2 * Copyright 2017 Advanced Micro Devices, Inc.
5 * Permission is hereby granted, free of charge, to any person obtaining a
6 * copy of this software and associated documentation files (the "Software"),
7 * to deal in the Software without restriction, including without limitation
8 * on the rights to use, copy, modify, merge, publish, distribute, sub
9 * license, and/or sell copies of the Software, and to permit persons to whom
10 * the Software is furnished to do so, subject to the following conditions:
12 * The above copyright notice and this permission notice (including the next
13 * paragraph) shall be included in all copies or substantial portions of the
16 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18 * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL
19 * THE AUTHOR(S) AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM,
20 * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
21 * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
22 * USE OR OTHER DEALINGS IN THE SOFTWARE.
27 #include "util/format/u_format.h"
28 #include "util/u_pack_color.h"
29 #include "util/u_surface.h"
33 SI_CLEAR
= SI_SAVE_FRAGMENT_STATE
,
34 SI_CLEAR_SURFACE
= SI_SAVE_FRAMEBUFFER
| SI_SAVE_FRAGMENT_STATE
,
37 static void si_alloc_separate_cmask(struct si_screen
*sscreen
, struct si_texture
*tex
)
39 /* CMASK for MSAA is allocated in advance or always disabled
40 * by "nofmask" option.
42 if (tex
->cmask_buffer
|| !tex
->surface
.cmask_size
|| tex
->buffer
.b
.b
.nr_samples
>= 2)
46 si_aligned_buffer_create(&sscreen
->b
, SI_RESOURCE_FLAG_UNMAPPABLE
, PIPE_USAGE_DEFAULT
,
47 tex
->surface
.cmask_size
, tex
->surface
.cmask_alignment
);
48 if (tex
->cmask_buffer
== NULL
)
51 tex
->cmask_base_address_reg
= tex
->cmask_buffer
->gpu_address
>> 8;
52 tex
->cb_color_info
|= S_028C70_FAST_CLEAR(1);
54 p_atomic_inc(&sscreen
->compressed_colortex_counter
);
57 static bool si_set_clear_color(struct si_texture
*tex
, enum pipe_format surface_format
,
58 const union pipe_color_union
*color
)
62 memset(&uc
, 0, sizeof(uc
));
64 if (tex
->surface
.bpe
== 16) {
65 /* DCC fast clear only:
66 * CLEAR_WORD0 = R = G = B
69 assert(color
->ui
[0] == color
->ui
[1] && color
->ui
[0] == color
->ui
[2]);
70 uc
.ui
[0] = color
->ui
[0];
71 uc
.ui
[1] = color
->ui
[3];
73 util_pack_color_union(surface_format
, &uc
, color
);
76 if (memcmp(tex
->color_clear_value
, &uc
, 2 * sizeof(uint32_t)) == 0)
79 memcpy(tex
->color_clear_value
, &uc
, 2 * sizeof(uint32_t));
83 /** Linearize and convert luminace/intensity to red. */
84 enum pipe_format
si_simplify_cb_format(enum pipe_format format
)
86 format
= util_format_linear(format
);
87 format
= util_format_luminance_to_red(format
);
88 return util_format_intensity_to_red(format
);
91 bool vi_alpha_is_on_msb(struct si_screen
*sscreen
, enum pipe_format format
)
93 format
= si_simplify_cb_format(format
);
94 const struct util_format_description
*desc
= util_format_description(format
);
96 /* Formats with 3 channels can't have alpha. */
97 if (desc
->nr_channels
== 3)
98 return true; /* same as xxxA; is any value OK here? */
100 if (sscreen
->info
.chip_class
>= GFX10
&& desc
->nr_channels
== 1)
101 return desc
->swizzle
[3] == PIPE_SWIZZLE_X
;
103 return si_translate_colorswap(format
, false) <= 1;
106 static bool vi_get_fast_clear_parameters(struct si_screen
*sscreen
, enum pipe_format base_format
,
107 enum pipe_format surface_format
,
108 const union pipe_color_union
*color
, uint32_t *clear_value
,
109 bool *eliminate_needed
)
111 /* If we want to clear without needing a fast clear eliminate step, we
112 * can set color and alpha independently to 0 or 1 (or 0/max for integer
115 bool values
[4] = {}; /* whether to clear to 0 or 1 */
116 bool color_value
= false; /* clear color to 0 or 1 */
117 bool alpha_value
= false; /* clear alpha to 0 or 1 */
118 int alpha_channel
; /* index of the alpha component */
119 bool has_color
= false;
120 bool has_alpha
= false;
122 const struct util_format_description
*desc
=
123 util_format_description(si_simplify_cb_format(surface_format
));
125 /* 128-bit fast clear with different R,G,B values is unsupported. */
126 if (desc
->block
.bits
== 128 && (color
->ui
[0] != color
->ui
[1] || color
->ui
[0] != color
->ui
[2]))
129 *eliminate_needed
= true;
130 *clear_value
= DCC_CLEAR_COLOR_REG
;
132 if (desc
->layout
!= UTIL_FORMAT_LAYOUT_PLAIN
)
133 return true; /* need ELIMINATE_FAST_CLEAR */
135 bool base_alpha_is_on_msb
= vi_alpha_is_on_msb(sscreen
, base_format
);
136 bool surf_alpha_is_on_msb
= vi_alpha_is_on_msb(sscreen
, surface_format
);
138 /* Formats with 3 channels can't have alpha. */
139 if (desc
->nr_channels
== 3)
141 else if (surf_alpha_is_on_msb
)
142 alpha_channel
= desc
->nr_channels
- 1;
146 for (int i
= 0; i
< 4; ++i
) {
147 if (desc
->swizzle
[i
] >= PIPE_SWIZZLE_0
)
150 if (desc
->channel
[i
].pure_integer
&& desc
->channel
[i
].type
== UTIL_FORMAT_TYPE_SIGNED
) {
151 /* Use the maximum value for clamping the clear color. */
152 int max
= u_bit_consecutive(0, desc
->channel
[i
].size
- 1);
154 values
[i
] = color
->i
[i
] != 0;
155 if (color
->i
[i
] != 0 && MIN2(color
->i
[i
], max
) != max
)
156 return true; /* need ELIMINATE_FAST_CLEAR */
157 } else if (desc
->channel
[i
].pure_integer
&&
158 desc
->channel
[i
].type
== UTIL_FORMAT_TYPE_UNSIGNED
) {
159 /* Use the maximum value for clamping the clear color. */
160 unsigned max
= u_bit_consecutive(0, desc
->channel
[i
].size
);
162 values
[i
] = color
->ui
[i
] != 0U;
163 if (color
->ui
[i
] != 0U && MIN2(color
->ui
[i
], max
) != max
)
164 return true; /* need ELIMINATE_FAST_CLEAR */
166 values
[i
] = color
->f
[i
] != 0.0F
;
167 if (color
->f
[i
] != 0.0F
&& color
->f
[i
] != 1.0F
)
168 return true; /* need ELIMINATE_FAST_CLEAR */
171 if (desc
->swizzle
[i
] == alpha_channel
) {
172 alpha_value
= values
[i
];
175 color_value
= values
[i
];
180 /* If alpha isn't present, make it the same as color, and vice versa. */
182 alpha_value
= color_value
;
184 color_value
= alpha_value
;
186 if (color_value
!= alpha_value
&& base_alpha_is_on_msb
!= surf_alpha_is_on_msb
)
187 return true; /* require ELIMINATE_FAST_CLEAR */
189 /* Check if all color values are equal if they are present. */
190 for (int i
= 0; i
< 4; ++i
) {
191 if (desc
->swizzle
[i
] <= PIPE_SWIZZLE_W
&& desc
->swizzle
[i
] != alpha_channel
&&
192 values
[i
] != color_value
)
193 return true; /* require ELIMINATE_FAST_CLEAR */
196 /* This doesn't need ELIMINATE_FAST_CLEAR.
197 * On chips predating Raven2, the DCC clear codes and the CB clear
198 * color registers must match.
200 *eliminate_needed
= false;
204 *clear_value
= DCC_CLEAR_COLOR_1111
;
206 *clear_value
= DCC_CLEAR_COLOR_1110
;
209 *clear_value
= DCC_CLEAR_COLOR_0001
;
211 *clear_value
= DCC_CLEAR_COLOR_0000
;
216 bool vi_dcc_clear_level(struct si_context
*sctx
, struct si_texture
*tex
, unsigned level
,
217 unsigned clear_value
)
219 struct pipe_resource
*dcc_buffer
;
220 uint64_t dcc_offset
, clear_size
;
222 assert(vi_dcc_enabled(tex
, level
));
224 if (tex
->dcc_separate_buffer
) {
225 dcc_buffer
= &tex
->dcc_separate_buffer
->b
.b
;
228 dcc_buffer
= &tex
->buffer
.b
.b
;
229 dcc_offset
= tex
->surface
.dcc_offset
;
232 if (sctx
->chip_class
>= GFX9
) {
233 /* Mipmap level clears aren't implemented. */
234 if (tex
->buffer
.b
.b
.last_level
> 0)
237 /* 4x and 8x MSAA needs a sophisticated compute shader for
238 * the clear. See AMDVLK. */
239 if (tex
->buffer
.b
.b
.nr_storage_samples
>= 4)
242 clear_size
= tex
->surface
.dcc_size
;
244 unsigned num_layers
= util_num_layers(&tex
->buffer
.b
.b
, level
);
246 /* If this is 0, fast clear isn't possible. (can occur with MSAA) */
247 if (!tex
->surface
.u
.legacy
.level
[level
].dcc_fast_clear_size
)
250 /* Layered 4x and 8x MSAA DCC fast clears need to clear
251 * dcc_fast_clear_size bytes for each layer. A compute shader
252 * would be more efficient than separate per-layer clear operations.
254 if (tex
->buffer
.b
.b
.nr_storage_samples
>= 4 && num_layers
> 1)
257 dcc_offset
+= tex
->surface
.u
.legacy
.level
[level
].dcc_offset
;
258 clear_size
= tex
->surface
.u
.legacy
.level
[level
].dcc_fast_clear_size
* num_layers
;
261 si_clear_buffer(sctx
, dcc_buffer
, dcc_offset
, clear_size
, &clear_value
, 4, SI_COHERENCY_CB_META
,
266 /* Set the same micro tile mode as the destination of the last MSAA resolve.
267 * This allows hitting the MSAA resolve fast path, which requires that both
268 * src and dst micro tile modes match.
270 static void si_set_optimal_micro_tile_mode(struct si_screen
*sscreen
, struct si_texture
*tex
)
272 if (sscreen
->info
.chip_class
>= GFX10
|| tex
->buffer
.b
.is_shared
||
273 tex
->buffer
.b
.b
.nr_samples
<= 1 ||
274 tex
->surface
.micro_tile_mode
== tex
->last_msaa_resolve_target_micro_mode
)
277 assert(sscreen
->info
.chip_class
>= GFX9
||
278 tex
->surface
.u
.legacy
.level
[0].mode
== RADEON_SURF_MODE_2D
);
279 assert(tex
->buffer
.b
.b
.last_level
== 0);
281 if (sscreen
->info
.chip_class
>= GFX9
) {
282 /* 4K or larger tiles only. 0 is linear. 1-3 are 256B tiles. */
283 assert(tex
->surface
.u
.gfx9
.surf
.swizzle_mode
>= 4);
285 /* If you do swizzle_mode % 4, you'll get:
291 * Depth-sample order isn't allowed:
293 assert(tex
->surface
.u
.gfx9
.surf
.swizzle_mode
% 4 != 0);
295 switch (tex
->last_msaa_resolve_target_micro_mode
) {
296 case RADEON_MICRO_MODE_DISPLAY
:
297 tex
->surface
.u
.gfx9
.surf
.swizzle_mode
&= ~0x3;
298 tex
->surface
.u
.gfx9
.surf
.swizzle_mode
+= 2; /* D */
300 case RADEON_MICRO_MODE_STANDARD
:
301 tex
->surface
.u
.gfx9
.surf
.swizzle_mode
&= ~0x3;
302 tex
->surface
.u
.gfx9
.surf
.swizzle_mode
+= 1; /* S */
304 case RADEON_MICRO_MODE_RENDER
:
305 tex
->surface
.u
.gfx9
.surf
.swizzle_mode
&= ~0x3;
306 tex
->surface
.u
.gfx9
.surf
.swizzle_mode
+= 3; /* R */
309 assert(!"unexpected micro mode");
312 } else if (sscreen
->info
.chip_class
>= GFX7
) {
313 /* These magic numbers were copied from addrlib. It doesn't use
314 * any definitions for them either. They are all 2D_TILED_THIN1
315 * modes with different bpp and micro tile mode.
317 switch (tex
->last_msaa_resolve_target_micro_mode
) {
318 case RADEON_MICRO_MODE_DISPLAY
:
319 tex
->surface
.u
.legacy
.tiling_index
[0] = 10;
321 case RADEON_MICRO_MODE_STANDARD
:
322 tex
->surface
.u
.legacy
.tiling_index
[0] = 14;
324 case RADEON_MICRO_MODE_RENDER
:
325 tex
->surface
.u
.legacy
.tiling_index
[0] = 28;
327 default: /* depth, thick */
328 assert(!"unexpected micro mode");
332 switch (tex
->last_msaa_resolve_target_micro_mode
) {
333 case RADEON_MICRO_MODE_DISPLAY
:
334 switch (tex
->surface
.bpe
) {
336 tex
->surface
.u
.legacy
.tiling_index
[0] = 10;
339 tex
->surface
.u
.legacy
.tiling_index
[0] = 11;
342 tex
->surface
.u
.legacy
.tiling_index
[0] = 12;
346 case RADEON_MICRO_MODE_STANDARD
:
347 switch (tex
->surface
.bpe
) {
349 tex
->surface
.u
.legacy
.tiling_index
[0] = 14;
352 tex
->surface
.u
.legacy
.tiling_index
[0] = 15;
355 tex
->surface
.u
.legacy
.tiling_index
[0] = 16;
358 tex
->surface
.u
.legacy
.tiling_index
[0] = 17;
362 default: /* depth, thick */
363 assert(!"unexpected micro mode");
368 tex
->surface
.micro_tile_mode
= tex
->last_msaa_resolve_target_micro_mode
;
370 p_atomic_inc(&sscreen
->dirty_tex_counter
);
373 static void si_do_fast_color_clear(struct si_context
*sctx
, unsigned *buffers
,
374 const union pipe_color_union
*color
)
376 struct pipe_framebuffer_state
*fb
= &sctx
->framebuffer
.state
;
379 /* This function is broken in BE, so just disable this path for now */
380 #if UTIL_ARCH_BIG_ENDIAN
384 if (sctx
->render_cond
)
387 for (i
= 0; i
< fb
->nr_cbufs
; i
++) {
388 struct si_texture
*tex
;
389 unsigned clear_bit
= PIPE_CLEAR_COLOR0
<< i
;
394 /* if this colorbuffer is not being cleared */
395 if (!(*buffers
& clear_bit
))
398 unsigned level
= fb
->cbufs
[i
]->u
.tex
.level
;
402 tex
= (struct si_texture
*)fb
->cbufs
[i
]->texture
;
404 /* TODO: GFX9: Implement DCC fast clear for level 0 of
405 * mipmapped textures. Mipmapped DCC has to clear a rectangular
406 * area of DCC for level 0 (because the whole miptree is
407 * organized in a 2D plane).
409 if (sctx
->chip_class
>= GFX9
&& tex
->buffer
.b
.b
.last_level
> 0)
412 /* the clear is allowed if all layers are bound */
413 if (fb
->cbufs
[i
]->u
.tex
.first_layer
!= 0 ||
414 fb
->cbufs
[i
]->u
.tex
.last_layer
!= util_max_layer(&tex
->buffer
.b
.b
, 0)) {
418 /* only supported on tiled surfaces */
419 if (tex
->surface
.is_linear
) {
423 /* shared textures can't use fast clear without an explicit flush,
424 * because there is no way to communicate the clear color among
427 if (tex
->buffer
.b
.is_shared
&&
428 !(tex
->buffer
.external_usage
& PIPE_HANDLE_USAGE_EXPLICIT_FLUSH
))
431 if (sctx
->chip_class
<= GFX8
&& tex
->surface
.u
.legacy
.level
[0].mode
== RADEON_SURF_MODE_1D
&&
432 !sctx
->screen
->info
.htile_cmask_support_1d_tiling
)
435 /* Use a slow clear for small surfaces where the cost of
436 * the eliminate pass can be higher than the benefit of fast
437 * clear. The closed driver does this, but the numbers may differ.
439 * This helps on both dGPUs and APUs, even small APUs like Mullins.
441 bool too_small
= tex
->buffer
.b
.b
.nr_samples
<= 1 &&
442 tex
->buffer
.b
.b
.width0
* tex
->buffer
.b
.b
.height0
<= 512 * 512;
443 bool eliminate_needed
= false;
444 bool fmask_decompress_needed
= false;
446 /* Fast clear is the most appropriate place to enable DCC for
447 * displayable surfaces.
449 if (sctx
->family
== CHIP_STONEY
&& !too_small
) {
450 vi_separate_dcc_try_enable(sctx
, tex
);
452 /* RB+ isn't supported with a CMASK clear only on Stoney,
453 * so all clears are considered to be hypothetically slow
454 * clears, which is weighed when determining whether to
455 * enable separate DCC.
457 if (tex
->dcc_gather_statistics
) /* only for Stoney */
458 tex
->num_slow_clears
++;
461 /* Try to clear DCC first, otherwise try CMASK. */
462 if (vi_dcc_enabled(tex
, 0)) {
463 uint32_t reset_value
;
465 if (sctx
->screen
->debug_flags
& DBG(NO_DCC_CLEAR
))
468 if (!vi_get_fast_clear_parameters(sctx
->screen
, tex
->buffer
.b
.b
.format
,
469 fb
->cbufs
[i
]->format
, color
, &reset_value
,
473 if (eliminate_needed
&& too_small
)
476 /* TODO: This DCC+CMASK clear doesn't work with MSAA. */
477 if (tex
->buffer
.b
.b
.nr_samples
>= 2 && tex
->cmask_buffer
&& eliminate_needed
)
480 if (!vi_dcc_clear_level(sctx
, tex
, 0, reset_value
))
483 tex
->separate_dcc_dirty
= true;
484 tex
->displayable_dcc_dirty
= true;
486 /* DCC fast clear with MSAA should clear CMASK to 0xC. */
487 if (tex
->buffer
.b
.b
.nr_samples
>= 2 && tex
->cmask_buffer
) {
488 uint32_t clear_value
= 0xCCCCCCCC;
489 si_clear_buffer(sctx
, &tex
->cmask_buffer
->b
.b
, tex
->surface
.cmask_offset
,
490 tex
->surface
.cmask_size
, &clear_value
, 4, SI_COHERENCY_CB_META
, false);
491 fmask_decompress_needed
= true;
497 /* 128-bit formats are unusupported */
498 if (tex
->surface
.bpe
> 8) {
502 /* RB+ doesn't work with CMASK fast clear on Stoney. */
503 if (sctx
->family
== CHIP_STONEY
)
506 /* ensure CMASK is enabled */
507 si_alloc_separate_cmask(sctx
->screen
, tex
);
508 if (!tex
->cmask_buffer
)
511 /* Do the fast clear. */
512 uint32_t clear_value
= 0;
513 si_clear_buffer(sctx
, &tex
->cmask_buffer
->b
.b
, tex
->surface
.cmask_offset
,
514 tex
->surface
.cmask_size
, &clear_value
, 4, SI_COHERENCY_CB_META
, false);
515 eliminate_needed
= true;
518 if ((eliminate_needed
|| fmask_decompress_needed
) &&
519 !(tex
->dirty_level_mask
& (1 << level
))) {
520 tex
->dirty_level_mask
|= 1 << level
;
521 p_atomic_inc(&sctx
->screen
->compressed_colortex_counter
);
524 /* We can change the micro tile mode before a full clear. */
525 si_set_optimal_micro_tile_mode(sctx
->screen
, tex
);
527 *buffers
&= ~clear_bit
;
529 /* Chips with DCC constant encoding don't need to set the clear
530 * color registers for DCC clear values 0 and 1.
532 if (sctx
->screen
->info
.has_dcc_constant_encode
&& !eliminate_needed
)
535 if (si_set_clear_color(tex
, fb
->cbufs
[i
]->format
, color
)) {
536 sctx
->framebuffer
.dirty_cbufs
|= 1 << i
;
537 si_mark_atom_dirty(sctx
, &sctx
->atoms
.s
.framebuffer
);
542 static void si_clear(struct pipe_context
*ctx
, unsigned buffers
,
543 const union pipe_color_union
*color
, double depth
, unsigned stencil
)
545 struct si_context
*sctx
= (struct si_context
*)ctx
;
546 struct pipe_framebuffer_state
*fb
= &sctx
->framebuffer
.state
;
547 struct pipe_surface
*zsbuf
= fb
->zsbuf
;
548 struct si_texture
*zstex
= zsbuf
? (struct si_texture
*)zsbuf
->texture
: NULL
;
549 bool needs_db_flush
= false;
551 if (buffers
& PIPE_CLEAR_COLOR
) {
552 si_do_fast_color_clear(sctx
, &buffers
, color
);
554 return; /* all buffers have been fast cleared */
556 /* These buffers cannot use fast clear, make sure to disable expansion. */
557 for (unsigned i
= 0; i
< fb
->nr_cbufs
; i
++) {
558 struct si_texture
*tex
;
560 /* If not clearing this buffer, skip. */
561 if (!(buffers
& (PIPE_CLEAR_COLOR0
<< i
)) || !fb
->cbufs
[i
])
564 tex
= (struct si_texture
*)fb
->cbufs
[i
]->texture
;
565 if (tex
->surface
.fmask_size
== 0)
566 tex
->dirty_level_mask
&= ~(1 << fb
->cbufs
[i
]->u
.tex
.level
);
570 if (zstex
&& zsbuf
->u
.tex
.first_layer
== 0 &&
571 zsbuf
->u
.tex
.last_layer
== util_max_layer(&zstex
->buffer
.b
.b
, 0)) {
572 /* TC-compatible HTILE only supports depth clears to 0 or 1. */
573 if (buffers
& PIPE_CLEAR_DEPTH
&& si_htile_enabled(zstex
, zsbuf
->u
.tex
.level
, PIPE_MASK_Z
) &&
574 (!zstex
->tc_compatible_htile
|| depth
== 0 || depth
== 1)) {
575 /* Need to disable EXPCLEAR temporarily if clearing
577 if (!zstex
->depth_cleared
|| zstex
->depth_clear_value
!= depth
) {
578 sctx
->db_depth_disable_expclear
= true;
581 if (zstex
->depth_clear_value
!= (float)depth
) {
582 if ((zstex
->depth_clear_value
!= 0) != (depth
!= 0)) {
583 /* ZRANGE_PRECISION register of a bound surface will change so we
584 * must flush the DB caches. */
585 needs_db_flush
= true;
587 /* Update DB_DEPTH_CLEAR. */
588 zstex
->depth_clear_value
= depth
;
589 sctx
->framebuffer
.dirty_zsbuf
= true;
590 si_mark_atom_dirty(sctx
, &sctx
->atoms
.s
.framebuffer
);
592 sctx
->db_depth_clear
= true;
593 si_mark_atom_dirty(sctx
, &sctx
->atoms
.s
.db_render_state
);
596 /* TC-compatible HTILE only supports stencil clears to 0. */
597 if (buffers
& PIPE_CLEAR_STENCIL
&&
598 si_htile_enabled(zstex
, zsbuf
->u
.tex
.level
, PIPE_MASK_S
) &&
599 (!zstex
->tc_compatible_htile
|| stencil
== 0)) {
602 /* Need to disable EXPCLEAR temporarily if clearing
604 if (!zstex
->stencil_cleared
|| zstex
->stencil_clear_value
!= stencil
) {
605 sctx
->db_stencil_disable_expclear
= true;
608 if (zstex
->stencil_clear_value
!= (uint8_t)stencil
) {
609 /* Update DB_STENCIL_CLEAR. */
610 zstex
->stencil_clear_value
= stencil
;
611 sctx
->framebuffer
.dirty_zsbuf
= true;
612 si_mark_atom_dirty(sctx
, &sctx
->atoms
.s
.framebuffer
);
614 sctx
->db_stencil_clear
= true;
615 si_mark_atom_dirty(sctx
, &sctx
->atoms
.s
.db_render_state
);
619 sctx
->flags
|= SI_CONTEXT_FLUSH_AND_INV_DB
;
622 si_blitter_begin(sctx
, SI_CLEAR
);
623 util_blitter_clear(sctx
->blitter
, fb
->width
, fb
->height
, util_framebuffer_get_num_layers(fb
),
624 buffers
, color
, depth
, stencil
, sctx
->framebuffer
.nr_samples
> 1);
625 si_blitter_end(sctx
);
627 if (sctx
->db_depth_clear
) {
628 sctx
->db_depth_clear
= false;
629 sctx
->db_depth_disable_expclear
= false;
630 zstex
->depth_cleared
= true;
631 si_mark_atom_dirty(sctx
, &sctx
->atoms
.s
.db_render_state
);
634 if (sctx
->db_stencil_clear
) {
635 sctx
->db_stencil_clear
= false;
636 sctx
->db_stencil_disable_expclear
= false;
637 zstex
->stencil_cleared
= true;
638 si_mark_atom_dirty(sctx
, &sctx
->atoms
.s
.db_render_state
);
642 static void si_clear_render_target(struct pipe_context
*ctx
, struct pipe_surface
*dst
,
643 const union pipe_color_union
*color
, unsigned dstx
,
644 unsigned dsty
, unsigned width
, unsigned height
,
645 bool render_condition_enabled
)
647 struct si_context
*sctx
= (struct si_context
*)ctx
;
648 struct si_texture
*sdst
= (struct si_texture
*)dst
->texture
;
650 if (dst
->texture
->nr_samples
<= 1 && !sdst
->surface
.dcc_offset
) {
651 si_compute_clear_render_target(ctx
, dst
, color
, dstx
, dsty
, width
, height
,
652 render_condition_enabled
);
656 si_blitter_begin(sctx
,
657 SI_CLEAR_SURFACE
| (render_condition_enabled
? 0 : SI_DISABLE_RENDER_COND
));
658 util_blitter_clear_render_target(sctx
->blitter
, dst
, color
, dstx
, dsty
, width
, height
);
659 si_blitter_end(sctx
);
662 static void si_clear_depth_stencil(struct pipe_context
*ctx
, struct pipe_surface
*dst
,
663 unsigned clear_flags
, double depth
, unsigned stencil
,
664 unsigned dstx
, unsigned dsty
, unsigned width
, unsigned height
,
665 bool render_condition_enabled
)
667 struct si_context
*sctx
= (struct si_context
*)ctx
;
669 si_blitter_begin(sctx
,
670 SI_CLEAR_SURFACE
| (render_condition_enabled
? 0 : SI_DISABLE_RENDER_COND
));
671 util_blitter_clear_depth_stencil(sctx
->blitter
, dst
, clear_flags
, depth
, stencil
, dstx
, dsty
,
673 si_blitter_end(sctx
);
676 static void si_clear_texture(struct pipe_context
*pipe
, struct pipe_resource
*tex
, unsigned level
,
677 const struct pipe_box
*box
, const void *data
)
679 struct pipe_screen
*screen
= pipe
->screen
;
680 struct si_texture
*stex
= (struct si_texture
*)tex
;
681 struct pipe_surface tmpl
= {{0}};
682 struct pipe_surface
*sf
;
684 tmpl
.format
= tex
->format
;
685 tmpl
.u
.tex
.first_layer
= box
->z
;
686 tmpl
.u
.tex
.last_layer
= box
->z
+ box
->depth
- 1;
687 tmpl
.u
.tex
.level
= level
;
688 sf
= pipe
->create_surface(pipe
, tex
, &tmpl
);
692 if (stex
->is_depth
) {
697 /* Depth is always present. */
698 clear
= PIPE_CLEAR_DEPTH
;
699 util_format_unpack_z_float(tex
->format
, &depth
, data
, 1);
701 if (stex
->surface
.has_stencil
) {
702 clear
|= PIPE_CLEAR_STENCIL
;
703 util_format_unpack_s_8uint(tex
->format
, &stencil
, data
, 1);
706 si_clear_depth_stencil(pipe
, sf
, clear
, depth
, stencil
, box
->x
, box
->y
, box
->width
,
709 union pipe_color_union color
;
711 util_format_unpack_rgba(tex
->format
, color
.ui
, data
, 1);
713 if (screen
->is_format_supported(screen
, tex
->format
, tex
->target
, 0, 0,
714 PIPE_BIND_RENDER_TARGET
)) {
715 si_clear_render_target(pipe
, sf
, &color
, box
->x
, box
->y
, box
->width
, box
->height
, false);
717 /* Software fallback - just for R9G9B9E5_FLOAT */
718 util_clear_render_target(pipe
, sf
, &color
, box
->x
, box
->y
, box
->width
, box
->height
);
721 pipe_surface_reference(&sf
, NULL
);
724 void si_init_clear_functions(struct si_context
*sctx
)
726 sctx
->b
.clear_render_target
= si_clear_render_target
;
727 sctx
->b
.clear_texture
= si_clear_texture
;
729 if (sctx
->has_graphics
) {
730 sctx
->b
.clear
= si_clear
;
731 sctx
->b
.clear_depth_stencil
= si_clear_depth_stencil
;