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1 /*
2  * Copyright © 2015 Intel Corporation
3  *
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:
10  *
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
13  * Software.
14  *
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
20  * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
21  * IN THE SOFTWARE.
22  *
23  * Authors:
24  *    Jason Ekstrand (jason@jlekstrand.net)
25  *
26  */
27 
28 #ifndef _VTN_PRIVATE_H_
29 #define _VTN_PRIVATE_H_
30 
31 #include <setjmp.h>
32 
33 #include "nir/nir.h"
34 #include "nir/nir_builder.h"
35 #include "util/u_dynarray.h"
36 #include "nir_spirv.h"
37 #include "spirv.h"
38 #include "vtn_generator_ids.h"
39 
40 struct vtn_builder;
41 struct vtn_decoration;
42 
43 void vtn_log(struct vtn_builder *b, enum nir_spirv_debug_level level,
44              size_t spirv_offset, const char *message);
45 
46 void vtn_logf(struct vtn_builder *b, enum nir_spirv_debug_level level,
47               size_t spirv_offset, const char *fmt, ...) PRINTFLIKE(4, 5);
48 
49 #define vtn_info(...) vtn_logf(b, NIR_SPIRV_DEBUG_LEVEL_INFO, 0, __VA_ARGS__)
50 
51 void _vtn_warn(struct vtn_builder *b, const char *file, unsigned line,
52                const char *fmt, ...) PRINTFLIKE(4, 5);
53 #define vtn_warn(...) _vtn_warn(b, __FILE__, __LINE__, __VA_ARGS__)
54 
55 void _vtn_err(struct vtn_builder *b, const char *file, unsigned line,
56                const char *fmt, ...) PRINTFLIKE(4, 5);
57 #define vtn_err(...) _vtn_err(b, __FILE__, __LINE__, __VA_ARGS__)
58 
59 /** Fail SPIR-V parsing
60  *
61  * This function logs an error and then bails out of the shader compile using
62  * longjmp.  This being safe relies on two things:
63  *
64  *  1) We must guarantee that setjmp is called after allocating the builder
65  *     and setting up b->debug (so that logging works) but before before any
66  *     errors have a chance to occur.
67  *
68  *  2) While doing the SPIR-V -> NIR conversion, we need to be careful to
69  *     ensure that all heap allocations happen through ralloc and are parented
70  *     to the builder.  This way they will get properly cleaned up on error.
71  *
72  *  3) We must ensure that _vtn_fail is never called while a mutex lock or a
73  *     reference to any other resource is held with the exception of ralloc
74  *     objects which are parented to the builder.
75  *
76  * So long as these two things continue to hold, we can easily longjmp back to
77  * spirv_to_nir(), clean up the builder, and return NULL.
78  */
79 NORETURN void
80 _vtn_fail(struct vtn_builder *b, const char *file, unsigned line,
81              const char *fmt, ...) PRINTFLIKE(4, 5);
82 
83 #define vtn_fail(...) _vtn_fail(b, __FILE__, __LINE__, __VA_ARGS__)
84 
85 /** Fail if the given expression evaluates to true */
86 #define vtn_fail_if(expr, ...) \
87    do { \
88       if (unlikely(expr)) \
89          vtn_fail(__VA_ARGS__); \
90    } while (0)
91 
92 #define _vtn_fail_with(t, msg, v) \
93    vtn_fail("%s: %s (%u)\n", msg, spirv_ ## t ## _to_string(v), v)
94 
95 #define vtn_fail_with_decoration(msg, v) _vtn_fail_with(decoration, msg, v)
96 #define vtn_fail_with_opcode(msg, v)     _vtn_fail_with(op, msg, v)
97 
98 /** Assert that a condition is true and, if it isn't, vtn_fail
99  *
100  * This macro is transitional only and should not be used in new code.  Use
101  * vtn_fail_if and provide a real message instead.
102  */
103 #define vtn_assert(expr) \
104    do { \
105       if (!likely(expr)) \
106          vtn_fail("%s", #expr); \
107    } while (0)
108 
109 enum vtn_value_type {
110    vtn_value_type_invalid = 0,
111    vtn_value_type_undef,
112    vtn_value_type_string,
113    vtn_value_type_decoration_group,
114    vtn_value_type_type,
115    vtn_value_type_constant,
116    vtn_value_type_pointer,
117    vtn_value_type_function,
118    vtn_value_type_block,
119    vtn_value_type_ssa,
120    vtn_value_type_extension,
121    vtn_value_type_image_pointer,
122 };
123 
124 enum vtn_branch_type {
125    vtn_branch_type_none,
126    vtn_branch_type_if_merge,
127    vtn_branch_type_switch_break,
128    vtn_branch_type_switch_fallthrough,
129    vtn_branch_type_loop_break,
130    vtn_branch_type_loop_continue,
131    vtn_branch_type_loop_back_edge,
132    vtn_branch_type_discard,
133    vtn_branch_type_terminate,
134    vtn_branch_type_return,
135 };
136 
137 enum vtn_cf_node_type {
138    vtn_cf_node_type_block,
139    vtn_cf_node_type_if,
140    vtn_cf_node_type_loop,
141    vtn_cf_node_type_case,
142    vtn_cf_node_type_switch,
143    vtn_cf_node_type_function,
144 };
145 
146 struct vtn_cf_node {
147    struct list_head link;
148    struct vtn_cf_node *parent;
149    enum vtn_cf_node_type type;
150 };
151 
152 struct vtn_loop {
153    struct vtn_cf_node node;
154 
155    /* The main body of the loop */
156    struct list_head body;
157 
158    /* The "continue" part of the loop.  This gets executed after the body
159     * and is where you go when you hit a continue.
160     */
161    struct list_head cont_body;
162 
163    struct vtn_block *header_block;
164    struct vtn_block *cont_block;
165    struct vtn_block *break_block;
166 
167    SpvLoopControlMask control;
168 };
169 
170 struct vtn_if {
171    struct vtn_cf_node node;
172 
173    uint32_t condition;
174 
175    enum vtn_branch_type then_type;
176    struct list_head then_body;
177 
178    enum vtn_branch_type else_type;
179    struct list_head else_body;
180 
181    struct vtn_block *merge_block;
182 
183    SpvSelectionControlMask control;
184 };
185 
186 struct vtn_case {
187    struct vtn_cf_node node;
188 
189    struct vtn_block *block;
190 
191    enum vtn_branch_type type;
192    struct list_head body;
193 
194    /* The fallthrough case, if any */
195    struct vtn_case *fallthrough;
196 
197    /* The uint32_t values that map to this case */
198    struct util_dynarray values;
199 
200    /* True if this is the default case */
201    bool is_default;
202 
203    /* Initialized to false; used when sorting the list of cases */
204    bool visited;
205 };
206 
207 struct vtn_switch {
208    struct vtn_cf_node node;
209 
210    uint32_t selector;
211 
212    struct list_head cases;
213 
214    struct vtn_block *break_block;
215 };
216 
217 struct vtn_block {
218    struct vtn_cf_node node;
219 
220    /** A pointer to the label instruction */
221    const uint32_t *label;
222 
223    /** A pointer to the merge instruction (or NULL if non exists) */
224    const uint32_t *merge;
225 
226    /** A pointer to the branch instruction that ends this block */
227    const uint32_t *branch;
228 
229    enum vtn_branch_type branch_type;
230 
231    /* The CF node for which this is a merge target
232     *
233     * The SPIR-V spec requires that any given block can be the merge target
234     * for at most one merge instruction.  If this block is a merge target,
235     * this points back to the block containing that merge instruction.
236     */
237    struct vtn_cf_node *merge_cf_node;
238 
239    /** Points to the loop that this block starts (if it starts a loop) */
240    struct vtn_loop *loop;
241 
242    /** Points to the switch case started by this block (if any) */
243    struct vtn_case *switch_case;
244 
245    /** Every block ends in a nop intrinsic so that we can find it again */
246    nir_intrinsic_instr *end_nop;
247 
248    /** attached nir_block */
249    struct nir_block *block;
250 };
251 
252 struct vtn_function {
253    struct vtn_cf_node node;
254 
255    struct vtn_type *type;
256 
257    bool referenced;
258    bool emitted;
259 
260    nir_function_impl *impl;
261    struct vtn_block *start_block;
262 
263    struct list_head body;
264 
265    const uint32_t *end;
266 
267    SpvFunctionControlMask control;
268 };
269 
270 #define VTN_DECL_CF_NODE_CAST(_type)               \
271 static inline struct vtn_##_type *                 \
272 vtn_cf_node_as_##_type(struct vtn_cf_node *node)   \
273 {                                                  \
274    assert(node->type == vtn_cf_node_type_##_type); \
275    return (struct vtn_##_type *)node;              \
276 }
277 
278 VTN_DECL_CF_NODE_CAST(block)
279 VTN_DECL_CF_NODE_CAST(loop)
280 VTN_DECL_CF_NODE_CAST(if)
281 VTN_DECL_CF_NODE_CAST(case)
282 VTN_DECL_CF_NODE_CAST(switch)
283 VTN_DECL_CF_NODE_CAST(function)
284 
285 #define vtn_foreach_cf_node(node, cf_list) \
286    list_for_each_entry(struct vtn_cf_node, node, cf_list, link)
287 
288 typedef bool (*vtn_instruction_handler)(struct vtn_builder *, SpvOp,
289                                         const uint32_t *, unsigned);
290 
291 void vtn_build_cfg(struct vtn_builder *b, const uint32_t *words,
292                    const uint32_t *end);
293 void vtn_function_emit(struct vtn_builder *b, struct vtn_function *func,
294                        vtn_instruction_handler instruction_handler);
295 void vtn_handle_function_call(struct vtn_builder *b, SpvOp opcode,
296                               const uint32_t *w, unsigned count);
297 
298 const uint32_t *
299 vtn_foreach_instruction(struct vtn_builder *b, const uint32_t *start,
300                         const uint32_t *end, vtn_instruction_handler handler);
301 
302 struct vtn_ssa_value {
303    union {
304       nir_ssa_def *def;
305       struct vtn_ssa_value **elems;
306    };
307 
308    /* For matrices, if this is non-NULL, then this value is actually the
309     * transpose of some other value.  The value that `transposed` points to
310     * always dominates this value.
311     */
312    struct vtn_ssa_value *transposed;
313 
314    const struct glsl_type *type;
315 };
316 
317 enum vtn_base_type {
318    vtn_base_type_void,
319    vtn_base_type_scalar,
320    vtn_base_type_vector,
321    vtn_base_type_matrix,
322    vtn_base_type_array,
323    vtn_base_type_struct,
324    vtn_base_type_pointer,
325    vtn_base_type_image,
326    vtn_base_type_sampler,
327    vtn_base_type_sampled_image,
328    vtn_base_type_accel_struct,
329    vtn_base_type_function,
330    vtn_base_type_event,
331 };
332 
333 struct vtn_type {
334    enum vtn_base_type base_type;
335 
336    const struct glsl_type *type;
337 
338    /* The SPIR-V id of the given type. */
339    uint32_t id;
340 
341    /* Specifies the length of complex types.
342     *
343     * For Workgroup pointers, this is the size of the referenced type.
344     */
345    unsigned length;
346 
347    /* for arrays, matrices and pointers, the array stride */
348    unsigned stride;
349 
350    /* Access qualifiers */
351    enum gl_access_qualifier access;
352 
353    union {
354       /* Members for scalar, vector, and array-like types */
355       struct {
356          /* for arrays, the vtn_type for the elements of the array */
357          struct vtn_type *array_element;
358 
359          /* for matrices, whether the matrix is stored row-major */
360          bool row_major:1;
361 
362          /* Whether this type, or a parent type, has been decorated as a
363           * builtin
364           */
365          bool is_builtin:1;
366 
367          /* Which built-in to use */
368          SpvBuiltIn builtin;
369       };
370 
371       /* Members for struct types */
372       struct {
373          /* for structures, the vtn_type for each member */
374          struct vtn_type **members;
375 
376          /* for structs, the offset of each member */
377          unsigned *offsets;
378 
379          /* for structs, whether it was decorated as a "non-SSBO-like" block */
380          bool block:1;
381 
382          /* for structs, whether it was decorated as an "SSBO-like" block */
383          bool buffer_block:1;
384 
385          /* for structs with block == true, whether this is a builtin block
386           * (i.e. a block that contains only builtins).
387           */
388          bool builtin_block:1;
389 
390          /* for structs and unions it specifies the minimum alignment of the
391           * members. 0 means packed.
392           *
393           * Set by CPacked and Alignment Decorations in kernels.
394           */
395          bool packed:1;
396       };
397 
398       /* Members for pointer types */
399       struct {
400          /* For pointers, the vtn_type for dereferenced type */
401          struct vtn_type *deref;
402 
403          /* Storage class for pointers */
404          SpvStorageClass storage_class;
405 
406          /* Required alignment for pointers */
407          uint32_t align;
408       };
409 
410       /* Members for image types */
411       struct {
412          /* GLSL image type for this type.  This is not to be confused with
413           * vtn_type::type which is actually going to be the GLSL type for a
414           * pointer to an image, likely a uint32_t.
415           */
416          const struct glsl_type *glsl_image;
417 
418          /* Image format for image_load_store type images */
419          unsigned image_format;
420 
421          /* Access qualifier for storage images */
422          SpvAccessQualifier access_qualifier;
423       };
424 
425       /* Members for sampled image types */
426       struct {
427          /* For sampled images, the image type */
428          struct vtn_type *image;
429       };
430 
431       /* Members for function types */
432       struct {
433          /* For functions, the vtn_type for each parameter */
434          struct vtn_type **params;
435 
436          /* Return type for functions */
437          struct vtn_type *return_type;
438       };
439    };
440 };
441 
442 bool vtn_type_contains_block(struct vtn_builder *b, struct vtn_type *type);
443 
444 bool vtn_types_compatible(struct vtn_builder *b,
445                           struct vtn_type *t1, struct vtn_type *t2);
446 
447 struct vtn_type *vtn_type_without_array(struct vtn_type *type);
448 
449 struct vtn_variable;
450 
451 enum vtn_access_mode {
452    vtn_access_mode_id,
453    vtn_access_mode_literal,
454 };
455 
456 struct vtn_access_link {
457    enum vtn_access_mode mode;
458    int64_t id;
459 };
460 
461 struct vtn_access_chain {
462    uint32_t length;
463 
464    /** Whether or not to treat the base pointer as an array.  This is only
465     * true if this access chain came from an OpPtrAccessChain.
466     */
467    bool ptr_as_array;
468 
469    /* Access qualifiers */
470    enum gl_access_qualifier access;
471 
472    /** Struct elements and array offsets.
473     *
474     * This is an array of 1 so that it can conveniently be created on the
475     * stack but the real length is given by the length field.
476     */
477    struct vtn_access_link link[1];
478 };
479 
480 enum vtn_variable_mode {
481    vtn_variable_mode_function,
482    vtn_variable_mode_private,
483    vtn_variable_mode_uniform,
484    vtn_variable_mode_atomic_counter,
485    vtn_variable_mode_ubo,
486    vtn_variable_mode_ssbo,
487    vtn_variable_mode_phys_ssbo,
488    vtn_variable_mode_push_constant,
489    vtn_variable_mode_workgroup,
490    vtn_variable_mode_cross_workgroup,
491    vtn_variable_mode_generic,
492    vtn_variable_mode_constant,
493    vtn_variable_mode_input,
494    vtn_variable_mode_output,
495    vtn_variable_mode_image,
496    vtn_variable_mode_accel_struct,
497    vtn_variable_mode_call_data,
498    vtn_variable_mode_call_data_in,
499    vtn_variable_mode_ray_payload,
500    vtn_variable_mode_ray_payload_in,
501    vtn_variable_mode_hit_attrib,
502    vtn_variable_mode_shader_record,
503 };
504 
505 struct vtn_pointer {
506    /** The variable mode for the referenced data */
507    enum vtn_variable_mode mode;
508 
509    /** The dereferenced type of this pointer */
510    struct vtn_type *type;
511 
512    /** The pointer type of this pointer
513     *
514     * This may be NULL for some temporary pointers constructed as part of a
515     * large load, store, or copy.  It MUST be valid for all pointers which are
516     * stored as SPIR-V SSA values.
517     */
518    struct vtn_type *ptr_type;
519 
520    /** The referenced variable, if known
521     *
522     * This field may be NULL if the pointer uses a (block_index, offset) pair
523     * instead of an access chain or if the access chain starts at a deref.
524     */
525    struct vtn_variable *var;
526 
527    /** The NIR deref corresponding to this pointer */
528    nir_deref_instr *deref;
529 
530    /** A (block_index, offset) pair representing a UBO or SSBO position. */
531    struct nir_ssa_def *block_index;
532    struct nir_ssa_def *offset;
533 
534    /* Access qualifiers */
535    enum gl_access_qualifier access;
536 };
537 
538 struct vtn_variable {
539    enum vtn_variable_mode mode;
540 
541    struct vtn_type *type;
542 
543    unsigned descriptor_set;
544    unsigned binding;
545    bool explicit_binding;
546    unsigned offset;
547    unsigned input_attachment_index;
548    bool patch;
549 
550    nir_variable *var;
551 
552    /* If the variable is a struct with a location set on it then this will be
553     * stored here. This will be used to calculate locations for members that
554     * don’t have their own explicit location.
555     */
556    int base_location;
557 
558    /**
559     * In some early released versions of GLSLang, it implemented all function
560     * calls by making copies of all parameters into temporary variables and
561     * passing those variables into the function.  It even did so for samplers
562     * and images which violates the SPIR-V spec.  Unfortunately, two games
563     * (Talos Principle and Doom) shipped with this old version of GLSLang and
564     * also happen to pass samplers into functions.  Talos Principle received
565     * an update fairly shortly after release with an updated GLSLang.  Doom,
566     * on the other hand, has never received an update so we need to work
567     * around this GLSLang issue in SPIR-V -> NIR.  Hopefully, we can drop this
568     * hack at some point in the future.
569     */
570    struct vtn_pointer *copy_prop_sampler;
571 
572    /* Access qualifiers. */
573    enum gl_access_qualifier access;
574 };
575 
576 const struct glsl_type *
577 vtn_type_get_nir_type(struct vtn_builder *b, struct vtn_type *type,
578                       enum vtn_variable_mode mode);
579 
580 struct vtn_image_pointer {
581    nir_deref_instr *image;
582    nir_ssa_def *coord;
583    nir_ssa_def *sample;
584    nir_ssa_def *lod;
585 };
586 
587 struct vtn_value {
588    enum vtn_value_type value_type;
589 
590    /* Workaround for https://gitlab.freedesktop.org/mesa/mesa/-/issues/3406
591     * Only set for OpImage / OpSampledImage. Note that this is in addition
592     * the existence of a NonUniform decoration on this value.*/
593    uint32_t propagated_non_uniform : 1;
594 
595    const char *name;
596    struct vtn_decoration *decoration;
597    struct vtn_type *type;
598    union {
599       const char *str;
600       nir_constant *constant;
601       struct vtn_pointer *pointer;
602       struct vtn_image_pointer *image;
603       struct vtn_function *func;
604       struct vtn_block *block;
605       struct vtn_ssa_value *ssa;
606       vtn_instruction_handler ext_handler;
607    };
608 };
609 
610 #define VTN_DEC_DECORATION -1
611 #define VTN_DEC_EXECUTION_MODE -2
612 #define VTN_DEC_STRUCT_MEMBER0 0
613 
614 struct vtn_decoration {
615    struct vtn_decoration *next;
616 
617    /* Specifies how to apply this decoration.  Negative values represent a
618     * decoration or execution mode. (See the VTN_DEC_ #defines above.)
619     * Non-negative values specify that it applies to a structure member.
620     */
621    int scope;
622 
623    const uint32_t *operands;
624    struct vtn_value *group;
625 
626    union {
627       SpvDecoration decoration;
628       SpvExecutionMode exec_mode;
629    };
630 };
631 
632 struct vtn_builder {
633    nir_builder nb;
634 
635    /* Used by vtn_fail to jump back to the beginning of SPIR-V compilation */
636    jmp_buf fail_jump;
637 
638    const uint32_t *spirv;
639    size_t spirv_word_count;
640 
641    nir_shader *shader;
642    struct spirv_to_nir_options *options;
643    struct vtn_block *block;
644 
645    /* Current offset, file, line, and column.  Useful for debugging.  Set
646     * automatically by vtn_foreach_instruction.
647     */
648    size_t spirv_offset;
649    const char *file;
650    int line, col;
651 
652    /*
653     * In SPIR-V, constants are global, whereas in NIR, the load_const
654     * instruction we use is per-function. So while we parse each function, we
655     * keep a hash table of constants we've resolved to nir_ssa_value's so
656     * far, and we lazily resolve them when we see them used in a function.
657     */
658    struct hash_table *const_table;
659 
660    /*
661     * Map from phi instructions (pointer to the start of the instruction)
662     * to the variable corresponding to it.
663     */
664    struct hash_table *phi_table;
665 
666    /* In Vulkan, when lowering some modes variable access, the derefs of the
667     * variables are replaced with a resource index intrinsics, leaving the
668     * variable hanging.  This set keeps track of them so they can be filtered
669     * (and not removed) in nir_remove_dead_variables.
670     */
671    struct set *vars_used_indirectly;
672 
673    unsigned num_specializations;
674    struct nir_spirv_specialization *specializations;
675 
676    unsigned value_id_bound;
677    struct vtn_value *values;
678 
679    /* Information on the origin of the SPIR-V */
680    enum vtn_generator generator_id;
681    SpvSourceLanguage source_lang;
682 
683    /* True if we need to fix up CS OpControlBarrier */
684    bool wa_glslang_cs_barrier;
685 
686    /* Workaround discard bugs in HLSL -> SPIR-V compilers */
687    bool uses_demote_to_helper_invocation;
688    bool convert_discard_to_demote;
689 
690    gl_shader_stage entry_point_stage;
691    const char *entry_point_name;
692    struct vtn_value *entry_point;
693    struct vtn_value *workgroup_size_builtin;
694    bool variable_pointers;
695 
696    struct vtn_function *func;
697    struct list_head functions;
698 
699    /* Current function parameter index */
700    unsigned func_param_idx;
701 
702    bool has_loop_continue;
703 
704    /** True if this shader has any early termination instructions like OpKill
705     *
706     * In the SPIR-V, the following instructions are block terminators:
707     *
708     *  - OpKill
709     *  - OpTerminateInvocation
710     *
711     * However, in NIR, they're represented by regular intrinsics with no
712     * control-flow semantics.  This means that the SSA form from the SPIR-V
713     * may not 100% match NIR and we have to fix it up at the end.
714     */
715    bool has_early_terminate;
716 
717    /* false by default, set to true by the ContractionOff execution mode */
718    bool exact;
719 
720    /* when a physical memory model is choosen */
721    bool physical_ptrs;
722 
723    /* memory model specified by OpMemoryModel */
724    unsigned mem_model;
725 };
726 
727 nir_ssa_def *
728 vtn_pointer_to_ssa(struct vtn_builder *b, struct vtn_pointer *ptr);
729 struct vtn_pointer *
730 vtn_pointer_from_ssa(struct vtn_builder *b, nir_ssa_def *ssa,
731                      struct vtn_type *ptr_type);
732 
733 static inline struct vtn_value *
vtn_untyped_value(struct vtn_builder * b,uint32_t value_id)734 vtn_untyped_value(struct vtn_builder *b, uint32_t value_id)
735 {
736    vtn_fail_if(value_id >= b->value_id_bound,
737                "SPIR-V id %u is out-of-bounds", value_id);
738    return &b->values[value_id];
739 }
740 
741 /* Consider not using this function directly and instead use
742  * vtn_push_ssa/vtn_push_pointer so that appropriate applying of
743  * decorations is handled by common code.
744  */
745 static inline struct vtn_value *
vtn_push_value(struct vtn_builder * b,uint32_t value_id,enum vtn_value_type value_type)746 vtn_push_value(struct vtn_builder *b, uint32_t value_id,
747                enum vtn_value_type value_type)
748 {
749    struct vtn_value *val = vtn_untyped_value(b, value_id);
750 
751    vtn_fail_if(value_type == vtn_value_type_ssa,
752                "Do not call vtn_push_value for value_type_ssa.  Use "
753                "vtn_push_ssa_value instead.");
754 
755    vtn_fail_if(val->value_type != vtn_value_type_invalid,
756                "SPIR-V id %u has already been written by another instruction",
757                value_id);
758 
759    val->value_type = value_type;
760 
761    return &b->values[value_id];
762 }
763 
764 static inline struct vtn_value *
vtn_value(struct vtn_builder * b,uint32_t value_id,enum vtn_value_type value_type)765 vtn_value(struct vtn_builder *b, uint32_t value_id,
766           enum vtn_value_type value_type)
767 {
768    struct vtn_value *val = vtn_untyped_value(b, value_id);
769    vtn_fail_if(val->value_type != value_type,
770                "SPIR-V id %u is the wrong kind of value", value_id);
771    return val;
772 }
773 
774 bool
775 vtn_set_instruction_result_type(struct vtn_builder *b, SpvOp opcode,
776                                 const uint32_t *w, unsigned count);
777 
778 static inline uint64_t
vtn_constant_uint(struct vtn_builder * b,uint32_t value_id)779 vtn_constant_uint(struct vtn_builder *b, uint32_t value_id)
780 {
781    struct vtn_value *val = vtn_value(b, value_id, vtn_value_type_constant);
782 
783    vtn_fail_if(val->type->base_type != vtn_base_type_scalar ||
784                !glsl_type_is_integer(val->type->type),
785                "Expected id %u to be an integer constant", value_id);
786 
787    switch (glsl_get_bit_size(val->type->type)) {
788    case 8:  return val->constant->values[0].u8;
789    case 16: return val->constant->values[0].u16;
790    case 32: return val->constant->values[0].u32;
791    case 64: return val->constant->values[0].u64;
792    default: unreachable("Invalid bit size");
793    }
794 }
795 
796 static inline int64_t
vtn_constant_int(struct vtn_builder * b,uint32_t value_id)797 vtn_constant_int(struct vtn_builder *b, uint32_t value_id)
798 {
799    struct vtn_value *val = vtn_value(b, value_id, vtn_value_type_constant);
800 
801    vtn_fail_if(val->type->base_type != vtn_base_type_scalar ||
802                !glsl_type_is_integer(val->type->type),
803                "Expected id %u to be an integer constant", value_id);
804 
805    switch (glsl_get_bit_size(val->type->type)) {
806    case 8:  return val->constant->values[0].i8;
807    case 16: return val->constant->values[0].i16;
808    case 32: return val->constant->values[0].i32;
809    case 64: return val->constant->values[0].i64;
810    default: unreachable("Invalid bit size");
811    }
812 }
813 
814 static inline struct vtn_type *
vtn_get_value_type(struct vtn_builder * b,uint32_t value_id)815 vtn_get_value_type(struct vtn_builder *b, uint32_t value_id)
816 {
817    struct vtn_value *val = vtn_untyped_value(b, value_id);
818    vtn_fail_if(val->type == NULL, "Value %u does not have a type", value_id);
819    return val->type;
820 }
821 
822 static inline struct vtn_type *
vtn_get_type(struct vtn_builder * b,uint32_t value_id)823 vtn_get_type(struct vtn_builder *b, uint32_t value_id)
824 {
825    return vtn_value(b, value_id, vtn_value_type_type)->type;
826 }
827 
828 struct vtn_ssa_value *vtn_ssa_value(struct vtn_builder *b, uint32_t value_id);
829 struct vtn_value *vtn_push_ssa_value(struct vtn_builder *b, uint32_t value_id,
830                                      struct vtn_ssa_value *ssa);
831 
832 nir_ssa_def *vtn_get_nir_ssa(struct vtn_builder *b, uint32_t value_id);
833 struct vtn_value *vtn_push_nir_ssa(struct vtn_builder *b, uint32_t value_id,
834                                    nir_ssa_def *def);
835 
836 struct vtn_value *vtn_push_pointer(struct vtn_builder *b,
837                                    uint32_t value_id,
838                                    struct vtn_pointer *ptr);
839 
840 struct vtn_sampled_image {
841    nir_deref_instr *image;
842    nir_deref_instr *sampler;
843 };
844 
845 nir_ssa_def *vtn_sampled_image_to_nir_ssa(struct vtn_builder *b,
846                                           struct vtn_sampled_image si);
847 
848 void
849 vtn_copy_value(struct vtn_builder *b, uint32_t src_value_id,
850                uint32_t dst_value_id);
851 
852 struct vtn_ssa_value *vtn_create_ssa_value(struct vtn_builder *b,
853                                            const struct glsl_type *type);
854 
855 struct vtn_ssa_value *vtn_ssa_transpose(struct vtn_builder *b,
856                                         struct vtn_ssa_value *src);
857 
858 nir_deref_instr *vtn_nir_deref(struct vtn_builder *b, uint32_t id);
859 
860 nir_deref_instr *vtn_pointer_to_deref(struct vtn_builder *b,
861                                       struct vtn_pointer *ptr);
862 nir_ssa_def *
863 vtn_pointer_to_offset(struct vtn_builder *b, struct vtn_pointer *ptr,
864                       nir_ssa_def **index_out);
865 
866 nir_deref_instr *
867 vtn_get_call_payload_for_location(struct vtn_builder *b, uint32_t location_id);
868 
869 struct vtn_ssa_value *
870 vtn_local_load(struct vtn_builder *b, nir_deref_instr *src,
871                enum gl_access_qualifier access);
872 
873 void vtn_local_store(struct vtn_builder *b, struct vtn_ssa_value *src,
874                      nir_deref_instr *dest,
875                      enum gl_access_qualifier access);
876 
877 struct vtn_ssa_value *
878 vtn_variable_load(struct vtn_builder *b, struct vtn_pointer *src,
879                   enum gl_access_qualifier access);
880 
881 void vtn_variable_store(struct vtn_builder *b, struct vtn_ssa_value *src,
882                         struct vtn_pointer *dest, enum gl_access_qualifier access);
883 
884 void vtn_handle_variables(struct vtn_builder *b, SpvOp opcode,
885                           const uint32_t *w, unsigned count);
886 
887 
888 typedef void (*vtn_decoration_foreach_cb)(struct vtn_builder *,
889                                           struct vtn_value *,
890                                           int member,
891                                           const struct vtn_decoration *,
892                                           void *);
893 
894 void vtn_foreach_decoration(struct vtn_builder *b, struct vtn_value *value,
895                             vtn_decoration_foreach_cb cb, void *data);
896 
897 typedef void (*vtn_execution_mode_foreach_cb)(struct vtn_builder *,
898                                               struct vtn_value *,
899                                               const struct vtn_decoration *,
900                                               void *);
901 
902 void vtn_foreach_execution_mode(struct vtn_builder *b, struct vtn_value *value,
903                                 vtn_execution_mode_foreach_cb cb, void *data);
904 
905 nir_op vtn_nir_alu_op_for_spirv_opcode(struct vtn_builder *b,
906                                        SpvOp opcode, bool *swap, bool *exact,
907                                        unsigned src_bit_size, unsigned dst_bit_size);
908 
909 void vtn_handle_alu(struct vtn_builder *b, SpvOp opcode,
910                     const uint32_t *w, unsigned count);
911 
912 void vtn_handle_bitcast(struct vtn_builder *b, const uint32_t *w,
913                         unsigned count);
914 
915 void vtn_handle_subgroup(struct vtn_builder *b, SpvOp opcode,
916                          const uint32_t *w, unsigned count);
917 
918 bool vtn_handle_glsl450_instruction(struct vtn_builder *b, SpvOp ext_opcode,
919                                     const uint32_t *words, unsigned count);
920 
921 bool vtn_handle_opencl_instruction(struct vtn_builder *b, SpvOp ext_opcode,
922                                    const uint32_t *words, unsigned count);
923 bool vtn_handle_opencl_core_instruction(struct vtn_builder *b, SpvOp opcode,
924                                         const uint32_t *w, unsigned count);
925 
926 struct vtn_builder* vtn_create_builder(const uint32_t *words, size_t word_count,
927                                        gl_shader_stage stage, const char *entry_point_name,
928                                        const struct spirv_to_nir_options *options);
929 
930 void vtn_handle_entry_point(struct vtn_builder *b, const uint32_t *w,
931                             unsigned count);
932 
933 void vtn_handle_decoration(struct vtn_builder *b, SpvOp opcode,
934                            const uint32_t *w, unsigned count);
935 
936 enum vtn_variable_mode vtn_storage_class_to_mode(struct vtn_builder *b,
937                                                  SpvStorageClass class,
938                                                  struct vtn_type *interface_type,
939                                                  nir_variable_mode *nir_mode_out);
940 
941 nir_address_format vtn_mode_to_address_format(struct vtn_builder *b,
942                                               enum vtn_variable_mode);
943 
944 nir_rounding_mode vtn_rounding_mode_to_nir(struct vtn_builder *b,
945                                            SpvFPRoundingMode mode);
946 
947 static inline uint32_t
vtn_align_u32(uint32_t v,uint32_t a)948 vtn_align_u32(uint32_t v, uint32_t a)
949 {
950    assert(a != 0 && a == (a & -((int32_t) a)));
951    return (v + a - 1) & ~(a - 1);
952 }
953 
954 static inline uint64_t
vtn_u64_literal(const uint32_t * w)955 vtn_u64_literal(const uint32_t *w)
956 {
957    return (uint64_t)w[1] << 32 | w[0];
958 }
959 
960 bool vtn_handle_amd_gcn_shader_instruction(struct vtn_builder *b, SpvOp ext_opcode,
961                                            const uint32_t *words, unsigned count);
962 
963 bool vtn_handle_amd_shader_ballot_instruction(struct vtn_builder *b, SpvOp ext_opcode,
964                                               const uint32_t *w, unsigned count);
965 
966 bool vtn_handle_amd_shader_trinary_minmax_instruction(struct vtn_builder *b, SpvOp ext_opcode,
967 						      const uint32_t *words, unsigned count);
968 
969 bool vtn_handle_amd_shader_explicit_vertex_parameter_instruction(struct vtn_builder *b,
970                                                                  SpvOp ext_opcode,
971                                                                  const uint32_t *words,
972                                                                  unsigned count);
973 
974 SpvMemorySemanticsMask vtn_mode_to_memory_semantics(enum vtn_variable_mode mode);
975 
976 void vtn_emit_memory_barrier(struct vtn_builder *b, SpvScope scope,
977                              SpvMemorySemanticsMask semantics);
978 
979 #endif /* _VTN_PRIVATE_H_ */
980