/* 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 #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 #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 solidity; using namespace solidity::util; using namespace solidity::langutil; using namespace solidity::yul; using namespace solidity::yul::test; using namespace solidity::frontend; using namespace solidity::frontend::test; using namespace std; YulOptimizerTest::YulOptimizerTest(string const& _filename): EVMVersionRestrictedTestCase(_filename) { boost::filesystem::path path(_filename); if (path.empty() || std::next(path.begin()) == path.end() || std::next(std::next(path.begin())) == path.end()) BOOST_THROW_EXCEPTION(runtime_error("Filename path has to contain a directory: \"" + _filename + "\".")); m_optimizerStep = std::prev(std::prev(path.end()))->string(); m_source = m_reader.source(); auto dialectName = m_reader.stringSetting("dialect", "evm"); m_dialect = &dialect(dialectName, solidity::test::CommonOptions::get().evmVersion()); m_expectation = m_reader.simpleExpectations(); } TestCase::TestResult YulOptimizerTest::run(ostream& _stream, string const& _linePrefix, bool const _formatted) { if (!parse(_stream, _linePrefix, _formatted)) return TestResult::FatalError; soltestAssert(m_dialect, "Dialect not set."); updateContext(); if (m_optimizerStep == "disambiguator") disambiguate(); else if (m_optimizerStep == "nameDisplacer") { disambiguate(); NameDisplacer{ *m_nameDispenser, {"illegal1"_yulstring, "illegal2"_yulstring, "illegal3"_yulstring, "illegal4"_yulstring, "illegal5"_yulstring} }(*m_object->code); } else if (m_optimizerStep == "blockFlattener") { disambiguate(); BlockFlattener::run(*m_context, *m_object->code); } else if (m_optimizerStep == "constantOptimiser") { GasMeter meter(dynamic_cast(*m_dialect), false, 200); ConstantOptimiser{dynamic_cast(*m_dialect), meter}(*m_object->code); } else if (m_optimizerStep == "varDeclInitializer") VarDeclInitializer::run(*m_context, *m_object->code); else if (m_optimizerStep == "varNameCleaner") VarNameCleaner::run(*m_context, *m_object->code); else if (m_optimizerStep == "forLoopConditionIntoBody") { disambiguate(); ForLoopConditionIntoBody::run(*m_context, *m_object->code); } else if (m_optimizerStep == "forLoopInitRewriter") { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_object->code); } else if (m_optimizerStep == "commonSubexpressionEliminator") { disambiguate(); CommonSubexpressionEliminator::run(*m_context, *m_object->code); } else if (m_optimizerStep == "conditionalUnsimplifier") { disambiguate(); ConditionalUnsimplifier::run(*m_context, *m_object->code); } else if (m_optimizerStep == "conditionalSimplifier") { disambiguate(); ConditionalSimplifier::run(*m_context, *m_object->code); } else if (m_optimizerStep == "expressionSplitter") ExpressionSplitter::run(*m_context, *m_object->code); else if (m_optimizerStep == "expressionJoiner") { disambiguate(); ExpressionJoiner::run(*m_context, *m_object->code); } else if (m_optimizerStep == "splitJoin") { disambiguate(); ExpressionSplitter::run(*m_context, *m_object->code); ExpressionJoiner::run(*m_context, *m_object->code); ExpressionJoiner::run(*m_context, *m_object->code); } else if (m_optimizerStep == "functionGrouper") { disambiguate(); FunctionGrouper::run(*m_context, *m_object->code); } else if (m_optimizerStep == "functionHoister") { disambiguate(); FunctionHoister::run(*m_context, *m_object->code); } else if (m_optimizerStep == "expressionInliner") { disambiguate(); ExpressionInliner::run(*m_context, *m_object->code); } else if (m_optimizerStep == "fullInliner") { disambiguate(); FunctionHoister::run(*m_context, *m_object->code); FunctionGrouper::run(*m_context, *m_object->code); ExpressionSplitter::run(*m_context, *m_object->code); FullInliner::run(*m_context, *m_object->code); ExpressionJoiner::run(*m_context, *m_object->code); } else if (m_optimizerStep == "mainFunction") { disambiguate(); FunctionGrouper::run(*m_context, *m_object->code); MainFunction::run(*m_context, *m_object->code); } else if (m_optimizerStep == "rematerialiser") { disambiguate(); Rematerialiser::run(*m_context, *m_object->code); } else if (m_optimizerStep == "expressionSimplifier") { disambiguate(); ExpressionSimplifier::run(*m_context, *m_object->code); ExpressionSimplifier::run(*m_context, *m_object->code); ExpressionSimplifier::run(*m_context, *m_object->code); } else if (m_optimizerStep == "fullSimplify") { disambiguate(); ExpressionSplitter::run(*m_context, *m_object->code); ForLoopInitRewriter::run(*m_context, *m_object->code); CommonSubexpressionEliminator::run(*m_context, *m_object->code); ExpressionSimplifier::run(*m_context, *m_object->code); UnusedPruner::run(*m_context, *m_object->code); CircularReferencesPruner::run(*m_context, *m_object->code); DeadCodeEliminator::run(*m_context, *m_object->code); ExpressionJoiner::run(*m_context, *m_object->code); ExpressionJoiner::run(*m_context, *m_object->code); } else if (m_optimizerStep == "unusedPruner") { disambiguate(); UnusedPruner::run(*m_context, *m_object->code); } else if (m_optimizerStep == "circularReferencesPruner") { disambiguate(); FunctionHoister::run(*m_context, *m_object->code); CircularReferencesPruner::run(*m_context, *m_object->code); } else if (m_optimizerStep == "deadCodeEliminator") { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_object->code); DeadCodeEliminator::run(*m_context, *m_object->code); } else if (m_optimizerStep == "ssaTransform") { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_object->code); SSATransform::run(*m_context, *m_object->code); } else if (m_optimizerStep == "redundantAssignEliminator") { disambiguate(); RedundantAssignEliminator::run(*m_context, *m_object->code); } else if (m_optimizerStep == "ssaPlusCleanup") { disambiguate(); SSATransform::run(*m_context, *m_object->code); RedundantAssignEliminator::run(*m_context, *m_object->code); } else if (m_optimizerStep == "loadResolver") { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_object->code); ExpressionSplitter::run(*m_context, *m_object->code); CommonSubexpressionEliminator::run(*m_context, *m_object->code); ExpressionSimplifier::run(*m_context, *m_object->code); LoadResolver::run(*m_context, *m_object->code); UnusedPruner::run(*m_context, *m_object->code); ExpressionJoiner::run(*m_context, *m_object->code); ExpressionJoiner::run(*m_context, *m_object->code); } else if (m_optimizerStep == "loopInvariantCodeMotion") { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_object->code); LoopInvariantCodeMotion::run(*m_context, *m_object->code); } else if (m_optimizerStep == "controlFlowSimplifier") { disambiguate(); ControlFlowSimplifier::run(*m_context, *m_object->code); } else if (m_optimizerStep == "structuralSimplifier") { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_object->code); LiteralRematerialiser::run(*m_context, *m_object->code); StructuralSimplifier::run(*m_context, *m_object->code); } else if (m_optimizerStep == "equivalentFunctionCombiner") { disambiguate(); EquivalentFunctionCombiner::run(*m_context, *m_object->code); } else if (m_optimizerStep == "ssaReverser") { disambiguate(); SSAReverser::run(*m_context, *m_object->code); } else if (m_optimizerStep == "ssaAndBack") { disambiguate(); // apply SSA SSATransform::run(*m_context, *m_object->code); RedundantAssignEliminator::run(*m_context, *m_object->code); // reverse SSA SSAReverser::run(*m_context, *m_object->code); CommonSubexpressionEliminator::run(*m_context, *m_object->code); UnusedPruner::run(*m_context, *m_object->code); } else if (m_optimizerStep == "stackCompressor") { disambiguate(); FunctionGrouper::run(*m_context, *m_object->code); size_t maxIterations = 16; Object obj; obj.code = m_object->code; StackCompressor::run(*m_dialect, obj, true, maxIterations); m_object->code = obj.code; BlockFlattener::run(*m_context, *m_object->code); } else if (m_optimizerStep == "wordSizeTransform") { disambiguate(); ExpressionSplitter::run(*m_context, *m_object->code); WordSizeTransform::run(*m_dialect, *m_dialect, *m_object->code, *m_nameDispenser); } else if (m_optimizerStep == "fullSuite") { GasMeter meter(dynamic_cast(*m_dialect), false, 200); yul::Object obj; obj.code = m_object->code; obj.analysisInfo = m_analysisInfo; OptimiserSuite::run(*m_dialect, &meter, obj, true, solidity::frontend::OptimiserSettings::DefaultYulOptimiserSteps); } else { AnsiColorized(_stream, _formatted, {formatting::BOLD, formatting::RED}) << _linePrefix << "Invalid optimizer step: " << m_optimizerStep << endl; return TestResult::FatalError; } m_obtainedResult = "step: " + m_optimizerStep + "\n\n" + (m_object->subObjects.empty() ? AsmPrinter{ *m_dialect }(*m_object->code) : m_object->toString(m_dialect)) + "\n"; return checkResult(_stream, _linePrefix, _formatted); } bool YulOptimizerTest::parse(ostream& _stream, string const& _linePrefix, bool const _formatted) { ErrorList errors; soltestAssert(m_dialect, ""); std::tie(m_object, m_analysisInfo) = yul::test::parse(m_source, *m_dialect, errors); if (!m_object || !m_analysisInfo || !Error::containsOnlyWarnings(errors)) { AnsiColorized(_stream, _formatted, {formatting::BOLD, formatting::RED}) << _linePrefix << "Error parsing source." << endl; printErrors(_stream, errors); return false; } return true; } void YulOptimizerTest::disambiguate() { *m_object->code = std::get(Disambiguator(*m_dialect, *m_analysisInfo)(*m_object->code)); m_analysisInfo.reset(); updateContext(); } void YulOptimizerTest::updateContext() { m_nameDispenser = make_unique(*m_dialect, *m_object->code, m_reservedIdentifiers); m_context = make_unique(OptimiserStepContext{ *m_dialect, *m_nameDispenser, m_reservedIdentifiers }); } void YulOptimizerTest::printErrors(ostream& _stream, ErrorList const& _errors) { SourceReferenceFormatter formatter(_stream); for (auto const& error: _errors) formatter.printErrorInformation(*error); }