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- //===--- CodeGenPGO.cpp - PGO Instrumentation for LLVM CodeGen --*- 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
- //
- //===----------------------------------------------------------------------===//
- //
- // Instrumentation-based profile-guided optimization
- //
- //===----------------------------------------------------------------------===//
- #include "CodeGenPGO.h"
- #include "CodeGenFunction.h"
- #include "CoverageMappingGen.h"
- #include "clang/AST/RecursiveASTVisitor.h"
- #include "clang/AST/StmtVisitor.h"
- #include "llvm/IR/Intrinsics.h"
- #include "llvm/IR/MDBuilder.h"
- #include "llvm/Support/CommandLine.h"
- #include "llvm/Support/Endian.h"
- #include "llvm/Support/FileSystem.h"
- #include "llvm/Support/MD5.h"
- static llvm::cl::opt<bool>
- EnableValueProfiling("enable-value-profiling", llvm::cl::ZeroOrMore,
- llvm::cl::desc("Enable value profiling"),
- llvm::cl::Hidden, llvm::cl::init(false));
- using namespace clang;
- using namespace CodeGen;
- void CodeGenPGO::setFuncName(StringRef Name,
- llvm::GlobalValue::LinkageTypes Linkage) {
- llvm::IndexedInstrProfReader *PGOReader = CGM.getPGOReader();
- FuncName = llvm::getPGOFuncName(
- Name, Linkage, CGM.getCodeGenOpts().MainFileName,
- PGOReader ? PGOReader->getVersion() : llvm::IndexedInstrProf::Version);
- // If we're generating a profile, create a variable for the name.
- if (CGM.getCodeGenOpts().hasProfileClangInstr())
- FuncNameVar = llvm::createPGOFuncNameVar(CGM.getModule(), Linkage, FuncName);
- }
- void CodeGenPGO::setFuncName(llvm::Function *Fn) {
- setFuncName(Fn->getName(), Fn->getLinkage());
- // Create PGOFuncName meta data.
- llvm::createPGOFuncNameMetadata(*Fn, FuncName);
- }
- /// The version of the PGO hash algorithm.
- enum PGOHashVersion : unsigned {
- PGO_HASH_V1,
- PGO_HASH_V2,
- PGO_HASH_V3,
- // Keep this set to the latest hash version.
- PGO_HASH_LATEST = PGO_HASH_V3
- };
- namespace {
- /// Stable hasher for PGO region counters.
- ///
- /// PGOHash produces a stable hash of a given function's control flow.
- ///
- /// Changing the output of this hash will invalidate all previously generated
- /// profiles -- i.e., don't do it.
- ///
- /// \note When this hash does eventually change (years?), we still need to
- /// support old hashes. We'll need to pull in the version number from the
- /// profile data format and use the matching hash function.
- class PGOHash {
- uint64_t Working;
- unsigned Count;
- PGOHashVersion HashVersion;
- llvm::MD5 MD5;
- static const int NumBitsPerType = 6;
- static const unsigned NumTypesPerWord = sizeof(uint64_t) * 8 / NumBitsPerType;
- static const unsigned TooBig = 1u << NumBitsPerType;
- public:
- /// Hash values for AST nodes.
- ///
- /// Distinct values for AST nodes that have region counters attached.
- ///
- /// These values must be stable. All new members must be added at the end,
- /// and no members should be removed. Changing the enumeration value for an
- /// AST node will affect the hash of every function that contains that node.
- enum HashType : unsigned char {
- None = 0,
- LabelStmt = 1,
- WhileStmt,
- DoStmt,
- ForStmt,
- CXXForRangeStmt,
- ObjCForCollectionStmt,
- SwitchStmt,
- CaseStmt,
- DefaultStmt,
- IfStmt,
- CXXTryStmt,
- CXXCatchStmt,
- ConditionalOperator,
- BinaryOperatorLAnd,
- BinaryOperatorLOr,
- BinaryConditionalOperator,
- // The preceding values are available with PGO_HASH_V1.
- EndOfScope,
- IfThenBranch,
- IfElseBranch,
- GotoStmt,
- IndirectGotoStmt,
- BreakStmt,
- ContinueStmt,
- ReturnStmt,
- ThrowExpr,
- UnaryOperatorLNot,
- BinaryOperatorLT,
- BinaryOperatorGT,
- BinaryOperatorLE,
- BinaryOperatorGE,
- BinaryOperatorEQ,
- BinaryOperatorNE,
- // The preceding values are available since PGO_HASH_V2.
- // Keep this last. It's for the static assert that follows.
- LastHashType
- };
- static_assert(LastHashType <= TooBig, "Too many types in HashType");
- PGOHash(PGOHashVersion HashVersion)
- : Working(0), Count(0), HashVersion(HashVersion) {}
- void combine(HashType Type);
- uint64_t finalize();
- PGOHashVersion getHashVersion() const { return HashVersion; }
- };
- const int PGOHash::NumBitsPerType;
- const unsigned PGOHash::NumTypesPerWord;
- const unsigned PGOHash::TooBig;
- /// Get the PGO hash version used in the given indexed profile.
- static PGOHashVersion getPGOHashVersion(llvm::IndexedInstrProfReader *PGOReader,
- CodeGenModule &CGM) {
- if (PGOReader->getVersion() <= 4)
- return PGO_HASH_V1;
- if (PGOReader->getVersion() <= 5)
- return PGO_HASH_V2;
- return PGO_HASH_V3;
- }
- /// A RecursiveASTVisitor that fills a map of statements to PGO counters.
- struct MapRegionCounters : public RecursiveASTVisitor<MapRegionCounters> {
- using Base = RecursiveASTVisitor<MapRegionCounters>;
- /// The next counter value to assign.
- unsigned NextCounter;
- /// The function hash.
- PGOHash Hash;
- /// The map of statements to counters.
- llvm::DenseMap<const Stmt *, unsigned> &CounterMap;
- /// The profile version.
- uint64_t ProfileVersion;
- MapRegionCounters(PGOHashVersion HashVersion, uint64_t ProfileVersion,
- llvm::DenseMap<const Stmt *, unsigned> &CounterMap)
- : NextCounter(0), Hash(HashVersion), CounterMap(CounterMap),
- ProfileVersion(ProfileVersion) {}
- // Blocks and lambdas are handled as separate functions, so we need not
- // traverse them in the parent context.
- bool TraverseBlockExpr(BlockExpr *BE) { return true; }
- bool TraverseLambdaExpr(LambdaExpr *LE) {
- // Traverse the captures, but not the body.
- for (auto C : zip(LE->captures(), LE->capture_inits()))
- TraverseLambdaCapture(LE, &std::get<0>(C), std::get<1>(C));
- return true;
- }
- bool TraverseCapturedStmt(CapturedStmt *CS) { return true; }
- bool VisitDecl(const Decl *D) {
- switch (D->getKind()) {
- default:
- break;
- case Decl::Function:
- case Decl::CXXMethod:
- case Decl::CXXConstructor:
- case Decl::CXXDestructor:
- case Decl::CXXConversion:
- case Decl::ObjCMethod:
- case Decl::Block:
- case Decl::Captured:
- CounterMap[D->getBody()] = NextCounter++;
- break;
- }
- return true;
- }
- /// If \p S gets a fresh counter, update the counter mappings. Return the
- /// V1 hash of \p S.
- PGOHash::HashType updateCounterMappings(Stmt *S) {
- auto Type = getHashType(PGO_HASH_V1, S);
- if (Type != PGOHash::None)
- CounterMap[S] = NextCounter++;
- return Type;
- }
- /// The RHS of all logical operators gets a fresh counter in order to count
- /// how many times the RHS evaluates to true or false, depending on the
- /// semantics of the operator. This is only valid for ">= v7" of the profile
- /// version so that we facilitate backward compatibility.
- bool VisitBinaryOperator(BinaryOperator *S) {
- if (ProfileVersion >= llvm::IndexedInstrProf::Version7)
- if (S->isLogicalOp() &&
- CodeGenFunction::isInstrumentedCondition(S->getRHS()))
- CounterMap[S->getRHS()] = NextCounter++;
- return Base::VisitBinaryOperator(S);
- }
- /// Include \p S in the function hash.
- bool VisitStmt(Stmt *S) {
- auto Type = updateCounterMappings(S);
- if (Hash.getHashVersion() != PGO_HASH_V1)
- Type = getHashType(Hash.getHashVersion(), S);
- if (Type != PGOHash::None)
- Hash.combine(Type);
- return true;
- }
- bool TraverseIfStmt(IfStmt *If) {
- // If we used the V1 hash, use the default traversal.
- if (Hash.getHashVersion() == PGO_HASH_V1)
- return Base::TraverseIfStmt(If);
- // Otherwise, keep track of which branch we're in while traversing.
- VisitStmt(If);
- for (Stmt *CS : If->children()) {
- if (!CS)
- continue;
- if (CS == If->getThen())
- Hash.combine(PGOHash::IfThenBranch);
- else if (CS == If->getElse())
- Hash.combine(PGOHash::IfElseBranch);
- TraverseStmt(CS);
- }
- Hash.combine(PGOHash::EndOfScope);
- return true;
- }
- // If the statement type \p N is nestable, and its nesting impacts profile
- // stability, define a custom traversal which tracks the end of the statement
- // in the hash (provided we're not using the V1 hash).
- #define DEFINE_NESTABLE_TRAVERSAL(N) \
- bool Traverse##N(N *S) { \
- Base::Traverse##N(S); \
- if (Hash.getHashVersion() != PGO_HASH_V1) \
- Hash.combine(PGOHash::EndOfScope); \
- return true; \
- }
- DEFINE_NESTABLE_TRAVERSAL(WhileStmt)
- DEFINE_NESTABLE_TRAVERSAL(DoStmt)
- DEFINE_NESTABLE_TRAVERSAL(ForStmt)
- DEFINE_NESTABLE_TRAVERSAL(CXXForRangeStmt)
- DEFINE_NESTABLE_TRAVERSAL(ObjCForCollectionStmt)
- DEFINE_NESTABLE_TRAVERSAL(CXXTryStmt)
- DEFINE_NESTABLE_TRAVERSAL(CXXCatchStmt)
- /// Get version \p HashVersion of the PGO hash for \p S.
- PGOHash::HashType getHashType(PGOHashVersion HashVersion, const Stmt *S) {
- switch (S->getStmtClass()) {
- default:
- break;
- case Stmt::LabelStmtClass:
- return PGOHash::LabelStmt;
- case Stmt::WhileStmtClass:
- return PGOHash::WhileStmt;
- case Stmt::DoStmtClass:
- return PGOHash::DoStmt;
- case Stmt::ForStmtClass:
- return PGOHash::ForStmt;
- case Stmt::CXXForRangeStmtClass:
- return PGOHash::CXXForRangeStmt;
- case Stmt::ObjCForCollectionStmtClass:
- return PGOHash::ObjCForCollectionStmt;
- case Stmt::SwitchStmtClass:
- return PGOHash::SwitchStmt;
- case Stmt::CaseStmtClass:
- return PGOHash::CaseStmt;
- case Stmt::DefaultStmtClass:
- return PGOHash::DefaultStmt;
- case Stmt::IfStmtClass:
- return PGOHash::IfStmt;
- case Stmt::CXXTryStmtClass:
- return PGOHash::CXXTryStmt;
- case Stmt::CXXCatchStmtClass:
- return PGOHash::CXXCatchStmt;
- case Stmt::ConditionalOperatorClass:
- return PGOHash::ConditionalOperator;
- case Stmt::BinaryConditionalOperatorClass:
- return PGOHash::BinaryConditionalOperator;
- case Stmt::BinaryOperatorClass: {
- const BinaryOperator *BO = cast<BinaryOperator>(S);
- if (BO->getOpcode() == BO_LAnd)
- return PGOHash::BinaryOperatorLAnd;
- if (BO->getOpcode() == BO_LOr)
- return PGOHash::BinaryOperatorLOr;
- if (HashVersion >= PGO_HASH_V2) {
- switch (BO->getOpcode()) {
- default:
- break;
- case BO_LT:
- return PGOHash::BinaryOperatorLT;
- case BO_GT:
- return PGOHash::BinaryOperatorGT;
- case BO_LE:
- return PGOHash::BinaryOperatorLE;
- case BO_GE:
- return PGOHash::BinaryOperatorGE;
- case BO_EQ:
- return PGOHash::BinaryOperatorEQ;
- case BO_NE:
- return PGOHash::BinaryOperatorNE;
- }
- }
- break;
- }
- }
- if (HashVersion >= PGO_HASH_V2) {
- switch (S->getStmtClass()) {
- default:
- break;
- case Stmt::GotoStmtClass:
- return PGOHash::GotoStmt;
- case Stmt::IndirectGotoStmtClass:
- return PGOHash::IndirectGotoStmt;
- case Stmt::BreakStmtClass:
- return PGOHash::BreakStmt;
- case Stmt::ContinueStmtClass:
- return PGOHash::ContinueStmt;
- case Stmt::ReturnStmtClass:
- return PGOHash::ReturnStmt;
- case Stmt::CXXThrowExprClass:
- return PGOHash::ThrowExpr;
- case Stmt::UnaryOperatorClass: {
- const UnaryOperator *UO = cast<UnaryOperator>(S);
- if (UO->getOpcode() == UO_LNot)
- return PGOHash::UnaryOperatorLNot;
- break;
- }
- }
- }
- return PGOHash::None;
- }
- };
- /// A StmtVisitor that propagates the raw counts through the AST and
- /// records the count at statements where the value may change.
- struct ComputeRegionCounts : public ConstStmtVisitor<ComputeRegionCounts> {
- /// PGO state.
- CodeGenPGO &PGO;
- /// A flag that is set when the current count should be recorded on the
- /// next statement, such as at the exit of a loop.
- bool RecordNextStmtCount;
- /// The count at the current location in the traversal.
- uint64_t CurrentCount;
- /// The map of statements to count values.
- llvm::DenseMap<const Stmt *, uint64_t> &CountMap;
- /// BreakContinueStack - Keep counts of breaks and continues inside loops.
- struct BreakContinue {
- uint64_t BreakCount;
- uint64_t ContinueCount;
- BreakContinue() : BreakCount(0), ContinueCount(0) {}
- };
- SmallVector<BreakContinue, 8> BreakContinueStack;
- ComputeRegionCounts(llvm::DenseMap<const Stmt *, uint64_t> &CountMap,
- CodeGenPGO &PGO)
- : PGO(PGO), RecordNextStmtCount(false), CountMap(CountMap) {}
- void RecordStmtCount(const Stmt *S) {
- if (RecordNextStmtCount) {
- CountMap[S] = CurrentCount;
- RecordNextStmtCount = false;
- }
- }
- /// Set and return the current count.
- uint64_t setCount(uint64_t Count) {
- CurrentCount = Count;
- return Count;
- }
- void VisitStmt(const Stmt *S) {
- RecordStmtCount(S);
- for (const Stmt *Child : S->children())
- if (Child)
- this->Visit(Child);
- }
- void VisitFunctionDecl(const FunctionDecl *D) {
- // Counter tracks entry to the function body.
- uint64_t BodyCount = setCount(PGO.getRegionCount(D->getBody()));
- CountMap[D->getBody()] = BodyCount;
- Visit(D->getBody());
- }
- // Skip lambda expressions. We visit these as FunctionDecls when we're
- // generating them and aren't interested in the body when generating a
- // parent context.
- void VisitLambdaExpr(const LambdaExpr *LE) {}
- void VisitCapturedDecl(const CapturedDecl *D) {
- // Counter tracks entry to the capture body.
- uint64_t BodyCount = setCount(PGO.getRegionCount(D->getBody()));
- CountMap[D->getBody()] = BodyCount;
- Visit(D->getBody());
- }
- void VisitObjCMethodDecl(const ObjCMethodDecl *D) {
- // Counter tracks entry to the method body.
- uint64_t BodyCount = setCount(PGO.getRegionCount(D->getBody()));
- CountMap[D->getBody()] = BodyCount;
- Visit(D->getBody());
- }
- void VisitBlockDecl(const BlockDecl *D) {
- // Counter tracks entry to the block body.
- uint64_t BodyCount = setCount(PGO.getRegionCount(D->getBody()));
- CountMap[D->getBody()] = BodyCount;
- Visit(D->getBody());
- }
- void VisitReturnStmt(const ReturnStmt *S) {
- RecordStmtCount(S);
- if (S->getRetValue())
- Visit(S->getRetValue());
- CurrentCount = 0;
- RecordNextStmtCount = true;
- }
- void VisitCXXThrowExpr(const CXXThrowExpr *E) {
- RecordStmtCount(E);
- if (E->getSubExpr())
- Visit(E->getSubExpr());
- CurrentCount = 0;
- RecordNextStmtCount = true;
- }
- void VisitGotoStmt(const GotoStmt *S) {
- RecordStmtCount(S);
- CurrentCount = 0;
- RecordNextStmtCount = true;
- }
- void VisitLabelStmt(const LabelStmt *S) {
- RecordNextStmtCount = false;
- // Counter tracks the block following the label.
- uint64_t BlockCount = setCount(PGO.getRegionCount(S));
- CountMap[S] = BlockCount;
- Visit(S->getSubStmt());
- }
- void VisitBreakStmt(const BreakStmt *S) {
- RecordStmtCount(S);
- assert(!BreakContinueStack.empty() && "break not in a loop or switch!");
- BreakContinueStack.back().BreakCount += CurrentCount;
- CurrentCount = 0;
- RecordNextStmtCount = true;
- }
- void VisitContinueStmt(const ContinueStmt *S) {
- RecordStmtCount(S);
- assert(!BreakContinueStack.empty() && "continue stmt not in a loop!");
- BreakContinueStack.back().ContinueCount += CurrentCount;
- CurrentCount = 0;
- RecordNextStmtCount = true;
- }
- void VisitWhileStmt(const WhileStmt *S) {
- RecordStmtCount(S);
- uint64_t ParentCount = CurrentCount;
- BreakContinueStack.push_back(BreakContinue());
- // Visit the body region first so the break/continue adjustments can be
- // included when visiting the condition.
- uint64_t BodyCount = setCount(PGO.getRegionCount(S));
- CountMap[S->getBody()] = CurrentCount;
- Visit(S->getBody());
- uint64_t BackedgeCount = CurrentCount;
- // ...then go back and propagate counts through the condition. The count
- // at the start of the condition is the sum of the incoming edges,
- // the backedge from the end of the loop body, and the edges from
- // continue statements.
- BreakContinue BC = BreakContinueStack.pop_back_val();
- uint64_t CondCount =
- setCount(ParentCount + BackedgeCount + BC.ContinueCount);
- CountMap[S->getCond()] = CondCount;
- Visit(S->getCond());
- setCount(BC.BreakCount + CondCount - BodyCount);
- RecordNextStmtCount = true;
- }
- void VisitDoStmt(const DoStmt *S) {
- RecordStmtCount(S);
- uint64_t LoopCount = PGO.getRegionCount(S);
- BreakContinueStack.push_back(BreakContinue());
- // The count doesn't include the fallthrough from the parent scope. Add it.
- uint64_t BodyCount = setCount(LoopCount + CurrentCount);
- CountMap[S->getBody()] = BodyCount;
- Visit(S->getBody());
- uint64_t BackedgeCount = CurrentCount;
- BreakContinue BC = BreakContinueStack.pop_back_val();
- // The count at the start of the condition is equal to the count at the
- // end of the body, plus any continues.
- uint64_t CondCount = setCount(BackedgeCount + BC.ContinueCount);
- CountMap[S->getCond()] = CondCount;
- Visit(S->getCond());
- setCount(BC.BreakCount + CondCount - LoopCount);
- RecordNextStmtCount = true;
- }
- void VisitForStmt(const ForStmt *S) {
- RecordStmtCount(S);
- if (S->getInit())
- Visit(S->getInit());
- uint64_t ParentCount = CurrentCount;
- BreakContinueStack.push_back(BreakContinue());
- // Visit the body region first. (This is basically the same as a while
- // loop; see further comments in VisitWhileStmt.)
- uint64_t BodyCount = setCount(PGO.getRegionCount(S));
- CountMap[S->getBody()] = BodyCount;
- Visit(S->getBody());
- uint64_t BackedgeCount = CurrentCount;
- BreakContinue BC = BreakContinueStack.pop_back_val();
- // The increment is essentially part of the body but it needs to include
- // the count for all the continue statements.
- if (S->getInc()) {
- uint64_t IncCount = setCount(BackedgeCount + BC.ContinueCount);
- CountMap[S->getInc()] = IncCount;
- Visit(S->getInc());
- }
- // ...then go back and propagate counts through the condition.
- uint64_t CondCount =
- setCount(ParentCount + BackedgeCount + BC.ContinueCount);
- if (S->getCond()) {
- CountMap[S->getCond()] = CondCount;
- Visit(S->getCond());
- }
- setCount(BC.BreakCount + CondCount - BodyCount);
- RecordNextStmtCount = true;
- }
- void VisitCXXForRangeStmt(const CXXForRangeStmt *S) {
- RecordStmtCount(S);
- if (S->getInit())
- Visit(S->getInit());
- Visit(S->getLoopVarStmt());
- Visit(S->getRangeStmt());
- Visit(S->getBeginStmt());
- Visit(S->getEndStmt());
- uint64_t ParentCount = CurrentCount;
- BreakContinueStack.push_back(BreakContinue());
- // Visit the body region first. (This is basically the same as a while
- // loop; see further comments in VisitWhileStmt.)
- uint64_t BodyCount = setCount(PGO.getRegionCount(S));
- CountMap[S->getBody()] = BodyCount;
- Visit(S->getBody());
- uint64_t BackedgeCount = CurrentCount;
- BreakContinue BC = BreakContinueStack.pop_back_val();
- // The increment is essentially part of the body but it needs to include
- // the count for all the continue statements.
- uint64_t IncCount = setCount(BackedgeCount + BC.ContinueCount);
- CountMap[S->getInc()] = IncCount;
- Visit(S->getInc());
- // ...then go back and propagate counts through the condition.
- uint64_t CondCount =
- setCount(ParentCount + BackedgeCount + BC.ContinueCount);
- CountMap[S->getCond()] = CondCount;
- Visit(S->getCond());
- setCount(BC.BreakCount + CondCount - BodyCount);
- RecordNextStmtCount = true;
- }
- void VisitObjCForCollectionStmt(const ObjCForCollectionStmt *S) {
- RecordStmtCount(S);
- Visit(S->getElement());
- uint64_t ParentCount = CurrentCount;
- BreakContinueStack.push_back(BreakContinue());
- // Counter tracks the body of the loop.
- uint64_t BodyCount = setCount(PGO.getRegionCount(S));
- CountMap[S->getBody()] = BodyCount;
- Visit(S->getBody());
- uint64_t BackedgeCount = CurrentCount;
- BreakContinue BC = BreakContinueStack.pop_back_val();
- setCount(BC.BreakCount + ParentCount + BackedgeCount + BC.ContinueCount -
- BodyCount);
- RecordNextStmtCount = true;
- }
- void VisitSwitchStmt(const SwitchStmt *S) {
- RecordStmtCount(S);
- if (S->getInit())
- Visit(S->getInit());
- Visit(S->getCond());
- CurrentCount = 0;
- BreakContinueStack.push_back(BreakContinue());
- Visit(S->getBody());
- // If the switch is inside a loop, add the continue counts.
- BreakContinue BC = BreakContinueStack.pop_back_val();
- if (!BreakContinueStack.empty())
- BreakContinueStack.back().ContinueCount += BC.ContinueCount;
- // Counter tracks the exit block of the switch.
- setCount(PGO.getRegionCount(S));
- RecordNextStmtCount = true;
- }
- void VisitSwitchCase(const SwitchCase *S) {
- RecordNextStmtCount = false;
- // Counter for this particular case. This counts only jumps from the
- // switch header and does not include fallthrough from the case before
- // this one.
- uint64_t CaseCount = PGO.getRegionCount(S);
- setCount(CurrentCount + CaseCount);
- // We need the count without fallthrough in the mapping, so it's more useful
- // for branch probabilities.
- CountMap[S] = CaseCount;
- RecordNextStmtCount = true;
- Visit(S->getSubStmt());
- }
- void VisitIfStmt(const IfStmt *S) {
- RecordStmtCount(S);
- if (S->isConsteval()) {
- const Stmt *Stm = S->isNegatedConsteval() ? S->getThen() : S->getElse();
- if (Stm)
- Visit(Stm);
- return;
- }
- uint64_t ParentCount = CurrentCount;
- if (S->getInit())
- Visit(S->getInit());
- Visit(S->getCond());
- // Counter tracks the "then" part of an if statement. The count for
- // the "else" part, if it exists, will be calculated from this counter.
- uint64_t ThenCount = setCount(PGO.getRegionCount(S));
- CountMap[S->getThen()] = ThenCount;
- Visit(S->getThen());
- uint64_t OutCount = CurrentCount;
- uint64_t ElseCount = ParentCount - ThenCount;
- if (S->getElse()) {
- setCount(ElseCount);
- CountMap[S->getElse()] = ElseCount;
- Visit(S->getElse());
- OutCount += CurrentCount;
- } else
- OutCount += ElseCount;
- setCount(OutCount);
- RecordNextStmtCount = true;
- }
- void VisitCXXTryStmt(const CXXTryStmt *S) {
- RecordStmtCount(S);
- Visit(S->getTryBlock());
- for (unsigned I = 0, E = S->getNumHandlers(); I < E; ++I)
- Visit(S->getHandler(I));
- // Counter tracks the continuation block of the try statement.
- setCount(PGO.getRegionCount(S));
- RecordNextStmtCount = true;
- }
- void VisitCXXCatchStmt(const CXXCatchStmt *S) {
- RecordNextStmtCount = false;
- // Counter tracks the catch statement's handler block.
- uint64_t CatchCount = setCount(PGO.getRegionCount(S));
- CountMap[S] = CatchCount;
- Visit(S->getHandlerBlock());
- }
- void VisitAbstractConditionalOperator(const AbstractConditionalOperator *E) {
- RecordStmtCount(E);
- uint64_t ParentCount = CurrentCount;
- Visit(E->getCond());
- // Counter tracks the "true" part of a conditional operator. The
- // count in the "false" part will be calculated from this counter.
- uint64_t TrueCount = setCount(PGO.getRegionCount(E));
- CountMap[E->getTrueExpr()] = TrueCount;
- Visit(E->getTrueExpr());
- uint64_t OutCount = CurrentCount;
- uint64_t FalseCount = setCount(ParentCount - TrueCount);
- CountMap[E->getFalseExpr()] = FalseCount;
- Visit(E->getFalseExpr());
- OutCount += CurrentCount;
- setCount(OutCount);
- RecordNextStmtCount = true;
- }
- void VisitBinLAnd(const BinaryOperator *E) {
- RecordStmtCount(E);
- uint64_t ParentCount = CurrentCount;
- Visit(E->getLHS());
- // Counter tracks the right hand side of a logical and operator.
- uint64_t RHSCount = setCount(PGO.getRegionCount(E));
- CountMap[E->getRHS()] = RHSCount;
- Visit(E->getRHS());
- setCount(ParentCount + RHSCount - CurrentCount);
- RecordNextStmtCount = true;
- }
- void VisitBinLOr(const BinaryOperator *E) {
- RecordStmtCount(E);
- uint64_t ParentCount = CurrentCount;
- Visit(E->getLHS());
- // Counter tracks the right hand side of a logical or operator.
- uint64_t RHSCount = setCount(PGO.getRegionCount(E));
- CountMap[E->getRHS()] = RHSCount;
- Visit(E->getRHS());
- setCount(ParentCount + RHSCount - CurrentCount);
- RecordNextStmtCount = true;
- }
- };
- } // end anonymous namespace
- void PGOHash::combine(HashType Type) {
- // Check that we never combine 0 and only have six bits.
- assert(Type && "Hash is invalid: unexpected type 0");
- assert(unsigned(Type) < TooBig && "Hash is invalid: too many types");
- // Pass through MD5 if enough work has built up.
- if (Count && Count % NumTypesPerWord == 0) {
- using namespace llvm::support;
- uint64_t Swapped = endian::byte_swap<uint64_t, little>(Working);
- MD5.update(llvm::makeArrayRef((uint8_t *)&Swapped, sizeof(Swapped)));
- Working = 0;
- }
- // Accumulate the current type.
- ++Count;
- Working = Working << NumBitsPerType | Type;
- }
- uint64_t PGOHash::finalize() {
- // Use Working as the hash directly if we never used MD5.
- if (Count <= NumTypesPerWord)
- // No need to byte swap here, since none of the math was endian-dependent.
- // This number will be byte-swapped as required on endianness transitions,
- // so we will see the same value on the other side.
- return Working;
- // Check for remaining work in Working.
- if (Working) {
- // Keep the buggy behavior from v1 and v2 for backward-compatibility. This
- // is buggy because it converts a uint64_t into an array of uint8_t.
- if (HashVersion < PGO_HASH_V3) {
- MD5.update({(uint8_t)Working});
- } else {
- using namespace llvm::support;
- uint64_t Swapped = endian::byte_swap<uint64_t, little>(Working);
- MD5.update(llvm::makeArrayRef((uint8_t *)&Swapped, sizeof(Swapped)));
- }
- }
- // Finalize the MD5 and return the hash.
- llvm::MD5::MD5Result Result;
- MD5.final(Result);
- return Result.low();
- }
- void CodeGenPGO::assignRegionCounters(GlobalDecl GD, llvm::Function *Fn) {
- const Decl *D = GD.getDecl();
- if (!D->hasBody())
- return;
- // Skip CUDA/HIP kernel launch stub functions.
- if (CGM.getLangOpts().CUDA && !CGM.getLangOpts().CUDAIsDevice &&
- D->hasAttr<CUDAGlobalAttr>())
- return;
- bool InstrumentRegions = CGM.getCodeGenOpts().hasProfileClangInstr();
- llvm::IndexedInstrProfReader *PGOReader = CGM.getPGOReader();
- if (!InstrumentRegions && !PGOReader)
- return;
- if (D->isImplicit())
- return;
- // Constructors and destructors may be represented by several functions in IR.
- // If so, instrument only base variant, others are implemented by delegation
- // to the base one, it would be counted twice otherwise.
- if (CGM.getTarget().getCXXABI().hasConstructorVariants()) {
- if (const auto *CCD = dyn_cast<CXXConstructorDecl>(D))
- if (GD.getCtorType() != Ctor_Base &&
- CodeGenFunction::IsConstructorDelegationValid(CCD))
- return;
- }
- if (isa<CXXDestructorDecl>(D) && GD.getDtorType() != Dtor_Base)
- return;
- CGM.ClearUnusedCoverageMapping(D);
- if (Fn->hasFnAttribute(llvm::Attribute::NoProfile))
- return;
- setFuncName(Fn);
- mapRegionCounters(D);
- if (CGM.getCodeGenOpts().CoverageMapping)
- emitCounterRegionMapping(D);
- if (PGOReader) {
- SourceManager &SM = CGM.getContext().getSourceManager();
- loadRegionCounts(PGOReader, SM.isInMainFile(D->getLocation()));
- computeRegionCounts(D);
- applyFunctionAttributes(PGOReader, Fn);
- }
- }
- void CodeGenPGO::mapRegionCounters(const Decl *D) {
- // Use the latest hash version when inserting instrumentation, but use the
- // version in the indexed profile if we're reading PGO data.
- PGOHashVersion HashVersion = PGO_HASH_LATEST;
- uint64_t ProfileVersion = llvm::IndexedInstrProf::Version;
- if (auto *PGOReader = CGM.getPGOReader()) {
- HashVersion = getPGOHashVersion(PGOReader, CGM);
- ProfileVersion = PGOReader->getVersion();
- }
- RegionCounterMap.reset(new llvm::DenseMap<const Stmt *, unsigned>);
- MapRegionCounters Walker(HashVersion, ProfileVersion, *RegionCounterMap);
- if (const FunctionDecl *FD = dyn_cast_or_null<FunctionDecl>(D))
- Walker.TraverseDecl(const_cast<FunctionDecl *>(FD));
- else if (const ObjCMethodDecl *MD = dyn_cast_or_null<ObjCMethodDecl>(D))
- Walker.TraverseDecl(const_cast<ObjCMethodDecl *>(MD));
- else if (const BlockDecl *BD = dyn_cast_or_null<BlockDecl>(D))
- Walker.TraverseDecl(const_cast<BlockDecl *>(BD));
- else if (const CapturedDecl *CD = dyn_cast_or_null<CapturedDecl>(D))
- Walker.TraverseDecl(const_cast<CapturedDecl *>(CD));
- assert(Walker.NextCounter > 0 && "no entry counter mapped for decl");
- NumRegionCounters = Walker.NextCounter;
- FunctionHash = Walker.Hash.finalize();
- }
- bool CodeGenPGO::skipRegionMappingForDecl(const Decl *D) {
- if (!D->getBody())
- return true;
- // Skip host-only functions in the CUDA device compilation and device-only
- // functions in the host compilation. Just roughly filter them out based on
- // the function attributes. If there are effectively host-only or device-only
- // ones, their coverage mapping may still be generated.
- if (CGM.getLangOpts().CUDA &&
- ((CGM.getLangOpts().CUDAIsDevice && !D->hasAttr<CUDADeviceAttr>() &&
- !D->hasAttr<CUDAGlobalAttr>()) ||
- (!CGM.getLangOpts().CUDAIsDevice &&
- (D->hasAttr<CUDAGlobalAttr>() ||
- (!D->hasAttr<CUDAHostAttr>() && D->hasAttr<CUDADeviceAttr>())))))
- return true;
- // Don't map the functions in system headers.
- const auto &SM = CGM.getContext().getSourceManager();
- auto Loc = D->getBody()->getBeginLoc();
- return SM.isInSystemHeader(Loc);
- }
- void CodeGenPGO::emitCounterRegionMapping(const Decl *D) {
- if (skipRegionMappingForDecl(D))
- return;
- std::string CoverageMapping;
- llvm::raw_string_ostream OS(CoverageMapping);
- CoverageMappingGen MappingGen(*CGM.getCoverageMapping(),
- CGM.getContext().getSourceManager(),
- CGM.getLangOpts(), RegionCounterMap.get());
- MappingGen.emitCounterMapping(D, OS);
- OS.flush();
- if (CoverageMapping.empty())
- return;
- CGM.getCoverageMapping()->addFunctionMappingRecord(
- FuncNameVar, FuncName, FunctionHash, CoverageMapping);
- }
- void
- CodeGenPGO::emitEmptyCounterMapping(const Decl *D, StringRef Name,
- llvm::GlobalValue::LinkageTypes Linkage) {
- if (skipRegionMappingForDecl(D))
- return;
- std::string CoverageMapping;
- llvm::raw_string_ostream OS(CoverageMapping);
- CoverageMappingGen MappingGen(*CGM.getCoverageMapping(),
- CGM.getContext().getSourceManager(),
- CGM.getLangOpts());
- MappingGen.emitEmptyMapping(D, OS);
- OS.flush();
- if (CoverageMapping.empty())
- return;
- setFuncName(Name, Linkage);
- CGM.getCoverageMapping()->addFunctionMappingRecord(
- FuncNameVar, FuncName, FunctionHash, CoverageMapping, false);
- }
- void CodeGenPGO::computeRegionCounts(const Decl *D) {
- StmtCountMap.reset(new llvm::DenseMap<const Stmt *, uint64_t>);
- ComputeRegionCounts Walker(*StmtCountMap, *this);
- if (const FunctionDecl *FD = dyn_cast_or_null<FunctionDecl>(D))
- Walker.VisitFunctionDecl(FD);
- else if (const ObjCMethodDecl *MD = dyn_cast_or_null<ObjCMethodDecl>(D))
- Walker.VisitObjCMethodDecl(MD);
- else if (const BlockDecl *BD = dyn_cast_or_null<BlockDecl>(D))
- Walker.VisitBlockDecl(BD);
- else if (const CapturedDecl *CD = dyn_cast_or_null<CapturedDecl>(D))
- Walker.VisitCapturedDecl(const_cast<CapturedDecl *>(CD));
- }
- void
- CodeGenPGO::applyFunctionAttributes(llvm::IndexedInstrProfReader *PGOReader,
- llvm::Function *Fn) {
- if (!haveRegionCounts())
- return;
- uint64_t FunctionCount = getRegionCount(nullptr);
- Fn->setEntryCount(FunctionCount);
- }
- void CodeGenPGO::emitCounterIncrement(CGBuilderTy &Builder, const Stmt *S,
- llvm::Value *StepV) {
- if (!CGM.getCodeGenOpts().hasProfileClangInstr() || !RegionCounterMap)
- return;
- if (!Builder.GetInsertBlock())
- return;
- unsigned Counter = (*RegionCounterMap)[S];
- auto *I8PtrTy = llvm::Type::getInt8PtrTy(CGM.getLLVMContext());
- llvm::Value *Args[] = {llvm::ConstantExpr::getBitCast(FuncNameVar, I8PtrTy),
- Builder.getInt64(FunctionHash),
- Builder.getInt32(NumRegionCounters),
- Builder.getInt32(Counter), StepV};
- if (!StepV)
- Builder.CreateCall(CGM.getIntrinsic(llvm::Intrinsic::instrprof_increment),
- makeArrayRef(Args, 4));
- else
- Builder.CreateCall(
- CGM.getIntrinsic(llvm::Intrinsic::instrprof_increment_step),
- makeArrayRef(Args));
- }
- void CodeGenPGO::setValueProfilingFlag(llvm::Module &M) {
- if (CGM.getCodeGenOpts().hasProfileClangInstr())
- M.addModuleFlag(llvm::Module::Warning, "EnableValueProfiling",
- uint32_t(EnableValueProfiling));
- }
- // This method either inserts a call to the profile run-time during
- // instrumentation or puts profile data into metadata for PGO use.
- void CodeGenPGO::valueProfile(CGBuilderTy &Builder, uint32_t ValueKind,
- llvm::Instruction *ValueSite, llvm::Value *ValuePtr) {
- if (!EnableValueProfiling)
- return;
- if (!ValuePtr || !ValueSite || !Builder.GetInsertBlock())
- return;
- if (isa<llvm::Constant>(ValuePtr))
- return;
- bool InstrumentValueSites = CGM.getCodeGenOpts().hasProfileClangInstr();
- if (InstrumentValueSites && RegionCounterMap) {
- auto BuilderInsertPoint = Builder.saveIP();
- Builder.SetInsertPoint(ValueSite);
- llvm::Value *Args[5] = {
- llvm::ConstantExpr::getBitCast(FuncNameVar, Builder.getInt8PtrTy()),
- Builder.getInt64(FunctionHash),
- Builder.CreatePtrToInt(ValuePtr, Builder.getInt64Ty()),
- Builder.getInt32(ValueKind),
- Builder.getInt32(NumValueSites[ValueKind]++)
- };
- Builder.CreateCall(
- CGM.getIntrinsic(llvm::Intrinsic::instrprof_value_profile), Args);
- Builder.restoreIP(BuilderInsertPoint);
- return;
- }
- llvm::IndexedInstrProfReader *PGOReader = CGM.getPGOReader();
- if (PGOReader && haveRegionCounts()) {
- // We record the top most called three functions at each call site.
- // Profile metadata contains "VP" string identifying this metadata
- // as value profiling data, then a uint32_t value for the value profiling
- // kind, a uint64_t value for the total number of times the call is
- // executed, followed by the function hash and execution count (uint64_t)
- // pairs for each function.
- if (NumValueSites[ValueKind] >= ProfRecord->getNumValueSites(ValueKind))
- return;
- llvm::annotateValueSite(CGM.getModule(), *ValueSite, *ProfRecord,
- (llvm::InstrProfValueKind)ValueKind,
- NumValueSites[ValueKind]);
- NumValueSites[ValueKind]++;
- }
- }
- void CodeGenPGO::loadRegionCounts(llvm::IndexedInstrProfReader *PGOReader,
- bool IsInMainFile) {
- CGM.getPGOStats().addVisited(IsInMainFile);
- RegionCounts.clear();
- llvm::Expected<llvm::InstrProfRecord> RecordExpected =
- PGOReader->getInstrProfRecord(FuncName, FunctionHash);
- if (auto E = RecordExpected.takeError()) {
- auto IPE = llvm::InstrProfError::take(std::move(E));
- if (IPE == llvm::instrprof_error::unknown_function)
- CGM.getPGOStats().addMissing(IsInMainFile);
- else if (IPE == llvm::instrprof_error::hash_mismatch)
- CGM.getPGOStats().addMismatched(IsInMainFile);
- else if (IPE == llvm::instrprof_error::malformed)
- // TODO: Consider a more specific warning for this case.
- CGM.getPGOStats().addMismatched(IsInMainFile);
- return;
- }
- ProfRecord =
- std::make_unique<llvm::InstrProfRecord>(std::move(RecordExpected.get()));
- RegionCounts = ProfRecord->Counts;
- }
- /// Calculate what to divide by to scale weights.
- ///
- /// Given the maximum weight, calculate a divisor that will scale all the
- /// weights to strictly less than UINT32_MAX.
- static uint64_t calculateWeightScale(uint64_t MaxWeight) {
- return MaxWeight < UINT32_MAX ? 1 : MaxWeight / UINT32_MAX + 1;
- }
- /// Scale an individual branch weight (and add 1).
- ///
- /// Scale a 64-bit weight down to 32-bits using \c Scale.
- ///
- /// According to Laplace's Rule of Succession, it is better to compute the
- /// weight based on the count plus 1, so universally add 1 to the value.
- ///
- /// \pre \c Scale was calculated by \a calculateWeightScale() with a weight no
- /// greater than \c Weight.
- static uint32_t scaleBranchWeight(uint64_t Weight, uint64_t Scale) {
- assert(Scale && "scale by 0?");
- uint64_t Scaled = Weight / Scale + 1;
- assert(Scaled <= UINT32_MAX && "overflow 32-bits");
- return Scaled;
- }
- llvm::MDNode *CodeGenFunction::createProfileWeights(uint64_t TrueCount,
- uint64_t FalseCount) const {
- // Check for empty weights.
- if (!TrueCount && !FalseCount)
- return nullptr;
- // Calculate how to scale down to 32-bits.
- uint64_t Scale = calculateWeightScale(std::max(TrueCount, FalseCount));
- llvm::MDBuilder MDHelper(CGM.getLLVMContext());
- return MDHelper.createBranchWeights(scaleBranchWeight(TrueCount, Scale),
- scaleBranchWeight(FalseCount, Scale));
- }
- llvm::MDNode *
- CodeGenFunction::createProfileWeights(ArrayRef<uint64_t> Weights) const {
- // We need at least two elements to create meaningful weights.
- if (Weights.size() < 2)
- return nullptr;
- // Check for empty weights.
- uint64_t MaxWeight = *std::max_element(Weights.begin(), Weights.end());
- if (MaxWeight == 0)
- return nullptr;
- // Calculate how to scale down to 32-bits.
- uint64_t Scale = calculateWeightScale(MaxWeight);
- SmallVector<uint32_t, 16> ScaledWeights;
- ScaledWeights.reserve(Weights.size());
- for (uint64_t W : Weights)
- ScaledWeights.push_back(scaleBranchWeight(W, Scale));
- llvm::MDBuilder MDHelper(CGM.getLLVMContext());
- return MDHelper.createBranchWeights(ScaledWeights);
- }
- llvm::MDNode *
- CodeGenFunction::createProfileWeightsForLoop(const Stmt *Cond,
- uint64_t LoopCount) const {
- if (!PGO.haveRegionCounts())
- return nullptr;
- Optional<uint64_t> CondCount = PGO.getStmtCount(Cond);
- if (!CondCount || *CondCount == 0)
- return nullptr;
- return createProfileWeights(LoopCount,
- std::max(*CondCount, LoopCount) - LoopCount);
- }
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