//=-- Profilesummary.cpp - Profile summary support --------------------------=// // // 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 contains support for converting profile summary data from/to // metadata. // //===----------------------------------------------------------------------===// #include "llvm/IR/ProfileSummary.h" #include "llvm/IR/Attributes.h" #include "llvm/IR/Constants.h" #include "llvm/IR/Function.h" #include "llvm/IR/Metadata.h" #include "llvm/IR/Type.h" #include "llvm/Support/Casting.h" #include "llvm/Support/Format.h" using namespace llvm; // Return an MDTuple with two elements. The first element is a string Key and // the second is a uint64_t Value. static Metadata *getKeyValMD(LLVMContext &Context, const char *Key, uint64_t Val) { Type *Int64Ty = Type::getInt64Ty(Context); Metadata *Ops[2] = {MDString::get(Context, Key), ConstantAsMetadata::get(ConstantInt::get(Int64Ty, Val))}; return MDTuple::get(Context, Ops); } static Metadata *getKeyFPValMD(LLVMContext &Context, const char *Key, double Val) { Type *DoubleTy = Type::getDoubleTy(Context); Metadata *Ops[2] = {MDString::get(Context, Key), ConstantAsMetadata::get(ConstantFP::get(DoubleTy, Val))}; return MDTuple::get(Context, Ops); } // Return an MDTuple with two elements. The first element is a string Key and // the second is a string Value. static Metadata *getKeyValMD(LLVMContext &Context, const char *Key, const char *Val) { Metadata *Ops[2] = {MDString::get(Context, Key), MDString::get(Context, Val)}; return MDTuple::get(Context, Ops); } // This returns an MDTuple representing the detiled summary. The tuple has two // elements: a string "DetailedSummary" and an MDTuple representing the value // of the detailed summary. Each element of this tuple is again an MDTuple whose // elements are the (Cutoff, MinCount, NumCounts) triplet of the // DetailedSummaryEntry. Metadata *ProfileSummary::getDetailedSummaryMD(LLVMContext &Context) { std::vector Entries; Type *Int32Ty = Type::getInt32Ty(Context); Type *Int64Ty = Type::getInt64Ty(Context); for (auto &Entry : DetailedSummary) { Metadata *EntryMD[3] = { ConstantAsMetadata::get(ConstantInt::get(Int32Ty, Entry.Cutoff)), ConstantAsMetadata::get(ConstantInt::get(Int64Ty, Entry.MinCount)), ConstantAsMetadata::get(ConstantInt::get(Int32Ty, Entry.NumCounts))}; Entries.push_back(MDTuple::get(Context, EntryMD)); } Metadata *Ops[2] = {MDString::get(Context, "DetailedSummary"), MDTuple::get(Context, Entries)}; return MDTuple::get(Context, Ops); } // This returns an MDTuple representing this ProfileSummary object. The first // entry of this tuple is another MDTuple of two elements: a string // "ProfileFormat" and a string representing the format ("InstrProf" or // "SampleProfile"). The rest of the elements of the outer MDTuple are specific // to the kind of profile summary as returned by getFormatSpecificMD. // IsPartialProfile is an optional field and \p AddPartialField will decide // whether to add a field for it. // PartialProfileRatio is an optional field and \p AddPartialProfileRatioField // will decide whether to add a field for it. Metadata *ProfileSummary::getMD(LLVMContext &Context, bool AddPartialField, bool AddPartialProfileRatioField) { const char *KindStr[3] = {"InstrProf", "CSInstrProf", "SampleProfile"}; SmallVector Components; Components.push_back(getKeyValMD(Context, "ProfileFormat", KindStr[PSK])); Components.push_back(getKeyValMD(Context, "TotalCount", getTotalCount())); Components.push_back(getKeyValMD(Context, "MaxCount", getMaxCount())); Components.push_back( getKeyValMD(Context, "MaxInternalCount", getMaxInternalCount())); Components.push_back( getKeyValMD(Context, "MaxFunctionCount", getMaxFunctionCount())); Components.push_back(getKeyValMD(Context, "NumCounts", getNumCounts())); Components.push_back(getKeyValMD(Context, "NumFunctions", getNumFunctions())); if (AddPartialField) Components.push_back( getKeyValMD(Context, "IsPartialProfile", isPartialProfile())); if (AddPartialProfileRatioField) Components.push_back(getKeyFPValMD(Context, "PartialProfileRatio", getPartialProfileRatio())); Components.push_back(getDetailedSummaryMD(Context)); return MDTuple::get(Context, Components); } // Get the value metadata for the input MD/Key. static ConstantAsMetadata *getValMD(MDTuple *MD, const char *Key) { if (!MD) return nullptr; if (MD->getNumOperands() != 2) return nullptr; MDString *KeyMD = dyn_cast(MD->getOperand(0)); ConstantAsMetadata *ValMD = dyn_cast(MD->getOperand(1)); if (!KeyMD || !ValMD) return nullptr; if (!KeyMD->getString().equals(Key)) return nullptr; return ValMD; } // Parse an MDTuple representing (Key, Val) pair. static bool getVal(MDTuple *MD, const char *Key, uint64_t &Val) { if (auto *ValMD = getValMD(MD, Key)) { Val = cast(ValMD->getValue())->getZExtValue(); return true; } return false; } static bool getVal(MDTuple *MD, const char *Key, double &Val) { if (auto *ValMD = getValMD(MD, Key)) { Val = cast(ValMD->getValue())->getValueAPF().convertToDouble(); return true; } return false; } // Check if an MDTuple represents a (Key, Val) pair. static bool isKeyValuePair(MDTuple *MD, const char *Key, const char *Val) { if (!MD || MD->getNumOperands() != 2) return false; MDString *KeyMD = dyn_cast(MD->getOperand(0)); MDString *ValMD = dyn_cast(MD->getOperand(1)); if (!KeyMD || !ValMD) return false; if (!KeyMD->getString().equals(Key) || !ValMD->getString().equals(Val)) return false; return true; } // Parse an MDTuple representing detailed summary. static bool getSummaryFromMD(MDTuple *MD, SummaryEntryVector &Summary) { if (!MD || MD->getNumOperands() != 2) return false; MDString *KeyMD = dyn_cast(MD->getOperand(0)); if (!KeyMD || !KeyMD->getString().equals("DetailedSummary")) return false; MDTuple *EntriesMD = dyn_cast(MD->getOperand(1)); if (!EntriesMD) return false; for (auto &&MDOp : EntriesMD->operands()) { MDTuple *EntryMD = dyn_cast(MDOp); if (!EntryMD || EntryMD->getNumOperands() != 3) return false; ConstantAsMetadata *Op0 = dyn_cast(EntryMD->getOperand(0)); ConstantAsMetadata *Op1 = dyn_cast(EntryMD->getOperand(1)); ConstantAsMetadata *Op2 = dyn_cast(EntryMD->getOperand(2)); if (!Op0 || !Op1 || !Op2) return false; Summary.emplace_back(cast(Op0->getValue())->getZExtValue(), cast(Op1->getValue())->getZExtValue(), cast(Op2->getValue())->getZExtValue()); } return true; } // Get the value of an optional field. Increment 'Idx' if it was present. Return // true if we can move onto the next field. template static bool getOptionalVal(MDTuple *Tuple, unsigned &Idx, const char *Key, ValueType &Value) { if (getVal(dyn_cast(Tuple->getOperand(Idx)), Key, Value)) { Idx++; // Need to make sure when the key is present, we won't step over the bound // of Tuple operand array. Since (non-optional) DetailedSummary always comes // last, the next entry in the tuple operand array must exist. return Idx < Tuple->getNumOperands(); } // It was absent, keep going. return true; } ProfileSummary *ProfileSummary::getFromMD(Metadata *MD) { MDTuple *Tuple = dyn_cast_or_null(MD); if (!Tuple || Tuple->getNumOperands() < 8 || Tuple->getNumOperands() > 10) return nullptr; unsigned I = 0; auto &FormatMD = Tuple->getOperand(I++); ProfileSummary::Kind SummaryKind; if (isKeyValuePair(dyn_cast_or_null(FormatMD), "ProfileFormat", "SampleProfile")) SummaryKind = PSK_Sample; else if (isKeyValuePair(dyn_cast_or_null(FormatMD), "ProfileFormat", "InstrProf")) SummaryKind = PSK_Instr; else if (isKeyValuePair(dyn_cast_or_null(FormatMD), "ProfileFormat", "CSInstrProf")) SummaryKind = PSK_CSInstr; else return nullptr; uint64_t NumCounts, TotalCount, NumFunctions, MaxFunctionCount, MaxCount, MaxInternalCount; if (!getVal(dyn_cast(Tuple->getOperand(I++)), "TotalCount", TotalCount)) return nullptr; if (!getVal(dyn_cast(Tuple->getOperand(I++)), "MaxCount", MaxCount)) return nullptr; if (!getVal(dyn_cast(Tuple->getOperand(I++)), "MaxInternalCount", MaxInternalCount)) return nullptr; if (!getVal(dyn_cast(Tuple->getOperand(I++)), "MaxFunctionCount", MaxFunctionCount)) return nullptr; if (!getVal(dyn_cast(Tuple->getOperand(I++)), "NumCounts", NumCounts)) return nullptr; if (!getVal(dyn_cast(Tuple->getOperand(I++)), "NumFunctions", NumFunctions)) return nullptr; // Optional fields. Need to initialize because the fields are optional. uint64_t IsPartialProfile = 0; if (!getOptionalVal(Tuple, I, "IsPartialProfile", IsPartialProfile)) return nullptr; double PartialProfileRatio = 0; if (!getOptionalVal(Tuple, I, "PartialProfileRatio", PartialProfileRatio)) return nullptr; SummaryEntryVector Summary; if (!getSummaryFromMD(dyn_cast(Tuple->getOperand(I++)), Summary)) return nullptr; return new ProfileSummary(SummaryKind, std::move(Summary), TotalCount, MaxCount, MaxInternalCount, MaxFunctionCount, NumCounts, NumFunctions, IsPartialProfile, PartialProfileRatio); } void ProfileSummary::printSummary(raw_ostream &OS) { OS << "Total functions: " << NumFunctions << "\n"; OS << "Maximum function count: " << MaxFunctionCount << "\n"; OS << "Maximum block count: " << MaxCount << "\n"; OS << "Total number of blocks: " << NumCounts << "\n"; OS << "Total count: " << TotalCount << "\n"; } void ProfileSummary::printDetailedSummary(raw_ostream &OS) { OS << "Detailed summary:\n"; for (auto Entry : DetailedSummary) { OS << Entry.NumCounts << " blocks with count >= " << Entry.MinCount << " account for " << format("%0.6g", (float)Entry.Cutoff / Scale * 100) << " percentage of the total counts.\n"; } }