/* * Copyright © 2018 Google * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. */ #include "aco_interface.h" #include "aco_ir.h" #include "vulkan/radv_shader.h" #include "vulkan/radv_shader_args.h" #include "c11/threads.h" #include "util/debug.h" #include #include namespace aco { uint64_t debug_flags = 0; static const struct debug_control aco_debug_options[] = { {"validateir", DEBUG_VALIDATE}, {"validatera", DEBUG_VALIDATE_RA}, {"perfwarn", DEBUG_PERFWARN}, {NULL, 0} }; static once_flag init_once_flag = ONCE_FLAG_INIT; static void init() { debug_flags = parse_debug_string(getenv("ACO_DEBUG"), aco_debug_options); #ifndef NDEBUG /* enable some flags by default on debug builds */ debug_flags |= aco::DEBUG_VALIDATE; #endif } } void aco_compile_shader(unsigned shader_count, struct nir_shader *const *shaders, struct radv_shader_binary **binary, struct radv_shader_args *args) { call_once(&aco::init_once_flag, aco::init); ac_shader_config config = {0}; std::unique_ptr program{new aco::Program}; /* Instruction Selection */ if (args->is_gs_copy_shader) aco::select_gs_copy_shader(program.get(), shaders[0], &config, args); else aco::select_program(program.get(), shader_count, shaders, &config, args); if (args->options->dump_preoptir) { std::cerr << "After Instruction Selection:\n"; aco_print_program(program.get(), stderr); } aco::validate(program.get(), stderr); /* Boolean phi lowering */ aco::lower_bool_phis(program.get()); //std::cerr << "After Boolean Phi Lowering:\n"; //aco_print_program(program.get(), stderr); aco::dominator_tree(program.get()); /* Optimization */ aco::value_numbering(program.get()); aco::optimize(program.get()); aco::validate(program.get(), stderr); aco::setup_reduce_temp(program.get()); aco::insert_exec_mask(program.get()); aco::validate(program.get(), stderr); aco::live live_vars = aco::live_var_analysis(program.get(), args->options); aco::spill(program.get(), live_vars, args->options); //std::cerr << "Before Schedule:\n"; //aco_print_program(program.get(), stderr); aco::schedule_program(program.get(), live_vars); std::string llvm_ir; if (args->options->record_ir) { char *data = NULL; size_t size = 0; FILE *f = open_memstream(&data, &size); if (f) { aco_print_program(program.get(), f); fputc(0, f); fclose(f); } llvm_ir = std::string(data, data + size); free(data); } /* Register Allocation */ aco::register_allocation(program.get(), live_vars.live_out); if (args->options->dump_shader) { std::cerr << "After RA:\n"; aco_print_program(program.get(), stderr); } if (aco::validate_ra(program.get(), args->options, stderr)) { std::cerr << "Program after RA validation failure:\n"; aco_print_program(program.get(), stderr); abort(); } aco::ssa_elimination(program.get()); /* Lower to HW Instructions */ aco::lower_to_hw_instr(program.get()); //std::cerr << "After Eliminate Pseudo Instr:\n"; //aco_print_program(program.get(), stderr); /* Insert Waitcnt */ aco::insert_wait_states(program.get()); aco::insert_NOPs(program.get()); //std::cerr << "After Insert-Waitcnt:\n"; //aco_print_program(program.get(), stderr); /* Assembly */ std::vector code; unsigned exec_size = aco::emit_program(program.get(), code); bool get_disasm = args->options->dump_shader || args->options->record_ir; size_t size = llvm_ir.size(); std::string disasm; if (get_disasm) { std::ostringstream stream; aco::print_asm(program.get(), code, exec_size / 4u, stream); stream << '\0'; disasm = stream.str(); size += disasm.size(); } size += code.size() * sizeof(uint32_t) + sizeof(radv_shader_binary_legacy); /* We need to calloc to prevent unintialized data because this will be used * directly for the disk cache. Uninitialized data can appear because of * padding in the struct or because legacy_binary->data can be at an offset * from the start less than sizeof(radv_shader_binary_legacy). */ radv_shader_binary_legacy* legacy_binary = (radv_shader_binary_legacy*) calloc(size, 1); legacy_binary->base.type = RADV_BINARY_TYPE_LEGACY; legacy_binary->base.stage = shaders[shader_count-1]->info.stage; legacy_binary->base.is_gs_copy_shader = args->is_gs_copy_shader; legacy_binary->base.total_size = size; memcpy(legacy_binary->data, code.data(), code.size() * sizeof(uint32_t)); legacy_binary->exec_size = exec_size; legacy_binary->code_size = code.size() * sizeof(uint32_t); legacy_binary->config = config; legacy_binary->disasm_size = 0; legacy_binary->ir_size = llvm_ir.size(); llvm_ir.copy((char*) legacy_binary->data + legacy_binary->code_size, llvm_ir.size()); if (get_disasm) { disasm.copy((char*) legacy_binary->data + legacy_binary->code_size + llvm_ir.size(), disasm.size()); legacy_binary->disasm_size = disasm.size(); } *binary = (radv_shader_binary*) legacy_binary; }