 RrReduceDepth(l->inst, in, im);
355 XPutImage(RrDisplay(l->inst), out,
356 DefaultGC(RrDisplay(l->inst), RrScreen(l->inst)),
357 im, 0, 0, x, y, w, h);
363 void RrMargins (RrAppearance *a, gint *l, gint *t, gint *r, gint *b)
365 *l = *t = *r = *b = 0;
367 if (a->surface.grad != RR_SURFACE_PARENTREL) {
368 if (a->surface.relief != RR_RELIEF_FLAT) {
369 switch (a->surface.bevel) {
371 *l = *t = *r = *b = 1;
374 *l = *t = *r = *b = 2;
377 } else if (a->surface.border) {
378 *l = *t = *r = *b = 1;
383 void RrMinSize(RrAppearance *a, gint *w, gint *h)
389 gint RrMinWidth(RrAppearance *a)
396 RrMargins(a, &l, &t, &r, &b);
398 for (i = 0; i < a->textures; ++i) {
399 switch (a->texture[i].type) {
400 case RR_TEXTURE_NONE:
402 case RR_TEXTURE_MASK:
403 w = MAX(w, a->texture[i].data.mask.mask->width);
405 case RR_TEXTURE_TEXT:
406 m = RrFontMeasureString(a->texture[i].data.text.font,
407 a->texture[i].data.text.string,
408 a->texture[i].data.text.shadow_offset_x,
409 a->texture[i].data.text.shadow_offset_y,
410 a->texture[i].data.text.flow,
411 a->texture[i].data.text.maxwidth);
412 w = MAX(w, m->width);
415 case RR_TEXTURE_RGBA:
416 w += MAX(w, a->texture[i].data.rgba.width);
418 case RR_TEXTURE_IMAGE:
419 /* images resize so they don't contribute anything to the min */
421 case RR_TEXTURE_LINE_ART:
422 w = MAX(w, MAX(a->texture[i].data.lineart.x1 - l - r,
423 a->texture[i].data.lineart.x2 - l - r));
434 gint RrMinHeight(RrAppearance *a)
441 RrMargins(a, &l, &t, &r, &b);
443 for (i = 0; i < a->textures; ++i) {
444 switch (a->texture[i].type) {
445 case RR_TEXTURE_NONE:
447 case RR_TEXTURE_MASK:
448 h = MAX(h, a->texture[i].data.mask.mask->height);
450 case RR_TEXTURE_TEXT:
451 if (a->texture[i].data.text.flow) {
452 g_assert(a->texture[i].data.text.string != NULL);
454 m = RrFontMeasureString
455 (a->texture[i].data.text.font,
456 a->texture[i].data.text.string,
457 a->texture[i].data.text.shadow_offset_x,
458 a->texture[i].data.text.shadow_offset_y,
459 a->texture[i].data.text.flow,
460 a->texture[i].data.text.maxwidth);
461 h += MAX(h, m->height);
467 (a->texture[i].data.text.font,
468 a->texture[i].data.text.shadow_offset_y));
470 case RR_TEXTURE_RGBA:
471 h += MAX(h, a->texture[i].data.rgba.height);
473 case RR_TEXTURE_IMAGE:
474 /* images resize so they don't contribute anything to the min */
476 case RR_TEXTURE_LINE_ART:
477 h = MAX(h, MAX(a->texture[i].data.lineart.y1 - t - b,
478 a->texture[i].data.lineart.y2 - t - b));
489 static void reverse_bits(gchar *c, gint n)
492 for (i = 0; i < n; i++, c++)
493 *c = (((*c * 0x0802UL & 0x22110UL) |
494 (*c * 0x8020UL & 0x88440UL)) * 0x10101UL) >> 16;
497 gboolean RrPixmapToRGBA(const RrInstance *inst,
498 Pixmap pmap, Pixmap mask,
499 gint *w, gint *h, RrPixel32 **data)
503 guint pw, ph, mw, mh, xb, xd, i, x, y, di;
504 XImage *xi, *xm = NULL;
506 if (!XGetGeometry(RrDisplay(inst), pmap,
507 &xr, &xx, &xy, &pw, &ph, &xb, &xd))
511 if (!XGetGeometry(RrDisplay(inst), mask,
512 &xr, &xx, &xy, &mw, &mh, &xb, &xd))
514 if (pw != mw || ph != mh || xd != 1)
518 xi = XGetImage(RrDisplay(inst), pmap,
519 0, 0, pw, ph, 0xffffffff, ZPixmap);
524 xm = XGetImage(RrDisplay(inst), mask,
525 0, 0, mw, mh, 0xffffffff, ZPixmap);
530 if ((xm->bits_per_pixel == 1) && (xm->bitmap_bit_order != LSBFirst))
531 reverse_bits(xm->data, xm->bytes_per_line * xm->height);
534 if ((xi->bits_per_pixel == 1) && (xi->bitmap_bit_order != LSBFirst))
535 reverse_bits(xi->data, xi->bytes_per_line * xi->height);
537 *data = g_new(RrPixel32, pw * ph);
538 RrIncreaseDepth(inst, *data, xi);
541 /* apply transparency from the mask */
543 for (i = 0, y = 0; y < ph; ++y) {
544 for (x = 0; x < pw; ++x, ++i) {
545 if (!((((unsigned)xm->data[di + x / 8]) >> (x % 8)) & 0x1))
546 (*data)[i] &= ~(0xff << RrDefaultAlphaOffset);
548 di += xm->bytes_per_line;