2 * Copyright © 2018 Google
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
20 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
24 #include "aco_interface.h"
26 #include "vulkan/radv_shader.h"
27 #include "vulkan/radv_shader_args.h"
32 static radv_compiler_statistic_info statistic_infos
[] = {
33 [aco::statistic_hash
] = {"Hash", "CRC32 hash of code and constant data"},
34 [aco::statistic_instructions
] = {"Instructions", "Instruction count"},
35 [aco::statistic_copies
] = {"Copies", "Copy instructions created for pseudo-instructions"},
36 [aco::statistic_branches
] = {"Branches", "Branch instructions"},
37 [aco::statistic_cycles
] = {"Busy Cycles", "Estimate of busy cycles"},
38 [aco::statistic_vmem_clauses
] = {"VMEM Clause", "Number of VMEM clauses (includes 1-sized clauses)"},
39 [aco::statistic_smem_clauses
] = {"SMEM Clause", "Number of SMEM clauses (includes 1-sized clauses)"},
40 [aco::statistic_vmem_score
] = {"VMEM Score", "Average VMEM def-use distances"},
41 [aco::statistic_smem_score
] = {"SMEM Score", "Average SMEM def-use distances"},
42 [aco::statistic_sgpr_presched
] = {"Pre-Sched SGPRs", "SGPR usage before scheduling"},
43 [aco::statistic_vgpr_presched
] = {"Pre-Sched VGPRs", "VGPR usage before scheduling"},
46 static void validate(aco::Program
*program
)
48 if (!(aco::debug_flags
& aco::DEBUG_VALIDATE_IR
))
51 ASSERTED
bool is_valid
= aco::validate_ir(program
);
55 void aco_compile_shader(unsigned shader_count
,
56 struct nir_shader
*const *shaders
,
57 struct radv_shader_binary
**binary
,
58 struct radv_shader_args
*args
)
62 ac_shader_config config
= {0};
63 std::unique_ptr
<aco::Program
> program
{new aco::Program
};
65 program
->collect_statistics
= args
->options
->record_stats
;
66 if (program
->collect_statistics
)
67 memset(program
->statistics
, 0, sizeof(program
->statistics
));
69 program
->debug
.func
= args
->options
->debug
.func
;
70 program
->debug
.private_data
= args
->options
->debug
.private_data
;
72 /* Instruction Selection */
73 if (args
->is_gs_copy_shader
)
74 aco::select_gs_copy_shader(program
.get(), shaders
[0], &config
, args
);
75 else if (args
->is_trap_handler_shader
)
76 aco::select_trap_handler_shader(program
.get(), shaders
[0], &config
, args
);
78 aco::select_program(program
.get(), shader_count
, shaders
, &config
, args
);
79 if (args
->options
->dump_preoptir
) {
80 std::cerr
<< "After Instruction Selection:\n";
81 aco_print_program(program
.get(), stderr
);
85 if (!args
->is_trap_handler_shader
) {
87 aco::lower_phis(program
.get());
88 aco::dominator_tree(program
.get());
89 validate(program
.get());
92 aco::value_numbering(program
.get());
93 aco::optimize(program
.get());
95 /* cleanup and exec mask handling */
96 aco::setup_reduce_temp(program
.get());
97 aco::insert_exec_mask(program
.get());
98 validate(program
.get());
100 /* spilling and scheduling */
101 live_vars
= aco::live_var_analysis(program
.get(), args
->options
);
102 aco::spill(program
.get(), live_vars
, args
->options
);
106 if (args
->options
->record_ir
) {
109 FILE *f
= open_memstream(&data
, &size
);
111 aco_print_program(program
.get(), f
);
116 llvm_ir
= std::string(data
, data
+ size
);
120 if (program
->collect_statistics
)
121 aco::collect_presched_stats(program
.get());
123 if (!args
->is_trap_handler_shader
) {
124 aco::schedule_program(program
.get(), live_vars
);
125 validate(program
.get());
127 /* Register Allocation */
128 aco::register_allocation(program
.get(), live_vars
.live_out
);
129 if (args
->options
->dump_shader
) {
130 std::cerr
<< "After RA:\n";
131 aco_print_program(program
.get(), stderr
);
134 if (aco::validate_ra(program
.get(), args
->options
)) {
135 std::cerr
<< "Program after RA validation failure:\n";
136 aco_print_program(program
.get(), stderr
);
140 validate(program
.get());
142 aco::ssa_elimination(program
.get());
145 /* Lower to HW Instructions */
146 aco::lower_to_hw_instr(program
.get());
149 aco::insert_wait_states(program
.get());
150 aco::insert_NOPs(program
.get());
152 if (program
->collect_statistics
)
153 aco::collect_preasm_stats(program
.get());
156 std::vector
<uint32_t> code
;
157 unsigned exec_size
= aco::emit_program(program
.get(), code
);
159 if (program
->collect_statistics
)
160 aco::collect_postasm_stats(program
.get(), code
);
162 bool get_disasm
= args
->options
->dump_shader
|| args
->options
->record_ir
;
164 size_t size
= llvm_ir
.size();
168 std::ostringstream stream
;
169 aco::print_asm(program
.get(), code
, exec_size
/ 4u, stream
);
171 disasm
= stream
.str();
172 size
+= disasm
.size();
175 size_t stats_size
= 0;
176 if (program
->collect_statistics
)
177 stats_size
= sizeof(radv_compiler_statistics
) + aco::num_statistics
* sizeof(uint32_t);
180 size
+= code
.size() * sizeof(uint32_t) + sizeof(radv_shader_binary_legacy
);
181 /* We need to calloc to prevent unintialized data because this will be used
182 * directly for the disk cache. Uninitialized data can appear because of
183 * padding in the struct or because legacy_binary->data can be at an offset
184 * from the start less than sizeof(radv_shader_binary_legacy). */
185 radv_shader_binary_legacy
* legacy_binary
= (radv_shader_binary_legacy
*) calloc(size
, 1);
187 legacy_binary
->base
.type
= RADV_BINARY_TYPE_LEGACY
;
188 legacy_binary
->base
.stage
= shaders
[shader_count
-1]->info
.stage
;
189 legacy_binary
->base
.is_gs_copy_shader
= args
->is_gs_copy_shader
;
190 legacy_binary
->base
.total_size
= size
;
192 if (program
->collect_statistics
) {
193 radv_compiler_statistics
*statistics
= (radv_compiler_statistics
*)legacy_binary
->data
;
194 statistics
->count
= aco::num_statistics
;
195 statistics
->infos
= statistic_infos
;
196 memcpy(statistics
->values
, program
->statistics
, aco::num_statistics
* sizeof(uint32_t));
198 legacy_binary
->stats_size
= stats_size
;
200 memcpy(legacy_binary
->data
+ legacy_binary
->stats_size
, code
.data(), code
.size() * sizeof(uint32_t));
201 legacy_binary
->exec_size
= exec_size
;
202 legacy_binary
->code_size
= code
.size() * sizeof(uint32_t);
204 legacy_binary
->config
= config
;
205 legacy_binary
->disasm_size
= 0;
206 legacy_binary
->ir_size
= llvm_ir
.size();
208 llvm_ir
.copy((char*) legacy_binary
->data
+ legacy_binary
->stats_size
+ legacy_binary
->code_size
, llvm_ir
.size());
211 disasm
.copy((char*) legacy_binary
->data
+ legacy_binary
->stats_size
+ legacy_binary
->code_size
+ llvm_ir
.size(), disasm
.size());
212 legacy_binary
->disasm_size
= disasm
.size();
215 *binary
= (radv_shader_binary
*) legacy_binary
;