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https://github.com/KhronosGroup/SPIRV-Tools
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d2938e4842
NFC. This just makes sure every file is formatted following the formatting definition in .clang-format. Re-formatted with: $ clang-format -i $(find source tools include -name '*.cpp') $ clang-format -i $(find source tools include -name '*.h')
326 lines
11 KiB
C++
326 lines
11 KiB
C++
// Copyright (c) 2017 Google Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#include "spirv_stats.h"
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#include <cassert>
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#include <algorithm>
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#include <memory>
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#include <string>
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#include <vector>
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#include "binary.h"
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#include "diagnostic.h"
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#include "enum_string_mapping.h"
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#include "extensions.h"
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#include "id_descriptor.h"
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#include "instruction.h"
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#include "opcode.h"
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#include "operand.h"
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#include "spirv-tools/libspirv.h"
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#include "spirv_endian.h"
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#include "spirv_validator_options.h"
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#include "val/instruction.h"
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#include "val/validation_state.h"
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#include "validate.h"
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using libspirv::IdDescriptorCollection;
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using libspirv::Instruction;
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using libspirv::SpirvStats;
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using libspirv::ValidationState_t;
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namespace {
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// Helper class for stats aggregation. Receives as in/out parameter.
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// Constructs ValidationState and updates it by running validator for each
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// instruction.
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class StatsAggregator {
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public:
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StatsAggregator(SpirvStats* in_out_stats, const spv_const_context context) {
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stats_ = in_out_stats;
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vstate_.reset(new ValidationState_t(context, &validator_options_));
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}
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// Collects header statistics and sets correct id_bound.
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spv_result_t ProcessHeader(spv_endianness_t /* endian */,
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uint32_t /* magic */, uint32_t version,
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uint32_t generator, uint32_t id_bound,
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uint32_t /* schema */) {
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vstate_->setIdBound(id_bound);
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++stats_->version_hist[version];
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++stats_->generator_hist[generator];
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return SPV_SUCCESS;
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}
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// Runs validator to validate the instruction and update vstate_,
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// then procession the instruction to collect stats.
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spv_result_t ProcessInstruction(const spv_parsed_instruction_t* inst) {
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const spv_result_t validation_result =
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spvtools::ValidateInstructionAndUpdateValidationState(vstate_.get(),
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inst);
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if (validation_result != SPV_SUCCESS) return validation_result;
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ProcessOpcode();
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ProcessCapability();
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ProcessExtension();
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ProcessConstant();
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ProcessEnums();
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ProcessLiteralStrings();
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ProcessNonIdWords();
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ProcessIdDescriptors();
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return SPV_SUCCESS;
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}
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// Collects statistics of descriptors generated by IdDescriptorCollection.
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void ProcessIdDescriptors() {
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const Instruction& inst = GetCurrentInstruction();
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const uint32_t new_descriptor =
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id_descriptors_.ProcessInstruction(inst.c_inst());
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if (new_descriptor) {
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std::stringstream ss;
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ss << spvOpcodeString(inst.opcode());
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for (size_t i = 1; i < inst.words().size(); ++i) {
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ss << " " << inst.word(i);
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}
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stats_->id_descriptor_labels.emplace(new_descriptor, ss.str());
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}
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uint32_t index = 0;
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for (const auto& operand : inst.operands()) {
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if (spvIsIdType(operand.type)) {
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const uint32_t descriptor =
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id_descriptors_.GetDescriptor(inst.word(operand.offset));
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if (descriptor) {
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++stats_->id_descriptor_hist[descriptor];
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++stats_
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->operand_slot_id_descriptor_hist[std::pair<uint32_t, uint32_t>(
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inst.opcode(), index)][descriptor];
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}
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}
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++index;
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}
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}
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// Collects statistics of enum words for operands of specific types.
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void ProcessEnums() {
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const Instruction& inst = GetCurrentInstruction();
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for (const auto& operand : inst.operands()) {
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switch (operand.type) {
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case SPV_OPERAND_TYPE_SOURCE_LANGUAGE:
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case SPV_OPERAND_TYPE_EXECUTION_MODEL:
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case SPV_OPERAND_TYPE_ADDRESSING_MODEL:
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case SPV_OPERAND_TYPE_MEMORY_MODEL:
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case SPV_OPERAND_TYPE_EXECUTION_MODE:
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case SPV_OPERAND_TYPE_STORAGE_CLASS:
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case SPV_OPERAND_TYPE_DIMENSIONALITY:
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case SPV_OPERAND_TYPE_SAMPLER_ADDRESSING_MODE:
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case SPV_OPERAND_TYPE_SAMPLER_FILTER_MODE:
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case SPV_OPERAND_TYPE_SAMPLER_IMAGE_FORMAT:
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case SPV_OPERAND_TYPE_IMAGE_CHANNEL_ORDER:
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case SPV_OPERAND_TYPE_IMAGE_CHANNEL_DATA_TYPE:
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case SPV_OPERAND_TYPE_FP_ROUNDING_MODE:
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case SPV_OPERAND_TYPE_LINKAGE_TYPE:
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case SPV_OPERAND_TYPE_ACCESS_QUALIFIER:
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case SPV_OPERAND_TYPE_FUNCTION_PARAMETER_ATTRIBUTE:
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case SPV_OPERAND_TYPE_DECORATION:
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case SPV_OPERAND_TYPE_BUILT_IN:
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case SPV_OPERAND_TYPE_GROUP_OPERATION:
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case SPV_OPERAND_TYPE_KERNEL_ENQ_FLAGS:
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case SPV_OPERAND_TYPE_KERNEL_PROFILING_INFO:
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case SPV_OPERAND_TYPE_CAPABILITY: {
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++stats_->enum_hist[operand.type][inst.word(operand.offset)];
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break;
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}
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default:
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break;
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}
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}
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}
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// Collects statistics of literal strings used by opcodes.
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void ProcessLiteralStrings() {
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const Instruction& inst = GetCurrentInstruction();
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for (const auto& operand : inst.operands()) {
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if (operand.type == SPV_OPERAND_TYPE_LITERAL_STRING) {
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const std::string str =
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reinterpret_cast<const char*>(&inst.words()[operand.offset]);
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++stats_->literal_strings_hist[inst.opcode()][str];
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}
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}
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}
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// Collects statistics of all single word non-id operand slots.
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void ProcessNonIdWords() {
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const Instruction& inst = GetCurrentInstruction();
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uint32_t index = 0;
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for (const auto& operand : inst.operands()) {
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if (operand.num_words == 1 && !spvIsIdType(operand.type)) {
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++stats_->operand_slot_non_id_words_hist[std::pair<uint32_t, uint32_t>(
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inst.opcode(), index)][inst.word(operand.offset)];
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}
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++index;
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}
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}
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// Collects OpCapability statistics.
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void ProcessCapability() {
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const Instruction& inst = GetCurrentInstruction();
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if (inst.opcode() != SpvOpCapability) return;
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const uint32_t capability = inst.word(inst.operands()[0].offset);
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++stats_->capability_hist[capability];
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}
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// Collects OpExtension statistics.
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void ProcessExtension() {
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const Instruction& inst = GetCurrentInstruction();
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if (inst.opcode() != SpvOpExtension) return;
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const std::string extension = libspirv::GetExtensionString(&inst.c_inst());
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++stats_->extension_hist[extension];
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}
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// Collects OpCode statistics.
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void ProcessOpcode() {
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auto inst_it = vstate_->ordered_instructions().rbegin();
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const SpvOp opcode = inst_it->opcode();
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++stats_->opcode_hist[opcode];
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const uint32_t opcode_and_num_operands =
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(uint32_t(inst_it->operands().size()) << 16) | uint32_t(opcode);
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++stats_->opcode_and_num_operands_hist[opcode_and_num_operands];
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++inst_it;
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if (inst_it != vstate_->ordered_instructions().rend()) {
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const SpvOp prev_opcode = inst_it->opcode();
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++stats_->opcode_and_num_operands_markov_hist[prev_opcode]
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[opcode_and_num_operands];
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}
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auto step_it = stats_->opcode_markov_hist.begin();
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for (; inst_it != vstate_->ordered_instructions().rend() &&
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step_it != stats_->opcode_markov_hist.end();
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++inst_it, ++step_it) {
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auto& hist = (*step_it)[inst_it->opcode()];
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++hist[opcode];
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}
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}
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// Collects OpConstant statistics.
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void ProcessConstant() {
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const Instruction& inst = GetCurrentInstruction();
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if (inst.opcode() != SpvOpConstant) return;
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const uint32_t type_id = inst.GetOperandAs<uint32_t>(0);
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const auto type_decl_it = vstate_->all_definitions().find(type_id);
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assert(type_decl_it != vstate_->all_definitions().end());
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const Instruction& type_decl_inst = *type_decl_it->second;
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const SpvOp type_op = type_decl_inst.opcode();
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if (type_op == SpvOpTypeInt) {
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const uint32_t bit_width = type_decl_inst.GetOperandAs<uint32_t>(1);
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const uint32_t is_signed = type_decl_inst.GetOperandAs<uint32_t>(2);
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assert(is_signed == 0 || is_signed == 1);
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if (bit_width == 16) {
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if (is_signed)
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++stats_->s16_constant_hist[inst.GetOperandAs<int16_t>(2)];
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else
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++stats_->u16_constant_hist[inst.GetOperandAs<uint16_t>(2)];
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} else if (bit_width == 32) {
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if (is_signed)
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++stats_->s32_constant_hist[inst.GetOperandAs<int32_t>(2)];
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else
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++stats_->u32_constant_hist[inst.GetOperandAs<uint32_t>(2)];
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} else if (bit_width == 64) {
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if (is_signed)
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++stats_->s64_constant_hist[inst.GetOperandAs<int64_t>(2)];
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else
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++stats_->u64_constant_hist[inst.GetOperandAs<uint64_t>(2)];
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} else {
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assert(false && "TypeInt bit width is not 16, 32 or 64");
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}
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} else if (type_op == SpvOpTypeFloat) {
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const uint32_t bit_width = type_decl_inst.GetOperandAs<uint32_t>(1);
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if (bit_width == 32) {
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++stats_->f32_constant_hist[inst.GetOperandAs<float>(2)];
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} else if (bit_width == 64) {
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++stats_->f64_constant_hist[inst.GetOperandAs<double>(2)];
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} else {
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assert(bit_width == 16);
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}
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}
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}
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SpirvStats* stats() { return stats_; }
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private:
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// Returns the current instruction (the one last processed by the validator).
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const Instruction& GetCurrentInstruction() const {
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return vstate_->ordered_instructions().back();
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}
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SpirvStats* stats_;
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spv_validator_options_t validator_options_;
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std::unique_ptr<ValidationState_t> vstate_;
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IdDescriptorCollection id_descriptors_;
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};
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spv_result_t ProcessHeader(void* user_data, spv_endianness_t endian,
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uint32_t magic, uint32_t version, uint32_t generator,
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uint32_t id_bound, uint32_t schema) {
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StatsAggregator* stats_aggregator =
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reinterpret_cast<StatsAggregator*>(user_data);
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return stats_aggregator->ProcessHeader(endian, magic, version, generator,
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id_bound, schema);
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}
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spv_result_t ProcessInstruction(void* user_data,
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const spv_parsed_instruction_t* inst) {
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StatsAggregator* stats_aggregator =
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reinterpret_cast<StatsAggregator*>(user_data);
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return stats_aggregator->ProcessInstruction(inst);
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}
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} // namespace
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namespace libspirv {
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spv_result_t AggregateStats(const spv_context_t& context, const uint32_t* words,
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const size_t num_words, spv_diagnostic* pDiagnostic,
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SpirvStats* stats) {
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spv_const_binary_t binary = {words, num_words};
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spv_endianness_t endian;
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spv_position_t position = {};
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if (spvBinaryEndianness(&binary, &endian)) {
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return libspirv::DiagnosticStream(position, context.consumer,
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SPV_ERROR_INVALID_BINARY)
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<< "Invalid SPIR-V magic number.";
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}
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spv_header_t header;
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if (spvBinaryHeaderGet(&binary, endian, &header)) {
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return libspirv::DiagnosticStream(position, context.consumer,
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SPV_ERROR_INVALID_BINARY)
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<< "Invalid SPIR-V header.";
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}
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StatsAggregator stats_aggregator(stats, &context);
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return spvBinaryParse(&context, &stats_aggregator, words, num_words,
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ProcessHeader, ProcessInstruction, pDiagnostic);
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}
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} // namespace libspirv
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