/* 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 . */ /** * Optimiser suite that combines all steps and also provides the settings for the heuristics. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace std; using namespace dev; using namespace yul; void OptimiserSuite::run( Dialect const& _dialect, GasMeter const& _meter, Block& _ast, AsmAnalysisInfo const& _analysisInfo, bool _optimizeStackAllocation, set const& _externallyUsedIdentifiers ) { set reservedIdentifiers = _externallyUsedIdentifiers; Block ast = boost::get(Disambiguator(_dialect, _analysisInfo, reservedIdentifiers)(_ast)); VarDeclInitializer{}(ast); FunctionHoister{}(ast); BlockFlattener{}(ast); ForLoopInitRewriter{}(ast); DeadCodeEliminator{_dialect}(ast); FunctionGrouper{}(ast); EquivalentFunctionCombiner::run(ast); UnusedPruner::runUntilStabilised(_dialect, ast, reservedIdentifiers); BlockFlattener{}(ast); ControlFlowSimplifier{_dialect}(ast); StructuralSimplifier{_dialect}(ast); ControlFlowSimplifier{_dialect}(ast); BlockFlattener{}(ast); // None of the above can make stack problems worse. NameDispenser dispenser{_dialect, ast}; size_t codeSize = 0; for (size_t rounds = 0; rounds < 12; ++rounds) { { size_t newSize = CodeSize::codeSizeIncludingFunctions(ast); if (newSize == codeSize) break; codeSize = newSize; } { // Turn into SSA and simplify ExpressionSplitter{_dialect, dispenser}(ast); SSATransform::run(ast, dispenser); RedundantAssignEliminator::run(_dialect, ast); RedundantAssignEliminator::run(_dialect, ast); ExpressionSimplifier::run(_dialect, ast); CommonSubexpressionEliminator{_dialect}(ast); } { // still in SSA, perform structural simplification ControlFlowSimplifier{_dialect}(ast); StructuralSimplifier{_dialect}(ast); ControlFlowSimplifier{_dialect}(ast); BlockFlattener{}(ast); DeadCodeEliminator{_dialect}(ast); UnusedPruner::runUntilStabilised(_dialect, ast, reservedIdentifiers); } { // simplify again CommonSubexpressionEliminator{_dialect}(ast); UnusedPruner::runUntilStabilised(_dialect, ast, reservedIdentifiers); } { // reverse SSA SSAReverser::run(ast); CommonSubexpressionEliminator{_dialect}(ast); UnusedPruner::runUntilStabilised(_dialect, ast, reservedIdentifiers); ExpressionJoiner::run(ast); ExpressionJoiner::run(ast); } // should have good "compilability" property here. { // run functional expression inliner ExpressionInliner(_dialect, ast).run(); UnusedPruner::runUntilStabilised(_dialect, ast, reservedIdentifiers); } { // Turn into SSA again and simplify ExpressionSplitter{_dialect, dispenser}(ast); SSATransform::run(ast, dispenser); RedundantAssignEliminator::run(_dialect, ast); RedundantAssignEliminator::run(_dialect, ast); CommonSubexpressionEliminator{_dialect}(ast); } { // run full inliner FunctionGrouper{}(ast); EquivalentFunctionCombiner::run(ast); FullInliner{ast, dispenser}.run(); BlockFlattener{}(ast); } { // SSA plus simplify SSATransform::run(ast, dispenser); RedundantAssignEliminator::run(_dialect, ast); RedundantAssignEliminator::run(_dialect, ast); ExpressionSimplifier::run(_dialect, ast); StructuralSimplifier{_dialect}(ast); BlockFlattener{}(ast); DeadCodeEliminator{_dialect}(ast); ControlFlowSimplifier{_dialect}(ast); CommonSubexpressionEliminator{_dialect}(ast); SSATransform::run(ast, dispenser); RedundantAssignEliminator::run(_dialect, ast); RedundantAssignEliminator::run(_dialect, ast); UnusedPruner::runUntilStabilised(_dialect, ast, reservedIdentifiers); CommonSubexpressionEliminator{_dialect}(ast); } } // Make source short and pretty. ExpressionJoiner::run(ast); Rematerialiser::run(_dialect, ast); UnusedPruner::runUntilStabilised(_dialect, ast, reservedIdentifiers); ExpressionJoiner::run(ast); UnusedPruner::runUntilStabilised(_dialect, ast, reservedIdentifiers); ExpressionJoiner::run(ast); UnusedPruner::runUntilStabilised(_dialect, ast, reservedIdentifiers); SSAReverser::run(ast); CommonSubexpressionEliminator{_dialect}(ast); UnusedPruner::runUntilStabilised(_dialect, ast, reservedIdentifiers); ExpressionJoiner::run(ast); Rematerialiser::run(_dialect, ast); UnusedPruner::runUntilStabilised(_dialect, ast, reservedIdentifiers); // This is a tuning parameter, but actually just prevents infinite loops. size_t stackCompressorMaxIterations = 16; FunctionGrouper{}(ast); // We ignore the return value because we will get a much better error // message once we perform code generation. StackCompressor::run(_dialect, ast, _optimizeStackAllocation, stackCompressorMaxIterations); BlockFlattener{}(ast); DeadCodeEliminator{_dialect}(ast); ControlFlowSimplifier{_dialect}(ast); FunctionGrouper{}(ast); ConstantOptimiser{dynamic_cast(_dialect), _meter}(ast); VarNameCleaner{ast, _dialect, reservedIdentifiers}(ast); yul::AsmAnalyzer::analyzeStrictAssertCorrect(_dialect, ast); _ast = std::move(ast); }