2 * Copyright (c) 2017 Lima Project
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, sub license,
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
12 * next paragraph) shall be included in all copies or substantial portions
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 NON-INFRINGEMENT. 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
20 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
21 * DEALINGS IN THE SOFTWARE.
27 #include "util/hash_table.h"
28 #include "util/ralloc.h"
29 #include "util/bitscan.h"
30 #include "compiler/nir/nir.h"
31 #include "pipe/p_state.h"
36 static void *ppir_node_create_ssa(ppir_block
*block
, ppir_op op
, nir_ssa_def
*ssa
)
38 ppir_node
*node
= ppir_node_create(block
, op
, ssa
->index
, 0);
42 ppir_dest
*dest
= ppir_node_get_dest(node
);
43 dest
->type
= ppir_target_ssa
;
44 dest
->ssa
.num_components
= ssa
->num_components
;
45 dest
->ssa
.live_in
= INT_MAX
;
46 dest
->ssa
.live_out
= 0;
47 dest
->write_mask
= u_bit_consecutive(0, ssa
->num_components
);
49 if (node
->type
== ppir_node_type_load
||
50 node
->type
== ppir_node_type_store
)
51 dest
->ssa
.is_head
= true;
56 static void *ppir_node_create_reg(ppir_block
*block
, ppir_op op
,
57 nir_register
*reg
, unsigned mask
)
59 ppir_node
*node
= ppir_node_create(block
, op
, reg
->index
, mask
);
63 ppir_dest
*dest
= ppir_node_get_dest(node
);
65 list_for_each_entry(ppir_reg
, r
, &block
->comp
->reg_list
, list
) {
66 if (r
->index
== reg
->index
) {
72 dest
->type
= ppir_target_register
;
73 dest
->write_mask
= mask
;
75 if (node
->type
== ppir_node_type_load
||
76 node
->type
== ppir_node_type_store
)
77 dest
->reg
->is_head
= true;
82 static void *ppir_node_create_dest(ppir_block
*block
, ppir_op op
,
83 nir_dest
*dest
, unsigned mask
)
89 return ppir_node_create_ssa(block
, op
, &dest
->ssa
);
91 return ppir_node_create_reg(block
, op
, dest
->reg
.reg
, mask
);
94 return ppir_node_create(block
, op
, index
, 0);
97 static void ppir_node_add_src(ppir_compiler
*comp
, ppir_node
*node
,
98 ppir_src
*ps
, nir_src
*ns
, unsigned mask
)
100 ppir_node
*child
= NULL
;
103 child
= comp
->var_nodes
[ns
->ssa
->index
];
104 /* Clone consts for each successor */
107 child
= ppir_node_clone(node
->block
, child
);
109 case ppir_op_load_varying
: {
110 bool is_load_coords
= false;
111 if (node
->op
== ppir_op_load_texture
) {
112 nir_tex_src
*nts
= (nir_tex_src
*)ns
;
113 if (nts
->src_type
== nir_tex_src_coord
)
114 is_load_coords
= true;
117 if (!is_load_coords
) {
118 /* Clone varying loads for each block */
119 if (child
->block
!= node
->block
) {
120 child
= ppir_node_clone(node
->block
, child
);
121 comp
->var_nodes
[ns
->ssa
->index
] = child
;
125 /* At least one successor is load_texture, promote it to load_coords
126 * to ensure that is has exactly one successor */
127 child
->op
= ppir_op_load_coords
;
130 case ppir_op_load_uniform
:
131 case ppir_op_load_coords
:
132 case ppir_op_load_coords_reg
:
133 /* Clone uniform and texture coord loads for each block.
134 * Also ensure that each load has a single successor.
135 * Let's do a fetch each time and hope for a cache hit instead
136 * of increasing reg pressure.
138 if (child
->block
!= node
->block
|| !ppir_node_is_root(child
)) {
139 child
= ppir_node_clone(node
->block
, child
);
140 comp
->var_nodes
[ns
->ssa
->index
] = child
;
147 if (child
->op
!= ppir_op_undef
)
148 ppir_node_add_dep(node
, child
, ppir_dep_src
);
151 nir_register
*reg
= ns
->reg
.reg
;
153 int swizzle
= ps
->swizzle
[u_bit_scan(&mask
)];
154 child
= comp
->var_nodes
[(reg
->index
<< 2) + comp
->reg_base
+ swizzle
];
155 /* Reg is read before it was written, create a dummy node for it */
157 child
= ppir_node_create_reg(node
->block
, ppir_op_undef
, reg
,
158 u_bit_consecutive(0, 4));
159 comp
->var_nodes
[(reg
->index
<< 2) + comp
->reg_base
+ swizzle
] = child
;
161 /* Don't add dummies or recursive deps for ops like r1 = r1 + ssa1 */
162 if (child
&& node
!= child
&& child
->op
!= ppir_op_undef
)
163 ppir_node_add_dep(node
, child
, ppir_dep_src
);
167 ppir_node_target_assign(ps
, child
);
170 static int nir_to_ppir_opcodes
[nir_num_opcodes
] = {
172 [0 ... nir_last_opcode
] = -1,
174 [nir_op_mov
] = ppir_op_mov
,
175 [nir_op_fmul
] = ppir_op_mul
,
176 [nir_op_fabs
] = ppir_op_abs
,
177 [nir_op_fneg
] = ppir_op_neg
,
178 [nir_op_fadd
] = ppir_op_add
,
179 [nir_op_fsum3
] = ppir_op_sum3
,
180 [nir_op_fsum4
] = ppir_op_sum4
,
181 [nir_op_frsq
] = ppir_op_rsqrt
,
182 [nir_op_flog2
] = ppir_op_log2
,
183 [nir_op_fexp2
] = ppir_op_exp2
,
184 [nir_op_fsqrt
] = ppir_op_sqrt
,
185 [nir_op_fsin
] = ppir_op_sin
,
186 [nir_op_fcos
] = ppir_op_cos
,
187 [nir_op_fmax
] = ppir_op_max
,
188 [nir_op_fmin
] = ppir_op_min
,
189 [nir_op_frcp
] = ppir_op_rcp
,
190 [nir_op_ffloor
] = ppir_op_floor
,
191 [nir_op_fceil
] = ppir_op_ceil
,
192 [nir_op_ffract
] = ppir_op_fract
,
193 [nir_op_sge
] = ppir_op_ge
,
194 [nir_op_slt
] = ppir_op_lt
,
195 [nir_op_seq
] = ppir_op_eq
,
196 [nir_op_sne
] = ppir_op_ne
,
197 [nir_op_fcsel
] = ppir_op_select
,
198 [nir_op_inot
] = ppir_op_not
,
199 [nir_op_ftrunc
] = ppir_op_trunc
,
200 [nir_op_fsat
] = ppir_op_sat
,
201 [nir_op_fddx
] = ppir_op_ddx
,
202 [nir_op_fddy
] = ppir_op_ddy
,
205 static ppir_node
*ppir_emit_alu(ppir_block
*block
, nir_instr
*ni
)
207 nir_alu_instr
*instr
= nir_instr_as_alu(ni
);
208 int op
= nir_to_ppir_opcodes
[instr
->op
];
211 ppir_error("unsupported nir_op: %s\n", nir_op_infos
[instr
->op
].name
);
215 ppir_alu_node
*node
= ppir_node_create_dest(block
, op
, &instr
->dest
.dest
,
216 instr
->dest
.write_mask
);
220 ppir_dest
*pd
= &node
->dest
;
221 nir_alu_dest
*nd
= &instr
->dest
;
223 pd
->modifier
= ppir_outmod_clamp_fraction
;
234 src_mask
= pd
->write_mask
;
238 unsigned num_child
= nir_op_infos
[instr
->op
].num_inputs
;
239 node
->num_src
= num_child
;
241 for (int i
= 0; i
< num_child
; i
++) {
242 nir_alu_src
*ns
= instr
->src
+ i
;
243 ppir_src
*ps
= node
->src
+ i
;
244 memcpy(ps
->swizzle
, ns
->swizzle
, sizeof(ps
->swizzle
));
245 ppir_node_add_src(block
->comp
, &node
->node
, ps
, &ns
->src
, src_mask
);
247 ps
->absolute
= ns
->abs
;
248 ps
->negate
= ns
->negate
;
254 static ppir_block
*ppir_block_create(ppir_compiler
*comp
);
256 static bool ppir_emit_discard_block(ppir_compiler
*comp
)
258 ppir_block
*block
= ppir_block_create(comp
);
259 ppir_discard_node
*discard
;
263 comp
->discard_block
= block
;
266 discard
= ppir_node_create(block
, ppir_op_discard
, -1, 0);
268 list_addtail(&discard
->node
.list
, &block
->node_list
);
275 static ppir_node
*ppir_emit_discard_if(ppir_block
*block
, nir_instr
*ni
)
277 nir_intrinsic_instr
*instr
= nir_instr_as_intrinsic(ni
);
279 ppir_compiler
*comp
= block
->comp
;
280 ppir_branch_node
*branch
;
282 if (!comp
->discard_block
&& !ppir_emit_discard_block(comp
))
285 node
= ppir_node_create(block
, ppir_op_branch
, -1, 0);
288 branch
= ppir_node_to_branch(node
);
290 /* second src and condition will be updated during lowering */
291 ppir_node_add_src(block
->comp
, node
, &branch
->src
[0],
292 &instr
->src
[0], u_bit_consecutive(0, instr
->num_components
));
294 branch
->target
= comp
->discard_block
;
299 static ppir_node
*ppir_emit_discard(ppir_block
*block
, nir_instr
*ni
)
301 ppir_node
*node
= ppir_node_create(block
, ppir_op_discard
, -1, 0);
306 static ppir_node
*ppir_emit_intrinsic(ppir_block
*block
, nir_instr
*ni
)
308 nir_intrinsic_instr
*instr
= nir_instr_as_intrinsic(ni
);
310 ppir_load_node
*lnode
;
311 ppir_alu_node
*alu_node
;
313 switch (instr
->intrinsic
) {
314 case nir_intrinsic_load_input
:
315 if (!instr
->dest
.is_ssa
)
316 mask
= u_bit_consecutive(0, instr
->num_components
);
318 lnode
= ppir_node_create_dest(block
, ppir_op_load_varying
, &instr
->dest
, mask
);
322 lnode
->num_components
= instr
->num_components
;
323 lnode
->index
= nir_intrinsic_base(instr
) * 4 + nir_intrinsic_component(instr
);
324 if (nir_src_is_const(instr
->src
[0]))
325 lnode
->index
+= (uint32_t)(nir_src_as_float(instr
->src
[0]) * 4);
328 ppir_node_add_src(block
->comp
, &lnode
->node
, &lnode
->src
, instr
->src
, 1);
332 case nir_intrinsic_load_frag_coord
:
333 case nir_intrinsic_load_point_coord
:
334 case nir_intrinsic_load_front_face
:
335 if (!instr
->dest
.is_ssa
)
336 mask
= u_bit_consecutive(0, instr
->num_components
);
339 switch (instr
->intrinsic
) {
340 case nir_intrinsic_load_frag_coord
:
341 op
= ppir_op_load_fragcoord
;
343 case nir_intrinsic_load_point_coord
:
344 op
= ppir_op_load_pointcoord
;
346 case nir_intrinsic_load_front_face
:
347 op
= ppir_op_load_frontface
;
354 lnode
= ppir_node_create_dest(block
, op
, &instr
->dest
, mask
);
358 lnode
->num_components
= instr
->num_components
;
361 case nir_intrinsic_load_uniform
:
362 if (!instr
->dest
.is_ssa
)
363 mask
= u_bit_consecutive(0, instr
->num_components
);
365 lnode
= ppir_node_create_dest(block
, ppir_op_load_uniform
, &instr
->dest
, mask
);
369 lnode
->num_components
= instr
->num_components
;
370 lnode
->index
= nir_intrinsic_base(instr
);
371 if (nir_src_is_const(instr
->src
[0]))
372 lnode
->index
+= (uint32_t)nir_src_as_float(instr
->src
[0]);
375 ppir_node_add_src(block
->comp
, &lnode
->node
, &lnode
->src
, instr
->src
, 1);
380 case nir_intrinsic_store_output
: {
381 alu_node
= ppir_node_create_dest(block
, ppir_op_store_color
, NULL
, 0);
385 ppir_dest
*dest
= ppir_node_get_dest(&alu_node
->node
);
386 dest
->type
= ppir_target_ssa
;
387 dest
->ssa
.num_components
= instr
->num_components
;
388 dest
->ssa
.live_in
= INT_MAX
;
389 dest
->ssa
.live_out
= 0;
391 dest
->write_mask
= u_bit_consecutive(0, instr
->num_components
);
393 alu_node
->num_src
= 1;
395 for (int i
= 0; i
< instr
->num_components
; i
++)
396 alu_node
->src
[0].swizzle
[i
] = i
;
398 ppir_node_add_src(block
->comp
, &alu_node
->node
, alu_node
->src
, instr
->src
,
399 u_bit_consecutive(0, instr
->num_components
));
401 return &alu_node
->node
;
404 case nir_intrinsic_discard
:
405 return ppir_emit_discard(block
, ni
);
407 case nir_intrinsic_discard_if
:
408 return ppir_emit_discard_if(block
, ni
);
411 ppir_error("unsupported nir_intrinsic_instr %s\n",
412 nir_intrinsic_infos
[instr
->intrinsic
].name
);
417 static ppir_node
*ppir_emit_load_const(ppir_block
*block
, nir_instr
*ni
)
419 nir_load_const_instr
*instr
= nir_instr_as_load_const(ni
);
420 ppir_const_node
*node
= ppir_node_create_ssa(block
, ppir_op_const
, &instr
->def
);
424 assert(instr
->def
.bit_size
== 32);
426 for (int i
= 0; i
< instr
->def
.num_components
; i
++)
427 node
->constant
.value
[i
].i
= instr
->value
[i
].i32
;
428 node
->constant
.num
= instr
->def
.num_components
;
433 static ppir_node
*ppir_emit_ssa_undef(ppir_block
*block
, nir_instr
*ni
)
435 nir_ssa_undef_instr
*undef
= nir_instr_as_ssa_undef(ni
);
436 ppir_node
*node
= ppir_node_create_ssa(block
, ppir_op_undef
, &undef
->def
);
439 ppir_alu_node
*alu
= ppir_node_to_alu(node
);
441 ppir_dest
*dest
= &alu
->dest
;
442 dest
->ssa
.undef
= true;
443 ppir_reg
*ssa
= &dest
->ssa
;
445 list_add(&ssa
->list
, &block
->comp
->reg_list
);
450 static ppir_node
*ppir_emit_tex(ppir_block
*block
, nir_instr
*ni
)
452 nir_tex_instr
*instr
= nir_instr_as_tex(ni
);
453 ppir_load_texture_node
*node
;
461 ppir_error("unsupported texop %d\n", instr
->op
);
466 if (!instr
->dest
.is_ssa
)
467 mask
= u_bit_consecutive(0, nir_tex_instr_dest_size(instr
));
469 node
= ppir_node_create_dest(block
, ppir_op_load_texture
, &instr
->dest
, mask
);
473 node
->sampler
= instr
->texture_index
;
475 switch (instr
->sampler_dim
) {
476 case GLSL_SAMPLER_DIM_2D
:
477 case GLSL_SAMPLER_DIM_CUBE
:
478 case GLSL_SAMPLER_DIM_RECT
:
479 case GLSL_SAMPLER_DIM_EXTERNAL
:
482 ppir_error("unsupported sampler dim: %d\n", instr
->sampler_dim
);
486 node
->sampler_dim
= instr
->sampler_dim
;
488 for (int i
= 0; i
< instr
->coord_components
; i
++)
489 node
->src_coords
.swizzle
[i
] = i
;
491 for (int i
= 0; i
< instr
->num_srcs
; i
++) {
492 switch (instr
->src
[i
].src_type
) {
493 case nir_tex_src_coord
:
494 ppir_node_add_src(block
->comp
, &node
->node
, &node
->src_coords
, &instr
->src
[i
].src
,
495 u_bit_consecutive(0, instr
->coord_components
));
497 case nir_tex_src_bias
:
498 case nir_tex_src_lod
:
499 node
->lod_bias_en
= true;
500 node
->explicit_lod
= (instr
->src
[i
].src_type
== nir_tex_src_lod
);
501 ppir_node_add_src(block
->comp
, &node
->node
, &node
->lod_bias
, &instr
->src
[i
].src
, 1);
504 ppir_error("unsupported texture source type\n");
513 static ppir_block
*ppir_get_block(ppir_compiler
*comp
, nir_block
*nblock
)
515 ppir_block
*block
= _mesa_hash_table_u64_search(comp
->blocks
, (uint64_t)nblock
);
520 static ppir_node
*ppir_emit_jump(ppir_block
*block
, nir_instr
*ni
)
523 ppir_compiler
*comp
= block
->comp
;
524 ppir_branch_node
*branch
;
525 ppir_block
*jump_block
;
526 nir_jump_instr
*jump
= nir_instr_as_jump(ni
);
528 switch (jump
->type
) {
529 case nir_jump_break
: {
530 assert(comp
->current_block
->successors
[0]);
531 assert(!comp
->current_block
->successors
[1]);
532 jump_block
= comp
->current_block
->successors
[0];
535 case nir_jump_continue
:
536 jump_block
= comp
->loop_cont_block
;
539 ppir_error("nir_jump_instr not support\n");
543 assert(jump_block
!= NULL
);
545 node
= ppir_node_create(block
, ppir_op_branch
, -1, 0);
548 branch
= ppir_node_to_branch(node
);
552 branch
->target
= jump_block
;
557 static ppir_node
*(*ppir_emit_instr
[nir_instr_type_phi
])(ppir_block
*, nir_instr
*) = {
558 [nir_instr_type_alu
] = ppir_emit_alu
,
559 [nir_instr_type_intrinsic
] = ppir_emit_intrinsic
,
560 [nir_instr_type_load_const
] = ppir_emit_load_const
,
561 [nir_instr_type_ssa_undef
] = ppir_emit_ssa_undef
,
562 [nir_instr_type_tex
] = ppir_emit_tex
,
563 [nir_instr_type_jump
] = ppir_emit_jump
,
566 static ppir_block
*ppir_block_create(ppir_compiler
*comp
)
568 ppir_block
*block
= rzalloc(comp
, ppir_block
);
572 list_inithead(&block
->node_list
);
573 list_inithead(&block
->instr_list
);
580 static bool ppir_emit_block(ppir_compiler
*comp
, nir_block
*nblock
)
582 ppir_block
*block
= ppir_get_block(comp
, nblock
);
584 comp
->current_block
= block
;
586 list_addtail(&block
->list
, &comp
->block_list
);
588 nir_foreach_instr(instr
, nblock
) {
589 assert(instr
->type
< nir_instr_type_phi
);
590 ppir_node
*node
= ppir_emit_instr
[instr
->type
](block
, instr
);
594 list_addtail(&node
->list
, &block
->node_list
);
600 static bool ppir_emit_cf_list(ppir_compiler
*comp
, struct exec_list
*list
);
602 static bool ppir_emit_if(ppir_compiler
*comp
, nir_if
*if_stmt
)
605 ppir_branch_node
*else_branch
, *after_branch
;
606 nir_block
*nir_else_block
= nir_if_first_else_block(if_stmt
);
607 bool empty_else_block
=
608 (nir_else_block
== nir_if_last_else_block(if_stmt
) &&
609 exec_list_is_empty(&nir_else_block
->instr_list
));
610 ppir_block
*block
= comp
->current_block
;
612 node
= ppir_node_create(block
, ppir_op_branch
, -1, 0);
615 else_branch
= ppir_node_to_branch(node
);
616 ppir_node_add_src(block
->comp
, node
, &else_branch
->src
[0],
617 &if_stmt
->condition
, 1);
618 else_branch
->num_src
= 1;
619 /* Negate condition to minimize branching. We're generating following:
620 * current_block: { ...; if (!statement) branch else_block; }
621 * then_block: { ...; branch after_block; }
622 * else_block: { ... }
623 * after_block: { ... }
625 * or if else list is empty:
626 * block: { if (!statement) branch else_block; }
627 * then_block: { ... }
628 * else_block: after_block: { ... }
630 else_branch
->negate
= true;
631 list_addtail(&else_branch
->node
.list
, &block
->node_list
);
633 ppir_emit_cf_list(comp
, &if_stmt
->then_list
);
634 if (empty_else_block
) {
635 nir_block
*nblock
= nir_if_last_else_block(if_stmt
);
636 assert(nblock
->successors
[0]);
637 assert(!nblock
->successors
[1]);
638 else_branch
->target
= ppir_get_block(comp
, nblock
->successors
[0]);
639 /* Add empty else block to the list */
640 list_addtail(&block
->successors
[1]->list
, &comp
->block_list
);
644 else_branch
->target
= ppir_get_block(comp
, nir_if_first_else_block(if_stmt
));
646 nir_block
*last_then_block
= nir_if_last_then_block(if_stmt
);
647 assert(last_then_block
->successors
[0]);
648 assert(!last_then_block
->successors
[1]);
649 block
= ppir_get_block(comp
, last_then_block
);
650 node
= ppir_node_create(block
, ppir_op_branch
, -1, 0);
653 after_branch
= ppir_node_to_branch(node
);
655 after_branch
->num_src
= 0;
656 after_branch
->target
= ppir_get_block(comp
, last_then_block
->successors
[0]);
657 /* Target should be after_block, will fixup later */
658 list_addtail(&after_branch
->node
.list
, &block
->node_list
);
660 ppir_emit_cf_list(comp
, &if_stmt
->else_list
);
665 static bool ppir_emit_loop(ppir_compiler
*comp
, nir_loop
*nloop
)
667 ppir_block
*save_loop_cont_block
= comp
->loop_cont_block
;
669 ppir_branch_node
*loop_branch
;
670 nir_block
*loop_last_block
;
673 comp
->loop_cont_block
= ppir_get_block(comp
, nir_loop_first_block(nloop
));
675 ppir_emit_cf_list(comp
, &nloop
->body
);
677 loop_last_block
= nir_loop_last_block(nloop
);
678 block
= ppir_get_block(comp
, loop_last_block
);
679 node
= ppir_node_create(block
, ppir_op_branch
, -1, 0);
682 loop_branch
= ppir_node_to_branch(node
);
684 loop_branch
->num_src
= 0;
685 loop_branch
->target
= comp
->loop_cont_block
;
686 list_addtail(&loop_branch
->node
.list
, &block
->node_list
);
688 comp
->loop_cont_block
= save_loop_cont_block
;
695 static bool ppir_emit_function(ppir_compiler
*comp
, nir_function_impl
*nfunc
)
697 ppir_error("function nir_cf_node not support\n");
701 static bool ppir_emit_cf_list(ppir_compiler
*comp
, struct exec_list
*list
)
703 foreach_list_typed(nir_cf_node
, node
, node
, list
) {
706 switch (node
->type
) {
707 case nir_cf_node_block
:
708 ret
= ppir_emit_block(comp
, nir_cf_node_as_block(node
));
711 ret
= ppir_emit_if(comp
, nir_cf_node_as_if(node
));
713 case nir_cf_node_loop
:
714 ret
= ppir_emit_loop(comp
, nir_cf_node_as_loop(node
));
716 case nir_cf_node_function
:
717 ret
= ppir_emit_function(comp
, nir_cf_node_as_function(node
));
720 ppir_error("unknown NIR node type %d\n", node
->type
);
731 static ppir_compiler
*ppir_compiler_create(void *prog
, unsigned num_reg
, unsigned num_ssa
)
733 ppir_compiler
*comp
= rzalloc_size(
734 prog
, sizeof(*comp
) + ((num_reg
<< 2) + num_ssa
) * sizeof(ppir_node
*));
738 list_inithead(&comp
->block_list
);
739 list_inithead(&comp
->reg_list
);
740 comp
->blocks
= _mesa_hash_table_u64_create(prog
);
742 comp
->var_nodes
= (ppir_node
**)(comp
+ 1);
743 comp
->reg_base
= num_ssa
;
748 static void ppir_add_ordering_deps(ppir_compiler
*comp
)
750 /* Some intrinsics do not have explicit dependencies and thus depend
751 * on instructions order. Consider discard_if and store_ouput as
752 * example. If we don't add fake dependency of discard_if to store_output
753 * scheduler may put store_output first and since store_output terminates
754 * shader on Utgard PP, rest of it will never be executed.
755 * Add fake dependencies for discard/branch/store to preserve
758 * TODO: scheduler should schedule discard_if as early as possible otherwise
759 * we may end up with suboptimal code for cases like this:
766 * In this case store depends on discard_if and s4, but since dependencies can
767 * be scheduled in any order it can result in code like this:
769 * instr1: s3 = s1 < s3
770 * instr2: s4 = s1 + s2
771 * instr3: discard_if s3
774 list_for_each_entry(ppir_block
, block
, &comp
->block_list
, list
) {
775 ppir_node
*prev_node
= NULL
;
776 list_for_each_entry_rev(ppir_node
, node
, &block
->node_list
, list
) {
777 if (prev_node
&& ppir_node_is_root(node
) && node
->op
!= ppir_op_const
) {
778 ppir_node_add_dep(prev_node
, node
, ppir_dep_sequence
);
780 if (node
->op
== ppir_op_discard
||
781 node
->op
== ppir_op_store_color
||
782 node
->op
== ppir_op_store_temp
||
783 node
->op
== ppir_op_branch
) {
790 static void ppir_print_shader_db(struct nir_shader
*nir
, ppir_compiler
*comp
,
791 struct pipe_debug_callback
*debug
)
793 const struct shader_info
*info
= &nir
->info
;
795 int ret
= asprintf(&shaderdb
,
796 "%s shader: %d inst, %d loops, %d:%d spills:fills\n",
797 gl_shader_stage_name(info
->stage
),
798 comp
->cur_instr_index
,
804 if (lima_debug
& LIMA_DEBUG_SHADERDB
)
805 fprintf(stderr
, "SHADER-DB: %s\n", shaderdb
);
807 pipe_debug_message(debug
, SHADER_INFO
, "%s", shaderdb
);
811 static void ppir_add_write_after_read_deps(ppir_compiler
*comp
)
813 list_for_each_entry(ppir_block
, block
, &comp
->block_list
, list
) {
814 list_for_each_entry(ppir_reg
, reg
, &comp
->reg_list
, list
) {
815 ppir_node
*write
= NULL
;
816 list_for_each_entry_rev(ppir_node
, node
, &block
->node_list
, list
) {
817 for (int i
= 0; i
< ppir_node_get_src_num(node
); i
++) {
818 ppir_src
*src
= ppir_node_get_src(node
, i
);
819 if (src
&& src
->type
== ppir_target_register
&&
822 ppir_debug("Adding dep %d for write %d\n", node
->index
, write
->index
);
823 ppir_node_add_dep(write
, node
, ppir_dep_write_after_read
);
826 ppir_dest
*dest
= ppir_node_get_dest(node
);
827 if (dest
&& dest
->type
== ppir_target_register
&&
835 bool ppir_compile_nir(struct lima_fs_shader_state
*prog
, struct nir_shader
*nir
,
837 struct pipe_debug_callback
*debug
)
839 nir_function_impl
*func
= nir_shader_get_entrypoint(nir
);
840 ppir_compiler
*comp
= ppir_compiler_create(prog
, func
->reg_alloc
, func
->ssa_alloc
);
846 /* 1st pass: create ppir blocks */
847 nir_foreach_function(function
, nir
) {
851 nir_foreach_block(nblock
, function
->impl
) {
852 ppir_block
*block
= ppir_block_create(comp
);
855 block
->index
= nblock
->index
;
856 _mesa_hash_table_u64_insert(comp
->blocks
, (uint64_t)nblock
, block
);
860 /* 2nd pass: populate successors */
861 nir_foreach_function(function
, nir
) {
865 nir_foreach_block(nblock
, function
->impl
) {
866 ppir_block
*block
= ppir_get_block(comp
, nblock
);
869 for (int i
= 0; i
< 2; i
++) {
870 if (nblock
->successors
[i
])
871 block
->successors
[i
] = ppir_get_block(comp
, nblock
->successors
[i
]);
876 /* Validate outputs, we support only gl_FragColor */
877 nir_foreach_variable(var
, &nir
->outputs
) {
878 switch (var
->data
.location
) {
879 case FRAG_RESULT_COLOR
:
880 case FRAG_RESULT_DATA0
:
883 ppir_error("unsupported output type\n");
889 foreach_list_typed(nir_register
, reg
, node
, &func
->registers
) {
890 ppir_reg
*r
= rzalloc(comp
, ppir_reg
);
894 r
->index
= reg
->index
;
895 r
->num_components
= reg
->num_components
;
896 r
->live_in
= INT_MAX
;
899 list_addtail(&r
->list
, &comp
->reg_list
);
902 if (!ppir_emit_cf_list(comp
, &func
->body
))
905 /* If we have discard block add it to the very end */
906 if (comp
->discard_block
)
907 list_addtail(&comp
->discard_block
->list
, &comp
->block_list
);
909 ppir_node_print_prog(comp
);
911 if (!ppir_lower_prog(comp
))
914 ppir_add_ordering_deps(comp
);
915 ppir_add_write_after_read_deps(comp
);
917 ppir_node_print_prog(comp
);
919 if (!ppir_node_to_instr(comp
))
922 if (!ppir_schedule_prog(comp
))
925 if (!ppir_regalloc_prog(comp
))
928 if (!ppir_codegen_prog(comp
))
931 ppir_print_shader_db(nir
, comp
, debug
);
933 _mesa_hash_table_u64_destroy(comp
->blocks
, NULL
);
938 _mesa_hash_table_u64_destroy(comp
->blocks
, NULL
);