//===- llvm/IR/PassInstrumentation.h ----------------------*- C++ -*-===// // // 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 // //===----------------------------------------------------------------------===// /// \file /// /// This file defines the Pass Instrumentation classes that provide /// instrumentation points into the pass execution by PassManager. /// /// There are two main classes: /// - PassInstrumentation provides a set of instrumentation points for /// pass managers to call on. /// /// - PassInstrumentationCallbacks registers callbacks and provides access /// to them for PassInstrumentation. /// /// PassInstrumentation object is being used as a result of /// PassInstrumentationAnalysis (so it is intended to be easily copyable). /// /// Intended scheme of use for Pass Instrumentation is as follows: /// - register instrumentation callbacks in PassInstrumentationCallbacks /// instance. PassBuilder provides helper for that. /// /// - register PassInstrumentationAnalysis with all the PassManagers. /// PassBuilder handles that automatically when registering analyses. /// /// - Pass Manager requests PassInstrumentationAnalysis from analysis manager /// and gets PassInstrumentation as its result. /// /// - Pass Manager invokes PassInstrumentation entry points appropriately, /// passing StringRef identification ("name") of the pass currently being /// executed and IRUnit it works on. There can be different schemes of /// providing names in future, currently it is just a name() of the pass. /// /// - PassInstrumentation wraps address of IRUnit into llvm::Any and passes /// control to all the registered callbacks. Note that we specifically wrap /// 'const IRUnitT*' so as to avoid any accidental changes to IR in /// instrumenting callbacks. /// /// - Some instrumentation points (BeforePass) allow to control execution /// of a pass. For those callbacks returning false means pass will not be /// executed. /// //===----------------------------------------------------------------------===// #ifndef LLVM_IR_PASSINSTRUMENTATION_H #define LLVM_IR_PASSINSTRUMENTATION_H #include "llvm/ADT/Any.h" #include "llvm/ADT/FunctionExtras.h" #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/StringMap.h" #include namespace llvm { class PreservedAnalyses; class StringRef; /// This class manages callbacks registration, as well as provides a way for /// PassInstrumentation to pass control to the registered callbacks. class PassInstrumentationCallbacks { public: // Before/After callbacks accept IRUnits whenever appropriate, so they need // to take them as constant pointers, wrapped with llvm::Any. // For the case when IRUnit has been invalidated there is a different // callback to use - AfterPassInvalidated. // We call all BeforePassFuncs to determine if a pass should run or not. // BeforeNonSkippedPassFuncs are called only if the pass should run. // TODO: currently AfterPassInvalidated does not accept IRUnit, since passing // already invalidated IRUnit is unsafe. There are ways to handle invalidated // IRUnits in a safe way, and we might pursue that as soon as there is a // useful instrumentation that needs it. using BeforePassFunc = bool(StringRef, Any); using BeforeSkippedPassFunc = void(StringRef, Any); using BeforeNonSkippedPassFunc = void(StringRef, Any); using AfterPassFunc = void(StringRef, Any, const PreservedAnalyses &); using AfterPassInvalidatedFunc = void(StringRef, const PreservedAnalyses &); using BeforeAnalysisFunc = void(StringRef, Any); using AfterAnalysisFunc = void(StringRef, Any); public: PassInstrumentationCallbacks() {} /// Copying PassInstrumentationCallbacks is not intended. PassInstrumentationCallbacks(const PassInstrumentationCallbacks &) = delete; void operator=(const PassInstrumentationCallbacks &) = delete; template void registerShouldRunOptionalPassCallback(CallableT C) { ShouldRunOptionalPassCallbacks.emplace_back(std::move(C)); } template void registerBeforeSkippedPassCallback(CallableT C) { BeforeSkippedPassCallbacks.emplace_back(std::move(C)); } template void registerBeforeNonSkippedPassCallback(CallableT C) { BeforeNonSkippedPassCallbacks.emplace_back(std::move(C)); } template void registerAfterPassCallback(CallableT C) { AfterPassCallbacks.emplace_back(std::move(C)); } template void registerAfterPassInvalidatedCallback(CallableT C) { AfterPassInvalidatedCallbacks.emplace_back(std::move(C)); } template void registerBeforeAnalysisCallback(CallableT C) { BeforeAnalysisCallbacks.emplace_back(std::move(C)); } template void registerAfterAnalysisCallback(CallableT C) { AfterAnalysisCallbacks.emplace_back(std::move(C)); } /// Add a class name to pass name mapping for use by pass instrumentation. void addClassToPassName(StringRef ClassName, StringRef PassName); /// Get the pass name for a given pass class name. StringRef getPassNameForClassName(StringRef ClassName); private: friend class PassInstrumentation; /// These are only run on passes that are not required. They return false when /// an optional pass should be skipped. SmallVector, 4> ShouldRunOptionalPassCallbacks; /// These are run on passes that are skipped. SmallVector, 4> BeforeSkippedPassCallbacks; /// These are run on passes that are about to be run. SmallVector, 4> BeforeNonSkippedPassCallbacks; /// These are run on passes that have just run. SmallVector, 4> AfterPassCallbacks; /// These are run passes that have just run on invalidated IR. SmallVector, 4> AfterPassInvalidatedCallbacks; /// These are run on analyses that are about to be run. SmallVector, 4> BeforeAnalysisCallbacks; /// These are run on analyses that have been run. SmallVector, 4> AfterAnalysisCallbacks; StringMap ClassToPassName; }; /// This class provides instrumentation entry points for the Pass Manager, /// doing calls to callbacks registered in PassInstrumentationCallbacks. class PassInstrumentation { PassInstrumentationCallbacks *Callbacks; // Template argument PassT of PassInstrumentation::runBeforePass could be two // kinds: (1) a regular pass inherited from PassInfoMixin (happen when // creating a adaptor pass for a regular pass); (2) a type-erased PassConcept // created from (1). Here we want to make case (1) skippable unconditionally // since they are regular passes. We call PassConcept::isRequired to decide // for case (2). template using has_required_t = decltype(std::declval().isRequired()); template static std::enable_if_t::value, bool> isRequired(const PassT &Pass) { return Pass.isRequired(); } template static std::enable_if_t::value, bool> isRequired(const PassT &Pass) { return false; } public: /// Callbacks object is not owned by PassInstrumentation, its life-time /// should at least match the life-time of corresponding /// PassInstrumentationAnalysis (which usually is till the end of current /// compilation). PassInstrumentation(PassInstrumentationCallbacks *CB = nullptr) : Callbacks(CB) {} /// BeforePass instrumentation point - takes \p Pass instance to be executed /// and constant reference to IR it operates on. \Returns true if pass is /// allowed to be executed. These are only run on optional pass since required /// passes must always be run. This allows these callbacks to print info when /// they want to skip a pass. template bool runBeforePass(const PassT &Pass, const IRUnitT &IR) const { if (!Callbacks) return true; bool ShouldRun = true; if (!isRequired(Pass)) { for (auto &C : Callbacks->ShouldRunOptionalPassCallbacks) ShouldRun &= C(Pass.name(), llvm::Any(&IR)); } if (ShouldRun) { for (auto &C : Callbacks->BeforeNonSkippedPassCallbacks) C(Pass.name(), llvm::Any(&IR)); } else { for (auto &C : Callbacks->BeforeSkippedPassCallbacks) C(Pass.name(), llvm::Any(&IR)); } return ShouldRun; } /// AfterPass instrumentation point - takes \p Pass instance that has /// just been executed and constant reference to \p IR it operates on. /// \p IR is guaranteed to be valid at this point. template void runAfterPass(const PassT &Pass, const IRUnitT &IR, const PreservedAnalyses &PA) const { if (Callbacks) for (auto &C : Callbacks->AfterPassCallbacks) C(Pass.name(), llvm::Any(&IR), PA); } /// AfterPassInvalidated instrumentation point - takes \p Pass instance /// that has just been executed. For use when IR has been invalidated /// by \p Pass execution. template void runAfterPassInvalidated(const PassT &Pass, const PreservedAnalyses &PA) const { if (Callbacks) for (auto &C : Callbacks->AfterPassInvalidatedCallbacks) C(Pass.name(), PA); } /// BeforeAnalysis instrumentation point - takes \p Analysis instance /// to be executed and constant reference to IR it operates on. template void runBeforeAnalysis(const PassT &Analysis, const IRUnitT &IR) const { if (Callbacks) for (auto &C : Callbacks->BeforeAnalysisCallbacks) C(Analysis.name(), llvm::Any(&IR)); } /// AfterAnalysis instrumentation point - takes \p Analysis instance /// that has just been executed and constant reference to IR it operated on. template void runAfterAnalysis(const PassT &Analysis, const IRUnitT &IR) const { if (Callbacks) for (auto &C : Callbacks->AfterAnalysisCallbacks) C(Analysis.name(), llvm::Any(&IR)); } /// Handle invalidation from the pass manager when PassInstrumentation /// is used as the result of PassInstrumentationAnalysis. /// /// On attempt to invalidate just return false. There is nothing to become /// invalid here. template bool invalidate(IRUnitT &, const class llvm::PreservedAnalyses &, ExtraArgsT...) { return false; } template void pushBeforeNonSkippedPassCallback(CallableT C) { if (Callbacks) Callbacks->BeforeNonSkippedPassCallbacks.emplace_back(std::move(C)); } void popBeforeNonSkippedPassCallback() { if (Callbacks) Callbacks->BeforeNonSkippedPassCallbacks.pop_back(); } }; bool isSpecialPass(StringRef PassID, const std::vector &Specials); } // namespace llvm #endif