2 * Copyright 2018 Collabora Ltd.
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 * on the rights to use, copy, modify, merge, publish, distribute, sub
8 * license, and/or sell copies of the Software, and to permit persons to whom
9 * the 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 NON-INFRINGEMENT. IN NO EVENT SHALL
18 * THE AUTHOR(S) AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM,
19 * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
20 * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
21 * USE OR OTHER DEALINGS IN THE SOFTWARE.
24 #include "spirv_builder.h"
26 #include "util/macros.h"
27 #include "util/u_bitcast.h"
28 #include "util/u_memory.h"
29 #include "util/hash_table.h"
36 spirv_buffer_grow(struct spirv_buffer
*b
, size_t needed
)
38 size_t new_room
= MAX3(64, (b
->room
* 3) / 2, needed
);
40 uint32_t *new_words
= realloc(b
->words
, new_room
* sizeof(uint32_t));
50 spirv_buffer_prepare(struct spirv_buffer
*b
, size_t needed
)
52 needed
+= b
->num_words
;
53 if (b
->room
>= b
->num_words
+ needed
)
56 return spirv_buffer_grow(b
, needed
);
60 spirv_buffer_emit_word(struct spirv_buffer
*b
, uint32_t word
)
62 assert(b
->num_words
< b
->room
);
63 b
->words
[b
->num_words
++] = word
;
67 spirv_buffer_emit_string(struct spirv_buffer
*b
, const char *str
)
71 while (str
[pos
] != '\0') {
72 word
|= str
[pos
] << (8 * (pos
% 4));
74 spirv_buffer_prepare(b
, 1);
75 spirv_buffer_emit_word(b
, word
);
80 spirv_buffer_prepare(b
, 1);
81 spirv_buffer_emit_word(b
, word
);
87 spirv_builder_emit_cap(struct spirv_builder
*b
, SpvCapability cap
)
89 spirv_buffer_prepare(&b
->capabilities
, 2);
90 spirv_buffer_emit_word(&b
->capabilities
, SpvOpCapability
| (2 << 16));
91 spirv_buffer_emit_word(&b
->capabilities
, cap
);
95 spirv_builder_emit_source(struct spirv_builder
*b
, SpvSourceLanguage lang
,
98 spirv_buffer_prepare(&b
->debug_names
, 3);
99 spirv_buffer_emit_word(&b
->debug_names
, SpvOpSource
| (3 << 16));
100 spirv_buffer_emit_word(&b
->debug_names
, lang
);
101 spirv_buffer_emit_word(&b
->debug_names
, version
);
105 spirv_builder_emit_mem_model(struct spirv_builder
*b
,
106 SpvAddressingModel addr_model
,
107 SpvMemoryModel mem_model
)
109 spirv_buffer_prepare(&b
->memory_model
, 3);
110 spirv_buffer_emit_word(&b
->memory_model
, SpvOpMemoryModel
| (3 << 16));
111 spirv_buffer_emit_word(&b
->memory_model
, addr_model
);
112 spirv_buffer_emit_word(&b
->memory_model
, mem_model
);
116 spirv_builder_emit_entry_point(struct spirv_builder
*b
,
117 SpvExecutionModel exec_model
, SpvId entry_point
,
118 const char *name
, const SpvId interfaces
[],
119 size_t num_interfaces
)
121 size_t pos
= b
->entry_points
.num_words
;
122 spirv_buffer_prepare(&b
->entry_points
, 3);
123 spirv_buffer_emit_word(&b
->entry_points
, SpvOpEntryPoint
);
124 spirv_buffer_emit_word(&b
->entry_points
, exec_model
);
125 spirv_buffer_emit_word(&b
->entry_points
, entry_point
);
126 int len
= spirv_buffer_emit_string(&b
->entry_points
, name
);
127 b
->entry_points
.words
[pos
] |= (3 + len
+ num_interfaces
) << 16;
128 spirv_buffer_prepare(&b
->entry_points
, num_interfaces
);
129 for (int i
= 0; i
< num_interfaces
; ++i
)
130 spirv_buffer_emit_word(&b
->entry_points
, interfaces
[i
]);
134 spirv_builder_emit_exec_mode(struct spirv_builder
*b
, SpvId entry_point
,
135 SpvExecutionMode exec_mode
)
137 spirv_buffer_prepare(&b
->exec_modes
, 3);
138 spirv_buffer_emit_word(&b
->exec_modes
, SpvOpExecutionMode
| (3 << 16));
139 spirv_buffer_emit_word(&b
->exec_modes
, entry_point
);
140 spirv_buffer_emit_word(&b
->exec_modes
, exec_mode
);
144 spirv_builder_emit_name(struct spirv_builder
*b
, SpvId target
,
147 size_t pos
= b
->debug_names
.num_words
;
148 spirv_buffer_prepare(&b
->debug_names
, 2);
149 spirv_buffer_emit_word(&b
->debug_names
, SpvOpName
);
150 spirv_buffer_emit_word(&b
->debug_names
, target
);
151 int len
= spirv_buffer_emit_string(&b
->debug_names
, name
);
152 b
->debug_names
.words
[pos
] |= (2 + len
) << 16;
156 emit_decoration(struct spirv_builder
*b
, SpvId target
,
157 SpvDecoration decoration
, const uint32_t extra_operands
[],
158 size_t num_extra_operands
)
160 int words
= 3 + num_extra_operands
;
161 spirv_buffer_prepare(&b
->decorations
, words
);
162 spirv_buffer_emit_word(&b
->decorations
, SpvOpDecorate
| (words
<< 16));
163 spirv_buffer_emit_word(&b
->decorations
, target
);
164 spirv_buffer_emit_word(&b
->decorations
, decoration
);
165 for (int i
= 0; i
< num_extra_operands
; ++i
)
166 spirv_buffer_emit_word(&b
->decorations
, extra_operands
[i
]);
170 spirv_builder_emit_decoration(struct spirv_builder
*b
, SpvId target
,
171 SpvDecoration decoration
)
173 emit_decoration(b
, target
, decoration
, NULL
, 0);
177 spirv_builder_emit_location(struct spirv_builder
*b
, SpvId target
,
180 uint32_t args
[] = { location
};
181 emit_decoration(b
, target
, SpvDecorationLocation
, args
, ARRAY_SIZE(args
));
185 spirv_builder_emit_component(struct spirv_builder
*b
, SpvId target
,
188 uint32_t args
[] = { component
};
189 emit_decoration(b
, target
, SpvDecorationComponent
, args
, ARRAY_SIZE(args
));
193 spirv_builder_emit_builtin(struct spirv_builder
*b
, SpvId target
,
196 uint32_t args
[] = { builtin
};
197 emit_decoration(b
, target
, SpvDecorationBuiltIn
, args
, ARRAY_SIZE(args
));
201 spirv_builder_emit_descriptor_set(struct spirv_builder
*b
, SpvId target
,
202 uint32_t descriptor_set
)
204 uint32_t args
[] = { descriptor_set
};
205 emit_decoration(b
, target
, SpvDecorationDescriptorSet
, args
,
210 spirv_builder_emit_binding(struct spirv_builder
*b
, SpvId target
,
213 uint32_t args
[] = { binding
};
214 emit_decoration(b
, target
, SpvDecorationBinding
, args
, ARRAY_SIZE(args
));
218 spirv_builder_emit_array_stride(struct spirv_builder
*b
, SpvId target
,
221 uint32_t args
[] = { stride
};
222 emit_decoration(b
, target
, SpvDecorationArrayStride
, args
, ARRAY_SIZE(args
));
226 emit_member_decoration(struct spirv_builder
*b
, SpvId target
, uint32_t member
,
227 SpvDecoration decoration
, const uint32_t extra_operands
[],
228 size_t num_extra_operands
)
230 int words
= 4 + num_extra_operands
;
231 spirv_buffer_prepare(&b
->decorations
, words
);
232 spirv_buffer_emit_word(&b
->decorations
,
233 SpvOpMemberDecorate
| (words
<< 16));
234 spirv_buffer_emit_word(&b
->decorations
, target
);
235 spirv_buffer_emit_word(&b
->decorations
, member
);
236 spirv_buffer_emit_word(&b
->decorations
, decoration
);
237 for (int i
= 0; i
< num_extra_operands
; ++i
)
238 spirv_buffer_emit_word(&b
->decorations
, extra_operands
[i
]);
242 spirv_builder_emit_member_offset(struct spirv_builder
*b
, SpvId target
,
243 uint32_t member
, uint32_t offset
)
245 uint32_t args
[] = { offset
};
246 emit_member_decoration(b
, target
, member
, SpvDecorationOffset
,
247 args
, ARRAY_SIZE(args
));
251 spirv_builder_emit_undef(struct spirv_builder
*b
, SpvId result_type
)
253 SpvId result
= spirv_builder_new_id(b
);
254 spirv_buffer_prepare(&b
->instructions
, 3);
255 spirv_buffer_emit_word(&b
->instructions
, SpvOpUndef
| (3 << 16));
256 spirv_buffer_emit_word(&b
->instructions
, result_type
);
257 spirv_buffer_emit_word(&b
->instructions
, result
);
262 spirv_builder_function(struct spirv_builder
*b
, SpvId result
,
264 SpvFunctionControlMask function_control
,
267 spirv_buffer_prepare(&b
->instructions
, 5);
268 spirv_buffer_emit_word(&b
->instructions
, SpvOpFunction
| (5 << 16));
269 spirv_buffer_emit_word(&b
->instructions
, return_type
);
270 spirv_buffer_emit_word(&b
->instructions
, result
);
271 spirv_buffer_emit_word(&b
->instructions
, function_control
);
272 spirv_buffer_emit_word(&b
->instructions
, function_type
);
276 spirv_builder_function_end(struct spirv_builder
*b
)
278 spirv_buffer_prepare(&b
->instructions
, 1);
279 spirv_buffer_emit_word(&b
->instructions
, SpvOpFunctionEnd
| (1 << 16));
283 spirv_builder_label(struct spirv_builder
*b
, SpvId label
)
285 spirv_buffer_prepare(&b
->instructions
, 2);
286 spirv_buffer_emit_word(&b
->instructions
, SpvOpLabel
| (2 << 16));
287 spirv_buffer_emit_word(&b
->instructions
, label
);
291 spirv_builder_return(struct spirv_builder
*b
)
293 spirv_buffer_prepare(&b
->instructions
, 1);
294 spirv_buffer_emit_word(&b
->instructions
, SpvOpReturn
| (1 << 16));
298 spirv_builder_emit_load(struct spirv_builder
*b
, SpvId result_type
,
301 return spirv_builder_emit_unop(b
, SpvOpLoad
, result_type
, pointer
);
305 spirv_builder_emit_store(struct spirv_builder
*b
, SpvId pointer
, SpvId object
)
307 spirv_buffer_prepare(&b
->instructions
, 3);
308 spirv_buffer_emit_word(&b
->instructions
, SpvOpStore
| (3 << 16));
309 spirv_buffer_emit_word(&b
->instructions
, pointer
);
310 spirv_buffer_emit_word(&b
->instructions
, object
);
314 spirv_builder_emit_access_chain(struct spirv_builder
*b
, SpvId result_type
,
315 SpvId base
, const SpvId indexes
[],
318 SpvId result
= spirv_builder_new_id(b
);
320 int words
= 4 + num_indexes
;
321 spirv_buffer_prepare(&b
->instructions
, words
);
322 spirv_buffer_emit_word(&b
->instructions
, SpvOpAccessChain
| (words
<< 16));
323 spirv_buffer_emit_word(&b
->instructions
, result_type
);
324 spirv_buffer_emit_word(&b
->instructions
, result
);
325 spirv_buffer_emit_word(&b
->instructions
, base
);
326 for (int i
= 0; i
< num_indexes
; ++i
)
327 spirv_buffer_emit_word(&b
->instructions
, indexes
[i
]);
333 spirv_builder_emit_unop(struct spirv_builder
*b
, SpvOp op
, SpvId result_type
,
336 SpvId result
= spirv_builder_new_id(b
);
337 spirv_buffer_prepare(&b
->instructions
, 4);
338 spirv_buffer_emit_word(&b
->instructions
, op
| (4 << 16));
339 spirv_buffer_emit_word(&b
->instructions
, result_type
);
340 spirv_buffer_emit_word(&b
->instructions
, result
);
341 spirv_buffer_emit_word(&b
->instructions
, operand
);
346 spirv_builder_emit_binop(struct spirv_builder
*b
, SpvOp op
, SpvId result_type
,
347 SpvId operand0
, SpvId operand1
)
349 SpvId result
= spirv_builder_new_id(b
);
350 spirv_buffer_prepare(&b
->instructions
, 5);
351 spirv_buffer_emit_word(&b
->instructions
, op
| (5 << 16));
352 spirv_buffer_emit_word(&b
->instructions
, result_type
);
353 spirv_buffer_emit_word(&b
->instructions
, result
);
354 spirv_buffer_emit_word(&b
->instructions
, operand0
);
355 spirv_buffer_emit_word(&b
->instructions
, operand1
);
360 spirv_builder_emit_triop(struct spirv_builder
*b
, SpvOp op
, SpvId result_type
,
361 SpvId operand0
, SpvId operand1
, SpvId operand2
)
363 SpvId result
= spirv_builder_new_id(b
);
364 spirv_buffer_prepare(&b
->instructions
, 6);
365 spirv_buffer_emit_word(&b
->instructions
, op
| (6 << 16));
366 spirv_buffer_emit_word(&b
->instructions
, result_type
);
367 spirv_buffer_emit_word(&b
->instructions
, result
);
368 spirv_buffer_emit_word(&b
->instructions
, operand0
);
369 spirv_buffer_emit_word(&b
->instructions
, operand1
);
370 spirv_buffer_emit_word(&b
->instructions
, operand2
);
375 spirv_builder_emit_composite_extract(struct spirv_builder
*b
, SpvId result_type
,
376 SpvId composite
, const uint32_t indexes
[],
379 SpvId result
= spirv_builder_new_id(b
);
381 assert(num_indexes
> 0);
382 int words
= 4 + num_indexes
;
383 spirv_buffer_prepare(&b
->instructions
, words
);
384 spirv_buffer_emit_word(&b
->instructions
,
385 SpvOpCompositeExtract
| (words
<< 16));
386 spirv_buffer_emit_word(&b
->instructions
, result_type
);
387 spirv_buffer_emit_word(&b
->instructions
, result
);
388 spirv_buffer_emit_word(&b
->instructions
, composite
);
389 for (int i
= 0; i
< num_indexes
; ++i
)
390 spirv_buffer_emit_word(&b
->instructions
, indexes
[i
]);
395 spirv_builder_emit_composite_construct(struct spirv_builder
*b
,
397 const SpvId constituents
[],
398 size_t num_constituents
)
400 SpvId result
= spirv_builder_new_id(b
);
402 assert(num_constituents
> 0);
403 int words
= 3 + num_constituents
;
404 spirv_buffer_prepare(&b
->instructions
, words
);
405 spirv_buffer_emit_word(&b
->instructions
,
406 SpvOpCompositeConstruct
| (words
<< 16));
407 spirv_buffer_emit_word(&b
->instructions
, result_type
);
408 spirv_buffer_emit_word(&b
->instructions
, result
);
409 for (int i
= 0; i
< num_constituents
; ++i
)
410 spirv_buffer_emit_word(&b
->instructions
, constituents
[i
]);
415 spirv_builder_emit_vector_shuffle(struct spirv_builder
*b
, SpvId result_type
,
416 SpvId vector_1
, SpvId vector_2
,
417 const uint32_t components
[],
418 size_t num_components
)
420 SpvId result
= spirv_builder_new_id(b
);
422 assert(num_components
> 0);
423 int words
= 5 + num_components
;
424 spirv_buffer_prepare(&b
->instructions
, words
);
425 spirv_buffer_emit_word(&b
->instructions
, SpvOpVectorShuffle
| (words
<< 16));
426 spirv_buffer_emit_word(&b
->instructions
, result_type
);
427 spirv_buffer_emit_word(&b
->instructions
, result
);
428 spirv_buffer_emit_word(&b
->instructions
, vector_1
);
429 spirv_buffer_emit_word(&b
->instructions
, vector_2
);
430 for (int i
= 0; i
< num_components
; ++i
)
431 spirv_buffer_emit_word(&b
->instructions
, components
[i
]);
436 spirv_builder_emit_branch(struct spirv_builder
*b
, SpvId label
)
438 spirv_buffer_prepare(&b
->instructions
, 2);
439 spirv_buffer_emit_word(&b
->instructions
, SpvOpBranch
| (2 << 16));
440 spirv_buffer_emit_word(&b
->instructions
, label
);
444 spirv_builder_emit_selection_merge(struct spirv_builder
*b
, SpvId merge_block
,
445 SpvSelectionControlMask selection_control
)
447 spirv_buffer_prepare(&b
->instructions
, 3);
448 spirv_buffer_emit_word(&b
->instructions
, SpvOpSelectionMerge
| (3 << 16));
449 spirv_buffer_emit_word(&b
->instructions
, merge_block
);
450 spirv_buffer_emit_word(&b
->instructions
, selection_control
);
454 spirv_builder_loop_merge(struct spirv_builder
*b
, SpvId merge_block
,
455 SpvId cont_target
, SpvLoopControlMask loop_control
)
457 spirv_buffer_prepare(&b
->instructions
, 4);
458 spirv_buffer_emit_word(&b
->instructions
, SpvOpLoopMerge
| (4 << 16));
459 spirv_buffer_emit_word(&b
->instructions
, merge_block
);
460 spirv_buffer_emit_word(&b
->instructions
, cont_target
);
461 spirv_buffer_emit_word(&b
->instructions
, loop_control
);
465 spirv_builder_emit_branch_conditional(struct spirv_builder
*b
, SpvId condition
,
466 SpvId true_label
, SpvId false_label
)
468 spirv_buffer_prepare(&b
->instructions
, 4);
469 spirv_buffer_emit_word(&b
->instructions
, SpvOpBranchConditional
| (4 << 16));
470 spirv_buffer_emit_word(&b
->instructions
, condition
);
471 spirv_buffer_emit_word(&b
->instructions
, true_label
);
472 spirv_buffer_emit_word(&b
->instructions
, false_label
);
476 spirv_builder_emit_phi(struct spirv_builder
*b
, SpvId result_type
,
477 size_t num_vars
, size_t *position
)
479 SpvId result
= spirv_builder_new_id(b
);
481 assert(num_vars
> 0);
482 int words
= 3 + 2 * num_vars
;
483 spirv_buffer_prepare(&b
->instructions
, words
);
484 spirv_buffer_emit_word(&b
->instructions
, SpvOpPhi
| (words
<< 16));
485 spirv_buffer_emit_word(&b
->instructions
, result_type
);
486 spirv_buffer_emit_word(&b
->instructions
, result
);
487 *position
= b
->instructions
.num_words
;
488 for (int i
= 0; i
< 2 * num_vars
; ++i
)
489 spirv_buffer_emit_word(&b
->instructions
, 0);
494 spirv_builder_set_phi_operand(struct spirv_builder
*b
, size_t position
,
495 size_t index
, SpvId variable
, SpvId parent
)
497 b
->instructions
.words
[position
+ index
* 2 + 0] = variable
;
498 b
->instructions
.words
[position
+ index
* 2 + 1] = parent
;
502 spirv_builder_emit_kill(struct spirv_builder
*b
)
504 spirv_buffer_prepare(&b
->instructions
, 1);
505 spirv_buffer_emit_word(&b
->instructions
, SpvOpKill
| (1 << 16));
509 spirv_builder_emit_image_sample(struct spirv_builder
*b
,
518 SpvId result
= spirv_builder_new_id(b
);
520 int opcode
= SpvOpImageSampleImplicitLod
;
523 opcode
+= SpvOpImageSampleProjImplicitLod
- SpvOpImageSampleImplicitLod
;
525 opcode
+= SpvOpImageSampleExplicitLod
- SpvOpImageSampleImplicitLod
;
527 opcode
+= SpvOpImageSampleDrefImplicitLod
- SpvOpImageSampleImplicitLod
;
531 SpvImageOperandsMask operand_mask
= 0;
532 SpvId extra_operands
[3];
533 int num_extra_operands
= SpvImageOperandsMaskNone
;
535 extra_operands
[++num_extra_operands
] = bias
;
536 operand_mask
|= SpvImageOperandsBiasMask
;
539 extra_operands
[++num_extra_operands
] = lod
;
540 operand_mask
|= SpvImageOperandsLodMask
;
543 /* finalize num_extra_operands / extra_operands */
544 if (num_extra_operands
> 0) {
545 extra_operands
[0] = operand_mask
;
546 num_extra_operands
++;
549 spirv_buffer_prepare(&b
->instructions
, operands
+ num_extra_operands
);
550 spirv_buffer_emit_word(&b
->instructions
, opcode
| ((operands
+ num_extra_operands
) << 16));
551 spirv_buffer_emit_word(&b
->instructions
, result_type
);
552 spirv_buffer_emit_word(&b
->instructions
, result
);
553 spirv_buffer_emit_word(&b
->instructions
, sampled_image
);
554 spirv_buffer_emit_word(&b
->instructions
, coordinate
);
556 spirv_buffer_emit_word(&b
->instructions
, dref
);
557 for (int i
= 0; i
< num_extra_operands
; ++i
)
558 spirv_buffer_emit_word(&b
->instructions
, extra_operands
[i
]);
563 spirv_builder_emit_ext_inst(struct spirv_builder
*b
, SpvId result_type
,
564 SpvId set
, uint32_t instruction
,
565 const SpvId
*args
, size_t num_args
)
567 SpvId result
= spirv_builder_new_id(b
);
569 int words
= 5 + num_args
;
570 spirv_buffer_prepare(&b
->instructions
, words
);
571 spirv_buffer_emit_word(&b
->instructions
, SpvOpExtInst
| (words
<< 16));
572 spirv_buffer_emit_word(&b
->instructions
, result_type
);
573 spirv_buffer_emit_word(&b
->instructions
, result
);
574 spirv_buffer_emit_word(&b
->instructions
, set
);
575 spirv_buffer_emit_word(&b
->instructions
, instruction
);
576 for (int i
= 0; i
< num_args
; ++i
)
577 spirv_buffer_emit_word(&b
->instructions
, args
[i
]);
590 non_aggregate_type_hash(const void *arg
)
592 const struct spirv_type
*type
= arg
;
594 uint32_t hash
= _mesa_fnv32_1a_offset_bias
;
595 hash
= _mesa_fnv32_1a_accumulate(hash
, type
->op
);
596 hash
= _mesa_fnv32_1a_accumulate_block(hash
, type
->args
, sizeof(uint32_t) *
602 non_aggregate_type_equals(const void *a
, const void *b
)
604 const struct spirv_type
*ta
= a
, *tb
= b
;
606 if (ta
->op
!= tb
->op
)
609 assert(ta
->num_args
== tb
->num_args
);
610 return memcmp(ta
->args
, tb
->args
, sizeof(uint32_t) * ta
->num_args
) == 0;
614 get_type_def(struct spirv_builder
*b
, SpvOp op
, const uint32_t args
[],
617 /* According to the SPIR-V specification:
619 * "Two different type <id>s form, by definition, two different types. It
620 * is valid to declare multiple aggregate type <id>s having the same
621 * opcode and operands. This is to allow multiple instances of aggregate
622 * types with the same structure to be decorated differently. (Different
623 * decorations are not required; two different aggregate type <id>s are
624 * allowed to have identical declarations and decorations, and will still
625 * be two different types.) Non-aggregate types are different: It is
626 * invalid to declare multiple type <id>s for the same scalar, vector, or
627 * matrix type. That is, non-aggregate type declarations must all have
628 * different opcodes or operands. (Note that non-aggregate types cannot
629 * be decorated in ways that affect their type.)"
631 * ..so, we need to prevent the same non-aggregate type to be re-defined
632 * with a new <id>. We do this by putting the definitions in a hash-map, so
633 * we can easily look up and reuse them.
636 struct spirv_type key
;
637 assert(num_args
<= ARRAY_SIZE(key
.args
));
639 memcpy(&key
.args
, args
, sizeof(uint32_t) * num_args
);
640 key
.num_args
= num_args
;
642 struct hash_entry
*entry
;
644 entry
= _mesa_hash_table_search(b
->types
, &key
);
646 return ((struct spirv_type
*)entry
->data
)->type
;
648 b
->types
= _mesa_hash_table_create(NULL
, non_aggregate_type_hash
,
649 non_aggregate_type_equals
);
653 struct spirv_type
*type
= CALLOC_STRUCT(spirv_type
);
658 memcpy(&type
->args
, args
, sizeof(uint32_t) * num_args
);
659 type
->num_args
= num_args
;
661 type
->type
= spirv_builder_new_id(b
);
662 spirv_buffer_prepare(&b
->types_const_defs
, 2 + num_args
);
663 spirv_buffer_emit_word(&b
->types_const_defs
, op
| ((2 + num_args
) << 16));
664 spirv_buffer_emit_word(&b
->types_const_defs
, type
->type
);
665 for (int i
= 0; i
< num_args
; ++i
)
666 spirv_buffer_emit_word(&b
->types_const_defs
, args
[i
]);
668 entry
= _mesa_hash_table_insert(b
->types
, type
, type
);
671 return ((struct spirv_type
*)entry
->data
)->type
;
675 spirv_builder_type_void(struct spirv_builder
*b
)
677 return get_type_def(b
, SpvOpTypeVoid
, NULL
, 0);
681 spirv_builder_type_bool(struct spirv_builder
*b
)
683 return get_type_def(b
, SpvOpTypeBool
, NULL
, 0);
687 spirv_builder_type_int(struct spirv_builder
*b
, unsigned width
)
689 uint32_t args
[] = { width
, 1 };
690 return get_type_def(b
, SpvOpTypeInt
, args
, ARRAY_SIZE(args
));
694 spirv_builder_type_uint(struct spirv_builder
*b
, unsigned width
)
696 uint32_t args
[] = { width
, 0 };
697 return get_type_def(b
, SpvOpTypeInt
, args
, ARRAY_SIZE(args
));
701 spirv_builder_type_float(struct spirv_builder
*b
, unsigned width
)
703 uint32_t args
[] = { width
};
704 return get_type_def(b
, SpvOpTypeFloat
, args
, ARRAY_SIZE(args
));
708 spirv_builder_type_image(struct spirv_builder
*b
, SpvId sampled_type
,
709 SpvDim dim
, bool depth
, bool arrayed
, bool ms
,
710 unsigned sampled
, SpvImageFormat image_format
)
714 sampled_type
, dim
, depth
? 1 : 0, arrayed
? 1 : 0, ms
? 1 : 0, sampled
,
717 return get_type_def(b
, SpvOpTypeImage
, args
, ARRAY_SIZE(args
));
721 spirv_builder_type_sampled_image(struct spirv_builder
*b
, SpvId image_type
)
723 uint32_t args
[] = { image_type
};
724 return get_type_def(b
, SpvOpTypeSampledImage
, args
, ARRAY_SIZE(args
));
728 spirv_builder_type_pointer(struct spirv_builder
*b
,
729 SpvStorageClass storage_class
, SpvId type
)
731 uint32_t args
[] = { storage_class
, type
};
732 return get_type_def(b
, SpvOpTypePointer
, args
, ARRAY_SIZE(args
));
736 spirv_builder_type_vector(struct spirv_builder
*b
, SpvId component_type
,
737 unsigned component_count
)
739 assert(component_count
> 1);
740 uint32_t args
[] = { component_type
, component_count
};
741 return get_type_def(b
, SpvOpTypeVector
, args
, ARRAY_SIZE(args
));
745 spirv_builder_type_array(struct spirv_builder
*b
, SpvId component_type
,
748 SpvId type
= spirv_builder_new_id(b
);
749 spirv_buffer_prepare(&b
->types_const_defs
, 4);
750 spirv_buffer_emit_word(&b
->types_const_defs
, SpvOpTypeArray
| (4 << 16));
751 spirv_buffer_emit_word(&b
->types_const_defs
, type
);
752 spirv_buffer_emit_word(&b
->types_const_defs
, component_type
);
753 spirv_buffer_emit_word(&b
->types_const_defs
, length
);
758 spirv_builder_type_struct(struct spirv_builder
*b
, const SpvId member_types
[],
759 size_t num_member_types
)
761 int words
= 2 + num_member_types
;
762 SpvId type
= spirv_builder_new_id(b
);
763 spirv_buffer_prepare(&b
->types_const_defs
, words
);
764 spirv_buffer_emit_word(&b
->types_const_defs
, SpvOpTypeStruct
| (words
<< 16));
765 spirv_buffer_emit_word(&b
->types_const_defs
, type
);
766 for (int i
= 0; i
< num_member_types
; ++i
)
767 spirv_buffer_emit_word(&b
->types_const_defs
, member_types
[i
]);
772 spirv_builder_type_function(struct spirv_builder
*b
, SpvId return_type
,
773 const SpvId parameter_types
[],
774 size_t num_parameter_types
)
776 int words
= 3 + num_parameter_types
;
777 SpvId type
= spirv_builder_new_id(b
);
778 spirv_buffer_prepare(&b
->types_const_defs
, words
);
779 spirv_buffer_emit_word(&b
->types_const_defs
, SpvOpTypeFunction
| (words
<< 16));
780 spirv_buffer_emit_word(&b
->types_const_defs
, type
);
781 spirv_buffer_emit_word(&b
->types_const_defs
, return_type
);
782 for (int i
= 0; i
< num_parameter_types
; ++i
)
783 spirv_buffer_emit_word(&b
->types_const_defs
, parameter_types
[i
]);
796 const_hash(const void *arg
)
798 const struct spirv_const
*key
= arg
;
800 uint32_t hash
= _mesa_fnv32_1a_offset_bias
;
801 hash
= _mesa_fnv32_1a_accumulate(hash
, key
->op
);
802 hash
= _mesa_fnv32_1a_accumulate(hash
, key
->type
);
803 hash
= _mesa_fnv32_1a_accumulate_block(hash
, key
->args
, sizeof(uint32_t) *
809 const_equals(const void *a
, const void *b
)
811 const struct spirv_const
*ca
= a
, *cb
= b
;
813 if (ca
->op
!= cb
->op
||
814 ca
->type
!= cb
->type
)
817 assert(ca
->num_args
== cb
->num_args
);
818 return memcmp(ca
->args
, cb
->args
, sizeof(uint32_t) * ca
->num_args
) == 0;
822 get_const_def(struct spirv_builder
*b
, SpvOp op
, SpvId type
,
823 const uint32_t args
[], size_t num_args
)
825 struct spirv_const key
;
826 assert(num_args
<= ARRAY_SIZE(key
.args
));
829 memcpy(&key
.args
, args
, sizeof(uint32_t) * num_args
);
830 key
.num_args
= num_args
;
832 struct hash_entry
*entry
;
834 entry
= _mesa_hash_table_search(b
->consts
, &key
);
836 return ((struct spirv_const
*)entry
->data
)->result
;
838 b
->consts
= _mesa_hash_table_create(NULL
, const_hash
, const_equals
);
842 struct spirv_const
*cnst
= CALLOC_STRUCT(spirv_const
);
848 memcpy(&cnst
->args
, args
, sizeof(uint32_t) * num_args
);
849 cnst
->num_args
= num_args
;
851 cnst
->result
= spirv_builder_new_id(b
);
852 spirv_buffer_prepare(&b
->types_const_defs
, 3 + num_args
);
853 spirv_buffer_emit_word(&b
->types_const_defs
, op
| ((3 + num_args
) << 16));
854 spirv_buffer_emit_word(&b
->types_const_defs
, type
);
855 spirv_buffer_emit_word(&b
->types_const_defs
, cnst
->result
);
856 for (int i
= 0; i
< num_args
; ++i
)
857 spirv_buffer_emit_word(&b
->types_const_defs
, args
[i
]);
859 entry
= _mesa_hash_table_insert(b
->consts
, cnst
, cnst
);
862 return ((struct spirv_const
*)entry
->data
)->result
;
866 spirv_builder_const_bool(struct spirv_builder
*b
, bool val
)
868 return get_const_def(b
, val
? SpvOpConstantTrue
: SpvOpConstantFalse
,
869 spirv_builder_type_bool(b
), NULL
, 0);
873 spirv_builder_const_int(struct spirv_builder
*b
, int width
, int32_t val
)
876 uint32_t args
[] = { val
};
877 return get_const_def(b
, SpvOpConstant
, spirv_builder_type_int(b
, width
),
878 args
, ARRAY_SIZE(args
));
882 spirv_builder_const_uint(struct spirv_builder
*b
, int width
, uint32_t val
)
885 uint32_t args
[] = { val
};
886 return get_const_def(b
, SpvOpConstant
, spirv_builder_type_uint(b
, width
),
887 args
, ARRAY_SIZE(args
));
891 spirv_builder_const_float(struct spirv_builder
*b
, int width
, float val
)
894 uint32_t args
[] = { u_bitcast_f2u(val
) };
895 return get_const_def(b
, SpvOpConstant
, spirv_builder_type_float(b
, width
),
896 args
, ARRAY_SIZE(args
));
900 spirv_builder_const_composite(struct spirv_builder
*b
, SpvId result_type
,
901 const SpvId constituents
[],
902 size_t num_constituents
)
904 return get_const_def(b
, SpvOpConstantComposite
, result_type
,
905 (const uint32_t *)constituents
,
910 spirv_builder_emit_var(struct spirv_builder
*b
, SpvId type
,
911 SpvStorageClass storage_class
)
913 assert(storage_class
!= SpvStorageClassGeneric
);
914 struct spirv_buffer
*buf
= storage_class
!= SpvStorageClassFunction
?
915 &b
->types_const_defs
: &b
->instructions
;
917 SpvId ret
= spirv_builder_new_id(b
);
918 spirv_buffer_prepare(buf
, 4);
919 spirv_buffer_emit_word(buf
, SpvOpVariable
| (4 << 16));
920 spirv_buffer_emit_word(buf
, type
);
921 spirv_buffer_emit_word(buf
, ret
);
922 spirv_buffer_emit_word(buf
, storage_class
);
927 spirv_builder_import(struct spirv_builder
*b
, const char *name
)
929 SpvId result
= spirv_builder_new_id(b
);
930 size_t pos
= b
->imports
.num_words
;
931 spirv_buffer_prepare(&b
->imports
, 2);
932 spirv_buffer_emit_word(&b
->imports
, SpvOpExtInstImport
);
933 spirv_buffer_emit_word(&b
->imports
, result
);
934 int len
= spirv_buffer_emit_string(&b
->imports
, name
);
935 b
->imports
.words
[pos
] |= (2 + len
) << 16;
940 spirv_builder_get_num_words(struct spirv_builder
*b
)
942 const size_t header_size
= 5;
944 b
->capabilities
.num_words
+
945 b
->imports
.num_words
+
946 b
->memory_model
.num_words
+
947 b
->entry_points
.num_words
+
948 b
->exec_modes
.num_words
+
949 b
->debug_names
.num_words
+
950 b
->decorations
.num_words
+
951 b
->types_const_defs
.num_words
+
952 b
->instructions
.num_words
;
956 spirv_builder_get_words(struct spirv_builder
*b
, uint32_t *words
,
959 assert(num_words
>= spirv_builder_get_num_words(b
));
962 words
[written
++] = SpvMagicNumber
;
963 words
[written
++] = 0x00010000;
964 words
[written
++] = 0;
965 words
[written
++] = b
->prev_id
+ 1;
966 words
[written
++] = 0;
968 const struct spirv_buffer
*buffers
[] = {
976 &b
->types_const_defs
,
980 for (int i
= 0; i
< ARRAY_SIZE(buffers
); ++i
) {
981 const struct spirv_buffer
*buffer
= buffers
[i
];
982 for (int j
= 0; j
< buffer
->num_words
; ++j
)
983 words
[written
++] = buffer
->words
[j
];
986 assert(written
== spirv_builder_get_num_words(b
));