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https://github.com/KhronosGroup/SPIRV-Tools
synced 2024-11-23 04:00:05 +00:00
4fcdc58946
There was a lot of code in the codebase that would get the dominator analysis for a function and then use it to check whether a block is reachable. In the fuzzer, a utility method had been introduced to make this more concise, but it was not being used consistently. This change moves the utility method to IRContext, so that it can be used throughout the codebase, and refactors all existing checks for block reachability to use the utility method.
593 lines
20 KiB
C++
593 lines
20 KiB
C++
// Copyright (c) 2020 Vasyl Teliman
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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/fuzz/transformation_propagate_instruction_down.h"
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#include "source/fuzz/fuzzer_util.h"
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#include "source/fuzz/instruction_descriptor.h"
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namespace spvtools {
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namespace fuzz {
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TransformationPropagateInstructionDown::TransformationPropagateInstructionDown(
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protobufs::TransformationPropagateInstructionDown message)
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: message_(std::move(message)) {}
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TransformationPropagateInstructionDown::TransformationPropagateInstructionDown(
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uint32_t block_id, uint32_t phi_fresh_id,
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const std::map<uint32_t, uint32_t>& successor_id_to_fresh_id) {
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message_.set_block_id(block_id);
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message_.set_phi_fresh_id(phi_fresh_id);
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*message_.mutable_successor_id_to_fresh_id() =
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fuzzerutil::MapToRepeatedUInt32Pair(successor_id_to_fresh_id);
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}
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bool TransformationPropagateInstructionDown::IsApplicable(
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opt::IRContext* ir_context,
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const TransformationContext& transformation_context) const {
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// Check that we can apply this transformation to the |block_id|.
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if (!IsApplicableToBlock(ir_context, message_.block_id())) {
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return false;
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}
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const auto successor_id_to_fresh_id =
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fuzzerutil::RepeatedUInt32PairToMap(message_.successor_id_to_fresh_id());
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for (auto id : GetAcceptableSuccessors(ir_context, message_.block_id())) {
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// Each successor must have a fresh id in the |successor_id_to_fresh_id|
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// map, unless overflow ids are available.
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if (!successor_id_to_fresh_id.count(id) &&
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!transformation_context.GetOverflowIdSource()->HasOverflowIds()) {
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return false;
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}
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}
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std::vector<uint32_t> maybe_fresh_ids = {message_.phi_fresh_id()};
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maybe_fresh_ids.reserve(successor_id_to_fresh_id.size());
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for (const auto& entry : successor_id_to_fresh_id) {
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maybe_fresh_ids.push_back(entry.second);
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}
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// All ids must be unique and fresh.
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return !fuzzerutil::HasDuplicates(maybe_fresh_ids) &&
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std::all_of(maybe_fresh_ids.begin(), maybe_fresh_ids.end(),
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[ir_context](uint32_t id) {
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return fuzzerutil::IsFreshId(ir_context, id);
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});
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}
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void TransformationPropagateInstructionDown::Apply(
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opt::IRContext* ir_context,
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TransformationContext* transformation_context) const {
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// Get instruction to propagate down. There must be one.
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auto* inst_to_propagate =
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GetInstructionToPropagate(ir_context, message_.block_id());
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assert(inst_to_propagate && "There must be an instruction to propagate");
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auto successor_id_to_fresh_id =
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fuzzerutil::RepeatedUInt32PairToMap(message_.successor_id_to_fresh_id());
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std::vector<uint32_t> created_inst_ids;
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auto successor_ids = GetAcceptableSuccessors(ir_context, message_.block_id());
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// Clone |inst_to_propagate| into every successor.
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for (auto successor_id : successor_ids) {
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std::unique_ptr<opt::Instruction> clone(
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inst_to_propagate->Clone(ir_context));
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uint32_t new_result_id;
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if (successor_id_to_fresh_id.count(successor_id)) {
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new_result_id = successor_id_to_fresh_id.at(successor_id);
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} else {
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assert(transformation_context->GetOverflowIdSource()->HasOverflowIds() &&
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"Overflow ids must be available");
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new_result_id =
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transformation_context->GetOverflowIdSource()->GetNextOverflowId();
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successor_id_to_fresh_id[successor_id] = new_result_id;
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}
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clone->SetResultId(new_result_id);
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fuzzerutil::UpdateModuleIdBound(ir_context, new_result_id);
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auto* insert_before_inst = GetFirstInsertBeforeInstruction(
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ir_context, successor_id, clone->opcode());
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assert(insert_before_inst && "Can't insert into one of the successors");
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insert_before_inst->InsertBefore(std::move(clone));
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created_inst_ids.push_back(new_result_id);
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}
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// Add an OpPhi instruction into the module if possible.
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if (auto merge_block_id = GetOpPhiBlockId(
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ir_context, message_.block_id(), *inst_to_propagate, successor_ids)) {
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opt::Instruction::OperandList in_operands;
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std::unordered_set<uint32_t> visited_predecessors;
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for (auto predecessor_id : ir_context->cfg()->preds(merge_block_id)) {
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if (visited_predecessors.count(predecessor_id)) {
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// Merge block might have multiple identical predecessors.
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continue;
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}
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visited_predecessors.insert(predecessor_id);
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const auto* dominator_analysis = ir_context->GetDominatorAnalysis(
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ir_context->cfg()->block(message_.block_id())->GetParent());
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// Find the successor of |source_block| that dominates the predecessor of
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// the merge block |predecessor_id|.
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auto it = std::find_if(
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successor_ids.begin(), successor_ids.end(),
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[predecessor_id, dominator_analysis](uint32_t successor_id) {
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return dominator_analysis->Dominates(successor_id, predecessor_id);
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});
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// OpPhi requires a single operand pair for every predecessor of the
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// OpPhi's block.
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assert(it != successor_ids.end() && "Unable to insert OpPhi");
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in_operands.push_back(
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{SPV_OPERAND_TYPE_ID, {successor_id_to_fresh_id.at(*it)}});
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in_operands.push_back({SPV_OPERAND_TYPE_ID, {predecessor_id}});
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}
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ir_context->cfg()
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->block(merge_block_id)
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->begin()
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->InsertBefore(MakeUnique<opt::Instruction>(
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ir_context, SpvOpPhi, inst_to_propagate->type_id(),
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message_.phi_fresh_id(), std::move(in_operands)));
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fuzzerutil::UpdateModuleIdBound(ir_context, message_.phi_fresh_id());
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created_inst_ids.push_back(message_.phi_fresh_id());
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}
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// Make sure analyses are updated when we adjust users of |inst_to_propagate|.
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ir_context->InvalidateAnalysesExceptFor(opt::IRContext::kAnalysisNone);
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// Copy decorations from the original instructions to its propagated copies.
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for (auto id : created_inst_ids) {
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ir_context->get_decoration_mgr()->CloneDecorations(
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inst_to_propagate->result_id(), id);
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}
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// Remove all decorations from the original instruction.
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ir_context->get_decoration_mgr()->RemoveDecorationsFrom(
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inst_to_propagate->result_id());
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// Update every use of the |inst_to_propagate| with a result id of some of the
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// newly created instructions.
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ir_context->get_def_use_mgr()->ForEachUse(
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inst_to_propagate, [ir_context, &created_inst_ids](
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opt::Instruction* user, uint32_t operand_index) {
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assert(ir_context->get_instr_block(user) &&
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"All decorations should have already been adjusted");
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auto in_operand_index =
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fuzzerutil::InOperandIndexFromOperandIndex(*user, operand_index);
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for (auto id : created_inst_ids) {
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if (fuzzerutil::IdIsAvailableAtUse(ir_context, user, in_operand_index,
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id)) {
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user->SetInOperand(in_operand_index, {id});
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return;
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}
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}
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// Every user of |inst_to_propagate| must be updated since we will
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// remove that instruction from the module.
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assert(false && "Every user of |inst_to_propagate| must be updated");
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});
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// Add synonyms about newly created instructions.
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assert(inst_to_propagate->HasResultId() &&
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"Result id is required to add facts");
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if (transformation_context->GetFactManager()->IdIsIrrelevant(
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inst_to_propagate->result_id())) {
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for (auto id : created_inst_ids) {
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transformation_context->GetFactManager()->AddFactIdIsIrrelevant(id);
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}
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} else {
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std::vector<uint32_t> non_irrelevant_ids;
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for (auto id : created_inst_ids) {
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// |id| can be irrelevant implicitly (e.g. if we propagate it into a dead
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// block).
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if (!transformation_context->GetFactManager()->IdIsIrrelevant(id)) {
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non_irrelevant_ids.push_back(id);
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}
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}
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if (transformation_context->GetFactManager()->PointeeValueIsIrrelevant(
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inst_to_propagate->result_id())) {
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for (auto id : non_irrelevant_ids) {
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transformation_context->GetFactManager()
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->AddFactValueOfPointeeIsIrrelevant(id);
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}
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}
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for (auto id : non_irrelevant_ids) {
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transformation_context->GetFactManager()->AddFactDataSynonym(
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MakeDataDescriptor(id, {}),
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MakeDataDescriptor(non_irrelevant_ids[0], {}));
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}
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}
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// Remove the propagated instruction from the module.
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ir_context->KillInst(inst_to_propagate);
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// We've adjusted all users - make sure these changes are analyzed.
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ir_context->InvalidateAnalysesExceptFor(opt::IRContext::kAnalysisNone);
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}
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protobufs::Transformation TransformationPropagateInstructionDown::ToMessage()
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const {
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protobufs::Transformation result;
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*result.mutable_propagate_instruction_down() = message_;
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return result;
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}
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bool TransformationPropagateInstructionDown::IsOpcodeSupported(SpvOp opcode) {
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// TODO(https://github.com/KhronosGroup/SPIRV-Tools/issues/3605):
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// We only support "simple" instructions that don't work with memory.
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// We should extend this so that we support the ones that modify the memory
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// too.
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switch (opcode) {
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case SpvOpUndef:
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case SpvOpAccessChain:
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case SpvOpInBoundsAccessChain:
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case SpvOpArrayLength:
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case SpvOpVectorExtractDynamic:
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case SpvOpVectorInsertDynamic:
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case SpvOpVectorShuffle:
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case SpvOpCompositeConstruct:
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case SpvOpCompositeExtract:
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case SpvOpCompositeInsert:
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case SpvOpCopyObject:
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case SpvOpTranspose:
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case SpvOpConvertFToU:
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case SpvOpConvertFToS:
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case SpvOpConvertSToF:
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case SpvOpConvertUToF:
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case SpvOpUConvert:
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case SpvOpSConvert:
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case SpvOpFConvert:
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case SpvOpQuantizeToF16:
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case SpvOpSatConvertSToU:
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case SpvOpSatConvertUToS:
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case SpvOpBitcast:
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case SpvOpSNegate:
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case SpvOpFNegate:
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case SpvOpIAdd:
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case SpvOpFAdd:
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case SpvOpISub:
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case SpvOpFSub:
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case SpvOpIMul:
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case SpvOpFMul:
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case SpvOpUDiv:
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case SpvOpSDiv:
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case SpvOpFDiv:
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case SpvOpUMod:
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case SpvOpSRem:
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case SpvOpSMod:
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case SpvOpFRem:
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case SpvOpFMod:
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case SpvOpVectorTimesScalar:
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case SpvOpMatrixTimesScalar:
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case SpvOpVectorTimesMatrix:
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case SpvOpMatrixTimesVector:
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case SpvOpMatrixTimesMatrix:
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case SpvOpOuterProduct:
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case SpvOpDot:
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case SpvOpIAddCarry:
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case SpvOpISubBorrow:
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case SpvOpUMulExtended:
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case SpvOpSMulExtended:
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case SpvOpAny:
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case SpvOpAll:
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case SpvOpIsNan:
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case SpvOpIsInf:
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case SpvOpIsFinite:
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case SpvOpIsNormal:
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case SpvOpSignBitSet:
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case SpvOpLessOrGreater:
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case SpvOpOrdered:
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case SpvOpUnordered:
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case SpvOpLogicalEqual:
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case SpvOpLogicalNotEqual:
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case SpvOpLogicalOr:
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case SpvOpLogicalAnd:
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case SpvOpLogicalNot:
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case SpvOpSelect:
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case SpvOpIEqual:
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case SpvOpINotEqual:
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case SpvOpUGreaterThan:
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case SpvOpSGreaterThan:
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case SpvOpUGreaterThanEqual:
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case SpvOpSGreaterThanEqual:
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case SpvOpULessThan:
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case SpvOpSLessThan:
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case SpvOpULessThanEqual:
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case SpvOpSLessThanEqual:
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case SpvOpFOrdEqual:
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case SpvOpFUnordEqual:
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case SpvOpFOrdNotEqual:
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case SpvOpFUnordNotEqual:
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case SpvOpFOrdLessThan:
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case SpvOpFUnordLessThan:
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case SpvOpFOrdGreaterThan:
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case SpvOpFUnordGreaterThan:
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case SpvOpFOrdLessThanEqual:
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case SpvOpFUnordLessThanEqual:
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case SpvOpFOrdGreaterThanEqual:
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case SpvOpFUnordGreaterThanEqual:
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case SpvOpShiftRightLogical:
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case SpvOpShiftRightArithmetic:
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case SpvOpShiftLeftLogical:
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case SpvOpBitwiseOr:
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case SpvOpBitwiseXor:
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case SpvOpBitwiseAnd:
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case SpvOpNot:
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case SpvOpBitFieldInsert:
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case SpvOpBitFieldSExtract:
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case SpvOpBitFieldUExtract:
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case SpvOpBitReverse:
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case SpvOpBitCount:
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case SpvOpCopyLogical:
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case SpvOpPtrEqual:
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case SpvOpPtrNotEqual:
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return true;
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default:
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return false;
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}
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}
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opt::Instruction*
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TransformationPropagateInstructionDown::GetInstructionToPropagate(
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opt::IRContext* ir_context, uint32_t block_id) {
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auto* block = ir_context->cfg()->block(block_id);
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assert(block && "|block_id| is invalid");
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for (auto it = block->rbegin(); it != block->rend(); ++it) {
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if (!it->result_id() || !it->type_id() ||
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!IsOpcodeSupported(it->opcode())) {
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continue;
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}
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auto all_users_from_different_blocks =
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ir_context->get_def_use_mgr()->WhileEachUser(
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&*it, [ir_context, block](opt::Instruction* user) {
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return ir_context->get_instr_block(user) != block;
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});
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if (!all_users_from_different_blocks) {
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// We can't propagate an instruction if it's used in the same block.
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continue;
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}
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return &*it;
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}
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return nullptr;
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}
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bool TransformationPropagateInstructionDown::IsApplicableToBlock(
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opt::IRContext* ir_context, uint32_t block_id) {
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// Check that |block_id| is valid.
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const auto* block = fuzzerutil::MaybeFindBlock(ir_context, block_id);
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if (!block) {
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return false;
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}
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// |block| must be reachable.
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if (!ir_context->IsReachable(*block)) {
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return false;
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}
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// The block must have an instruction to propagate.
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const auto* inst_to_propagate =
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GetInstructionToPropagate(ir_context, block_id);
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if (!inst_to_propagate) {
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return false;
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}
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// Check that |block| has successors.
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auto successor_ids = GetAcceptableSuccessors(ir_context, block_id);
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if (successor_ids.empty()) {
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return false;
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}
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// Check that |successor_block| doesn't have any OpPhi instructions that
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// use |inst|.
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for (auto successor_id : successor_ids) {
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for (const auto& maybe_phi_inst : *ir_context->cfg()->block(successor_id)) {
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if (maybe_phi_inst.opcode() != SpvOpPhi) {
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// OpPhis can be intermixed with OpLine and OpNoLine.
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continue;
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}
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for (uint32_t i = 0; i < maybe_phi_inst.NumInOperands(); i += 2) {
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if (maybe_phi_inst.GetSingleWordInOperand(i) ==
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inst_to_propagate->result_id()) {
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return false;
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}
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}
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}
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}
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// Get the result id of the block we will insert OpPhi instruction into.
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// This is either 0 or a result id of some merge block in the function.
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auto phi_block_id =
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GetOpPhiBlockId(ir_context, block_id, *inst_to_propagate, successor_ids);
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const auto* dominator_analysis =
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ir_context->GetDominatorAnalysis(block->GetParent());
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// Make sure we can adjust all users of the propagated instruction.
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return ir_context->get_def_use_mgr()->WhileEachUse(
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inst_to_propagate,
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[ir_context, &successor_ids, dominator_analysis, phi_block_id](
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opt::Instruction* user, uint32_t index) {
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const auto* user_block = ir_context->get_instr_block(user);
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if (!user_block) {
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// |user| might be a global instruction (e.g. OpDecorate).
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return true;
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}
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// Check that at least one of the ids in |successor_ids| or a
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// |phi_block_id| dominates |user|'s block (or its predecessor if the
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// user is an OpPhi). We can't use fuzzerutil::IdIsAvailableAtUse since
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// the id in question hasn't yet been created in the module.
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auto block_id_to_dominate = user->opcode() == SpvOpPhi
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? user->GetSingleWordOperand(index + 1)
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: user_block->id();
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if (phi_block_id != 0 &&
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dominator_analysis->Dominates(phi_block_id, block_id_to_dominate)) {
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return true;
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}
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return std::any_of(
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successor_ids.begin(), successor_ids.end(),
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[dominator_analysis, block_id_to_dominate](uint32_t id) {
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return dominator_analysis->Dominates(id, block_id_to_dominate);
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});
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});
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}
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opt::Instruction*
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TransformationPropagateInstructionDown::GetFirstInsertBeforeInstruction(
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opt::IRContext* ir_context, uint32_t block_id, SpvOp opcode) {
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auto* block = ir_context->cfg()->block(block_id);
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|
|
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auto it = block->begin();
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|
|
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while (it != block->end() &&
|
|
!fuzzerutil::CanInsertOpcodeBeforeInstruction(opcode, it)) {
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|
++it;
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|
}
|
|
|
|
return it == block->end() ? nullptr : &*it;
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|
}
|
|
|
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std::unordered_set<uint32_t>
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TransformationPropagateInstructionDown::GetAcceptableSuccessors(
|
|
opt::IRContext* ir_context, uint32_t block_id) {
|
|
const auto* block = ir_context->cfg()->block(block_id);
|
|
assert(block && "|block_id| is invalid");
|
|
|
|
const auto* inst = GetInstructionToPropagate(ir_context, block_id);
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|
assert(inst && "The block must have an instruction to propagate");
|
|
|
|
std::unordered_set<uint32_t> result;
|
|
block->ForEachSuccessorLabel([ir_context, &result,
|
|
inst](uint32_t successor_id) {
|
|
if (result.count(successor_id)) {
|
|
return;
|
|
}
|
|
|
|
auto* successor_block = ir_context->cfg()->block(successor_id);
|
|
|
|
// We can't propagate |inst| into |successor_block| if the latter is not
|
|
// dominated by the |inst|'s dependencies.
|
|
if (!inst->WhileEachInId([ir_context, successor_block](const uint32_t* id) {
|
|
return fuzzerutil::IdIsAvailableBeforeInstruction(
|
|
ir_context, &*successor_block->begin(), *id);
|
|
})) {
|
|
return;
|
|
}
|
|
|
|
// We don't propagate any "special" instructions (e.g. OpSelectionMerge
|
|
// etc), thus, insertion point must always exist if the module is valid.
|
|
assert(GetFirstInsertBeforeInstruction(ir_context, successor_id,
|
|
inst->opcode()) &&
|
|
"There must exist an insertion point.");
|
|
|
|
result.insert(successor_id);
|
|
});
|
|
|
|
return result;
|
|
}
|
|
|
|
uint32_t TransformationPropagateInstructionDown::GetOpPhiBlockId(
|
|
opt::IRContext* ir_context, uint32_t block_id,
|
|
const opt::Instruction& inst_to_propagate,
|
|
const std::unordered_set<uint32_t>& successor_ids) {
|
|
const auto* block = ir_context->cfg()->block(block_id);
|
|
|
|
// |block_id| must belong to some construct.
|
|
auto merge_block_id =
|
|
block->GetMergeInst()
|
|
? block->GetMergeInst()->GetSingleWordInOperand(0)
|
|
: ir_context->GetStructuredCFGAnalysis()->MergeBlock(block_id);
|
|
if (!merge_block_id) {
|
|
return 0;
|
|
}
|
|
|
|
const auto* dominator_analysis =
|
|
ir_context->GetDominatorAnalysis(block->GetParent());
|
|
|
|
// Check that |merge_block_id| is reachable in the CFG and |block_id|
|
|
// dominates |merge_block_id|.
|
|
if (!ir_context->IsReachable(*ir_context->cfg()->block(merge_block_id)) ||
|
|
!dominator_analysis->Dominates(block_id, merge_block_id)) {
|
|
return 0;
|
|
}
|
|
|
|
// We can't insert an OpPhi into |merge_block_id| if it's an acceptable
|
|
// successor of |block_id|.
|
|
if (successor_ids.count(merge_block_id)) {
|
|
return 0;
|
|
}
|
|
|
|
// All predecessors of the merge block must be dominated by at least one
|
|
// successor of the |block_id|.
|
|
assert(!ir_context->cfg()->preds(merge_block_id).empty() &&
|
|
"Merge block must be reachable");
|
|
for (auto predecessor_id : ir_context->cfg()->preds(merge_block_id)) {
|
|
if (std::none_of(
|
|
successor_ids.begin(), successor_ids.end(),
|
|
[dominator_analysis, predecessor_id](uint32_t successor_id) {
|
|
return dominator_analysis->Dominates(successor_id,
|
|
predecessor_id);
|
|
})) {
|
|
return 0;
|
|
}
|
|
}
|
|
|
|
const auto* propagate_type =
|
|
ir_context->get_type_mgr()->GetType(inst_to_propagate.type_id());
|
|
assert(propagate_type && "|inst_to_propagate| must have a valid type");
|
|
|
|
// VariablePointers capability implicitly declares
|
|
// VariablePointersStorageBuffer. We need those capabilities since otherwise
|
|
// OpPhi instructions cannot have operands of pointer types.
|
|
if (propagate_type->AsPointer() &&
|
|
!ir_context->get_feature_mgr()->HasCapability(
|
|
SpvCapabilityVariablePointersStorageBuffer)) {
|
|
return 0;
|
|
}
|
|
|
|
return merge_block_id;
|
|
}
|
|
|
|
std::unordered_set<uint32_t>
|
|
TransformationPropagateInstructionDown::GetFreshIds() const {
|
|
std::unordered_set<uint32_t> result = {message_.phi_fresh_id()};
|
|
for (const auto& pair : message_.successor_id_to_fresh_id()) {
|
|
result.insert(pair.second());
|
|
}
|
|
return result;
|
|
}
|
|
|
|
} // namespace fuzz
|
|
} // namespace spvtools
|