/*( This file is part of solidity. solidity is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. solidity is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with solidity. If not, see . */ /** * Optimisation stage that removes unused variables and functions. */ #include #include #include #include #include #include #include using namespace std; using namespace dev; using namespace yul; UnusedPruner::UnusedPruner(Dialect const& _dialect, Block& _ast, set const& _externallyUsedFunctions): m_dialect(_dialect) { m_references = ReferencesCounter::countReferences(_ast); for (auto const& f: _externallyUsedFunctions) ++m_references[f]; } UnusedPruner::UnusedPruner(Dialect const& _dialect, FunctionDefinition& _function, set const& _externallyUsedFunctions): m_dialect(_dialect) { m_references = ReferencesCounter::countReferences(_function); for (auto const& f: _externallyUsedFunctions) ++m_references[f]; } void UnusedPruner::operator()(Block& _block) { for (auto&& statement: _block.statements) if (statement.type() == typeid(FunctionDefinition)) { FunctionDefinition& funDef = boost::get(statement); if (!used(funDef.name)) { subtractReferences(ReferencesCounter::countReferences(funDef.body)); statement = Block{std::move(funDef.location), {}}; } } else if (statement.type() == typeid(VariableDeclaration)) { VariableDeclaration& varDecl = boost::get(statement); // Multi-variable declarations are special. We can only remove it // if all vairables are unused and the right-hand-side is either // movable or it return a single value. In the latter case, we // replace `let a := f()` by `pop(f())` (in pure Yul, this will be // `drop(f())`). if (boost::algorithm::none_of( varDecl.variables, [=](TypedName const& _typedName) { return used(_typedName.name); } )) { if (!varDecl.value) statement = Block{std::move(varDecl.location), {}}; else if (MovableChecker(m_dialect, *varDecl.value).movable()) { subtractReferences(ReferencesCounter::countReferences(*varDecl.value)); statement = Block{std::move(varDecl.location), {}}; } else if (varDecl.variables.size() == 1) // In pure Yul, this should be replaced by a function call to `drop` // instead of `pop`. statement = ExpressionStatement{varDecl.location, FunctionalInstruction{ varDecl.location, solidity::Instruction::POP, {*std::move(varDecl.value)} }}; } } else if (statement.type() == typeid(ExpressionStatement)) { ExpressionStatement& exprStmt = boost::get(statement); if (MovableChecker(m_dialect, exprStmt.expression).movable()) { // pop(x) should be movable! subtractReferences(ReferencesCounter::countReferences(exprStmt.expression)); statement = Block{std::move(exprStmt.location), {}}; } } removeEmptyBlocks(_block); ASTModifier::operator()(_block); } void UnusedPruner::runUntilStabilised( Dialect const& _dialect, Block& _ast, set const& _externallyUsedFunctions ) { while (true) { UnusedPruner pruner(_dialect, _ast, _externallyUsedFunctions); pruner(_ast); if (!pruner.shouldRunAgain()) return; } } void UnusedPruner::runUntilStabilised( Dialect const& _dialect, FunctionDefinition& _function, set const& _externallyUsedFunctions ) { while (true) { UnusedPruner pruner(_dialect, _function, _externallyUsedFunctions); pruner(_function); if (!pruner.shouldRunAgain()) return; } } bool UnusedPruner::used(YulString _name) const { return m_references.count(_name) && m_references.at(_name) > 0; } void UnusedPruner::subtractReferences(map const& _subtrahend) { for (auto const& ref: _subtrahend) { assertThrow(m_references.count(ref.first), OptimizerException, ""); assertThrow(m_references.at(ref.first) >= ref.second, OptimizerException, ""); m_references[ref.first] -= ref.second; m_shouldRunAgain = true; } }