//===- DeltaManager.cpp - Runs Delta Passes to reduce Input ---------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file calls each specialized Delta pass in order to reduce the input IR // file. // //===----------------------------------------------------------------------===// #include "DeltaManager.h" #include "DeltaPass.h" #include "TestRunner.h" #include "deltas/ReduceAliases.h" #include "deltas/ReduceArguments.h" #include "deltas/ReduceAttributes.h" #include "deltas/ReduceBasicBlocks.h" #include "deltas/ReduceDIMetadata.h" #include "deltas/ReduceDbgRecords.h" #include "deltas/ReduceDistinctMetadata.h" #include "deltas/ReduceFunctionBodies.h" #include "deltas/ReduceFunctions.h" #include "deltas/ReduceGlobalObjects.h" #include "deltas/ReduceGlobalValues.h" #include "deltas/ReduceGlobalVarInitializers.h" #include "deltas/ReduceGlobalVars.h" #include "deltas/ReduceIRReferences.h" #include "deltas/ReduceInstructionFlags.h" #include "deltas/ReduceInstructionFlagsMIR.h" #include "deltas/ReduceInstructions.h" #include "deltas/ReduceInstructionsMIR.h" #include "deltas/ReduceInvokes.h" #include "deltas/ReduceMemoryOperations.h" #include "deltas/ReduceMetadata.h" #include "deltas/ReduceModuleData.h" #include "deltas/ReduceOpcodes.h" #include "deltas/ReduceOperandBundles.h" #include "deltas/ReduceOperands.h" #include "deltas/ReduceOperandsSkip.h" #include "deltas/ReduceOperandsToArgs.h" #include "deltas/ReduceRegisterDefs.h" #include "deltas/ReduceRegisterMasks.h" #include "deltas/ReduceRegisterUses.h" #include "deltas/ReduceSpecialGlobals.h" #include "deltas/ReduceTargetFeaturesAttr.h" #include "deltas/ReduceUsingSimplifyCFG.h" #include "deltas/ReduceValuesToReturn.h" #include "deltas/ReduceVirtualRegisters.h" #include "deltas/RunIRPasses.h" #include "deltas/SimplifyInstructions.h" #include "deltas/StripDebugInfo.h" #include "llvm/ADT/SmallSet.h" #include "llvm/Support/CommandLine.h" using namespace llvm; using SmallStringSet = SmallSet; extern cl::OptionCategory LLVMReduceOptions; static cl::list DeltaPasses("delta-passes", cl::desc("Delta passes to run, separated by commas. By " "default, run all delta passes."), cl::cat(LLVMReduceOptions), cl::CommaSeparated); static cl::list SkipDeltaPasses("skip-delta-passes", cl::desc("Delta passes to not run, separated by commas. By " "default, run all delta passes."), cl::cat(LLVMReduceOptions), cl::CommaSeparated); // Generate two separate Pass lists: IR_Passes and MIR_Passes static const DeltaPass IR_Passes[] = { #undef DELTA_PASS_IR #undef DELTA_PASS_MIR #define DELTA_PASS_IR(NAME, FUNC, DESC) {NAME, FUNC, DESC}, #include "DeltaPasses.def" #undef DELTA_PASS_IR }; static const DeltaPass MIR_Passes[] = { #undef DELTA_PASS_IR #undef DELTA_PASS_MIR #define DELTA_PASS_MIR(NAME, FUNC, DESC) {NAME, FUNC, DESC}, #include "DeltaPasses.def" #undef DELTA_PASS_MIR }; static void runAllDeltaPasses(TestRunner &Tester, const SmallStringSet &SkipPass) { if (Tester.getProgram().isMIR()) { for (const DeltaPass &Pass : MIR_Passes) { if (!SkipPass.count(Pass.Name)) { runDeltaPass(Tester, Pass); } } } else { for (const DeltaPass &Pass : IR_Passes) { if (!SkipPass.count(Pass.Name)) { runDeltaPass(Tester, Pass); } } } } static void runDeltaPassName(TestRunner &Tester, StringRef PassName) { if (Tester.getProgram().isMIR()) { for (const DeltaPass &Pass : MIR_Passes) { if (PassName == Pass.Name) { runDeltaPass(Tester, Pass); return; } } } else { for (const DeltaPass &Pass : IR_Passes) { if (PassName == Pass.Name) { runDeltaPass(Tester, Pass); return; } } } // We should have errored on unrecognized passes before trying to run // anything. llvm_unreachable("unknown delta pass"); } void llvm::printDeltaPasses(raw_ostream &OS) { OS << "Delta passes (pass to `--delta-passes=` as a comma separated list):\n"; OS << " IR:\n"; for (const DeltaPass &Pass : IR_Passes) { OS << " " << Pass.Name << '\n'; } OS << " MIR:\n"; for (const DeltaPass &Pass : MIR_Passes) { OS << " " << Pass.Name << '\n'; } } // Built a set of available delta passes. static void collectPassNames(const TestRunner &Tester, SmallStringSet &NameSet) { for (const DeltaPass &Pass : MIR_Passes) { NameSet.insert(Pass.Name); } for (const DeltaPass &Pass : IR_Passes) { NameSet.insert(Pass.Name); } } /// Verify all requested or skipped passes are valid names, and return them in a /// set. static SmallStringSet handlePassList(const TestRunner &Tester, const cl::list &PassList) { SmallStringSet AllPasses; collectPassNames(Tester, AllPasses); SmallStringSet PassSet; for (StringRef PassName : PassList) { if (!AllPasses.count(PassName)) { errs() << "unknown pass \"" << PassName << "\"\n"; exit(1); } PassSet.insert(PassName); } return PassSet; } void llvm::runDeltaPasses(TestRunner &Tester, int MaxPassIterations) { uint64_t OldComplexity = Tester.getProgram().getComplexityScore(); SmallStringSet RunPassSet, SkipPassSet; if (!DeltaPasses.empty()) RunPassSet = handlePassList(Tester, DeltaPasses); if (!SkipDeltaPasses.empty()) SkipPassSet = handlePassList(Tester, SkipDeltaPasses); for (int Iter = 0; Iter < MaxPassIterations; ++Iter) { if (DeltaPasses.empty()) { runAllDeltaPasses(Tester, SkipPassSet); } else { for (StringRef PassName : DeltaPasses) { if (!SkipPassSet.count(PassName)) runDeltaPassName(Tester, PassName); } } uint64_t NewComplexity = Tester.getProgram().getComplexityScore(); if (NewComplexity >= OldComplexity) break; OldComplexity = NewComplexity; } }