/* 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 . */ #include #include #include #include #include #include using namespace std; using namespace dev; using namespace yul; namespace { ExpressionStatement makePopExpressionStatement(langutil::SourceLocation const& _location, Expression&& _expression) { return {_location, FunctionalInstruction{ _location, solidity::Instruction::POP, {std::move(_expression)} }}; } } void StructuralSimplifier::operator()(Block& _block) { pushScope(false); simplify(_block.statements); popScope(); } void StructuralSimplifier::simplify(std::vector& _statements) { using OptionalStatements = boost::optional>; GenericFallbackReturnsVisitor const visitor( [&](If& _ifStmt) -> OptionalStatements { if (_ifStmt.body.statements.empty()) { OptionalStatements s = vector{}; s->emplace_back(makePopExpressionStatement(_ifStmt.location, std::move(*_ifStmt.condition))); return s; } if (expressionAlwaysTrue(*_ifStmt.condition)) return {std::move(_ifStmt.body.statements)}; else if (expressionAlwaysFalse(*_ifStmt.condition)) return {vector{}}; return {}; }, [](Switch& _switchStmt) -> OptionalStatements { if (_switchStmt.cases.size() == 1) { auto& switchCase = _switchStmt.cases.front(); auto loc = locationOf(*_switchStmt.expression); if (switchCase.value) { OptionalStatements s = vector{}; s->emplace_back(If{ std::move(_switchStmt.location), make_unique(FunctionalInstruction{ std::move(loc), solidity::Instruction::EQ, {std::move(*switchCase.value), std::move(*_switchStmt.expression)} }), std::move(switchCase.body)}); return s; } else { OptionalStatements s = vector{}; s->emplace_back(makePopExpressionStatement(loc, std::move(*_switchStmt.expression))); s->emplace_back(std::move(switchCase.body)); return s; } } else return {}; }, [&](ForLoop& _forLoop) -> OptionalStatements { if (expressionAlwaysFalse(*_forLoop.condition)) return {std::move(_forLoop.pre.statements)}; else return {}; } ); iterateReplacing( _statements, [&](Statement& _stmt) -> OptionalStatements { visit(_stmt); OptionalStatements result = boost::apply_visitor(visitor, _stmt); if (result) simplify(*result); return result; } ); } bool StructuralSimplifier::expressionAlwaysTrue(Expression const& _expression) { return boost::apply_visitor(GenericFallbackReturnsVisitor( [&](Identifier const& _identifier) -> bool { if (auto expr = m_value[_identifier.name]) return expressionAlwaysTrue(*expr); return false; }, [](Literal const& _literal) -> bool { static YulString const trueString("true"); return (_literal.kind == LiteralKind::Boolean && _literal.value == trueString) || (_literal.kind == LiteralKind::Number && valueOfNumberLiteral(_literal) != u256(0)) ; } ), _expression); } bool StructuralSimplifier::expressionAlwaysFalse(Expression const& _expression) { return boost::apply_visitor(GenericFallbackReturnsVisitor( [&](Identifier const& _identifier) -> bool { if (auto expr = m_value[_identifier.name]) return expressionAlwaysFalse(*expr); return false; }, [](Literal const& _literal) -> bool { static YulString const falseString("false"); return (_literal.kind == LiteralKind::Boolean && _literal.value == falseString) || (_literal.kind == LiteralKind::Number && valueOfNumberLiteral(_literal) == u256(0)) ; } ), _expression); }