/* 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 . */ // SPDX-License-Identifier: GPL-3.0 /** * Specific AST walkers that collect semantical facts. */ #include #include #include #include #include #include #include #include #include using namespace std; using namespace solidity; using namespace solidity::yul; SideEffectsCollector::SideEffectsCollector( Dialect const& _dialect, Expression const& _expression, map const* _functionSideEffects ): SideEffectsCollector(_dialect, _functionSideEffects) { visit(_expression); } SideEffectsCollector::SideEffectsCollector(Dialect const& _dialect, Statement const& _statement): SideEffectsCollector(_dialect) { visit(_statement); } SideEffectsCollector::SideEffectsCollector( Dialect const& _dialect, Block const& _ast, map const* _functionSideEffects ): SideEffectsCollector(_dialect, _functionSideEffects) { operator()(_ast); } SideEffectsCollector::SideEffectsCollector( Dialect const& _dialect, ForLoop const& _ast, map const* _functionSideEffects ): SideEffectsCollector(_dialect, _functionSideEffects) { operator()(_ast); } void SideEffectsCollector::operator()(FunctionCall const& _functionCall) { ASTWalker::operator()(_functionCall); YulString functionName = _functionCall.functionName.name; if (BuiltinFunction const* f = m_dialect.builtin(functionName)) m_sideEffects += f->sideEffects; else if (m_functionSideEffects && m_functionSideEffects->count(functionName)) m_sideEffects += m_functionSideEffects->at(functionName); else m_sideEffects += SideEffects::worst(); } bool MSizeFinder::containsMSize(Dialect const& _dialect, Block const& _ast) { MSizeFinder finder(_dialect); finder(_ast); return finder.m_msizeFound; } void MSizeFinder::operator()(FunctionCall const& _functionCall) { ASTWalker::operator()(_functionCall); if (BuiltinFunction const* f = m_dialect.builtin(_functionCall.functionName.name)) if (f->isMSize) m_msizeFound = true; } map SideEffectsPropagator::sideEffects( Dialect const& _dialect, CallGraph const& _directCallGraph ) { // Any loop currently makes a function non-movable, because // it could be a non-terminating loop. // The same is true for any function part of a call cycle. // In the future, we should refine that, because the property // is actually a bit different from "not movable". map ret; for (auto const& function: _directCallGraph.functionsWithLoops + _directCallGraph.recursiveFunctions()) { ret[function].movable = false; ret[function].canBeRemoved = false; ret[function].canBeRemovedIfNoMSize = false; ret[function].cannotLoop = false; } for (auto const& call: _directCallGraph.functionCalls) { YulString funName = call.first; SideEffects sideEffects; auto _visit = [&, visited = std::set{}](YulString _function, auto&& _recurse) mutable { if (!visited.insert(_function).second) return; if (sideEffects == SideEffects::worst()) return; if (BuiltinFunction const* f = _dialect.builtin(_function)) sideEffects += f->sideEffects; else { if (ret.count(_function)) sideEffects += ret[_function]; for (YulString callee: _directCallGraph.functionCalls.at(_function)) _recurse(callee, _recurse); } }; for (auto const& _v: call.second) _visit(_v, _visit); ret[funName] += sideEffects; } return ret; } MovableChecker::MovableChecker(Dialect const& _dialect, Expression const& _expression): MovableChecker(_dialect) { visit(_expression); } void MovableChecker::operator()(Identifier const& _identifier) { SideEffectsCollector::operator()(_identifier); m_variableReferences.emplace(_identifier.name); } void MovableChecker::visit(Statement const&) { assertThrow(false, OptimizerException, "Movability for statement requested."); } pair TerminationFinder::firstUnconditionalControlFlowChange( vector const& _statements ) { for (size_t i = 0; i < _statements.size(); ++i) { ControlFlow controlFlow = controlFlowKind(_statements[i]); if (controlFlow != ControlFlow::FlowOut) return {controlFlow, i}; } return {ControlFlow::FlowOut, numeric_limits::max()}; } TerminationFinder::ControlFlow TerminationFinder::controlFlowKind(Statement const& _statement) { if ( holds_alternative(_statement) && std::get(_statement).value && containsNonContinuingFunctionCall(*std::get(_statement).value) ) return ControlFlow::Terminate; else if ( holds_alternative(_statement) && containsNonContinuingFunctionCall(*std::get(_statement).value) ) return ControlFlow::Terminate; else if ( holds_alternative(_statement) && containsNonContinuingFunctionCall(std::get(_statement).expression) ) return ControlFlow::Terminate; else if (holds_alternative(_statement)) return ControlFlow::Break; else if (holds_alternative(_statement)) return ControlFlow::Continue; else if (holds_alternative(_statement)) return ControlFlow::Leave; else return ControlFlow::FlowOut; } bool TerminationFinder::containsNonContinuingFunctionCall(Expression const& _expr) { if (auto functionCall = std::get_if(&_expr)) { for (auto const& arg: functionCall->arguments) if (containsNonContinuingFunctionCall(arg)) return true; if (auto builtin = m_dialect.builtin(functionCall->functionName.name)) return !builtin->controlFlowSideEffects.canContinue; else if (m_functionSideEffects && m_functionSideEffects->count(functionCall->functionName.name)) return !m_functionSideEffects->at(functionCall->functionName.name).canContinue; } return false; }