mirror of
https://github.com/KhronosGroup/SPIRV-Tools
synced 2024-11-25 13:00:04 +00:00
faa8d6a653
This reverts commit d18d0d92e5
.
This is reverted because it causes a 7X slowdown when legalizing
SPIR-V with NonSemantic.Shader.DebugInfo.100 instructions.
This is due to the creation of very large UseLists for several
heavily used operands for this extension combined with the fact
that the original commit changed the performance of Uselists to O(n).
314 lines
9.5 KiB
C++
314 lines
9.5 KiB
C++
// Copyright (c) 2016 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 "source/opt/def_use_manager.h"
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namespace spvtools {
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namespace opt {
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namespace analysis {
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void DefUseManager::AnalyzeInstDef(Instruction* inst) {
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const uint32_t def_id = inst->result_id();
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if (def_id != 0) {
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auto iter = id_to_def_.find(def_id);
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if (iter != id_to_def_.end()) {
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// Clear the original instruction that defining the same result id of the
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// new instruction.
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ClearInst(iter->second);
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}
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id_to_def_[def_id] = inst;
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} else {
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ClearInst(inst);
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}
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}
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void DefUseManager::AnalyzeInstUse(Instruction* inst) {
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// Create entry for the given instruction. Note that the instruction may
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// not have any in-operands. In such cases, we still need a entry for those
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// instructions so this manager knows it has seen the instruction later.
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auto* used_ids = &inst_to_used_ids_[inst];
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if (used_ids->size()) {
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EraseUseRecordsOfOperandIds(inst);
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used_ids = &inst_to_used_ids_[inst];
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}
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used_ids->clear(); // It might have existed before.
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for (uint32_t i = 0; i < inst->NumOperands(); ++i) {
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switch (inst->GetOperand(i).type) {
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// For any id type but result id type
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case SPV_OPERAND_TYPE_ID:
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case SPV_OPERAND_TYPE_TYPE_ID:
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case SPV_OPERAND_TYPE_MEMORY_SEMANTICS_ID:
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case SPV_OPERAND_TYPE_SCOPE_ID: {
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uint32_t use_id = inst->GetSingleWordOperand(i);
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Instruction* def = GetDef(use_id);
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assert(def && "Definition is not registered.");
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id_to_users_.insert(UserEntry{def, inst});
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used_ids->push_back(use_id);
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} break;
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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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void DefUseManager::AnalyzeInstDefUse(Instruction* inst) {
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AnalyzeInstDef(inst);
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AnalyzeInstUse(inst);
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// Analyze lines last otherwise they will be cleared when inst is
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// cleared by preceding two calls
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for (auto& l_inst : inst->dbg_line_insts()) AnalyzeInstDefUse(&l_inst);
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}
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void DefUseManager::UpdateDefUse(Instruction* inst) {
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const uint32_t def_id = inst->result_id();
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if (def_id != 0) {
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auto iter = id_to_def_.find(def_id);
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if (iter == id_to_def_.end()) {
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AnalyzeInstDef(inst);
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}
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}
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AnalyzeInstUse(inst);
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}
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Instruction* DefUseManager::GetDef(uint32_t id) {
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auto iter = id_to_def_.find(id);
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if (iter == id_to_def_.end()) return nullptr;
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return iter->second;
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}
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const Instruction* DefUseManager::GetDef(uint32_t id) const {
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const auto iter = id_to_def_.find(id);
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if (iter == id_to_def_.end()) return nullptr;
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return iter->second;
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}
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DefUseManager::IdToUsersMap::const_iterator DefUseManager::UsersBegin(
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const Instruction* def) const {
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return id_to_users_.lower_bound(
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UserEntry{const_cast<Instruction*>(def), nullptr});
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}
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bool DefUseManager::UsersNotEnd(const IdToUsersMap::const_iterator& iter,
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const IdToUsersMap::const_iterator& cached_end,
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const Instruction* inst) const {
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return (iter != cached_end && iter->def == inst);
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}
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bool DefUseManager::UsersNotEnd(const IdToUsersMap::const_iterator& iter,
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const Instruction* inst) const {
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return UsersNotEnd(iter, id_to_users_.end(), inst);
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}
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bool DefUseManager::WhileEachUser(
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const Instruction* def, const std::function<bool(Instruction*)>& f) const {
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// Ensure that |def| has been registered.
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assert(def && (!def->HasResultId() || def == GetDef(def->result_id())) &&
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"Definition is not registered.");
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if (!def->HasResultId()) return true;
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auto end = id_to_users_.end();
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for (auto iter = UsersBegin(def); UsersNotEnd(iter, end, def); ++iter) {
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if (!f(iter->user)) return false;
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}
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return true;
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}
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bool DefUseManager::WhileEachUser(
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uint32_t id, const std::function<bool(Instruction*)>& f) const {
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return WhileEachUser(GetDef(id), f);
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}
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void DefUseManager::ForEachUser(
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const Instruction* def, const std::function<void(Instruction*)>& f) const {
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WhileEachUser(def, [&f](Instruction* user) {
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f(user);
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return true;
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});
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}
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void DefUseManager::ForEachUser(
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uint32_t id, const std::function<void(Instruction*)>& f) const {
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ForEachUser(GetDef(id), f);
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}
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bool DefUseManager::WhileEachUse(
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const Instruction* def,
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const std::function<bool(Instruction*, uint32_t)>& f) const {
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// Ensure that |def| has been registered.
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assert(def && (!def->HasResultId() || def == GetDef(def->result_id())) &&
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"Definition is not registered.");
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if (!def->HasResultId()) return true;
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auto end = id_to_users_.end();
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for (auto iter = UsersBegin(def); UsersNotEnd(iter, end, def); ++iter) {
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Instruction* user = iter->user;
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for (uint32_t idx = 0; idx != user->NumOperands(); ++idx) {
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const Operand& op = user->GetOperand(idx);
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if (op.type != SPV_OPERAND_TYPE_RESULT_ID && spvIsIdType(op.type)) {
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if (def->result_id() == op.words[0]) {
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if (!f(user, idx)) return false;
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}
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}
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}
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}
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return true;
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}
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bool DefUseManager::WhileEachUse(
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uint32_t id, const std::function<bool(Instruction*, uint32_t)>& f) const {
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return WhileEachUse(GetDef(id), f);
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}
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void DefUseManager::ForEachUse(
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const Instruction* def,
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const std::function<void(Instruction*, uint32_t)>& f) const {
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WhileEachUse(def, [&f](Instruction* user, uint32_t index) {
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f(user, index);
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return true;
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});
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}
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void DefUseManager::ForEachUse(
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uint32_t id, const std::function<void(Instruction*, uint32_t)>& f) const {
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ForEachUse(GetDef(id), f);
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}
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uint32_t DefUseManager::NumUsers(const Instruction* def) const {
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uint32_t count = 0;
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ForEachUser(def, [&count](Instruction*) { ++count; });
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return count;
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}
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uint32_t DefUseManager::NumUsers(uint32_t id) const {
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return NumUsers(GetDef(id));
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}
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uint32_t DefUseManager::NumUses(const Instruction* def) const {
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uint32_t count = 0;
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ForEachUse(def, [&count](Instruction*, uint32_t) { ++count; });
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return count;
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}
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uint32_t DefUseManager::NumUses(uint32_t id) const {
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return NumUses(GetDef(id));
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}
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std::vector<Instruction*> DefUseManager::GetAnnotations(uint32_t id) const {
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std::vector<Instruction*> annos;
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const Instruction* def = GetDef(id);
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if (!def) return annos;
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ForEachUser(def, [&annos](Instruction* user) {
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if (IsAnnotationInst(user->opcode())) {
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annos.push_back(user);
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}
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});
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return annos;
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}
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void DefUseManager::AnalyzeDefUse(Module* module) {
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if (!module) return;
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// Analyze all the defs before any uses to catch forward references.
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module->ForEachInst(
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std::bind(&DefUseManager::AnalyzeInstDef, this, std::placeholders::_1),
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true);
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module->ForEachInst(
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std::bind(&DefUseManager::AnalyzeInstUse, this, std::placeholders::_1),
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true);
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}
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void DefUseManager::ClearInst(Instruction* inst) {
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auto iter = inst_to_used_ids_.find(inst);
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if (iter != inst_to_used_ids_.end()) {
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EraseUseRecordsOfOperandIds(inst);
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if (inst->result_id() != 0) {
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// Remove all uses of this inst.
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auto users_begin = UsersBegin(inst);
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auto end = id_to_users_.end();
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auto new_end = users_begin;
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for (; UsersNotEnd(new_end, end, inst); ++new_end) {
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}
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id_to_users_.erase(users_begin, new_end);
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id_to_def_.erase(inst->result_id());
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}
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}
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}
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void DefUseManager::EraseUseRecordsOfOperandIds(const Instruction* inst) {
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// Go through all ids used by this instruction, remove this instruction's
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// uses of them.
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auto iter = inst_to_used_ids_.find(inst);
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if (iter != inst_to_used_ids_.end()) {
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for (auto use_id : iter->second) {
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id_to_users_.erase(
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UserEntry{GetDef(use_id), const_cast<Instruction*>(inst)});
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}
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inst_to_used_ids_.erase(iter);
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}
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}
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bool CompareAndPrintDifferences(const DefUseManager& lhs,
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const DefUseManager& rhs) {
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bool same = true;
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if (lhs.id_to_def_ != rhs.id_to_def_) {
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for (auto p : lhs.id_to_def_) {
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if (rhs.id_to_def_.find(p.first) == rhs.id_to_def_.end()) {
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printf("Diff in id_to_def: missing value in rhs\n");
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}
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}
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for (auto p : rhs.id_to_def_) {
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if (lhs.id_to_def_.find(p.first) == lhs.id_to_def_.end()) {
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printf("Diff in id_to_def: missing value in lhs\n");
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}
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}
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same = false;
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}
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if (lhs.id_to_users_ != rhs.id_to_users_) {
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for (auto p : lhs.id_to_users_) {
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if (rhs.id_to_users_.count(p) == 0) {
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printf("Diff in id_to_users: missing value in rhs\n");
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}
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}
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for (auto p : rhs.id_to_users_) {
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if (lhs.id_to_users_.count(p) == 0) {
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printf("Diff in id_to_users: missing value in lhs\n");
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}
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}
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same = false;
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}
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if (lhs.inst_to_used_ids_ != rhs.inst_to_used_ids_) {
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for (auto p : lhs.inst_to_used_ids_) {
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if (rhs.inst_to_used_ids_.count(p.first) == 0) {
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printf("Diff in inst_to_used_ids: missing value in rhs\n");
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}
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}
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for (auto p : rhs.inst_to_used_ids_) {
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if (lhs.inst_to_used_ids_.count(p.first) == 0) {
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printf("Diff in inst_to_used_ids: missing value in lhs\n");
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}
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}
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same = false;
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}
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return same;
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}
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} // namespace analysis
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} // namespace opt
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} // namespace spvtools
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