2 * Copyright (C) 2014 Rob Clark <robclark@freedesktop.org>
4 * Permission is hereby granted, free of charge, to any person obtaining a
5 * copy of this software and associated documentation files (the "Software"),
6 * to deal in the Software without restriction, including without limitation
7 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
8 * and/or sell copies of the Software, and to permit persons to whom the
9 * Software is furnished to do so, subject to the following conditions:
11 * The above copyright notice and this permission notice (including the next
12 * paragraph) shall be included in all copies or substantial portions of the
15 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
16 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
17 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
18 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
19 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
20 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
24 * Rob Clark <robclark@freedesktop.org>
27 #include "pipe/p_state.h"
28 #include "pipe/p_screen.h"
29 #include "util/u_string.h"
30 #include "util/u_memory.h"
31 #include "util/u_inlines.h"
32 #include "util/u_format.h"
33 #include "tgsi/tgsi_dump.h"
34 #include "tgsi/tgsi_parse.h"
36 #include "nir/tgsi_to_nir.h"
38 #include "freedreno_context.h"
39 #include "freedreno_util.h"
41 #include "ir3/ir3_shader.h"
42 #include "ir3/ir3_gallium.h"
43 #include "ir3/ir3_compiler.h"
44 #include "ir3/ir3_nir.h"
47 dump_shader_info(struct ir3_shader_variant
*v
, struct pipe_debug_callback
*debug
)
49 if (!unlikely(fd_mesa_debug
& FD_DBG_SHADERDB
))
52 pipe_debug_message(debug
, SHADER_INFO
, "\n"
53 "SHADER-DB: %s prog %d/%d: %u instructions, %u dwords\n"
54 "SHADER-DB: %s prog %d/%d: %u half, %u full\n"
55 "SHADER-DB: %s prog %d/%d: %u const, %u constlen\n"
56 "SHADER-DB: %s prog %d/%d: %u (ss), %u (sy)\n"
57 "SHADER-DB: %s prog %d/%d: max_sun=%u\n",
58 ir3_shader_stage(v
->shader
),
62 ir3_shader_stage(v
->shader
),
64 v
->info
.max_half_reg
+ 1,
66 ir3_shader_stage(v
->shader
),
68 v
->info
.max_const
+ 1,
70 ir3_shader_stage(v
->shader
),
72 v
->info
.ss
, v
->info
.sy
,
73 ir3_shader_stage(v
->shader
),
78 struct ir3_shader_variant
*
79 ir3_shader_variant(struct ir3_shader
*shader
, struct ir3_shader_key key
,
80 bool binning_pass
, struct pipe_debug_callback
*debug
)
82 struct ir3_shader_variant
*v
;
85 /* some shader key values only apply to vertex or frag shader,
86 * so normalize the key to avoid constructing multiple identical
89 ir3_normalize_key(&key
, shader
->type
);
91 v
= ir3_shader_get_variant(shader
, &key
, binning_pass
, &created
);
94 dump_shader_info(v
, debug
);
101 copy_stream_out(struct ir3_stream_output_info
*i
,
102 const struct pipe_stream_output_info
*p
)
104 STATIC_ASSERT(ARRAY_SIZE(i
->stride
) == ARRAY_SIZE(p
->stride
));
105 STATIC_ASSERT(ARRAY_SIZE(i
->output
) == ARRAY_SIZE(p
->output
));
107 i
->num_outputs
= p
->num_outputs
;
108 for (int n
= 0; n
< ARRAY_SIZE(i
->stride
); n
++)
109 i
->stride
[n
] = p
->stride
[n
];
111 for (int n
= 0; n
< ARRAY_SIZE(i
->output
); n
++) {
112 i
->output
[n
].register_index
= p
->output
[n
].register_index
;
113 i
->output
[n
].start_component
= p
->output
[n
].start_component
;
114 i
->output
[n
].num_components
= p
->output
[n
].num_components
;
115 i
->output
[n
].output_buffer
= p
->output
[n
].output_buffer
;
116 i
->output
[n
].dst_offset
= p
->output
[n
].dst_offset
;
117 i
->output
[n
].stream
= p
->output
[n
].stream
;
122 ir3_shader_create(struct ir3_compiler
*compiler
,
123 const struct pipe_shader_state
*cso
, gl_shader_stage type
,
124 struct pipe_debug_callback
*debug
,
125 struct pipe_screen
*screen
)
128 if (cso
->type
== PIPE_SHADER_IR_NIR
) {
129 /* we take ownership of the reference: */
132 debug_assert(cso
->type
== PIPE_SHADER_IR_TGSI
);
133 if (ir3_shader_debug
& IR3_DBG_DISASM
) {
134 tgsi_dump(cso
->tokens
, 0);
136 nir
= ir3_tgsi_to_nir(compiler
, cso
->tokens
, screen
);
139 struct ir3_shader
*shader
= ir3_shader_from_nir(compiler
, nir
);
141 copy_stream_out(&shader
->stream_output
, &cso
->stream_output
);
143 if (fd_mesa_debug
& FD_DBG_SHADERDB
) {
144 /* if shader-db run, create a standard variant immediately
145 * (as otherwise nothing will trigger the shader to be
148 static struct ir3_shader_key key
;
149 memset(&key
, 0, sizeof(key
));
150 ir3_shader_variant(shader
, key
, false, debug
);
155 /* a bit annoying that compute-shader and normal shader state objects
156 * aren't a bit more aligned.
159 ir3_shader_create_compute(struct ir3_compiler
*compiler
,
160 const struct pipe_compute_state
*cso
,
161 struct pipe_debug_callback
*debug
,
162 struct pipe_screen
*screen
)
165 if (cso
->ir_type
== PIPE_SHADER_IR_NIR
) {
166 /* we take ownership of the reference: */
167 nir
= (nir_shader
*)cso
->prog
;
169 debug_assert(cso
->ir_type
== PIPE_SHADER_IR_TGSI
);
170 if (ir3_shader_debug
& IR3_DBG_DISASM
) {
171 tgsi_dump(cso
->prog
, 0);
173 nir
= ir3_tgsi_to_nir(compiler
, cso
->prog
, screen
);
176 struct ir3_shader
*shader
= ir3_shader_from_nir(compiler
, nir
);
182 ir3_tgsi_to_nir(struct ir3_compiler
*compiler
,
183 const struct tgsi_token
*tokens
,
184 struct pipe_screen
*screen
)
187 const nir_shader_compiler_options
*options
=
188 ir3_get_compiler_options(compiler
);
189 return tgsi_to_nir_noscreen(tokens
, options
);
192 return tgsi_to_nir(tokens
, screen
);
195 /* This has to reach into the fd_context a bit more than the rest of
196 * ir3, but it needs to be aligned with the compiler, so both agree
197 * on which const regs hold what. And the logic is identical between
198 * a3xx/a4xx, the only difference is small details in the actual
199 * CP_LOAD_STATE packets (which is handled inside the generation
200 * specific ctx->emit_const(_bo)() fxns)
203 #include "freedreno_resource.h"
206 is_stateobj(struct fd_ringbuffer
*ring
)
208 /* XXX this is an ugly way to differentiate.. */
209 return !!(ring
->flags
& FD_RINGBUFFER_STREAMING
);
213 ring_wfi(struct fd_batch
*batch
, struct fd_ringbuffer
*ring
)
215 /* when we emit const state via ring (IB2) we need a WFI, but when
216 * it is emit'd via stateobj, we don't
218 if (is_stateobj(ring
))
225 emit_user_consts(struct fd_context
*ctx
, const struct ir3_shader_variant
*v
,
226 struct fd_ringbuffer
*ring
, struct fd_constbuf_stateobj
*constbuf
)
228 const unsigned index
= 0; /* user consts are index 0 */
230 if (constbuf
->enabled_mask
& (1 << index
)) {
231 struct pipe_constant_buffer
*cb
= &constbuf
->cb
[index
];
232 unsigned size
= align(cb
->buffer_size
, 4) / 4; /* size in dwords */
234 /* in particular, with binning shader we may end up with
235 * unused consts, ie. we could end up w/ constlen that is
236 * smaller than first_driver_param. In that case truncate
237 * the user consts early to avoid HLSQ lockup caused by
238 * writing too many consts
240 uint32_t max_const
= MIN2(v
->num_uniforms
, v
->constlen
);
242 // I expect that size should be a multiple of vec4's:
243 assert(size
== align(size
, 4));
245 /* and even if the start of the const buffer is before
246 * first_immediate, the end may not be:
248 size
= MIN2(size
, 4 * max_const
);
251 ring_wfi(ctx
->batch
, ring
);
252 ctx
->emit_const(ring
, v
->type
, 0,
253 cb
->buffer_offset
, size
,
254 cb
->user_buffer
, cb
->buffer
);
258 struct ir3_ubo_analysis_state
*state
;
259 state
= &v
->shader
->ubo_state
;
261 for (uint32_t i
= 1; i
< ARRAY_SIZE(state
->range
); i
++) {
262 struct pipe_constant_buffer
*cb
= &constbuf
->cb
[i
];
264 if (state
->range
[i
].start
< state
->range
[i
].end
&&
265 constbuf
->enabled_mask
& (1 << i
)) {
267 ctx
->emit_const(ring
, v
->type
, state
->range
[i
].offset
/ 4,
268 cb
->buffer_offset
+ state
->range
[i
].start
,
269 (state
->range
[i
].end
- state
->range
[i
].start
) / 4,
270 cb
->user_buffer
, cb
->buffer
);
276 emit_ubos(struct fd_context
*ctx
, const struct ir3_shader_variant
*v
,
277 struct fd_ringbuffer
*ring
, struct fd_constbuf_stateobj
*constbuf
)
279 uint32_t offset
= v
->constbase
.ubo
;
280 if (v
->constlen
> offset
) {
281 uint32_t params
= v
->num_ubos
;
282 uint32_t offsets
[params
];
283 struct pipe_resource
*prscs
[params
];
285 for (uint32_t i
= 0; i
< params
; i
++) {
286 const uint32_t index
= i
+ 1; /* UBOs start at index 1 */
287 struct pipe_constant_buffer
*cb
= &constbuf
->cb
[index
];
288 assert(!cb
->user_buffer
);
290 if ((constbuf
->enabled_mask
& (1 << index
)) && cb
->buffer
) {
291 offsets
[i
] = cb
->buffer_offset
;
292 prscs
[i
] = cb
->buffer
;
299 ring_wfi(ctx
->batch
, ring
);
300 ctx
->emit_const_bo(ring
, v
->type
, false, offset
* 4, params
, prscs
, offsets
);
305 emit_ssbo_sizes(struct fd_context
*ctx
, const struct ir3_shader_variant
*v
,
306 struct fd_ringbuffer
*ring
, struct fd_shaderbuf_stateobj
*sb
)
308 uint32_t offset
= v
->constbase
.ssbo_sizes
;
309 if (v
->constlen
> offset
) {
310 uint32_t sizes
[align(v
->const_layout
.ssbo_size
.count
, 4)];
311 unsigned mask
= v
->const_layout
.ssbo_size
.mask
;
314 unsigned index
= u_bit_scan(&mask
);
315 unsigned off
= v
->const_layout
.ssbo_size
.off
[index
];
316 sizes
[off
] = sb
->sb
[index
].buffer_size
;
319 ring_wfi(ctx
->batch
, ring
);
320 ctx
->emit_const(ring
, v
->type
, offset
* 4,
321 0, ARRAY_SIZE(sizes
), sizes
, NULL
);
326 emit_image_dims(struct fd_context
*ctx
, const struct ir3_shader_variant
*v
,
327 struct fd_ringbuffer
*ring
, struct fd_shaderimg_stateobj
*si
)
329 uint32_t offset
= v
->constbase
.image_dims
;
330 if (v
->constlen
> offset
) {
331 uint32_t dims
[align(v
->const_layout
.image_dims
.count
, 4)];
332 unsigned mask
= v
->const_layout
.image_dims
.mask
;
335 struct pipe_image_view
*img
;
336 struct fd_resource
*rsc
;
337 unsigned index
= u_bit_scan(&mask
);
338 unsigned off
= v
->const_layout
.image_dims
.off
[index
];
340 img
= &si
->si
[index
];
341 rsc
= fd_resource(img
->resource
);
343 dims
[off
+ 0] = util_format_get_blocksize(img
->format
);
344 if (img
->resource
->target
!= PIPE_BUFFER
) {
345 unsigned lvl
= img
->u
.tex
.level
;
346 /* note for 2d/cube/etc images, even if re-interpreted
347 * as a different color format, the pixel size should
348 * be the same, so use original dimensions for y and z
351 dims
[off
+ 1] = rsc
->slices
[lvl
].pitch
* rsc
->cpp
;
352 /* see corresponding logic in fd_resource_offset(): */
353 if (rsc
->layer_first
) {
354 dims
[off
+ 2] = rsc
->layer_size
;
356 dims
[off
+ 2] = rsc
->slices
[lvl
].size0
;
359 /* For buffer-backed images, the log2 of the format's
360 * bytes-per-pixel is placed on the 2nd slot. This is useful
361 * when emitting image_size instructions, for which we need
362 * to divide by bpp for image buffers. Since the bpp
363 * can only be power-of-two, the division is implemented
364 * as a SHR, and for that it is handy to have the log2 of
365 * bpp as a constant. (log2 = first-set-bit - 1)
367 dims
[off
+ 1] = ffs(dims
[off
+ 0]) - 1;
371 ring_wfi(ctx
->batch
, ring
);
372 ctx
->emit_const(ring
, v
->type
, offset
* 4,
373 0, ARRAY_SIZE(dims
), dims
, NULL
);
378 emit_immediates(struct fd_context
*ctx
, const struct ir3_shader_variant
*v
,
379 struct fd_ringbuffer
*ring
)
381 int size
= v
->immediates_count
;
382 uint32_t base
= v
->constbase
.immediate
;
384 /* truncate size to avoid writing constants that shader
387 size
= MIN2(size
+ base
, v
->constlen
) - base
;
389 /* convert out of vec4: */
394 ring_wfi(ctx
->batch
, ring
);
395 ctx
->emit_const(ring
, v
->type
, base
,
396 0, size
, v
->immediates
[0].val
, NULL
);
400 /* emit stream-out buffers: */
402 emit_tfbos(struct fd_context
*ctx
, const struct ir3_shader_variant
*v
,
403 struct fd_ringbuffer
*ring
)
405 /* streamout addresses after driver-params: */
406 uint32_t offset
= v
->constbase
.tfbo
;
407 if (v
->constlen
> offset
) {
408 struct fd_streamout_stateobj
*so
= &ctx
->streamout
;
409 struct ir3_stream_output_info
*info
= &v
->shader
->stream_output
;
411 uint32_t offsets
[params
];
412 struct pipe_resource
*prscs
[params
];
414 for (uint32_t i
= 0; i
< params
; i
++) {
415 struct pipe_stream_output_target
*target
= so
->targets
[i
];
418 offsets
[i
] = (so
->offsets
[i
] * info
->stride
[i
] * 4) +
419 target
->buffer_offset
;
420 prscs
[i
] = target
->buffer
;
427 ring_wfi(ctx
->batch
, ring
);
428 ctx
->emit_const_bo(ring
, v
->type
, true, offset
* 4, params
, prscs
, offsets
);
433 max_tf_vtx(struct fd_context
*ctx
, const struct ir3_shader_variant
*v
)
435 struct fd_streamout_stateobj
*so
= &ctx
->streamout
;
436 struct ir3_stream_output_info
*info
= &v
->shader
->stream_output
;
437 uint32_t maxvtxcnt
= 0x7fffffff;
439 if (ctx
->screen
->gpu_id
>= 500)
443 if (v
->shader
->stream_output
.num_outputs
== 0)
445 if (so
->num_targets
== 0)
448 /* offset to write to is:
450 * total_vtxcnt = vtxcnt + offsets[i]
451 * offset = total_vtxcnt * stride[i]
453 * offset = vtxcnt * stride[i] ; calculated in shader
454 * + offsets[i] * stride[i] ; calculated at emit_tfbos()
456 * assuming for each vtx, each target buffer will have data written
457 * up to 'offset + stride[i]', that leaves maxvtxcnt as:
459 * buffer_size = (maxvtxcnt * stride[i]) + stride[i]
460 * maxvtxcnt = (buffer_size - stride[i]) / stride[i]
462 * but shader is actually doing a less-than (rather than less-than-
463 * equal) check, so we can drop the -stride[i].
465 * TODO is assumption about `offset + stride[i]` legit?
467 for (unsigned i
= 0; i
< so
->num_targets
; i
++) {
468 struct pipe_stream_output_target
*target
= so
->targets
[i
];
469 unsigned stride
= info
->stride
[i
] * 4; /* convert dwords->bytes */
471 uint32_t max
= target
->buffer_size
/ stride
;
472 maxvtxcnt
= MIN2(maxvtxcnt
, max
);
480 emit_common_consts(const struct ir3_shader_variant
*v
, struct fd_ringbuffer
*ring
,
481 struct fd_context
*ctx
, enum pipe_shader_type t
)
483 enum fd_dirty_shader_state dirty
= ctx
->dirty_shader
[t
];
485 /* When we use CP_SET_DRAW_STATE objects to emit constant state,
486 * if we emit any of it we need to emit all. This is because
487 * we are using the same state-group-id each time for uniform
488 * state, and if previous update is never evaluated (due to no
489 * visible primitives in the current tile) then the new stateobj
490 * completely replaces the old one.
492 * Possibly if we split up different parts of the const state to
493 * different state-objects we could avoid this.
495 if (dirty
&& is_stateobj(ring
))
498 if (dirty
& (FD_DIRTY_SHADER_PROG
| FD_DIRTY_SHADER_CONST
)) {
499 struct fd_constbuf_stateobj
*constbuf
;
502 constbuf
= &ctx
->constbuf
[t
];
503 shader_dirty
= !!(dirty
& FD_DIRTY_SHADER_PROG
);
505 emit_user_consts(ctx
, v
, ring
, constbuf
);
506 emit_ubos(ctx
, v
, ring
, constbuf
);
508 emit_immediates(ctx
, v
, ring
);
511 if (dirty
& (FD_DIRTY_SHADER_PROG
| FD_DIRTY_SHADER_SSBO
)) {
512 struct fd_shaderbuf_stateobj
*sb
= &ctx
->shaderbuf
[t
];
513 emit_ssbo_sizes(ctx
, v
, ring
, sb
);
516 if (dirty
& (FD_DIRTY_SHADER_PROG
| FD_DIRTY_SHADER_IMAGE
)) {
517 struct fd_shaderimg_stateobj
*si
= &ctx
->shaderimg
[t
];
518 emit_image_dims(ctx
, v
, ring
, si
);
523 ir3_emit_vs_consts(const struct ir3_shader_variant
*v
, struct fd_ringbuffer
*ring
,
524 struct fd_context
*ctx
, const struct pipe_draw_info
*info
)
526 debug_assert(v
->type
== MESA_SHADER_VERTEX
);
528 emit_common_consts(v
, ring
, ctx
, PIPE_SHADER_VERTEX
);
530 /* emit driver params every time: */
531 /* TODO skip emit if shader doesn't use driver params to avoid WFI.. */
533 uint32_t offset
= v
->constbase
.driver_param
;
534 if (v
->constlen
> offset
) {
535 uint32_t vertex_params
[IR3_DP_VS_COUNT
] = {
536 [IR3_DP_VTXID_BASE
] = info
->index_size
?
537 info
->index_bias
: info
->start
,
538 [IR3_DP_VTXCNT_MAX
] = max_tf_vtx(ctx
, v
),
540 /* if no user-clip-planes, we don't need to emit the
543 uint32_t vertex_params_size
= 4;
545 if (v
->key
.ucp_enables
) {
546 struct pipe_clip_state
*ucp
= &ctx
->ucp
;
547 unsigned pos
= IR3_DP_UCP0_X
;
548 for (unsigned i
= 0; pos
<= IR3_DP_UCP7_W
; i
++) {
549 for (unsigned j
= 0; j
< 4; j
++) {
550 vertex_params
[pos
] = fui(ucp
->ucp
[i
][j
]);
554 vertex_params_size
= ARRAY_SIZE(vertex_params
);
557 ring_wfi(ctx
->batch
, ring
);
559 bool needs_vtxid_base
=
560 ir3_find_sysval_regid(v
, SYSTEM_VALUE_VERTEX_ID_ZERO_BASE
) != regid(63, 0);
562 /* for indirect draw, we need to copy VTXID_BASE from
563 * indirect-draw parameters buffer.. which is annoying
564 * and means we can't easily emit these consts in cmd
565 * stream so need to copy them to bo.
567 if (info
->indirect
&& needs_vtxid_base
) {
568 struct pipe_draw_indirect_info
*indirect
= info
->indirect
;
569 struct pipe_resource
*vertex_params_rsc
=
570 pipe_buffer_create(&ctx
->screen
->base
,
571 PIPE_BIND_CONSTANT_BUFFER
, PIPE_USAGE_STREAM
,
572 vertex_params_size
* 4);
573 unsigned src_off
= info
->indirect
->offset
;;
576 ptr
= fd_bo_map(fd_resource(vertex_params_rsc
)->bo
);
577 memcpy(ptr
, vertex_params
, vertex_params_size
* 4);
579 if (info
->index_size
) {
580 /* indexed draw, index_bias is 4th field: */
583 /* non-indexed draw, start is 3rd field: */
587 /* copy index_bias or start from draw params: */
588 ctx
->mem_to_mem(ring
, vertex_params_rsc
, 0,
589 indirect
->buffer
, src_off
, 1);
591 ctx
->emit_const(ring
, MESA_SHADER_VERTEX
, offset
* 4, 0,
592 vertex_params_size
, NULL
, vertex_params_rsc
);
594 pipe_resource_reference(&vertex_params_rsc
, NULL
);
596 ctx
->emit_const(ring
, MESA_SHADER_VERTEX
, offset
* 4, 0,
597 vertex_params_size
, vertex_params
, NULL
);
600 /* if needed, emit stream-out buffer addresses: */
601 if (vertex_params
[IR3_DP_VTXCNT_MAX
] > 0) {
602 emit_tfbos(ctx
, v
, ring
);
609 ir3_emit_fs_consts(const struct ir3_shader_variant
*v
, struct fd_ringbuffer
*ring
,
610 struct fd_context
*ctx
)
612 debug_assert(v
->type
== MESA_SHADER_FRAGMENT
);
614 emit_common_consts(v
, ring
, ctx
, PIPE_SHADER_FRAGMENT
);
617 /* emit compute-shader consts: */
619 ir3_emit_cs_consts(const struct ir3_shader_variant
*v
, struct fd_ringbuffer
*ring
,
620 struct fd_context
*ctx
, const struct pipe_grid_info
*info
)
622 debug_assert(gl_shader_stage_is_compute(v
->type
));
624 emit_common_consts(v
, ring
, ctx
, PIPE_SHADER_COMPUTE
);
626 /* emit compute-shader driver-params: */
627 uint32_t offset
= v
->constbase
.driver_param
;
628 if (v
->constlen
> offset
) {
629 ring_wfi(ctx
->batch
, ring
);
631 if (info
->indirect
) {
632 struct pipe_resource
*indirect
= NULL
;
633 unsigned indirect_offset
;
635 /* This is a bit awkward, but CP_LOAD_STATE.EXT_SRC_ADDR needs
636 * to be aligned more strongly than 4 bytes. So in this case
637 * we need a temporary buffer to copy NumWorkGroups.xyz to.
639 * TODO if previous compute job is writing to info->indirect,
640 * we might need a WFI.. but since we currently flush for each
641 * compute job, we are probably ok for now.
643 if (info
->indirect_offset
& 0xf) {
644 indirect
= pipe_buffer_create(&ctx
->screen
->base
,
645 PIPE_BIND_COMMAND_ARGS_BUFFER
, PIPE_USAGE_STREAM
,
649 ctx
->mem_to_mem(ring
, indirect
, 0, info
->indirect
,
650 info
->indirect_offset
, 3);
652 pipe_resource_reference(&indirect
, info
->indirect
);
653 indirect_offset
= info
->indirect_offset
;
656 ctx
->emit_const(ring
, MESA_SHADER_COMPUTE
, offset
* 4,
657 indirect_offset
, 4, NULL
, indirect
);
659 pipe_resource_reference(&indirect
, NULL
);
661 uint32_t compute_params
[IR3_DP_CS_COUNT
] = {
662 [IR3_DP_NUM_WORK_GROUPS_X
] = info
->grid
[0],
663 [IR3_DP_NUM_WORK_GROUPS_Y
] = info
->grid
[1],
664 [IR3_DP_NUM_WORK_GROUPS_Z
] = info
->grid
[2],
665 [IR3_DP_LOCAL_GROUP_SIZE_X
] = info
->block
[0],
666 [IR3_DP_LOCAL_GROUP_SIZE_Y
] = info
->block
[1],
667 [IR3_DP_LOCAL_GROUP_SIZE_Z
] = info
->block
[2],
670 ctx
->emit_const(ring
, MESA_SHADER_COMPUTE
, offset
* 4, 0,
671 ARRAY_SIZE(compute_params
), compute_params
, NULL
);