//===- ProfileSummary.h - Profile summary data structure. -------*- 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 // //===----------------------------------------------------------------------===// // // This file defines the profile summary data structure. // //===----------------------------------------------------------------------===// #ifndef LLVM_IR_PROFILESUMMARY_H #define LLVM_IR_PROFILESUMMARY_H #include #include #include #include namespace llvm { class LLVMContext; class Metadata; class raw_ostream; // The profile summary is one or more (Cutoff, MinCount, NumCounts) triplets. // The semantics of counts depend on the type of profile. For instrumentation // profile, counts are block counts and for sample profile, counts are // per-line samples. Given a target counts percentile, we compute the minimum // number of counts needed to reach this target and the minimum among these // counts. struct ProfileSummaryEntry { const uint32_t Cutoff; ///< The required percentile of counts. const uint64_t MinCount; ///< The minimum count for this percentile. const uint64_t NumCounts; ///< Number of counts >= the minimum count. ProfileSummaryEntry(uint32_t TheCutoff, uint64_t TheMinCount, uint64_t TheNumCounts) : Cutoff(TheCutoff), MinCount(TheMinCount), NumCounts(TheNumCounts) {} }; using SummaryEntryVector = std::vector; class ProfileSummary { public: enum Kind { PSK_Instr, PSK_CSInstr, PSK_Sample }; private: const Kind PSK; const SummaryEntryVector DetailedSummary; const uint64_t TotalCount, MaxCount, MaxInternalCount, MaxFunctionCount; const uint32_t NumCounts, NumFunctions; /// If 'Partial' is false, it means the profile being used to optimize /// a target is collected from the same target. /// If 'Partial' is true, it means the profile is for common/shared /// code. The common profile is usually merged from profiles collected /// from running other targets. bool Partial = false; /// This approximately represents the ratio of the number of profile counters /// of the program being built to the number of profile counters in the /// partial sample profile. When 'Partial' is false, it is undefined. This is /// currently only available under thin LTO mode. double PartialProfileRatio = 0.0; /// Return detailed summary as metadata. Metadata *getDetailedSummaryMD(LLVMContext &Context); public: static const int Scale = 1000000; ProfileSummary(Kind K, const SummaryEntryVector &DetailedSummary, uint64_t TotalCount, uint64_t MaxCount, uint64_t MaxInternalCount, uint64_t MaxFunctionCount, uint32_t NumCounts, uint32_t NumFunctions, bool Partial = false, double PartialProfileRatio = 0) : PSK(K), DetailedSummary(DetailedSummary), TotalCount(TotalCount), MaxCount(MaxCount), MaxInternalCount(MaxInternalCount), MaxFunctionCount(MaxFunctionCount), NumCounts(NumCounts), NumFunctions(NumFunctions), Partial(Partial), PartialProfileRatio(PartialProfileRatio) {} Kind getKind() const { return PSK; } /// Return summary information as metadata. Metadata *getMD(LLVMContext &Context, bool AddPartialField = true, bool AddPartialProfileRatioField = true); /// Construct profile summary from metdata. static ProfileSummary *getFromMD(Metadata *MD); const SummaryEntryVector &getDetailedSummary() { return DetailedSummary; } uint32_t getNumFunctions() const { return NumFunctions; } uint64_t getMaxFunctionCount() const { return MaxFunctionCount; } uint32_t getNumCounts() const { return NumCounts; } uint64_t getTotalCount() const { return TotalCount; } uint64_t getMaxCount() const { return MaxCount; } uint64_t getMaxInternalCount() const { return MaxInternalCount; } void setPartialProfile(bool PP) { Partial = PP; } bool isPartialProfile() const { return Partial; } double getPartialProfileRatio() const { return PartialProfileRatio; } void setPartialProfileRatio(double R) { assert(isPartialProfile() && "Unexpected when not partial profile"); PartialProfileRatio = R; } void printSummary(raw_ostream &OS) const; void printDetailedSummary(raw_ostream &OS) const; }; } // end namespace llvm #endif // LLVM_IR_PROFILESUMMARY_H