1 /**************************************************************************
2  *
3  * Copyright 2007 VMware, Inc.
4  * All Rights Reserved.
5  *
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11  * permit persons to whom the Software is furnished to do so, subject to
12  * the following conditions:
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15  * next paragraph) shall be included in all copies or substantial portions
16  * of the Software.
17  *
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23  * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
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27 
28 /**
29  * Render target tile caching.
30  *
31  * Author:
32  *    Brian Paul
33  */
34 
35 #include "util/u_inlines.h"
36 #include "util/u_format.h"
37 #include "util/u_memory.h"
38 #include "util/u_tile.h"
39 #include "sp_tile_cache.h"
40 
41 static struct softpipe_cached_tile *
42 sp_alloc_tile(struct softpipe_tile_cache *tc);
43 
44 
45 /**
46  * Return the position in the cache for the tile that contains win pos (x,y).
47  * We currently use a direct mapped cache so this is like a hack key.
48  * At some point we should investige something more sophisticated, like
49  * a LRU replacement policy.
50  */
51 #define CACHE_POS(x, y, l)                        \
52    (((x) + (y) * 5 + (l) * 10) % NUM_ENTRIES)
53 
54 
addr_to_clear_pos(union tile_address addr)55 static inline int addr_to_clear_pos(union tile_address addr)
56 {
57    int pos;
58    pos = addr.bits.layer * (MAX_WIDTH / TILE_SIZE) * (MAX_HEIGHT / TILE_SIZE);
59    pos += addr.bits.y * (MAX_WIDTH / TILE_SIZE);
60    pos += addr.bits.x;
61    return pos;
62 }
63 /**
64  * Is the tile at (x,y) in cleared state?
65  */
66 static inline uint
is_clear_flag_set(const uint * bitvec,union tile_address addr,unsigned max)67 is_clear_flag_set(const uint *bitvec, union tile_address addr, unsigned max)
68 {
69    int pos, bit;
70    pos = addr_to_clear_pos(addr);
71    assert(pos / 32 < max);
72    bit = bitvec[pos / 32] & (1 << (pos & 31));
73    return bit;
74 }
75 
76 
77 /**
78  * Mark the tile at (x,y) as not cleared.
79  */
80 static inline void
clear_clear_flag(uint * bitvec,union tile_address addr,unsigned max)81 clear_clear_flag(uint *bitvec, union tile_address addr, unsigned max)
82 {
83    int pos;
84    pos = addr_to_clear_pos(addr);
85    assert(pos / 32 < max);
86    bitvec[pos / 32] &= ~(1 << (pos & 31));
87 }
88 
89 
90 struct softpipe_tile_cache *
sp_create_tile_cache(struct pipe_context * pipe)91 sp_create_tile_cache( struct pipe_context *pipe )
92 {
93    struct softpipe_tile_cache *tc;
94    uint pos;
95    MAYBE_UNUSED int maxTexSize;
96    int maxLevels;
97 
98    /* sanity checking: max sure MAX_WIDTH/HEIGHT >= largest texture image */
99    maxLevels = pipe->screen->get_param(pipe->screen, PIPE_CAP_MAX_TEXTURE_2D_LEVELS);
100    maxTexSize = 1 << (maxLevels - 1);
101    assert(MAX_WIDTH >= maxTexSize);
102 
103    STATIC_ASSERT(sizeof(union tile_address) == 4);
104 
105    STATIC_ASSERT((TILE_SIZE << TILE_ADDR_BITS) >= MAX_WIDTH);
106 
107    tc = CALLOC_STRUCT( softpipe_tile_cache );
108    if (tc) {
109       tc->pipe = pipe;
110       for (pos = 0; pos < ARRAY_SIZE(tc->tile_addrs); pos++) {
111          tc->tile_addrs[pos].bits.invalid = 1;
112       }
113       tc->last_tile_addr.bits.invalid = 1;
114 
115       /* this allocation allows us to guarantee that allocation
116        * failures are never fatal later
117        */
118       tc->tile = MALLOC_STRUCT( softpipe_cached_tile );
119       if (!tc->tile)
120       {
121          FREE(tc);
122          return NULL;
123       }
124 
125       /* XXX this code prevents valgrind warnings about use of uninitialized
126        * memory in programs that don't clear the surface before rendering.
127        * However, it breaks clearing in other situations (such as in
128        * progs/tests/drawbuffers, see bug 24402).
129        */
130 #if 0
131       /* set flags to indicate all the tiles are cleared */
132       memset(tc->clear_flags, 255, sizeof(tc->clear_flags));
133 #endif
134    }
135    return tc;
136 }
137 
138 
139 void
sp_destroy_tile_cache(struct softpipe_tile_cache * tc)140 sp_destroy_tile_cache(struct softpipe_tile_cache *tc)
141 {
142    if (tc) {
143       uint pos;
144 
145       for (pos = 0; pos < ARRAY_SIZE(tc->entries); pos++) {
146          /*assert(tc->entries[pos].x < 0);*/
147          FREE( tc->entries[pos] );
148       }
149       FREE( tc->tile );
150 
151       if (tc->num_maps) {
152          int i;
153          for (i = 0; i < tc->num_maps; i++)
154             if (tc->transfer[i]) {
155                tc->pipe->transfer_unmap(tc->pipe, tc->transfer[i]);
156             }
157          FREE(tc->transfer);
158          FREE(tc->transfer_map);
159          FREE(tc->clear_flags);
160       }
161 
162       FREE( tc );
163    }
164 }
165 
166 
167 /**
168  * Specify the surface to cache.
169  */
170 void
sp_tile_cache_set_surface(struct softpipe_tile_cache * tc,struct pipe_surface * ps)171 sp_tile_cache_set_surface(struct softpipe_tile_cache *tc,
172                           struct pipe_surface *ps)
173 {
174    struct pipe_context *pipe = tc->pipe;
175    int i;
176 
177    if (tc->num_maps) {
178       if (ps == tc->surface)
179          return;
180 
181       for (i = 0; i < tc->num_maps; i++) {
182          pipe->transfer_unmap(pipe, tc->transfer[i]);
183          tc->transfer[i] = NULL;
184          tc->transfer_map[i] = NULL;
185       }
186       FREE(tc->transfer);
187       FREE(tc->transfer_map);
188       tc->num_maps = 0;
189 
190       FREE(tc->clear_flags);
191       tc->clear_flags_size = 0;
192    }
193 
194    tc->surface = ps;
195 
196    if (ps) {
197       tc->num_maps = ps->u.tex.last_layer - ps->u.tex.first_layer + 1;
198       tc->transfer = CALLOC(tc->num_maps, sizeof(struct pipe_transfer *));
199       tc->transfer_map = CALLOC(tc->num_maps, sizeof(void *));
200 
201       tc->clear_flags_size = (MAX_WIDTH / TILE_SIZE) * (MAX_HEIGHT / TILE_SIZE) * tc->num_maps / 32 * sizeof(uint);
202       tc->clear_flags = CALLOC(1, tc->clear_flags_size);
203 
204       if (ps->texture->target != PIPE_BUFFER) {
205          for (i = 0; i < tc->num_maps; i++) {
206             tc->transfer_map[i] = pipe_transfer_map(pipe, ps->texture,
207                                                     ps->u.tex.level, ps->u.tex.first_layer + i,
208                                                     PIPE_TRANSFER_READ_WRITE |
209                                                     PIPE_TRANSFER_UNSYNCHRONIZED,
210                                                     0, 0, ps->width, ps->height,
211                                                     &tc->transfer[i]);
212          }
213       }
214       else {
215          /* can't render to buffers */
216          assert(0);
217       }
218 
219       tc->depth_stencil = util_format_is_depth_or_stencil(ps->format);
220    }
221 }
222 
223 
224 /**
225  * Return the transfer being cached.
226  */
227 struct pipe_surface *
sp_tile_cache_get_surface(struct softpipe_tile_cache * tc)228 sp_tile_cache_get_surface(struct softpipe_tile_cache *tc)
229 {
230    return tc->surface;
231 }
232 
233 
234 /**
235  * Set pixels in a tile to the given clear color/value, float.
236  */
237 static void
clear_tile_rgba(struct softpipe_cached_tile * tile,enum pipe_format format,const union pipe_color_union * clear_value)238 clear_tile_rgba(struct softpipe_cached_tile *tile,
239                 enum pipe_format format,
240                 const union pipe_color_union *clear_value)
241 {
242    if (clear_value->f[0] == 0.0 &&
243        clear_value->f[1] == 0.0 &&
244        clear_value->f[2] == 0.0 &&
245        clear_value->f[3] == 0.0) {
246       memset(tile->data.color, 0, sizeof(tile->data.color));
247    }
248    else {
249       uint i, j;
250 
251       if (util_format_is_pure_uint(format)) {
252          for (i = 0; i < TILE_SIZE; i++) {
253             for (j = 0; j < TILE_SIZE; j++) {
254                tile->data.colorui128[i][j][0] = clear_value->ui[0];
255                tile->data.colorui128[i][j][1] = clear_value->ui[1];
256                tile->data.colorui128[i][j][2] = clear_value->ui[2];
257                tile->data.colorui128[i][j][3] = clear_value->ui[3];
258             }
259          }
260       } else if (util_format_is_pure_sint(format)) {
261          for (i = 0; i < TILE_SIZE; i++) {
262             for (j = 0; j < TILE_SIZE; j++) {
263                tile->data.colori128[i][j][0] = clear_value->i[0];
264                tile->data.colori128[i][j][1] = clear_value->i[1];
265                tile->data.colori128[i][j][2] = clear_value->i[2];
266                tile->data.colori128[i][j][3] = clear_value->i[3];
267             }
268          }
269       } else {
270          for (i = 0; i < TILE_SIZE; i++) {
271             for (j = 0; j < TILE_SIZE; j++) {
272                tile->data.color[i][j][0] = clear_value->f[0];
273                tile->data.color[i][j][1] = clear_value->f[1];
274                tile->data.color[i][j][2] = clear_value->f[2];
275                tile->data.color[i][j][3] = clear_value->f[3];
276             }
277          }
278       }
279    }
280 }
281 
282 
283 /**
284  * Set a tile to a solid value/color.
285  */
286 static void
clear_tile(struct softpipe_cached_tile * tile,enum pipe_format format,uint64_t clear_value)287 clear_tile(struct softpipe_cached_tile *tile,
288            enum pipe_format format,
289            uint64_t clear_value)
290 {
291    uint i, j;
292 
293    switch (util_format_get_blocksize(format)) {
294    case 1:
295       memset(tile->data.any, (int) clear_value, TILE_SIZE * TILE_SIZE);
296       break;
297    case 2:
298       if (clear_value == 0) {
299          memset(tile->data.any, 0, 2 * TILE_SIZE * TILE_SIZE);
300       }
301       else {
302          for (i = 0; i < TILE_SIZE; i++) {
303             for (j = 0; j < TILE_SIZE; j++) {
304                tile->data.depth16[i][j] = (ushort) clear_value;
305             }
306          }
307       }
308       break;
309    case 4:
310       if (clear_value == 0) {
311          memset(tile->data.any, 0, 4 * TILE_SIZE * TILE_SIZE);
312       }
313       else {
314          for (i = 0; i < TILE_SIZE; i++) {
315             for (j = 0; j < TILE_SIZE; j++) {
316                tile->data.depth32[i][j] = (uint) clear_value;
317             }
318          }
319       }
320       break;
321    case 8:
322       if (clear_value == 0) {
323          memset(tile->data.any, 0, 8 * TILE_SIZE * TILE_SIZE);
324       }
325       else {
326          for (i = 0; i < TILE_SIZE; i++) {
327             for (j = 0; j < TILE_SIZE; j++) {
328                tile->data.depth64[i][j] = clear_value;
329             }
330          }
331       }
332       break;
333    default:
334       assert(0);
335    }
336 }
337 
338 
339 /**
340  * Actually clear the tiles which were flagged as being in a clear state.
341  */
342 static void
sp_tile_cache_flush_clear(struct softpipe_tile_cache * tc,int layer)343 sp_tile_cache_flush_clear(struct softpipe_tile_cache *tc, int layer)
344 {
345    struct pipe_transfer *pt = tc->transfer[layer];
346    const uint w = tc->transfer[layer]->box.width;
347    const uint h = tc->transfer[layer]->box.height;
348    uint x, y;
349    uint numCleared = 0;
350 
351    assert(pt->resource);
352 
353    /* clear the scratch tile to the clear value */
354    if (tc->depth_stencil) {
355       clear_tile(tc->tile, pt->resource->format, tc->clear_val);
356    } else {
357       clear_tile_rgba(tc->tile, pt->resource->format, &tc->clear_color);
358    }
359 
360    /* push the tile to all positions marked as clear */
361    for (y = 0; y < h; y += TILE_SIZE) {
362       for (x = 0; x < w; x += TILE_SIZE) {
363          union tile_address addr = tile_address(x, y, layer);
364 
365          if (is_clear_flag_set(tc->clear_flags, addr, tc->clear_flags_size)) {
366             /* write the scratch tile to the surface */
367             if (tc->depth_stencil) {
368                pipe_put_tile_raw(pt, tc->transfer_map[layer],
369                                  x, y, TILE_SIZE, TILE_SIZE,
370                                  tc->tile->data.any, 0/*STRIDE*/);
371             }
372             else {
373                if (util_format_is_pure_uint(tc->surface->format)) {
374                   pipe_put_tile_ui_format(pt, tc->transfer_map[layer],
375                                           x, y, TILE_SIZE, TILE_SIZE,
376                                           pt->resource->format,
377                                           (unsigned *) tc->tile->data.colorui128);
378                } else if (util_format_is_pure_sint(tc->surface->format)) {
379                   pipe_put_tile_i_format(pt, tc->transfer_map[layer],
380                                          x, y, TILE_SIZE, TILE_SIZE,
381                                          pt->resource->format,
382                                          (int *) tc->tile->data.colori128);
383                } else {
384                   pipe_put_tile_rgba(pt, tc->transfer_map[layer],
385                                      x, y, TILE_SIZE, TILE_SIZE,
386                                      (float *) tc->tile->data.color);
387                }
388             }
389             numCleared++;
390          }
391       }
392    }
393 
394 
395 #if 0
396    debug_printf("num cleared: %u\n", numCleared);
397 #endif
398 }
399 
400 static void
sp_flush_tile(struct softpipe_tile_cache * tc,unsigned pos)401 sp_flush_tile(struct softpipe_tile_cache* tc, unsigned pos)
402 {
403    int layer = tc->tile_addrs[pos].bits.layer;
404    if (!tc->tile_addrs[pos].bits.invalid) {
405       if (tc->depth_stencil) {
406          pipe_put_tile_raw(tc->transfer[layer], tc->transfer_map[layer],
407                            tc->tile_addrs[pos].bits.x * TILE_SIZE,
408                            tc->tile_addrs[pos].bits.y * TILE_SIZE,
409                            TILE_SIZE, TILE_SIZE,
410                            tc->entries[pos]->data.depth32, 0/*STRIDE*/);
411       }
412       else {
413          if (util_format_is_pure_uint(tc->surface->format)) {
414             pipe_put_tile_ui_format(tc->transfer[layer], tc->transfer_map[layer],
415                                     tc->tile_addrs[pos].bits.x * TILE_SIZE,
416                                     tc->tile_addrs[pos].bits.y * TILE_SIZE,
417                                     TILE_SIZE, TILE_SIZE,
418                                     tc->surface->format,
419                                     (unsigned *) tc->entries[pos]->data.colorui128);
420          } else if (util_format_is_pure_sint(tc->surface->format)) {
421             pipe_put_tile_i_format(tc->transfer[layer], tc->transfer_map[layer],
422                                    tc->tile_addrs[pos].bits.x * TILE_SIZE,
423                                    tc->tile_addrs[pos].bits.y * TILE_SIZE,
424                                    TILE_SIZE, TILE_SIZE,
425                                    tc->surface->format,
426                                    (int *) tc->entries[pos]->data.colori128);
427          } else {
428             pipe_put_tile_rgba_format(tc->transfer[layer], tc->transfer_map[layer],
429                                       tc->tile_addrs[pos].bits.x * TILE_SIZE,
430                                       tc->tile_addrs[pos].bits.y * TILE_SIZE,
431                                       TILE_SIZE, TILE_SIZE,
432                                       tc->surface->format,
433                                       (float *) tc->entries[pos]->data.color);
434          }
435       }
436       tc->tile_addrs[pos].bits.invalid = 1;  /* mark as empty */
437    }
438 }
439 
440 /**
441  * Flush the tile cache: write all dirty tiles back to the transfer.
442  * any tiles "flagged" as cleared will be "really" cleared.
443  */
444 void
sp_flush_tile_cache(struct softpipe_tile_cache * tc)445 sp_flush_tile_cache(struct softpipe_tile_cache *tc)
446 {
447    int inuse = 0, pos;
448    int i;
449    if (tc->num_maps) {
450       /* caching a drawing transfer */
451       for (pos = 0; pos < ARRAY_SIZE(tc->entries); pos++) {
452          struct softpipe_cached_tile *tile = tc->entries[pos];
453          if (!tile)
454          {
455             assert(tc->tile_addrs[pos].bits.invalid);
456             continue;
457          }
458          sp_flush_tile(tc, pos);
459          ++inuse;
460       }
461 
462       if (!tc->tile)
463          tc->tile = sp_alloc_tile(tc);
464 
465       for (i = 0; i < tc->num_maps; i++)
466          sp_tile_cache_flush_clear(tc, i);
467       /* reset all clear flags to zero */
468       memset(tc->clear_flags, 0, tc->clear_flags_size);
469 
470       tc->last_tile_addr.bits.invalid = 1;
471    }
472 
473 #if 0
474    debug_printf("flushed tiles in use: %d\n", inuse);
475 #endif
476 }
477 
478 static struct softpipe_cached_tile *
sp_alloc_tile(struct softpipe_tile_cache * tc)479 sp_alloc_tile(struct softpipe_tile_cache *tc)
480 {
481    struct softpipe_cached_tile * tile = MALLOC_STRUCT(softpipe_cached_tile);
482    if (!tile)
483    {
484       /* in this case, steal an existing tile */
485       if (!tc->tile)
486       {
487          unsigned pos;
488          for (pos = 0; pos < ARRAY_SIZE(tc->entries); ++pos) {
489             if (!tc->entries[pos])
490                continue;
491 
492             sp_flush_tile(tc, pos);
493             tc->tile = tc->entries[pos];
494             tc->entries[pos] = NULL;
495             break;
496          }
497 
498          /* this should never happen */
499          if (!tc->tile)
500             abort();
501       }
502 
503       tile = tc->tile;
504       tc->tile = NULL;
505 
506       tc->last_tile_addr.bits.invalid = 1;
507    }
508    return tile;
509 }
510 
511 /**
512  * Get a tile from the cache.
513  * \param x, y  position of tile, in pixels
514  */
515 struct softpipe_cached_tile *
sp_find_cached_tile(struct softpipe_tile_cache * tc,union tile_address addr)516 sp_find_cached_tile(struct softpipe_tile_cache *tc,
517                     union tile_address addr )
518 {
519    struct pipe_transfer *pt;
520    /* cache pos/entry: */
521    const int pos = CACHE_POS(addr.bits.x,
522                              addr.bits.y, addr.bits.layer);
523    struct softpipe_cached_tile *tile = tc->entries[pos];
524    int layer;
525    if (!tile) {
526       tile = sp_alloc_tile(tc);
527       tc->entries[pos] = tile;
528    }
529 
530    if (addr.value != tc->tile_addrs[pos].value) {
531 
532       layer = tc->tile_addrs[pos].bits.layer;
533       if (tc->tile_addrs[pos].bits.invalid == 0) {
534          /* put dirty tile back in framebuffer */
535          if (tc->depth_stencil) {
536             pipe_put_tile_raw(tc->transfer[layer], tc->transfer_map[layer],
537                               tc->tile_addrs[pos].bits.x * TILE_SIZE,
538                               tc->tile_addrs[pos].bits.y * TILE_SIZE,
539                               TILE_SIZE, TILE_SIZE,
540                               tile->data.depth32, 0/*STRIDE*/);
541          }
542          else {
543             if (util_format_is_pure_uint(tc->surface->format)) {
544                pipe_put_tile_ui_format(tc->transfer[layer], tc->transfer_map[layer],
545                                       tc->tile_addrs[pos].bits.x * TILE_SIZE,
546                                       tc->tile_addrs[pos].bits.y * TILE_SIZE,
547                                       TILE_SIZE, TILE_SIZE,
548                                       tc->surface->format,
549                                       (unsigned *) tile->data.colorui128);
550             } else if (util_format_is_pure_sint(tc->surface->format)) {
551                pipe_put_tile_i_format(tc->transfer[layer], tc->transfer_map[layer],
552                                       tc->tile_addrs[pos].bits.x * TILE_SIZE,
553                                       tc->tile_addrs[pos].bits.y * TILE_SIZE,
554                                       TILE_SIZE, TILE_SIZE,
555                                       tc->surface->format,
556                                       (int *) tile->data.colori128);
557             } else {
558                pipe_put_tile_rgba_format(tc->transfer[layer], tc->transfer_map[layer],
559                                          tc->tile_addrs[pos].bits.x * TILE_SIZE,
560                                          tc->tile_addrs[pos].bits.y * TILE_SIZE,
561                                          TILE_SIZE, TILE_SIZE,
562                                          tc->surface->format,
563                                          (float *) tile->data.color);
564             }
565          }
566       }
567 
568       tc->tile_addrs[pos] = addr;
569 
570       layer = tc->tile_addrs[pos].bits.layer;
571       pt = tc->transfer[layer];
572       assert(pt->resource);
573 
574       if (is_clear_flag_set(tc->clear_flags, addr, tc->clear_flags_size)) {
575          /* don't get tile from framebuffer, just clear it */
576          if (tc->depth_stencil) {
577             clear_tile(tile, pt->resource->format, tc->clear_val);
578          }
579          else {
580             clear_tile_rgba(tile, pt->resource->format, &tc->clear_color);
581          }
582          clear_clear_flag(tc->clear_flags, addr, tc->clear_flags_size);
583       }
584       else {
585          /* get new tile data from transfer */
586          if (tc->depth_stencil) {
587             pipe_get_tile_raw(tc->transfer[layer], tc->transfer_map[layer],
588                               tc->tile_addrs[pos].bits.x * TILE_SIZE,
589                               tc->tile_addrs[pos].bits.y * TILE_SIZE,
590                               TILE_SIZE, TILE_SIZE,
591                               tile->data.depth32, 0/*STRIDE*/);
592          }
593          else {
594             if (util_format_is_pure_uint(tc->surface->format)) {
595                pipe_get_tile_ui_format(tc->transfer[layer], tc->transfer_map[layer],
596                                          tc->tile_addrs[pos].bits.x * TILE_SIZE,
597                                          tc->tile_addrs[pos].bits.y * TILE_SIZE,
598                                          TILE_SIZE, TILE_SIZE,
599                                          tc->surface->format,
600                                          (unsigned *) tile->data.colorui128);
601             } else if (util_format_is_pure_sint(tc->surface->format)) {
602                pipe_get_tile_i_format(tc->transfer[layer], tc->transfer_map[layer],
603                                          tc->tile_addrs[pos].bits.x * TILE_SIZE,
604                                          tc->tile_addrs[pos].bits.y * TILE_SIZE,
605                                          TILE_SIZE, TILE_SIZE,
606                                          tc->surface->format,
607                                          (int *) tile->data.colori128);
608             } else {
609                pipe_get_tile_rgba_format(tc->transfer[layer], tc->transfer_map[layer],
610                                          tc->tile_addrs[pos].bits.x * TILE_SIZE,
611                                          tc->tile_addrs[pos].bits.y * TILE_SIZE,
612                                          TILE_SIZE, TILE_SIZE,
613                                          tc->surface->format,
614                                          (float *) tile->data.color);
615             }
616          }
617       }
618    }
619 
620    tc->last_tile = tile;
621    tc->last_tile_addr = addr;
622    return tile;
623 }
624 
625 
626 
627 
628 
629 /**
630  * When a whole surface is being cleared to a value we can avoid
631  * fetching tiles above.
632  * Save the color and set a 'clearflag' for each tile of the screen.
633  */
634 void
sp_tile_cache_clear(struct softpipe_tile_cache * tc,const union pipe_color_union * color,uint64_t clearValue)635 sp_tile_cache_clear(struct softpipe_tile_cache *tc,
636                     const union pipe_color_union *color,
637                     uint64_t clearValue)
638 {
639    uint pos;
640 
641    tc->clear_color = *color;
642 
643    tc->clear_val = clearValue;
644 
645    /* set flags to indicate all the tiles are cleared */
646    memset(tc->clear_flags, 255, tc->clear_flags_size);
647 
648    for (pos = 0; pos < ARRAY_SIZE(tc->tile_addrs); pos++) {
649       tc->tile_addrs[pos].bits.invalid = 1;
650    }
651    tc->last_tile_addr.bits.invalid = 1;
652 }
653