mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
419 lines
14 KiB
C++
419 lines
14 KiB
C++
/*
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This file is part of solidity.
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solidity is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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solidity is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with solidity. If not, see <http://www.gnu.org/licenses/>.
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*/
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// SPDX-License-Identifier: GPL-3.0
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/**
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* Optimiser component that removes stores to memory and storage slots that are not used
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* or overwritten later on.
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*/
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#include <libyul/optimiser/UnusedStoreEliminator.h>
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#include <libyul/optimiser/Semantics.h>
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#include <libyul/optimiser/OptimizerUtilities.h>
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#include <libyul/optimiser/Semantics.h>
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#include <libyul/optimiser/SSAValueTracker.h>
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#include <libyul/optimiser/DataFlowAnalyzer.h>
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#include <libyul/optimiser/KnowledgeBase.h>
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#include <libyul/ControlFlowSideEffectsCollector.h>
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#include <libyul/AST.h>
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#include <libyul/backends/evm/EVMDialect.h>
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#include <libsolutil/CommonData.h>
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#include <libevmasm/Instruction.h>
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#include <libevmasm/SemanticInformation.h>
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#include <range/v3/algorithm/all_of.hpp>
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using namespace std;
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using namespace solidity;
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using namespace solidity::yul;
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/// Variable names for special constants that can never appear in actual Yul code.
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static string const zero{"@ 0"};
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static string const one{"@ 1"};
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static string const thirtyTwo{"@ 32"};
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void UnusedStoreEliminator::run(OptimiserStepContext& _context, Block& _ast)
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{
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map<YulString, SideEffects> functionSideEffects = SideEffectsPropagator::sideEffects(
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_context.dialect,
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CallGraphGenerator::callGraph(_ast)
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);
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SSAValueTracker ssaValues;
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ssaValues(_ast);
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map<YulString, AssignedValue> values;
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for (auto const& [name, expression]: ssaValues.values())
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values[name] = AssignedValue{expression, {}};
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Expression const zeroLiteral{Literal{{}, LiteralKind::Number, YulString{"0"}, {}}};
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Expression const oneLiteral{Literal{{}, LiteralKind::Number, YulString{"1"}, {}}};
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Expression const thirtyTwoLiteral{Literal{{}, LiteralKind::Number, YulString{"32"}, {}}};
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values[YulString{zero}] = AssignedValue{&zeroLiteral, {}};
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values[YulString{one}] = AssignedValue{&oneLiteral, {}};
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values[YulString{thirtyTwo}] = AssignedValue{&thirtyTwoLiteral, {}};
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bool const ignoreMemory = MSizeFinder::containsMSize(_context.dialect, _ast);
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UnusedStoreEliminator rse{
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_context.dialect,
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functionSideEffects,
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ControlFlowSideEffectsCollector{_context.dialect, _ast}.functionSideEffectsNamed(),
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values,
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ignoreMemory
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};
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rse(_ast);
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if (
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auto evmDialect = dynamic_cast<EVMDialect const*>(&_context.dialect);
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evmDialect && evmDialect->providesObjectAccess()
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)
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rse.changeUndecidedTo(State::Unused, Location::Memory);
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else
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rse.changeUndecidedTo(State::Used, Location::Memory);
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rse.changeUndecidedTo(State::Used, Location::Storage);
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rse.scheduleUnusedForDeletion();
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StatementRemover remover(rse.m_pendingRemovals);
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remover(_ast);
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}
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UnusedStoreEliminator::UnusedStoreEliminator(
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Dialect const& _dialect,
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map<YulString, SideEffects> const& _functionSideEffects,
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map<YulString, ControlFlowSideEffects> _controlFlowSideEffects,
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map<YulString, AssignedValue> const& _ssaValues,
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bool _ignoreMemory
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):
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UnusedStoreBase(_dialect),
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m_ignoreMemory(_ignoreMemory),
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m_functionSideEffects(_functionSideEffects),
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m_controlFlowSideEffects(_controlFlowSideEffects),
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m_ssaValues(_ssaValues),
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m_knowledgeBase(_ssaValues)
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{}
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void UnusedStoreEliminator::operator()(FunctionCall const& _functionCall)
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{
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UnusedStoreBase::operator()(_functionCall);
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for (Operation const& op: operationsFromFunctionCall(_functionCall))
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applyOperation(op);
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ControlFlowSideEffects sideEffects;
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if (auto builtin = m_dialect.builtin(_functionCall.functionName.name))
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sideEffects = builtin->controlFlowSideEffects;
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else
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sideEffects = m_controlFlowSideEffects.at(_functionCall.functionName.name);
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if (sideEffects.canTerminate)
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changeUndecidedTo(State::Used, Location::Storage);
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if (!sideEffects.canContinue)
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{
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changeUndecidedTo(State::Unused, Location::Memory);
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if (!sideEffects.canTerminate)
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changeUndecidedTo(State::Unused, Location::Storage);
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}
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}
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void UnusedStoreEliminator::operator()(FunctionDefinition const& _functionDefinition)
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{
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ScopedSaveAndRestore storeOperations(m_storeOperations, {});
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UnusedStoreBase::operator()(_functionDefinition);
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}
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void UnusedStoreEliminator::operator()(Leave const&)
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{
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changeUndecidedTo(State::Used);
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}
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void UnusedStoreEliminator::visit(Statement const& _statement)
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{
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using evmasm::Instruction;
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UnusedStoreBase::visit(_statement);
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auto const* exprStatement = get_if<ExpressionStatement>(&_statement);
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if (!exprStatement)
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return;
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FunctionCall const* funCall = get_if<FunctionCall>(&exprStatement->expression);
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yulAssert(funCall);
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optional<Instruction> instruction = toEVMInstruction(m_dialect, funCall->functionName.name);
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if (!instruction)
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return;
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if (!ranges::all_of(funCall->arguments, [](Expression const& _expr) -> bool {
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return get_if<Identifier>(&_expr) || get_if<Literal>(&_expr);
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}))
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return;
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// We determine if this is a store instruction without additional side-effects
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// both by querying a combination of semantic information and by listing the instructions.
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// This way the assert below should be triggered on any change.
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using evmasm::SemanticInformation;
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bool isStorageWrite = (*instruction == Instruction::SSTORE);
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bool isMemoryWrite =
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*instruction == Instruction::EXTCODECOPY ||
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*instruction == Instruction::CODECOPY ||
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*instruction == Instruction::CALLDATACOPY ||
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*instruction == Instruction::RETURNDATACOPY ||
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*instruction == Instruction::MSTORE ||
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*instruction == Instruction::MSTORE8;
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bool isCandidateForRemoval =
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SemanticInformation::otherState(*instruction) != SemanticInformation::Write && (
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SemanticInformation::storage(*instruction) == SemanticInformation::Write ||
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(!m_ignoreMemory && SemanticInformation::memory(*instruction) == SemanticInformation::Write)
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);
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yulAssert(isCandidateForRemoval == (isStorageWrite || (!m_ignoreMemory && isMemoryWrite)));
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if (isCandidateForRemoval)
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{
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State initialState = State::Undecided;
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if (*instruction == Instruction::RETURNDATACOPY)
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{
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initialState = State::Used;
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auto startOffset = identifierNameIfSSA(funCall->arguments.at(1));
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auto length = identifierNameIfSSA(funCall->arguments.at(2));
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if (length && startOffset)
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{
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FunctionCall const* lengthCall = get_if<FunctionCall>(m_ssaValues.at(*length).value);
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if (
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m_knowledgeBase.knownToBeZero(*startOffset) &&
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lengthCall &&
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toEVMInstruction(m_dialect, lengthCall->functionName.name) == Instruction::RETURNDATASIZE
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)
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initialState = State::Undecided;
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}
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}
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m_stores[YulString{}].insert({&_statement, initialState});
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vector<Operation> operations = operationsFromFunctionCall(*funCall);
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yulAssert(operations.size() == 1, "");
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m_storeOperations[&_statement] = std::move(operations.front());
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}
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}
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void UnusedStoreEliminator::finalizeFunctionDefinition(FunctionDefinition const&)
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{
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changeUndecidedTo(State::Used);
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scheduleUnusedForDeletion();
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}
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vector<UnusedStoreEliminator::Operation> UnusedStoreEliminator::operationsFromFunctionCall(
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FunctionCall const& _functionCall
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) const
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{
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using evmasm::Instruction;
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YulString functionName = _functionCall.functionName.name;
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SideEffects sideEffects;
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if (BuiltinFunction const* f = m_dialect.builtin(functionName))
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sideEffects = f->sideEffects;
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else
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sideEffects = m_functionSideEffects.at(functionName);
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optional<Instruction> instruction = toEVMInstruction(m_dialect, functionName);
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if (!instruction)
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{
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vector<Operation> result;
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// Unknown read is worse than unknown write.
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if (sideEffects.memory != SideEffects::Effect::None)
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result.emplace_back(Operation{Location::Memory, Effect::Read, {}, {}});
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if (sideEffects.storage != SideEffects::Effect::None)
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result.emplace_back(Operation{Location::Storage, Effect::Read, {}, {}});
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return result;
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}
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using evmasm::SemanticInformation;
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return util::applyMap(
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SemanticInformation::readWriteOperations(*instruction),
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[&](SemanticInformation::Operation const& _op) -> Operation
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{
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yulAssert(!(_op.lengthParameter && _op.lengthConstant));
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yulAssert(_op.effect != Effect::None);
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Operation ourOp{_op.location, _op.effect, {}, {}};
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if (_op.startParameter)
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ourOp.start = identifierNameIfSSA(_functionCall.arguments.at(*_op.startParameter));
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if (_op.lengthParameter)
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ourOp.length = identifierNameIfSSA(_functionCall.arguments.at(*_op.lengthParameter));
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if (_op.lengthConstant)
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switch (*_op.lengthConstant)
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{
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case 1: ourOp.length = YulString(one); break;
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case 32: ourOp.length = YulString(thirtyTwo); break;
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default: yulAssert(false);
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}
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return ourOp;
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}
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);
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}
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void UnusedStoreEliminator::applyOperation(UnusedStoreEliminator::Operation const& _operation)
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{
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for (auto& [statement, state]: m_stores[YulString{}])
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if (state == State::Undecided)
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{
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Operation const& storeOperation = m_storeOperations.at(statement);
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if (_operation.effect == Effect::Read && !knownUnrelated(storeOperation, _operation))
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state = State::Used;
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else if (_operation.effect == Effect::Write && knownCovered(storeOperation, _operation))
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state = State::Unused;
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}
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}
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bool UnusedStoreEliminator::knownUnrelated(
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UnusedStoreEliminator::Operation const& _op1,
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UnusedStoreEliminator::Operation const& _op2
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) const
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{
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if (_op1.location != _op2.location)
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return true;
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if (_op1.location == Location::Storage)
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{
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if (_op1.start && _op2.start)
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{
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yulAssert(
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_op1.length &&
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_op2.length &&
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m_knowledgeBase.valueIfKnownConstant(*_op1.length) == 1 &&
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m_knowledgeBase.valueIfKnownConstant(*_op2.length) == 1
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);
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return m_knowledgeBase.knownToBeDifferent(*_op1.start, *_op2.start);
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}
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}
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else
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{
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yulAssert(_op1.location == Location::Memory, "");
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if (
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(_op1.length && m_knowledgeBase.knownToBeZero(*_op1.length)) ||
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(_op2.length && m_knowledgeBase.knownToBeZero(*_op2.length))
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)
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return true;
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if (_op1.start && _op1.length && _op2.start)
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{
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optional<u256> length1 = m_knowledgeBase.valueIfKnownConstant(*_op1.length);
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optional<u256> start1 = m_knowledgeBase.valueIfKnownConstant(*_op1.start);
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optional<u256> start2 = m_knowledgeBase.valueIfKnownConstant(*_op2.start);
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if (
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(length1 && start1 && start2) &&
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*start1 + *length1 >= *start1 && // no overflow
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*start1 + *length1 <= *start2
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)
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return true;
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}
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if (_op2.start && _op2.length && _op1.start)
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{
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optional<u256> length2 = m_knowledgeBase.valueIfKnownConstant(*_op2.length);
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optional<u256> start2 = m_knowledgeBase.valueIfKnownConstant(*_op2.start);
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optional<u256> start1 = m_knowledgeBase.valueIfKnownConstant(*_op1.start);
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if (
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(length2 && start2 && start1) &&
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*start2 + *length2 >= *start2 && // no overflow
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*start2 + *length2 <= *start1
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)
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return true;
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}
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if (_op1.start && _op1.length && _op2.start && _op2.length)
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{
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optional<u256> length1 = m_knowledgeBase.valueIfKnownConstant(*_op1.length);
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optional<u256> length2 = m_knowledgeBase.valueIfKnownConstant(*_op2.length);
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if (
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(length1 && *length1 <= 32) &&
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(length2 && *length2 <= 32) &&
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m_knowledgeBase.knownToBeDifferentByAtLeast32(*_op1.start, *_op2.start)
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)
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return true;
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}
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}
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return false;
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}
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bool UnusedStoreEliminator::knownCovered(
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UnusedStoreEliminator::Operation const& _covered,
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UnusedStoreEliminator::Operation const& _covering
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) const
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{
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if (_covered.location != _covering.location)
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return false;
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if (
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(_covered.start && _covered.start == _covering.start) &&
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(_covered.length && _covered.length == _covering.length)
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)
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return true;
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if (_covered.location == Location::Memory)
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{
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if (_covered.length && m_knowledgeBase.knownToBeZero(*_covered.length))
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return true;
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// Condition (i = cover_i_ng, e = cover_e_d):
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// i.start <= e.start && e.start + e.length <= i.start + i.length
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if (!_covered.start || !_covering.start || !_covered.length || !_covering.length)
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return false;
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optional<u256> coveredLength = m_knowledgeBase.valueIfKnownConstant(*_covered.length);
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optional<u256> coveringLength = m_knowledgeBase.valueIfKnownConstant(*_covering.length);
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if (*_covered.start == *_covering.start)
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if (coveredLength && coveringLength && *coveredLength <= *coveringLength)
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return true;
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optional<u256> coveredStart = m_knowledgeBase.valueIfKnownConstant(*_covered.start);
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optional<u256> coveringStart = m_knowledgeBase.valueIfKnownConstant(*_covering.start);
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if (coveredStart && coveringStart && coveredLength && coveringLength)
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if (
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*coveringStart <= *coveredStart &&
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*coveringStart + *coveringLength >= *coveringStart && // no overflow
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*coveredStart + *coveredLength >= *coveredStart && // no overflow
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*coveredStart + *coveredLength <= *coveringStart + *coveringLength
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)
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return true;
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// TODO for this we probably need a non-overflow assumption as above.
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// Condition (i = cover_i_ng, e = cover_e_d):
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// i.start <= e.start && e.start + e.length <= i.start + i.length
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}
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return false;
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}
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void UnusedStoreEliminator::changeUndecidedTo(
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State _newState,
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optional<UnusedStoreEliminator::Location> _onlyLocation)
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{
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for (auto& [statement, state]: m_stores[YulString{}])
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if (
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state == State::Undecided &&
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(_onlyLocation == nullopt || *_onlyLocation == m_storeOperations.at(statement).location)
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)
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state = _newState;
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}
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optional<YulString> UnusedStoreEliminator::identifierNameIfSSA(Expression const& _expression) const
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{
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if (Identifier const* identifier = get_if<Identifier>(&_expression))
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if (m_ssaValues.count(identifier->name))
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return {identifier->name};
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return nullopt;
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}
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void UnusedStoreEliminator::scheduleUnusedForDeletion()
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{
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for (auto const& [statement, state]: m_stores[YulString{}])
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if (state == State::Unused)
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m_pendingRemovals.insert(statement);
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}
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