forked from OSchip/llvm-project
566 lines
22 KiB
C++
566 lines
22 KiB
C++
//===--- CGStmtOpenMP.cpp - Emit LLVM Code from Statements ----------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This contains code to emit OpenMP nodes as LLVM code.
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//
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//===----------------------------------------------------------------------===//
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#include "CGOpenMPRuntime.h"
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#include "CodeGenFunction.h"
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#include "CodeGenModule.h"
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#include "clang/AST/Stmt.h"
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#include "clang/AST/StmtOpenMP.h"
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#include "TargetInfo.h"
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using namespace clang;
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using namespace CodeGen;
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//===----------------------------------------------------------------------===//
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// OpenMP Directive Emission
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//===----------------------------------------------------------------------===//
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/// \brief Emits code for OpenMP 'if' clause using specified \a CodeGen
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/// function. Here is the logic:
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/// if (Cond) {
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/// CodeGen(true);
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/// } else {
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/// CodeGen(false);
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/// }
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static void EmitOMPIfClause(CodeGenFunction &CGF, const Expr *Cond,
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const std::function<void(bool)> &CodeGen) {
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CodeGenFunction::LexicalScope ConditionScope(CGF, Cond->getSourceRange());
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// If the condition constant folds and can be elided, try to avoid emitting
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// the condition and the dead arm of the if/else.
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bool CondConstant;
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if (CGF.ConstantFoldsToSimpleInteger(Cond, CondConstant)) {
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CodeGen(CondConstant);
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return;
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}
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// Otherwise, the condition did not fold, or we couldn't elide it. Just
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// emit the conditional branch.
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auto ThenBlock = CGF.createBasicBlock(/*name*/ "omp_if.then");
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auto ElseBlock = CGF.createBasicBlock(/*name*/ "omp_if.else");
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auto ContBlock = CGF.createBasicBlock(/*name*/ "omp_if.end");
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CGF.EmitBranchOnBoolExpr(Cond, ThenBlock, ElseBlock, /*TrueCount*/ 0);
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// Emit the 'then' code.
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CGF.EmitBlock(ThenBlock);
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CodeGen(/*ThenBlock*/ true);
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CGF.EmitBranch(ContBlock);
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// Emit the 'else' code if present.
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{
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// There is no need to emit line number for unconditional branch.
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SuppressDebugLocation SDL(CGF.Builder);
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CGF.EmitBlock(ElseBlock);
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}
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CodeGen(/*ThenBlock*/ false);
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{
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// There is no need to emit line number for unconditional branch.
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SuppressDebugLocation SDL(CGF.Builder);
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CGF.EmitBranch(ContBlock);
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}
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// Emit the continuation block for code after the if.
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CGF.EmitBlock(ContBlock, /*IsFinished*/ true);
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}
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void CodeGenFunction::EmitOMPAggregateAssign(LValue OriginalAddr,
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llvm::Value *PrivateAddr,
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const Expr *AssignExpr,
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QualType OriginalType,
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const VarDecl *VDInit) {
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EmitBlock(createBasicBlock(".omp.assign.begin."));
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if (!isa<CXXConstructExpr>(AssignExpr) || isTrivialInitializer(AssignExpr)) {
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// Perform simple memcpy.
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EmitAggregateAssign(PrivateAddr, OriginalAddr.getAddress(),
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AssignExpr->getType());
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} else {
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// Perform element-by-element initialization.
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QualType ElementTy;
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auto SrcBegin = OriginalAddr.getAddress();
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auto DestBegin = PrivateAddr;
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auto ArrayTy = OriginalType->getAsArrayTypeUnsafe();
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auto SrcNumElements = emitArrayLength(ArrayTy, ElementTy, SrcBegin);
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auto DestNumElements = emitArrayLength(ArrayTy, ElementTy, DestBegin);
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auto SrcEnd = Builder.CreateGEP(SrcBegin, SrcNumElements);
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auto DestEnd = Builder.CreateGEP(DestBegin, DestNumElements);
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// The basic structure here is a do-while loop, because we don't
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// need to check for the zero-element case.
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auto BodyBB = createBasicBlock("omp.arraycpy.body");
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auto DoneBB = createBasicBlock("omp.arraycpy.done");
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auto IsEmpty =
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Builder.CreateICmpEQ(DestBegin, DestEnd, "omp.arraycpy.isempty");
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Builder.CreateCondBr(IsEmpty, DoneBB, BodyBB);
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// Enter the loop body, making that address the current address.
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auto EntryBB = Builder.GetInsertBlock();
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EmitBlock(BodyBB);
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auto SrcElementPast = Builder.CreatePHI(SrcBegin->getType(), 2,
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"omp.arraycpy.srcElementPast");
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SrcElementPast->addIncoming(SrcEnd, EntryBB);
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auto DestElementPast = Builder.CreatePHI(DestBegin->getType(), 2,
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"omp.arraycpy.destElementPast");
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DestElementPast->addIncoming(DestEnd, EntryBB);
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// Shift the address back by one element.
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auto NegativeOne = llvm::ConstantInt::get(SizeTy, -1, true);
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auto DestElement = Builder.CreateGEP(DestElementPast, NegativeOne,
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"omp.arraycpy.dest.element");
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auto SrcElement = Builder.CreateGEP(SrcElementPast, NegativeOne,
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"omp.arraycpy.src.element");
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{
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// Create RunCleanScope to cleanup possible temps.
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CodeGenFunction::RunCleanupsScope Init(*this);
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// Emit initialization for single element.
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LocalDeclMap[VDInit] = SrcElement;
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EmitAnyExprToMem(AssignExpr, DestElement,
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AssignExpr->getType().getQualifiers(),
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/*IsInitializer*/ false);
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LocalDeclMap.erase(VDInit);
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}
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// Check whether we've reached the end.
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auto Done =
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Builder.CreateICmpEQ(DestElement, DestBegin, "omp.arraycpy.done");
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Builder.CreateCondBr(Done, DoneBB, BodyBB);
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DestElementPast->addIncoming(DestElement, Builder.GetInsertBlock());
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SrcElementPast->addIncoming(SrcElement, Builder.GetInsertBlock());
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// Done.
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EmitBlock(DoneBB, true);
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}
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EmitBlock(createBasicBlock(".omp.assign.end."));
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}
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void CodeGenFunction::EmitOMPFirstprivateClause(
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const OMPExecutableDirective &D,
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CodeGenFunction::OMPPrivateScope &PrivateScope) {
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auto PrivateFilter = [](const OMPClause *C) -> bool {
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return C->getClauseKind() == OMPC_firstprivate;
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};
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for (OMPExecutableDirective::filtered_clause_iterator<decltype(PrivateFilter)>
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I(D.clauses(), PrivateFilter); I; ++I) {
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auto *C = cast<OMPFirstprivateClause>(*I);
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auto IRef = C->varlist_begin();
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auto InitsRef = C->inits().begin();
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for (auto IInit : C->private_copies()) {
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auto *OrigVD = cast<VarDecl>(cast<DeclRefExpr>(*IRef)->getDecl());
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auto *VD = cast<VarDecl>(cast<DeclRefExpr>(IInit)->getDecl());
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bool IsRegistered;
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if (*InitsRef != nullptr) {
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// Emit VarDecl with copy init for arrays.
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auto *FD = CapturedStmtInfo->lookup(OrigVD);
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LValue Base = MakeNaturalAlignAddrLValue(
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CapturedStmtInfo->getContextValue(),
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getContext().getTagDeclType(FD->getParent()));
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auto OriginalAddr = EmitLValueForField(Base, FD);
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auto VDInit = cast<VarDecl>(cast<DeclRefExpr>(*InitsRef)->getDecl());
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IsRegistered = PrivateScope.addPrivate(OrigVD, [&]() -> llvm::Value * {
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auto Emission = EmitAutoVarAlloca(*VD);
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// Emit initialization of aggregate firstprivate vars.
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EmitOMPAggregateAssign(OriginalAddr, Emission.getAllocatedAddress(),
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VD->getInit(), (*IRef)->getType(), VDInit);
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EmitAutoVarCleanups(Emission);
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return Emission.getAllocatedAddress();
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});
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} else
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IsRegistered = PrivateScope.addPrivate(OrigVD, [&]() -> llvm::Value * {
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// Emit private VarDecl with copy init.
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EmitDecl(*VD);
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return GetAddrOfLocalVar(VD);
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});
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assert(IsRegistered && "counter already registered as private");
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// Silence the warning about unused variable.
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(void)IsRegistered;
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++IRef, ++InitsRef;
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}
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}
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}
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void CodeGenFunction::EmitOMPPrivateClause(
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const OMPExecutableDirective &D,
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CodeGenFunction::OMPPrivateScope &PrivateScope) {
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auto PrivateFilter = [](const OMPClause *C) -> bool {
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return C->getClauseKind() == OMPC_private;
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};
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for (OMPExecutableDirective::filtered_clause_iterator<decltype(PrivateFilter)>
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I(D.clauses(), PrivateFilter); I; ++I) {
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auto *C = cast<OMPPrivateClause>(*I);
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auto IRef = C->varlist_begin();
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for (auto IInit : C->private_copies()) {
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auto *OrigVD = cast<VarDecl>(cast<DeclRefExpr>(*IRef)->getDecl());
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auto VD = cast<VarDecl>(cast<DeclRefExpr>(IInit)->getDecl());
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bool IsRegistered =
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PrivateScope.addPrivate(OrigVD, [&]() -> llvm::Value * {
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// Emit private VarDecl with copy init.
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EmitDecl(*VD);
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return GetAddrOfLocalVar(VD);
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});
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assert(IsRegistered && "counter already registered as private");
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// Silence the warning about unused variable.
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(void)IsRegistered;
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++IRef;
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}
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}
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}
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/// \brief Emits code for OpenMP parallel directive in the parallel region.
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static void EmitOMPParallelCall(CodeGenFunction &CGF,
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const OMPParallelDirective &S,
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llvm::Value *OutlinedFn,
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llvm::Value *CapturedStruct) {
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if (auto C = S.getSingleClause(/*K*/ OMPC_num_threads)) {
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CodeGenFunction::RunCleanupsScope NumThreadsScope(CGF);
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auto NumThreadsClause = cast<OMPNumThreadsClause>(C);
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auto NumThreads = CGF.EmitScalarExpr(NumThreadsClause->getNumThreads(),
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/*IgnoreResultAssign*/ true);
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CGF.CGM.getOpenMPRuntime().EmitOMPNumThreadsClause(
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CGF, NumThreads, NumThreadsClause->getLocStart());
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}
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CGF.CGM.getOpenMPRuntime().EmitOMPParallelCall(CGF, S.getLocStart(),
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OutlinedFn, CapturedStruct);
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}
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void CodeGenFunction::EmitOMPParallelDirective(const OMPParallelDirective &S) {
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auto CS = cast<CapturedStmt>(S.getAssociatedStmt());
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auto CapturedStruct = GenerateCapturedStmtArgument(*CS);
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auto OutlinedFn = CGM.getOpenMPRuntime().EmitOpenMPOutlinedFunction(
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S, *CS->getCapturedDecl()->param_begin());
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if (auto C = S.getSingleClause(/*K*/ OMPC_if)) {
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auto Cond = cast<OMPIfClause>(C)->getCondition();
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EmitOMPIfClause(*this, Cond, [&](bool ThenBlock) {
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if (ThenBlock)
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EmitOMPParallelCall(*this, S, OutlinedFn, CapturedStruct);
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else
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CGM.getOpenMPRuntime().EmitOMPSerialCall(*this, S.getLocStart(),
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OutlinedFn, CapturedStruct);
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});
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} else
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EmitOMPParallelCall(*this, S, OutlinedFn, CapturedStruct);
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}
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void CodeGenFunction::EmitOMPLoopBody(const OMPLoopDirective &S,
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bool SeparateIter) {
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RunCleanupsScope BodyScope(*this);
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// Update counters values on current iteration.
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for (auto I : S.updates()) {
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EmitIgnoredExpr(I);
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}
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// On a continue in the body, jump to the end.
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auto Continue = getJumpDestInCurrentScope("omp.body.continue");
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BreakContinueStack.push_back(BreakContinue(JumpDest(), Continue));
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// Emit loop body.
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EmitStmt(S.getBody());
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// The end (updates/cleanups).
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EmitBlock(Continue.getBlock());
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BreakContinueStack.pop_back();
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if (SeparateIter) {
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// TODO: Update lastprivates if the SeparateIter flag is true.
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// This will be implemented in a follow-up OMPLastprivateClause patch, but
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// result should be still correct without it, as we do not make these
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// variables private yet.
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}
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}
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void CodeGenFunction::EmitOMPInnerLoop(const OMPLoopDirective &S,
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OMPPrivateScope &LoopScope,
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bool SeparateIter) {
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auto LoopExit = getJumpDestInCurrentScope("omp.inner.for.end");
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auto Cnt = getPGORegionCounter(&S);
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// Start the loop with a block that tests the condition.
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auto CondBlock = createBasicBlock("omp.inner.for.cond");
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EmitBlock(CondBlock);
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LoopStack.push(CondBlock);
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// If there are any cleanups between here and the loop-exit scope,
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// create a block to stage a loop exit along.
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auto ExitBlock = LoopExit.getBlock();
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if (LoopScope.requiresCleanups())
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ExitBlock = createBasicBlock("omp.inner.for.cond.cleanup");
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auto LoopBody = createBasicBlock("omp.inner.for.body");
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// Emit condition: "IV < LastIteration + 1 [ - 1]"
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// ("- 1" when lastprivate clause is present - separate one iteration).
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llvm::Value *BoolCondVal = EvaluateExprAsBool(S.getCond(SeparateIter));
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Builder.CreateCondBr(BoolCondVal, LoopBody, ExitBlock,
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PGO.createLoopWeights(S.getCond(SeparateIter), Cnt));
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if (ExitBlock != LoopExit.getBlock()) {
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EmitBlock(ExitBlock);
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EmitBranchThroughCleanup(LoopExit);
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}
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EmitBlock(LoopBody);
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Cnt.beginRegion(Builder);
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// Create a block for the increment.
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auto Continue = getJumpDestInCurrentScope("omp.inner.for.inc");
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BreakContinueStack.push_back(BreakContinue(LoopExit, Continue));
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EmitOMPLoopBody(S);
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EmitStopPoint(&S);
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// Emit "IV = IV + 1" and a back-edge to the condition block.
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EmitBlock(Continue.getBlock());
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EmitIgnoredExpr(S.getInc());
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BreakContinueStack.pop_back();
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EmitBranch(CondBlock);
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LoopStack.pop();
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// Emit the fall-through block.
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EmitBlock(LoopExit.getBlock());
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}
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void CodeGenFunction::EmitOMPSimdFinal(const OMPLoopDirective &S) {
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auto IC = S.counters().begin();
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for (auto F : S.finals()) {
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if (LocalDeclMap.lookup(cast<DeclRefExpr>((*IC))->getDecl())) {
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EmitIgnoredExpr(F);
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}
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++IC;
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}
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}
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static void EmitOMPAlignedClause(CodeGenFunction &CGF, CodeGenModule &CGM,
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const OMPAlignedClause &Clause) {
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unsigned ClauseAlignment = 0;
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if (auto AlignmentExpr = Clause.getAlignment()) {
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auto AlignmentCI =
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cast<llvm::ConstantInt>(CGF.EmitScalarExpr(AlignmentExpr));
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ClauseAlignment = static_cast<unsigned>(AlignmentCI->getZExtValue());
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}
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for (auto E : Clause.varlists()) {
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unsigned Alignment = ClauseAlignment;
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if (Alignment == 0) {
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// OpenMP [2.8.1, Description]
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// If no optional parameter is specified, implementation-defined default
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// alignments for SIMD instructions on the target platforms are assumed.
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Alignment = CGM.getTargetCodeGenInfo().getOpenMPSimdDefaultAlignment(
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E->getType());
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}
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assert((Alignment == 0 || llvm::isPowerOf2_32(Alignment)) &&
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"alignment is not power of 2");
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if (Alignment != 0) {
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llvm::Value *PtrValue = CGF.EmitScalarExpr(E);
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CGF.EmitAlignmentAssumption(PtrValue, Alignment);
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}
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}
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}
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static void EmitPrivateLoopCounters(CodeGenFunction &CGF,
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CodeGenFunction::OMPPrivateScope &LoopScope,
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ArrayRef<Expr *> Counters) {
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for (auto *E : Counters) {
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auto VD = cast<VarDecl>(cast<DeclRefExpr>(E)->getDecl());
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bool IsRegistered = LoopScope.addPrivate(VD, [&]() -> llvm::Value * {
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// Emit var without initialization.
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auto VarEmission = CGF.EmitAutoVarAlloca(*VD);
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CGF.EmitAutoVarCleanups(VarEmission);
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return VarEmission.getAllocatedAddress();
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});
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assert(IsRegistered && "counter already registered as private");
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// Silence the warning about unused variable.
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(void)IsRegistered;
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}
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(void)LoopScope.Privatize();
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}
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void CodeGenFunction::EmitOMPSimdDirective(const OMPSimdDirective &S) {
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// Pragma 'simd' code depends on presence of 'lastprivate'.
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// If present, we have to separate last iteration of the loop:
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//
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// if (LastIteration != 0) {
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// for (IV in 0..LastIteration-1) BODY;
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// BODY with updates of lastprivate vars;
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// <Final counter/linear vars updates>;
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// }
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//
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// otherwise (when there's no lastprivate):
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//
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// for (IV in 0..LastIteration) BODY;
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// <Final counter/linear vars updates>;
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//
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// Walk clauses and process safelen/lastprivate.
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bool SeparateIter = false;
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LoopStack.setParallel();
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LoopStack.setVectorizerEnable(true);
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for (auto C : S.clauses()) {
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switch (C->getClauseKind()) {
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case OMPC_safelen: {
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RValue Len = EmitAnyExpr(cast<OMPSafelenClause>(C)->getSafelen(),
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AggValueSlot::ignored(), true);
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llvm::ConstantInt *Val = cast<llvm::ConstantInt>(Len.getScalarVal());
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LoopStack.setVectorizerWidth(Val->getZExtValue());
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// In presence of finite 'safelen', it may be unsafe to mark all
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// the memory instructions parallel, because loop-carried
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// dependences of 'safelen' iterations are possible.
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LoopStack.setParallel(false);
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break;
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}
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case OMPC_aligned:
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EmitOMPAlignedClause(*this, CGM, cast<OMPAlignedClause>(*C));
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break;
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case OMPC_lastprivate:
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SeparateIter = true;
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break;
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default:
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// Not handled yet
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;
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}
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}
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RunCleanupsScope DirectiveScope(*this);
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CGDebugInfo *DI = getDebugInfo();
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if (DI)
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DI->EmitLexicalBlockStart(Builder, S.getSourceRange().getBegin());
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// Emit the loop iteration variable.
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const Expr *IVExpr = S.getIterationVariable();
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const VarDecl *IVDecl = cast<VarDecl>(cast<DeclRefExpr>(IVExpr)->getDecl());
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EmitVarDecl(*IVDecl);
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EmitIgnoredExpr(S.getInit());
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// Emit the iterations count variable.
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// If it is not a variable, Sema decided to calculate iterations count on each
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// iteration (e.g., it is foldable into a constant).
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if (auto LIExpr = dyn_cast<DeclRefExpr>(S.getLastIteration())) {
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EmitVarDecl(*cast<VarDecl>(LIExpr->getDecl()));
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// Emit calculation of the iterations count.
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EmitIgnoredExpr(S.getCalcLastIteration());
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}
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if (SeparateIter) {
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// Emit: if (LastIteration > 0) - begin.
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RegionCounter Cnt = getPGORegionCounter(&S);
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auto ThenBlock = createBasicBlock("simd.if.then");
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auto ContBlock = createBasicBlock("simd.if.end");
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EmitBranchOnBoolExpr(S.getPreCond(), ThenBlock, ContBlock, Cnt.getCount());
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EmitBlock(ThenBlock);
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Cnt.beginRegion(Builder);
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// Emit 'then' code.
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{
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OMPPrivateScope LoopScope(*this);
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EmitPrivateLoopCounters(*this, LoopScope, S.counters());
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EmitOMPInnerLoop(S, LoopScope, /* SeparateIter */ true);
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EmitOMPLoopBody(S, /* SeparateIter */ true);
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}
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EmitOMPSimdFinal(S);
|
|
// Emit: if (LastIteration != 0) - end.
|
|
EmitBranch(ContBlock);
|
|
EmitBlock(ContBlock, true);
|
|
} else {
|
|
{
|
|
OMPPrivateScope LoopScope(*this);
|
|
EmitPrivateLoopCounters(*this, LoopScope, S.counters());
|
|
EmitOMPInnerLoop(S, LoopScope);
|
|
}
|
|
EmitOMPSimdFinal(S);
|
|
}
|
|
|
|
if (DI)
|
|
DI->EmitLexicalBlockEnd(Builder, S.getSourceRange().getEnd());
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPForDirective(const OMPForDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp for' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPForSimdDirective(const OMPForSimdDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp for simd' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPSectionsDirective(const OMPSectionsDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp sections' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPSectionDirective(const OMPSectionDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp section' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPSingleDirective(const OMPSingleDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp single' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPMasterDirective(const OMPMasterDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp master' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPCriticalDirective(const OMPCriticalDirective &S) {
|
|
// __kmpc_critical();
|
|
// <captured_body>
|
|
// __kmpc_end_critical();
|
|
//
|
|
|
|
auto Lock = CGM.getOpenMPRuntime().GetCriticalRegionLock(
|
|
S.getDirectiveName().getAsString());
|
|
CGM.getOpenMPRuntime().EmitOMPCriticalRegionStart(*this, Lock,
|
|
S.getLocStart());
|
|
{
|
|
RunCleanupsScope Scope(*this);
|
|
EmitStmt(cast<CapturedStmt>(S.getAssociatedStmt())->getCapturedStmt());
|
|
EnsureInsertPoint();
|
|
}
|
|
CGM.getOpenMPRuntime().EmitOMPCriticalRegionEnd(*this, Lock, S.getLocEnd());
|
|
}
|
|
|
|
void
|
|
CodeGenFunction::EmitOMPParallelForDirective(const OMPParallelForDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp parallel for' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPParallelForSimdDirective(
|
|
const OMPParallelForSimdDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp parallel for simd' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPParallelSectionsDirective(
|
|
const OMPParallelSectionsDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp parallel sections' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPTaskDirective(const OMPTaskDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp task' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPTaskyieldDirective(const OMPTaskyieldDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp taskyield' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPBarrierDirective(const OMPBarrierDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp barrier' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPTaskwaitDirective(const OMPTaskwaitDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp taskwait' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPFlushDirective(const OMPFlushDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp flush' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPOrderedDirective(const OMPOrderedDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp ordered' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPAtomicDirective(const OMPAtomicDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp atomic' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPTargetDirective(const OMPTargetDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp target' is not supported yet.");
|
|
}
|
|
|
|
void CodeGenFunction::EmitOMPTeamsDirective(const OMPTeamsDirective &) {
|
|
llvm_unreachable("CodeGen for 'omp teams' is not supported yet.");
|
|
}
|
|
|