| //===--- SemaOpenMP.cpp - Semantic Analysis for OpenMP constructs ---------===// |
| // |
| // The LLVM Compiler Infrastructure |
| // |
| // This file is distributed under the University of Illinois Open Source |
| // License. See LICENSE.TXT for details. |
| // |
| //===----------------------------------------------------------------------===// |
| /// \file |
| /// \brief This file implements semantic analysis for OpenMP directives and |
| /// clauses. |
| /// |
| //===----------------------------------------------------------------------===// |
| |
| #include "TreeTransform.h" |
| #include "clang/AST/ASTContext.h" |
| #include "clang/AST/ASTMutationListener.h" |
| #include "clang/AST/Decl.h" |
| #include "clang/AST/DeclCXX.h" |
| #include "clang/AST/DeclOpenMP.h" |
| #include "clang/AST/StmtCXX.h" |
| #include "clang/AST/StmtOpenMP.h" |
| #include "clang/AST/StmtVisitor.h" |
| #include "clang/Basic/OpenMPKinds.h" |
| #include "clang/Basic/TargetInfo.h" |
| #include "clang/Lex/Preprocessor.h" |
| #include "clang/Sema/Initialization.h" |
| #include "clang/Sema/Lookup.h" |
| #include "clang/Sema/Scope.h" |
| #include "clang/Sema/ScopeInfo.h" |
| #include "clang/Sema/SemaInternal.h" |
| using namespace clang; |
| |
| //===----------------------------------------------------------------------===// |
| // Stack of data-sharing attributes for variables |
| //===----------------------------------------------------------------------===// |
| |
| namespace { |
| /// \brief Default data sharing attributes, which can be applied to directive. |
| enum DefaultDataSharingAttributes { |
| DSA_unspecified = 0, /// \brief Data sharing attribute not specified. |
| DSA_none = 1 << 0, /// \brief Default data sharing attribute 'none'. |
| DSA_shared = 1 << 1 /// \brief Default data sharing attribute 'shared'. |
| }; |
| |
| template <class T> struct MatchesAny { |
| explicit MatchesAny(ArrayRef<T> Arr) : Arr(std::move(Arr)) {} |
| bool operator()(T Kind) { |
| for (auto KindEl : Arr) |
| if (KindEl == Kind) |
| return true; |
| return false; |
| } |
| |
| private: |
| ArrayRef<T> Arr; |
| }; |
| struct MatchesAlways { |
| MatchesAlways() {} |
| template <class T> bool operator()(T) { return true; } |
| }; |
| |
| typedef MatchesAny<OpenMPClauseKind> MatchesAnyClause; |
| typedef MatchesAny<OpenMPDirectiveKind> MatchesAnyDirective; |
| |
| /// \brief Stack for tracking declarations used in OpenMP directives and |
| /// clauses and their data-sharing attributes. |
| class DSAStackTy { |
| public: |
| struct DSAVarData { |
| OpenMPDirectiveKind DKind; |
| OpenMPClauseKind CKind; |
| DeclRefExpr *RefExpr; |
| SourceLocation ImplicitDSALoc; |
| DSAVarData() |
| : DKind(OMPD_unknown), CKind(OMPC_unknown), RefExpr(nullptr), |
| ImplicitDSALoc() {} |
| }; |
| |
| public: |
| struct MapInfo { |
| Expr *RefExpr; |
| }; |
| |
| private: |
| struct DSAInfo { |
| OpenMPClauseKind Attributes; |
| DeclRefExpr *RefExpr; |
| }; |
| typedef llvm::SmallDenseMap<VarDecl *, DSAInfo, 64> DeclSAMapTy; |
| typedef llvm::SmallDenseMap<VarDecl *, DeclRefExpr *, 64> AlignedMapTy; |
| typedef llvm::DenseMap<VarDecl *, unsigned> LoopControlVariablesMapTy; |
| typedef llvm::SmallDenseMap<VarDecl *, MapInfo, 64> MappedDeclsTy; |
| typedef llvm::StringMap<std::pair<OMPCriticalDirective *, llvm::APSInt>> |
| CriticalsWithHintsTy; |
| |
| struct SharingMapTy { |
| DeclSAMapTy SharingMap; |
| AlignedMapTy AlignedMap; |
| MappedDeclsTy MappedDecls; |
| LoopControlVariablesMapTy LCVMap; |
| DefaultDataSharingAttributes DefaultAttr; |
| SourceLocation DefaultAttrLoc; |
| OpenMPDirectiveKind Directive; |
| DeclarationNameInfo DirectiveName; |
| Scope *CurScope; |
| SourceLocation ConstructLoc; |
| /// \brief first argument (Expr *) contains optional argument of the |
| /// 'ordered' clause, the second one is true if the regions has 'ordered' |
| /// clause, false otherwise. |
| llvm::PointerIntPair<Expr *, 1, bool> OrderedRegion; |
| bool NowaitRegion; |
| bool CancelRegion; |
| unsigned AssociatedLoops; |
| SourceLocation InnerTeamsRegionLoc; |
| SharingMapTy(OpenMPDirectiveKind DKind, DeclarationNameInfo Name, |
| Scope *CurScope, SourceLocation Loc) |
| : SharingMap(), AlignedMap(), LCVMap(), DefaultAttr(DSA_unspecified), |
| Directive(DKind), DirectiveName(std::move(Name)), CurScope(CurScope), |
| ConstructLoc(Loc), OrderedRegion(), NowaitRegion(false), |
| CancelRegion(false), AssociatedLoops(1), InnerTeamsRegionLoc() {} |
| SharingMapTy() |
| : SharingMap(), AlignedMap(), LCVMap(), DefaultAttr(DSA_unspecified), |
| Directive(OMPD_unknown), DirectiveName(), CurScope(nullptr), |
| ConstructLoc(), OrderedRegion(), NowaitRegion(false), |
| CancelRegion(false), AssociatedLoops(1), InnerTeamsRegionLoc() {} |
| }; |
| |
| typedef SmallVector<SharingMapTy, 64> StackTy; |
| |
| /// \brief Stack of used declaration and their data-sharing attributes. |
| StackTy Stack; |
| /// \brief true, if check for DSA must be from parent directive, false, if |
| /// from current directive. |
| OpenMPClauseKind ClauseKindMode; |
| Sema &SemaRef; |
| bool ForceCapturing; |
| CriticalsWithHintsTy Criticals; |
| |
| typedef SmallVector<SharingMapTy, 8>::reverse_iterator reverse_iterator; |
| |
| DSAVarData getDSA(StackTy::reverse_iterator Iter, VarDecl *D); |
| |
| /// \brief Checks if the variable is a local for OpenMP region. |
| bool isOpenMPLocal(VarDecl *D, StackTy::reverse_iterator Iter); |
| |
| public: |
| explicit DSAStackTy(Sema &S) |
| : Stack(1), ClauseKindMode(OMPC_unknown), SemaRef(S), |
| ForceCapturing(false) {} |
| |
| bool isClauseParsingMode() const { return ClauseKindMode != OMPC_unknown; } |
| void setClauseParsingMode(OpenMPClauseKind K) { ClauseKindMode = K; } |
| |
| bool isForceVarCapturing() const { return ForceCapturing; } |
| void setForceVarCapturing(bool V) { ForceCapturing = V; } |
| |
| void push(OpenMPDirectiveKind DKind, const DeclarationNameInfo &DirName, |
| Scope *CurScope, SourceLocation Loc) { |
| Stack.push_back(SharingMapTy(DKind, DirName, CurScope, Loc)); |
| Stack.back().DefaultAttrLoc = Loc; |
| } |
| |
| void pop() { |
| assert(Stack.size() > 1 && "Data-sharing attributes stack is empty!"); |
| Stack.pop_back(); |
| } |
| |
| void addCriticalWithHint(OMPCriticalDirective *D, llvm::APSInt Hint) { |
| Criticals[D->getDirectiveName().getAsString()] = std::make_pair(D, Hint); |
| } |
| const std::pair<OMPCriticalDirective *, llvm::APSInt> |
| getCriticalWithHint(const DeclarationNameInfo &Name) const { |
| auto I = Criticals.find(Name.getAsString()); |
| if (I != Criticals.end()) |
| return I->second; |
| return std::make_pair(nullptr, llvm::APSInt()); |
| } |
| /// \brief If 'aligned' declaration for given variable \a D was not seen yet, |
| /// add it and return NULL; otherwise return previous occurrence's expression |
| /// for diagnostics. |
| DeclRefExpr *addUniqueAligned(VarDecl *D, DeclRefExpr *NewDE); |
| |
| /// \brief Register specified variable as loop control variable. |
| void addLoopControlVariable(VarDecl *D); |
| /// \brief Check if the specified variable is a loop control variable for |
| /// current region. |
| /// \return The index of the loop control variable in the list of associated |
| /// for-loops (from outer to inner). |
| unsigned isLoopControlVariable(VarDecl *D); |
| /// \brief Check if the specified variable is a loop control variable for |
| /// parent region. |
| /// \return The index of the loop control variable in the list of associated |
| /// for-loops (from outer to inner). |
| unsigned isParentLoopControlVariable(VarDecl *D); |
| /// \brief Get the loop control variable for the I-th loop (or nullptr) in |
| /// parent directive. |
| VarDecl *getParentLoopControlVariable(unsigned I); |
| |
| /// \brief Adds explicit data sharing attribute to the specified declaration. |
| void addDSA(VarDecl *D, DeclRefExpr *E, OpenMPClauseKind A); |
| |
| /// \brief Returns data sharing attributes from top of the stack for the |
| /// specified declaration. |
| DSAVarData getTopDSA(VarDecl *D, bool FromParent); |
| /// \brief Returns data-sharing attributes for the specified declaration. |
| DSAVarData getImplicitDSA(VarDecl *D, bool FromParent); |
| /// \brief Checks if the specified variables has data-sharing attributes which |
| /// match specified \a CPred predicate in any directive which matches \a DPred |
| /// predicate. |
| template <class ClausesPredicate, class DirectivesPredicate> |
| DSAVarData hasDSA(VarDecl *D, ClausesPredicate CPred, |
| DirectivesPredicate DPred, bool FromParent); |
| /// \brief Checks if the specified variables has data-sharing attributes which |
| /// match specified \a CPred predicate in any innermost directive which |
| /// matches \a DPred predicate. |
| template <class ClausesPredicate, class DirectivesPredicate> |
| DSAVarData hasInnermostDSA(VarDecl *D, ClausesPredicate CPred, |
| DirectivesPredicate DPred, |
| bool FromParent); |
| /// \brief Checks if the specified variables has explicit data-sharing |
| /// attributes which match specified \a CPred predicate at the specified |
| /// OpenMP region. |
| bool hasExplicitDSA(VarDecl *D, |
| const llvm::function_ref<bool(OpenMPClauseKind)> &CPred, |
| unsigned Level); |
| |
| /// \brief Returns true if the directive at level \Level matches in the |
| /// specified \a DPred predicate. |
| bool hasExplicitDirective( |
| const llvm::function_ref<bool(OpenMPDirectiveKind)> &DPred, |
| unsigned Level); |
| |
| /// \brief Finds a directive which matches specified \a DPred predicate. |
| template <class NamedDirectivesPredicate> |
| bool hasDirective(NamedDirectivesPredicate DPred, bool FromParent); |
| |
| /// \brief Returns currently analyzed directive. |
| OpenMPDirectiveKind getCurrentDirective() const { |
| return Stack.back().Directive; |
| } |
| /// \brief Returns parent directive. |
| OpenMPDirectiveKind getParentDirective() const { |
| if (Stack.size() > 2) |
| return Stack[Stack.size() - 2].Directive; |
| return OMPD_unknown; |
| } |
| /// \brief Return the directive associated with the provided scope. |
| OpenMPDirectiveKind getDirectiveForScope(const Scope *S) const; |
| |
| /// \brief Set default data sharing attribute to none. |
| void setDefaultDSANone(SourceLocation Loc) { |
| Stack.back().DefaultAttr = DSA_none; |
| Stack.back().DefaultAttrLoc = Loc; |
| } |
| /// \brief Set default data sharing attribute to shared. |
| void setDefaultDSAShared(SourceLocation Loc) { |
| Stack.back().DefaultAttr = DSA_shared; |
| Stack.back().DefaultAttrLoc = Loc; |
| } |
| |
| DefaultDataSharingAttributes getDefaultDSA() const { |
| return Stack.back().DefaultAttr; |
| } |
| SourceLocation getDefaultDSALocation() const { |
| return Stack.back().DefaultAttrLoc; |
| } |
| |
| /// \brief Checks if the specified variable is a threadprivate. |
| bool isThreadPrivate(VarDecl *D) { |
| DSAVarData DVar = getTopDSA(D, false); |
| return isOpenMPThreadPrivate(DVar.CKind); |
| } |
| |
| /// \brief Marks current region as ordered (it has an 'ordered' clause). |
| void setOrderedRegion(bool IsOrdered, Expr *Param) { |
| Stack.back().OrderedRegion.setInt(IsOrdered); |
| Stack.back().OrderedRegion.setPointer(Param); |
| } |
| /// \brief Returns true, if parent region is ordered (has associated |
| /// 'ordered' clause), false - otherwise. |
| bool isParentOrderedRegion() const { |
| if (Stack.size() > 2) |
| return Stack[Stack.size() - 2].OrderedRegion.getInt(); |
| return false; |
| } |
| /// \brief Returns optional parameter for the ordered region. |
| Expr *getParentOrderedRegionParam() const { |
| if (Stack.size() > 2) |
| return Stack[Stack.size() - 2].OrderedRegion.getPointer(); |
| return nullptr; |
| } |
| /// \brief Marks current region as nowait (it has a 'nowait' clause). |
| void setNowaitRegion(bool IsNowait = true) { |
| Stack.back().NowaitRegion = IsNowait; |
| } |
| /// \brief Returns true, if parent region is nowait (has associated |
| /// 'nowait' clause), false - otherwise. |
| bool isParentNowaitRegion() const { |
| if (Stack.size() > 2) |
| return Stack[Stack.size() - 2].NowaitRegion; |
| return false; |
| } |
| /// \brief Marks parent region as cancel region. |
| void setParentCancelRegion(bool Cancel = true) { |
| if (Stack.size() > 2) |
| Stack[Stack.size() - 2].CancelRegion = |
| Stack[Stack.size() - 2].CancelRegion || Cancel; |
| } |
| /// \brief Return true if current region has inner cancel construct. |
| bool isCancelRegion() const { |
| return Stack.back().CancelRegion; |
| } |
| |
| /// \brief Set collapse value for the region. |
| void setAssociatedLoops(unsigned Val) { Stack.back().AssociatedLoops = Val; } |
| /// \brief Return collapse value for region. |
| unsigned getAssociatedLoops() const { return Stack.back().AssociatedLoops; } |
| |
| /// \brief Marks current target region as one with closely nested teams |
| /// region. |
| void setParentTeamsRegionLoc(SourceLocation TeamsRegionLoc) { |
| if (Stack.size() > 2) |
| Stack[Stack.size() - 2].InnerTeamsRegionLoc = TeamsRegionLoc; |
| } |
| /// \brief Returns true, if current region has closely nested teams region. |
| bool hasInnerTeamsRegion() const { |
| return getInnerTeamsRegionLoc().isValid(); |
| } |
| /// \brief Returns location of the nested teams region (if any). |
| SourceLocation getInnerTeamsRegionLoc() const { |
| if (Stack.size() > 1) |
| return Stack.back().InnerTeamsRegionLoc; |
| return SourceLocation(); |
| } |
| |
| Scope *getCurScope() const { return Stack.back().CurScope; } |
| Scope *getCurScope() { return Stack.back().CurScope; } |
| SourceLocation getConstructLoc() { return Stack.back().ConstructLoc; } |
| |
| MapInfo getMapInfoForVar(VarDecl *VD) { |
| MapInfo VarMI = {0}; |
| for (auto Cnt = Stack.size() - 1; Cnt > 0; --Cnt) { |
| if (Stack[Cnt].MappedDecls.count(VD)) { |
| VarMI = Stack[Cnt].MappedDecls[VD]; |
| break; |
| } |
| } |
| return VarMI; |
| } |
| |
| void addMapInfoForVar(VarDecl *VD, MapInfo MI) { |
| if (Stack.size() > 1) { |
| Stack.back().MappedDecls[VD] = MI; |
| } |
| } |
| |
| MapInfo IsMappedInCurrentRegion(VarDecl *VD) { |
| assert(Stack.size() > 1 && "Target level is 0"); |
| MapInfo VarMI = {0}; |
| if (Stack.size() > 1 && Stack.back().MappedDecls.count(VD)) { |
| VarMI = Stack.back().MappedDecls[VD]; |
| } |
| return VarMI; |
| } |
| }; |
| bool isParallelOrTaskRegion(OpenMPDirectiveKind DKind) { |
| return isOpenMPParallelDirective(DKind) || DKind == OMPD_task || |
| isOpenMPTeamsDirective(DKind) || DKind == OMPD_unknown || |
| isOpenMPTaskLoopDirective(DKind); |
| } |
| } // namespace |
| |
| DSAStackTy::DSAVarData DSAStackTy::getDSA(StackTy::reverse_iterator Iter, |
| VarDecl *D) { |
| D = D->getCanonicalDecl(); |
| DSAVarData DVar; |
| if (Iter == std::prev(Stack.rend())) { |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a region but not in construct] |
| // File-scope or namespace-scope variables referenced in called routines |
| // in the region are shared unless they appear in a threadprivate |
| // directive. |
| if (!D->isFunctionOrMethodVarDecl() && !isa<ParmVarDecl>(D)) |
| DVar.CKind = OMPC_shared; |
| |
| // OpenMP [2.9.1.2, Data-sharing Attribute Rules for Variables Referenced |
| // in a region but not in construct] |
| // Variables with static storage duration that are declared in called |
| // routines in the region are shared. |
| if (D->hasGlobalStorage()) |
| DVar.CKind = OMPC_shared; |
| |
| return DVar; |
| } |
| |
| DVar.DKind = Iter->Directive; |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct, C/C++, predetermined, p.1] |
| // Variables with automatic storage duration that are declared in a scope |
| // inside the construct are private. |
| if (isOpenMPLocal(D, Iter) && D->isLocalVarDecl() && |
| (D->getStorageClass() == SC_Auto || D->getStorageClass() == SC_None)) { |
| DVar.CKind = OMPC_private; |
| return DVar; |
| } |
| |
| // Explicitly specified attributes and local variables with predetermined |
| // attributes. |
| if (Iter->SharingMap.count(D)) { |
| DVar.RefExpr = Iter->SharingMap[D].RefExpr; |
| DVar.CKind = Iter->SharingMap[D].Attributes; |
| DVar.ImplicitDSALoc = Iter->DefaultAttrLoc; |
| return DVar; |
| } |
| |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct, C/C++, implicitly determined, p.1] |
| // In a parallel or task construct, the data-sharing attributes of these |
| // variables are determined by the default clause, if present. |
| switch (Iter->DefaultAttr) { |
| case DSA_shared: |
| DVar.CKind = OMPC_shared; |
| DVar.ImplicitDSALoc = Iter->DefaultAttrLoc; |
| return DVar; |
| case DSA_none: |
| return DVar; |
| case DSA_unspecified: |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct, implicitly determined, p.2] |
| // In a parallel construct, if no default clause is present, these |
| // variables are shared. |
| DVar.ImplicitDSALoc = Iter->DefaultAttrLoc; |
| if (isOpenMPParallelDirective(DVar.DKind) || |
| isOpenMPTeamsDirective(DVar.DKind)) { |
| DVar.CKind = OMPC_shared; |
| return DVar; |
| } |
| |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct, implicitly determined, p.4] |
| // In a task construct, if no default clause is present, a variable that in |
| // the enclosing context is determined to be shared by all implicit tasks |
| // bound to the current team is shared. |
| if (DVar.DKind == OMPD_task) { |
| DSAVarData DVarTemp; |
| for (StackTy::reverse_iterator I = std::next(Iter), EE = Stack.rend(); |
| I != EE; ++I) { |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables |
| // Referenced |
| // in a Construct, implicitly determined, p.6] |
| // In a task construct, if no default clause is present, a variable |
| // whose data-sharing attribute is not determined by the rules above is |
| // firstprivate. |
| DVarTemp = getDSA(I, D); |
| if (DVarTemp.CKind != OMPC_shared) { |
| DVar.RefExpr = nullptr; |
| DVar.DKind = OMPD_task; |
| DVar.CKind = OMPC_firstprivate; |
| return DVar; |
| } |
| if (isParallelOrTaskRegion(I->Directive)) |
| break; |
| } |
| DVar.DKind = OMPD_task; |
| DVar.CKind = |
| (DVarTemp.CKind == OMPC_unknown) ? OMPC_firstprivate : OMPC_shared; |
| return DVar; |
| } |
| } |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct, implicitly determined, p.3] |
| // For constructs other than task, if no default clause is present, these |
| // variables inherit their data-sharing attributes from the enclosing |
| // context. |
| return getDSA(std::next(Iter), D); |
| } |
| |
| DeclRefExpr *DSAStackTy::addUniqueAligned(VarDecl *D, DeclRefExpr *NewDE) { |
| assert(Stack.size() > 1 && "Data sharing attributes stack is empty"); |
| D = D->getCanonicalDecl(); |
| auto It = Stack.back().AlignedMap.find(D); |
| if (It == Stack.back().AlignedMap.end()) { |
| assert(NewDE && "Unexpected nullptr expr to be added into aligned map"); |
| Stack.back().AlignedMap[D] = NewDE; |
| return nullptr; |
| } else { |
| assert(It->second && "Unexpected nullptr expr in the aligned map"); |
| return It->second; |
| } |
| return nullptr; |
| } |
| |
| void DSAStackTy::addLoopControlVariable(VarDecl *D) { |
| assert(Stack.size() > 1 && "Data-sharing attributes stack is empty"); |
| D = D->getCanonicalDecl(); |
| Stack.back().LCVMap.insert(std::make_pair(D, Stack.back().LCVMap.size() + 1)); |
| } |
| |
| unsigned DSAStackTy::isLoopControlVariable(VarDecl *D) { |
| assert(Stack.size() > 1 && "Data-sharing attributes stack is empty"); |
| D = D->getCanonicalDecl(); |
| return Stack.back().LCVMap.count(D) > 0 ? Stack.back().LCVMap[D] : 0; |
| } |
| |
| unsigned DSAStackTy::isParentLoopControlVariable(VarDecl *D) { |
| assert(Stack.size() > 2 && "Data-sharing attributes stack is empty"); |
| D = D->getCanonicalDecl(); |
| return Stack[Stack.size() - 2].LCVMap.count(D) > 0 |
| ? Stack[Stack.size() - 2].LCVMap[D] |
| : 0; |
| } |
| |
| VarDecl *DSAStackTy::getParentLoopControlVariable(unsigned I) { |
| assert(Stack.size() > 2 && "Data-sharing attributes stack is empty"); |
| if (Stack[Stack.size() - 2].LCVMap.size() < I) |
| return nullptr; |
| for (auto &Pair : Stack[Stack.size() - 2].LCVMap) { |
| if (Pair.second == I) |
| return Pair.first; |
| } |
| return nullptr; |
| } |
| |
| void DSAStackTy::addDSA(VarDecl *D, DeclRefExpr *E, OpenMPClauseKind A) { |
| D = D->getCanonicalDecl(); |
| if (A == OMPC_threadprivate) { |
| Stack[0].SharingMap[D].Attributes = A; |
| Stack[0].SharingMap[D].RefExpr = E; |
| } else { |
| assert(Stack.size() > 1 && "Data-sharing attributes stack is empty"); |
| Stack.back().SharingMap[D].Attributes = A; |
| Stack.back().SharingMap[D].RefExpr = E; |
| } |
| } |
| |
| bool DSAStackTy::isOpenMPLocal(VarDecl *D, StackTy::reverse_iterator Iter) { |
| D = D->getCanonicalDecl(); |
| if (Stack.size() > 2) { |
| reverse_iterator I = Iter, E = std::prev(Stack.rend()); |
| Scope *TopScope = nullptr; |
| while (I != E && !isParallelOrTaskRegion(I->Directive)) { |
| ++I; |
| } |
| if (I == E) |
| return false; |
| TopScope = I->CurScope ? I->CurScope->getParent() : nullptr; |
| Scope *CurScope = getCurScope(); |
| while (CurScope != TopScope && !CurScope->isDeclScope(D)) { |
| CurScope = CurScope->getParent(); |
| } |
| return CurScope != TopScope; |
| } |
| return false; |
| } |
| |
| /// \brief Build a variable declaration for OpenMP loop iteration variable. |
| static VarDecl *buildVarDecl(Sema &SemaRef, SourceLocation Loc, QualType Type, |
| StringRef Name, const AttrVec *Attrs = nullptr) { |
| DeclContext *DC = SemaRef.CurContext; |
| IdentifierInfo *II = &SemaRef.PP.getIdentifierTable().get(Name); |
| TypeSourceInfo *TInfo = SemaRef.Context.getTrivialTypeSourceInfo(Type, Loc); |
| VarDecl *Decl = |
| VarDecl::Create(SemaRef.Context, DC, Loc, Loc, II, Type, TInfo, SC_None); |
| if (Attrs) { |
| for (specific_attr_iterator<AlignedAttr> I(Attrs->begin()), E(Attrs->end()); |
| I != E; ++I) |
| Decl->addAttr(*I); |
| } |
| Decl->setImplicit(); |
| return Decl; |
| } |
| |
| static DeclRefExpr *buildDeclRefExpr(Sema &S, VarDecl *D, QualType Ty, |
| SourceLocation Loc, |
| bool RefersToCapture = false) { |
| D->setReferenced(); |
| D->markUsed(S.Context); |
| return DeclRefExpr::Create(S.getASTContext(), NestedNameSpecifierLoc(), |
| SourceLocation(), D, RefersToCapture, Loc, Ty, |
| VK_LValue); |
| } |
| |
| DSAStackTy::DSAVarData DSAStackTy::getTopDSA(VarDecl *D, bool FromParent) { |
| D = D->getCanonicalDecl(); |
| DSAVarData DVar; |
| |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct, C/C++, predetermined, p.1] |
| // Variables appearing in threadprivate directives are threadprivate. |
| if ((D->getTLSKind() != VarDecl::TLS_None && |
| !(D->hasAttr<OMPThreadPrivateDeclAttr>() && |
| SemaRef.getLangOpts().OpenMPUseTLS && |
| SemaRef.getASTContext().getTargetInfo().isTLSSupported())) || |
| (D->getStorageClass() == SC_Register && D->hasAttr<AsmLabelAttr>() && |
| !D->isLocalVarDecl())) { |
| addDSA(D, buildDeclRefExpr(SemaRef, D, D->getType().getNonReferenceType(), |
| D->getLocation()), |
| OMPC_threadprivate); |
| } |
| if (Stack[0].SharingMap.count(D)) { |
| DVar.RefExpr = Stack[0].SharingMap[D].RefExpr; |
| DVar.CKind = OMPC_threadprivate; |
| return DVar; |
| } |
| |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct, C/C++, predetermined, p.4] |
| // Static data members are shared. |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct, C/C++, predetermined, p.7] |
| // Variables with static storage duration that are declared in a scope |
| // inside the construct are shared. |
| if (D->isStaticDataMember()) { |
| DSAVarData DVarTemp = |
| hasDSA(D, isOpenMPPrivate, MatchesAlways(), FromParent); |
| if (DVarTemp.CKind != OMPC_unknown && DVarTemp.RefExpr) |
| return DVar; |
| |
| DVar.CKind = OMPC_shared; |
| return DVar; |
| } |
| |
| QualType Type = D->getType().getNonReferenceType().getCanonicalType(); |
| bool IsConstant = Type.isConstant(SemaRef.getASTContext()); |
| Type = SemaRef.getASTContext().getBaseElementType(Type); |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct, C/C++, predetermined, p.6] |
| // Variables with const qualified type having no mutable member are |
| // shared. |
| CXXRecordDecl *RD = |
| SemaRef.getLangOpts().CPlusPlus ? Type->getAsCXXRecordDecl() : nullptr; |
| if (auto *CTSD = dyn_cast_or_null<ClassTemplateSpecializationDecl>(RD)) |
| if (auto *CTD = CTSD->getSpecializedTemplate()) |
| RD = CTD->getTemplatedDecl(); |
| if (IsConstant && |
| !(SemaRef.getLangOpts().CPlusPlus && RD && RD->hasMutableFields())) { |
| // Variables with const-qualified type having no mutable member may be |
| // listed in a firstprivate clause, even if they are static data members. |
| DSAVarData DVarTemp = hasDSA(D, MatchesAnyClause(OMPC_firstprivate), |
| MatchesAlways(), FromParent); |
| if (DVarTemp.CKind == OMPC_firstprivate && DVarTemp.RefExpr) |
| return DVar; |
| |
| DVar.CKind = OMPC_shared; |
| return DVar; |
| } |
| |
| // Explicitly specified attributes and local variables with predetermined |
| // attributes. |
| auto StartI = std::next(Stack.rbegin()); |
| auto EndI = std::prev(Stack.rend()); |
| if (FromParent && StartI != EndI) { |
| StartI = std::next(StartI); |
| } |
| auto I = std::prev(StartI); |
| if (I->SharingMap.count(D)) { |
| DVar.RefExpr = I->SharingMap[D].RefExpr; |
| DVar.CKind = I->SharingMap[D].Attributes; |
| DVar.ImplicitDSALoc = I->DefaultAttrLoc; |
| } |
| |
| return DVar; |
| } |
| |
| DSAStackTy::DSAVarData DSAStackTy::getImplicitDSA(VarDecl *D, bool FromParent) { |
| D = D->getCanonicalDecl(); |
| auto StartI = Stack.rbegin(); |
| auto EndI = std::prev(Stack.rend()); |
| if (FromParent && StartI != EndI) { |
| StartI = std::next(StartI); |
| } |
| return getDSA(StartI, D); |
| } |
| |
| template <class ClausesPredicate, class DirectivesPredicate> |
| DSAStackTy::DSAVarData DSAStackTy::hasDSA(VarDecl *D, ClausesPredicate CPred, |
| DirectivesPredicate DPred, |
| bool FromParent) { |
| D = D->getCanonicalDecl(); |
| auto StartI = std::next(Stack.rbegin()); |
| auto EndI = std::prev(Stack.rend()); |
| if (FromParent && StartI != EndI) { |
| StartI = std::next(StartI); |
| } |
| for (auto I = StartI, EE = EndI; I != EE; ++I) { |
| if (!DPred(I->Directive) && !isParallelOrTaskRegion(I->Directive)) |
| continue; |
| DSAVarData DVar = getDSA(I, D); |
| if (CPred(DVar.CKind)) |
| return DVar; |
| } |
| return DSAVarData(); |
| } |
| |
| template <class ClausesPredicate, class DirectivesPredicate> |
| DSAStackTy::DSAVarData |
| DSAStackTy::hasInnermostDSA(VarDecl *D, ClausesPredicate CPred, |
| DirectivesPredicate DPred, bool FromParent) { |
| D = D->getCanonicalDecl(); |
| auto StartI = std::next(Stack.rbegin()); |
| auto EndI = std::prev(Stack.rend()); |
| if (FromParent && StartI != EndI) { |
| StartI = std::next(StartI); |
| } |
| for (auto I = StartI, EE = EndI; I != EE; ++I) { |
| if (!DPred(I->Directive)) |
| break; |
| DSAVarData DVar = getDSA(I, D); |
| if (CPred(DVar.CKind)) |
| return DVar; |
| return DSAVarData(); |
| } |
| return DSAVarData(); |
| } |
| |
| bool DSAStackTy::hasExplicitDSA( |
| VarDecl *D, const llvm::function_ref<bool(OpenMPClauseKind)> &CPred, |
| unsigned Level) { |
| if (CPred(ClauseKindMode)) |
| return true; |
| if (isClauseParsingMode()) |
| ++Level; |
| D = D->getCanonicalDecl(); |
| auto StartI = Stack.rbegin(); |
| auto EndI = std::prev(Stack.rend()); |
| if (std::distance(StartI, EndI) <= (int)Level) |
| return false; |
| std::advance(StartI, Level); |
| return (StartI->SharingMap.count(D) > 0) && StartI->SharingMap[D].RefExpr && |
| CPred(StartI->SharingMap[D].Attributes); |
| } |
| |
| bool DSAStackTy::hasExplicitDirective( |
| const llvm::function_ref<bool(OpenMPDirectiveKind)> &DPred, |
| unsigned Level) { |
| if (isClauseParsingMode()) |
| ++Level; |
| auto StartI = Stack.rbegin(); |
| auto EndI = std::prev(Stack.rend()); |
| if (std::distance(StartI, EndI) <= (int)Level) |
| return false; |
| std::advance(StartI, Level); |
| return DPred(StartI->Directive); |
| } |
| |
| template <class NamedDirectivesPredicate> |
| bool DSAStackTy::hasDirective(NamedDirectivesPredicate DPred, bool FromParent) { |
| auto StartI = std::next(Stack.rbegin()); |
| auto EndI = std::prev(Stack.rend()); |
| if (FromParent && StartI != EndI) { |
| StartI = std::next(StartI); |
| } |
| for (auto I = StartI, EE = EndI; I != EE; ++I) { |
| if (DPred(I->Directive, I->DirectiveName, I->ConstructLoc)) |
| return true; |
| } |
| return false; |
| } |
| |
| OpenMPDirectiveKind DSAStackTy::getDirectiveForScope(const Scope *S) const { |
| for (auto I = Stack.rbegin(), EE = Stack.rend(); I != EE; ++I) |
| if (I->CurScope == S) |
| return I->Directive; |
| return OMPD_unknown; |
| } |
| |
| void Sema::InitDataSharingAttributesStack() { |
| VarDataSharingAttributesStack = new DSAStackTy(*this); |
| } |
| |
| #define DSAStack static_cast<DSAStackTy *>(VarDataSharingAttributesStack) |
| |
| bool Sema::IsOpenMPCapturedByRef(VarDecl *VD, |
| const CapturedRegionScopeInfo *RSI) { |
| assert(LangOpts.OpenMP && "OpenMP is not allowed"); |
| |
| auto &Ctx = getASTContext(); |
| bool IsByRef = true; |
| |
| // Find the directive that is associated with the provided scope. |
| auto DKind = DSAStack->getDirectiveForScope(RSI->TheScope); |
| auto Ty = VD->getType(); |
| |
| if (isOpenMPTargetDirective(DKind)) { |
| // This table summarizes how a given variable should be passed to the device |
| // given its type and the clauses where it appears. This table is based on |
| // the description in OpenMP 4.5 [2.10.4, target Construct] and |
| // OpenMP 4.5 [2.15.5, Data-mapping Attribute Rules and Clauses]. |
| // |
| // ========================================================================= |
| // | type | defaultmap | pvt | first | is_device_ptr | map | res. | |
| // | |(tofrom:scalar)| | pvt | | | | |
| // ========================================================================= |
| // | scl | | | | - | | bycopy| |
| // | scl | | - | x | - | - | bycopy| |
| // | scl | | x | - | - | - | null | |
| // | scl | x | | | - | | byref | |
| // | scl | x | - | x | - | - | bycopy| |
| // | scl | x | x | - | - | - | null | |
| // | scl | | - | - | - | x | byref | |
| // | scl | x | - | - | - | x | byref | |
| // |
| // | agg | n.a. | | | - | | byref | |
| // | agg | n.a. | - | x | - | - | byref | |
| // | agg | n.a. | x | - | - | - | null | |
| // | agg | n.a. | - | - | - | x | byref | |
| // | agg | n.a. | - | - | - | x[] | byref | |
| // |
| // | ptr | n.a. | | | - | | bycopy| |
| // | ptr | n.a. | - | x | - | - | bycopy| |
| // | ptr | n.a. | x | - | - | - | null | |
| // | ptr | n.a. | - | - | - | x | byref | |
| // | ptr | n.a. | - | - | - | x[] | bycopy| |
| // | ptr | n.a. | - | - | x | | bycopy| |
| // | ptr | n.a. | - | - | x | x | bycopy| |
| // | ptr | n.a. | - | - | x | x[] | bycopy| |
| // ========================================================================= |
| // Legend: |
| // scl - scalar |
| // ptr - pointer |
| // agg - aggregate |
| // x - applies |
| // - - invalid in this combination |
| // [] - mapped with an array section |
| // byref - should be mapped by reference |
| // byval - should be mapped by value |
| // null - initialize a local variable to null on the device |
| // |
| // Observations: |
| // - All scalar declarations that show up in a map clause have to be passed |
| // by reference, because they may have been mapped in the enclosing data |
| // environment. |
| // - If the scalar value does not fit the size of uintptr, it has to be |
| // passed by reference, regardless the result in the table above. |
| // - For pointers mapped by value that have either an implicit map or an |
| // array section, the runtime library may pass the NULL value to the |
| // device instead of the value passed to it by the compiler. |
| |
| // FIXME: Right now, only implicit maps are implemented. Properly mapping |
| // values requires having the map, private, and firstprivate clauses SEMA |
| // and parsing in place, which we don't yet. |
| |
| if (Ty->isReferenceType()) |
| Ty = Ty->castAs<ReferenceType>()->getPointeeType(); |
| IsByRef = !Ty->isScalarType(); |
| } |
| |
| // When passing data by value, we need to make sure it fits the uintptr size |
| // and alignment, because the runtime library only deals with uintptr types. |
| // If it does not fit the uintptr size, we need to pass the data by reference |
| // instead. |
| if (!IsByRef && |
| (Ctx.getTypeSizeInChars(Ty) > |
| Ctx.getTypeSizeInChars(Ctx.getUIntPtrType()) || |
| Ctx.getDeclAlign(VD) > Ctx.getTypeAlignInChars(Ctx.getUIntPtrType()))) |
| IsByRef = true; |
| |
| return IsByRef; |
| } |
| |
| bool Sema::IsOpenMPCapturedVar(VarDecl *VD) { |
| assert(LangOpts.OpenMP && "OpenMP is not allowed"); |
| VD = VD->getCanonicalDecl(); |
| |
| // If we are attempting to capture a global variable in a directive with |
| // 'target' we return true so that this global is also mapped to the device. |
| // |
| // FIXME: If the declaration is enclosed in a 'declare target' directive, |
| // then it should not be captured. Therefore, an extra check has to be |
| // inserted here once support for 'declare target' is added. |
| // |
| if (!VD->hasLocalStorage()) { |
| if (DSAStack->getCurrentDirective() == OMPD_target && |
| !DSAStack->isClauseParsingMode()) { |
| return true; |
| } |
| if (DSAStack->getCurScope() && |
| DSAStack->hasDirective( |
| [](OpenMPDirectiveKind K, const DeclarationNameInfo &DNI, |
| SourceLocation Loc) -> bool { |
| return isOpenMPTargetDirective(K); |
| }, |
| false)) { |
| return true; |
| } |
| } |
| |
| if (DSAStack->getCurrentDirective() != OMPD_unknown && |
| (!DSAStack->isClauseParsingMode() || |
| DSAStack->getParentDirective() != OMPD_unknown)) { |
| if (DSAStack->isLoopControlVariable(VD) || |
| (VD->hasLocalStorage() && |
| isParallelOrTaskRegion(DSAStack->getCurrentDirective())) || |
| DSAStack->isForceVarCapturing()) |
| return true; |
| auto DVarPrivate = DSAStack->getTopDSA(VD, DSAStack->isClauseParsingMode()); |
| if (DVarPrivate.CKind != OMPC_unknown && isOpenMPPrivate(DVarPrivate.CKind)) |
| return true; |
| DVarPrivate = DSAStack->hasDSA(VD, isOpenMPPrivate, MatchesAlways(), |
| DSAStack->isClauseParsingMode()); |
| return DVarPrivate.CKind != OMPC_unknown; |
| } |
| return false; |
| } |
| |
| bool Sema::isOpenMPPrivateVar(VarDecl *VD, unsigned Level) { |
| assert(LangOpts.OpenMP && "OpenMP is not allowed"); |
| return DSAStack->hasExplicitDSA( |
| VD, [](OpenMPClauseKind K) -> bool { return K == OMPC_private; }, Level); |
| } |
| |
| bool Sema::isOpenMPTargetCapturedVar(VarDecl *VD, unsigned Level) { |
| assert(LangOpts.OpenMP && "OpenMP is not allowed"); |
| // Return true if the current level is no longer enclosed in a target region. |
| |
| return !VD->hasLocalStorage() && |
| DSAStack->hasExplicitDirective(isOpenMPTargetDirective, Level); |
| } |
| |
| void Sema::DestroyDataSharingAttributesStack() { delete DSAStack; } |
| |
| void Sema::StartOpenMPDSABlock(OpenMPDirectiveKind DKind, |
| const DeclarationNameInfo &DirName, |
| Scope *CurScope, SourceLocation Loc) { |
| DSAStack->push(DKind, DirName, CurScope, Loc); |
| PushExpressionEvaluationContext(PotentiallyEvaluated); |
| } |
| |
| void Sema::StartOpenMPClause(OpenMPClauseKind K) { |
| DSAStack->setClauseParsingMode(K); |
| } |
| |
| void Sema::EndOpenMPClause() { |
| DSAStack->setClauseParsingMode(/*K=*/OMPC_unknown); |
| } |
| |
| void Sema::EndOpenMPDSABlock(Stmt *CurDirective) { |
| // OpenMP [2.14.3.5, Restrictions, C/C++, p.1] |
| // A variable of class type (or array thereof) that appears in a lastprivate |
| // clause requires an accessible, unambiguous default constructor for the |
| // class type, unless the list item is also specified in a firstprivate |
| // clause. |
| if (auto D = dyn_cast_or_null<OMPExecutableDirective>(CurDirective)) { |
| for (auto *C : D->clauses()) { |
| if (auto *Clause = dyn_cast<OMPLastprivateClause>(C)) { |
| SmallVector<Expr *, 8> PrivateCopies; |
| for (auto *DE : Clause->varlists()) { |
| if (DE->isValueDependent() || DE->isTypeDependent()) { |
| PrivateCopies.push_back(nullptr); |
| continue; |
| } |
| auto *VD = cast<VarDecl>(cast<DeclRefExpr>(DE)->getDecl()); |
| QualType Type = VD->getType().getNonReferenceType(); |
| auto DVar = DSAStack->getTopDSA(VD, false); |
| if (DVar.CKind == OMPC_lastprivate) { |
| // Generate helper private variable and initialize it with the |
| // default value. The address of the original variable is replaced |
| // by the address of the new private variable in CodeGen. This new |
| // variable is not added to IdResolver, so the code in the OpenMP |
| // region uses original variable for proper diagnostics. |
| auto *VDPrivate = buildVarDecl( |
| *this, DE->getExprLoc(), Type.getUnqualifiedType(), |
| VD->getName(), VD->hasAttrs() ? &VD->getAttrs() : nullptr); |
| ActOnUninitializedDecl(VDPrivate, /*TypeMayContainAuto=*/false); |
| if (VDPrivate->isInvalidDecl()) |
| continue; |
| PrivateCopies.push_back(buildDeclRefExpr( |
| *this, VDPrivate, DE->getType(), DE->getExprLoc())); |
| } else { |
| // The variable is also a firstprivate, so initialization sequence |
| // for private copy is generated already. |
| PrivateCopies.push_back(nullptr); |
| } |
| } |
| // Set initializers to private copies if no errors were found. |
| if (PrivateCopies.size() == Clause->varlist_size()) { |
| Clause->setPrivateCopies(PrivateCopies); |
| } |
| } |
| } |
| } |
| |
| DSAStack->pop(); |
| DiscardCleanupsInEvaluationContext(); |
| PopExpressionEvaluationContext(); |
| } |
| |
| static bool FinishOpenMPLinearClause(OMPLinearClause &Clause, DeclRefExpr *IV, |
| Expr *NumIterations, Sema &SemaRef, |
| Scope *S); |
| |
| namespace { |
| |
| class VarDeclFilterCCC : public CorrectionCandidateCallback { |
| private: |
| Sema &SemaRef; |
| |
| public: |
| explicit VarDeclFilterCCC(Sema &S) : SemaRef(S) {} |
| bool ValidateCandidate(const TypoCorrection &Candidate) override { |
| NamedDecl *ND = Candidate.getCorrectionDecl(); |
| if (VarDecl *VD = dyn_cast_or_null<VarDecl>(ND)) { |
| return VD->hasGlobalStorage() && |
| SemaRef.isDeclInScope(ND, SemaRef.getCurLexicalContext(), |
| SemaRef.getCurScope()); |
| } |
| return false; |
| } |
| }; |
| } // namespace |
| |
| ExprResult Sema::ActOnOpenMPIdExpression(Scope *CurScope, |
| CXXScopeSpec &ScopeSpec, |
| const DeclarationNameInfo &Id) { |
| LookupResult Lookup(*this, Id, LookupOrdinaryName); |
| LookupParsedName(Lookup, CurScope, &ScopeSpec, true); |
| |
| if (Lookup.isAmbiguous()) |
| return ExprError(); |
| |
| VarDecl *VD; |
| if (!Lookup.isSingleResult()) { |
| if (TypoCorrection Corrected = CorrectTypo( |
| Id, LookupOrdinaryName, CurScope, nullptr, |
| llvm::make_unique<VarDeclFilterCCC>(*this), CTK_ErrorRecovery)) { |
| diagnoseTypo(Corrected, |
| PDiag(Lookup.empty() |
| ? diag::err_undeclared_var_use_suggest |
| : diag::err_omp_expected_var_arg_suggest) |
| << Id.getName()); |
| VD = Corrected.getCorrectionDeclAs<VarDecl>(); |
| } else { |
| Diag(Id.getLoc(), Lookup.empty() ? diag::err_undeclared_var_use |
| : diag::err_omp_expected_var_arg) |
| << Id.getName(); |
| return ExprError(); |
| } |
| } else { |
| if (!(VD = Lookup.getAsSingle<VarDecl>())) { |
| Diag(Id.getLoc(), diag::err_omp_expected_var_arg) << Id.getName(); |
| Diag(Lookup.getFoundDecl()->getLocation(), diag::note_declared_at); |
| return ExprError(); |
| } |
| } |
| Lookup.suppressDiagnostics(); |
| |
| // OpenMP [2.9.2, Syntax, C/C++] |
| // Variables must be file-scope, namespace-scope, or static block-scope. |
| if (!VD->hasGlobalStorage()) { |
| Diag(Id.getLoc(), diag::err_omp_global_var_arg) |
| << getOpenMPDirectiveName(OMPD_threadprivate) << !VD->isStaticLocal(); |
| bool IsDecl = |
| VD->isThisDeclarationADefinition(Context) == VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| return ExprError(); |
| } |
| |
| VarDecl *CanonicalVD = VD->getCanonicalDecl(); |
| NamedDecl *ND = cast<NamedDecl>(CanonicalVD); |
| // OpenMP [2.9.2, Restrictions, C/C++, p.2] |
| // A threadprivate directive for file-scope variables must appear outside |
| // any definition or declaration. |
| if (CanonicalVD->getDeclContext()->isTranslationUnit() && |
| !getCurLexicalContext()->isTranslationUnit()) { |
| Diag(Id.getLoc(), diag::err_omp_var_scope) |
| << getOpenMPDirectiveName(OMPD_threadprivate) << VD; |
| bool IsDecl = |
| VD->isThisDeclarationADefinition(Context) == VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| return ExprError(); |
| } |
| // OpenMP [2.9.2, Restrictions, C/C++, p.3] |
| // A threadprivate directive for static class member variables must appear |
| // in the class definition, in the same scope in which the member |
| // variables are declared. |
| if (CanonicalVD->isStaticDataMember() && |
| !CanonicalVD->getDeclContext()->Equals(getCurLexicalContext())) { |
| Diag(Id.getLoc(), diag::err_omp_var_scope) |
| << getOpenMPDirectiveName(OMPD_threadprivate) << VD; |
| bool IsDecl = |
| VD->isThisDeclarationADefinition(Context) == VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| return ExprError(); |
| } |
| // OpenMP [2.9.2, Restrictions, C/C++, p.4] |
| // A threadprivate directive for namespace-scope variables must appear |
| // outside any definition or declaration other than the namespace |
| // definition itself. |
| if (CanonicalVD->getDeclContext()->isNamespace() && |
| (!getCurLexicalContext()->isFileContext() || |
| !getCurLexicalContext()->Encloses(CanonicalVD->getDeclContext()))) { |
| Diag(Id.getLoc(), diag::err_omp_var_scope) |
| << getOpenMPDirectiveName(OMPD_threadprivate) << VD; |
| bool IsDecl = |
| VD->isThisDeclarationADefinition(Context) == VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| return ExprError(); |
| } |
| // OpenMP [2.9.2, Restrictions, C/C++, p.6] |
| // A threadprivate directive for static block-scope variables must appear |
| // in the scope of the variable and not in a nested scope. |
| if (CanonicalVD->isStaticLocal() && CurScope && |
| !isDeclInScope(ND, getCurLexicalContext(), CurScope)) { |
| Diag(Id.getLoc(), diag::err_omp_var_scope) |
| << getOpenMPDirectiveName(OMPD_threadprivate) << VD; |
| bool IsDecl = |
| VD->isThisDeclarationADefinition(Context) == VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| return ExprError(); |
| } |
| |
| // OpenMP [2.9.2, Restrictions, C/C++, p.2-6] |
| // A threadprivate directive must lexically precede all references to any |
| // of the variables in its list. |
| if (VD->isUsed() && !DSAStack->isThreadPrivate(VD)) { |
| Diag(Id.getLoc(), diag::err_omp_var_used) |
| << getOpenMPDirectiveName(OMPD_threadprivate) << VD; |
| return ExprError(); |
| } |
| |
| QualType ExprType = VD->getType().getNonReferenceType(); |
| ExprResult DE = buildDeclRefExpr(*this, VD, ExprType, Id.getLoc()); |
| return DE; |
| } |
| |
| Sema::DeclGroupPtrTy |
| Sema::ActOnOpenMPThreadprivateDirective(SourceLocation Loc, |
| ArrayRef<Expr *> VarList) { |
| if (OMPThreadPrivateDecl *D = CheckOMPThreadPrivateDecl(Loc, VarList)) { |
| CurContext->addDecl(D); |
| return DeclGroupPtrTy::make(DeclGroupRef(D)); |
| } |
| return nullptr; |
| } |
| |
| namespace { |
| class LocalVarRefChecker : public ConstStmtVisitor<LocalVarRefChecker, bool> { |
| Sema &SemaRef; |
| |
| public: |
| bool VisitDeclRefExpr(const DeclRefExpr *E) { |
| if (auto VD = dyn_cast<VarDecl>(E->getDecl())) { |
| if (VD->hasLocalStorage()) { |
| SemaRef.Diag(E->getLocStart(), |
| diag::err_omp_local_var_in_threadprivate_init) |
| << E->getSourceRange(); |
| SemaRef.Diag(VD->getLocation(), diag::note_defined_here) |
| << VD << VD->getSourceRange(); |
| return true; |
| } |
| } |
| return false; |
| } |
| bool VisitStmt(const Stmt *S) { |
| for (auto Child : S->children()) { |
| if (Child && Visit(Child)) |
| return true; |
| } |
| return false; |
| } |
| explicit LocalVarRefChecker(Sema &SemaRef) : SemaRef(SemaRef) {} |
| }; |
| } // namespace |
| |
| OMPThreadPrivateDecl * |
| Sema::CheckOMPThreadPrivateDecl(SourceLocation Loc, ArrayRef<Expr *> VarList) { |
| SmallVector<Expr *, 8> Vars; |
| for (auto &RefExpr : VarList) { |
| DeclRefExpr *DE = cast<DeclRefExpr>(RefExpr); |
| VarDecl *VD = cast<VarDecl>(DE->getDecl()); |
| SourceLocation ILoc = DE->getExprLoc(); |
| |
| QualType QType = VD->getType(); |
| if (QType->isDependentType() || QType->isInstantiationDependentType()) { |
| // It will be analyzed later. |
| Vars.push_back(DE); |
| continue; |
| } |
| |
| // OpenMP [2.9.2, Restrictions, C/C++, p.10] |
| // A threadprivate variable must not have an incomplete type. |
| if (RequireCompleteType(ILoc, VD->getType(), |
| diag::err_omp_threadprivate_incomplete_type)) { |
| continue; |
| } |
| |
| // OpenMP [2.9.2, Restrictions, C/C++, p.10] |
| // A threadprivate variable must not have a reference type. |
| if (VD->getType()->isReferenceType()) { |
| Diag(ILoc, diag::err_omp_ref_type_arg) |
| << getOpenMPDirectiveName(OMPD_threadprivate) << VD->getType(); |
| bool IsDecl = |
| VD->isThisDeclarationADefinition(Context) == VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| continue; |
| } |
| |
| // Check if this is a TLS variable. If TLS is not being supported, produce |
| // the corresponding diagnostic. |
| if ((VD->getTLSKind() != VarDecl::TLS_None && |
| !(VD->hasAttr<OMPThreadPrivateDeclAttr>() && |
| getLangOpts().OpenMPUseTLS && |
| getASTContext().getTargetInfo().isTLSSupported())) || |
| (VD->getStorageClass() == SC_Register && VD->hasAttr<AsmLabelAttr>() && |
| !VD->isLocalVarDecl())) { |
| Diag(ILoc, diag::err_omp_var_thread_local) |
| << VD << ((VD->getTLSKind() != VarDecl::TLS_None) ? 0 : 1); |
| bool IsDecl = |
| VD->isThisDeclarationADefinition(Context) == VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| continue; |
| } |
| |
| // Check if initial value of threadprivate variable reference variable with |
| // local storage (it is not supported by runtime). |
| if (auto Init = VD->getAnyInitializer()) { |
| LocalVarRefChecker Checker(*this); |
| if (Checker.Visit(Init)) |
| continue; |
| } |
| |
| Vars.push_back(RefExpr); |
| DSAStack->addDSA(VD, DE, OMPC_threadprivate); |
| VD->addAttr(OMPThreadPrivateDeclAttr::CreateImplicit( |
| Context, SourceRange(Loc, Loc))); |
| if (auto *ML = Context.getASTMutationListener()) |
| ML->DeclarationMarkedOpenMPThreadPrivate(VD); |
| } |
| OMPThreadPrivateDecl *D = nullptr; |
| if (!Vars.empty()) { |
| D = OMPThreadPrivateDecl::Create(Context, getCurLexicalContext(), Loc, |
| Vars); |
| D->setAccess(AS_public); |
| } |
| return D; |
| } |
| |
| static void ReportOriginalDSA(Sema &SemaRef, DSAStackTy *Stack, |
| const VarDecl *VD, DSAStackTy::DSAVarData DVar, |
| bool IsLoopIterVar = false) { |
| if (DVar.RefExpr) { |
| SemaRef.Diag(DVar.RefExpr->getExprLoc(), diag::note_omp_explicit_dsa) |
| << getOpenMPClauseName(DVar.CKind); |
| return; |
| } |
| enum { |
| PDSA_StaticMemberShared, |
| PDSA_StaticLocalVarShared, |
| PDSA_LoopIterVarPrivate, |
| PDSA_LoopIterVarLinear, |
| PDSA_LoopIterVarLastprivate, |
| PDSA_ConstVarShared, |
| PDSA_GlobalVarShared, |
| PDSA_TaskVarFirstprivate, |
| PDSA_LocalVarPrivate, |
| PDSA_Implicit |
| } Reason = PDSA_Implicit; |
| bool ReportHint = false; |
| auto ReportLoc = VD->getLocation(); |
| if (IsLoopIterVar) { |
| if (DVar.CKind == OMPC_private) |
| Reason = PDSA_LoopIterVarPrivate; |
| else if (DVar.CKind == OMPC_lastprivate) |
| Reason = PDSA_LoopIterVarLastprivate; |
| else |
| Reason = PDSA_LoopIterVarLinear; |
| } else if (DVar.DKind == OMPD_task && DVar.CKind == OMPC_firstprivate) { |
| Reason = PDSA_TaskVarFirstprivate; |
| ReportLoc = DVar.ImplicitDSALoc; |
| } else if (VD->isStaticLocal()) |
| Reason = PDSA_StaticLocalVarShared; |
| else if (VD->isStaticDataMember()) |
| Reason = PDSA_StaticMemberShared; |
| else if (VD->isFileVarDecl()) |
| Reason = PDSA_GlobalVarShared; |
| else if (VD->getType().isConstant(SemaRef.getASTContext())) |
| Reason = PDSA_ConstVarShared; |
| else if (VD->isLocalVarDecl() && DVar.CKind == OMPC_private) { |
| ReportHint = true; |
| Reason = PDSA_LocalVarPrivate; |
| } |
| if (Reason != PDSA_Implicit) { |
| SemaRef.Diag(ReportLoc, diag::note_omp_predetermined_dsa) |
| << Reason << ReportHint |
| << getOpenMPDirectiveName(Stack->getCurrentDirective()); |
| } else if (DVar.ImplicitDSALoc.isValid()) { |
| SemaRef.Diag(DVar.ImplicitDSALoc, diag::note_omp_implicit_dsa) |
| << getOpenMPClauseName(DVar.CKind); |
| } |
| } |
| |
| namespace { |
| class DSAAttrChecker : public StmtVisitor<DSAAttrChecker, void> { |
| DSAStackTy *Stack; |
| Sema &SemaRef; |
| bool ErrorFound; |
| CapturedStmt *CS; |
| llvm::SmallVector<Expr *, 8> ImplicitFirstprivate; |
| llvm::DenseMap<VarDecl *, Expr *> VarsWithInheritedDSA; |
| |
| public: |
| void VisitDeclRefExpr(DeclRefExpr *E) { |
| if (auto *VD = dyn_cast<VarDecl>(E->getDecl())) { |
| // Skip internally declared variables. |
| if (VD->isLocalVarDecl() && !CS->capturesVariable(VD)) |
| return; |
| |
| auto DVar = Stack->getTopDSA(VD, false); |
| // Check if the variable has explicit DSA set and stop analysis if it so. |
| if (DVar.RefExpr) return; |
| |
| auto ELoc = E->getExprLoc(); |
| auto DKind = Stack->getCurrentDirective(); |
| // The default(none) clause requires that each variable that is referenced |
| // in the construct, and does not have a predetermined data-sharing |
| // attribute, must have its data-sharing attribute explicitly determined |
| // by being listed in a data-sharing attribute clause. |
| if (DVar.CKind == OMPC_unknown && Stack->getDefaultDSA() == DSA_none && |
| isParallelOrTaskRegion(DKind) && |
| VarsWithInheritedDSA.count(VD) == 0) { |
| VarsWithInheritedDSA[VD] = E; |
| return; |
| } |
| |
| // OpenMP [2.9.3.6, Restrictions, p.2] |
| // A list item that appears in a reduction clause of the innermost |
| // enclosing worksharing or parallel construct may not be accessed in an |
| // explicit task. |
| DVar = Stack->hasInnermostDSA(VD, MatchesAnyClause(OMPC_reduction), |
| [](OpenMPDirectiveKind K) -> bool { |
| return isOpenMPParallelDirective(K) || |
| isOpenMPWorksharingDirective(K) || |
| isOpenMPTeamsDirective(K); |
| }, |
| false); |
| if (DKind == OMPD_task && DVar.CKind == OMPC_reduction) { |
| ErrorFound = true; |
| SemaRef.Diag(ELoc, diag::err_omp_reduction_in_task); |
| ReportOriginalDSA(SemaRef, Stack, VD, DVar); |
| return; |
| } |
| |
| // Define implicit data-sharing attributes for task. |
| DVar = Stack->getImplicitDSA(VD, false); |
| if (DKind == OMPD_task && DVar.CKind != OMPC_shared) |
| ImplicitFirstprivate.push_back(E); |
| } |
| } |
| void VisitOMPExecutableDirective(OMPExecutableDirective *S) { |
| for (auto *C : S->clauses()) { |
| // Skip analysis of arguments of implicitly defined firstprivate clause |
| // for task directives. |
| if (C && (!isa<OMPFirstprivateClause>(C) || C->getLocStart().isValid())) |
| for (auto *CC : C->children()) { |
| if (CC) |
| Visit(CC); |
| } |
| } |
| } |
| void VisitStmt(Stmt *S) { |
| for (auto *C : S->children()) { |
| if (C && !isa<OMPExecutableDirective>(C)) |
| Visit(C); |
| } |
| } |
| |
| bool isErrorFound() { return ErrorFound; } |
| ArrayRef<Expr *> getImplicitFirstprivate() { return ImplicitFirstprivate; } |
| llvm::DenseMap<VarDecl *, Expr *> &getVarsWithInheritedDSA() { |
| return VarsWithInheritedDSA; |
| } |
| |
| DSAAttrChecker(DSAStackTy *S, Sema &SemaRef, CapturedStmt *CS) |
| : Stack(S), SemaRef(SemaRef), ErrorFound(false), CS(CS) {} |
| }; |
| } // namespace |
| |
| void Sema::ActOnOpenMPRegionStart(OpenMPDirectiveKind DKind, Scope *CurScope) { |
| switch (DKind) { |
| case OMPD_parallel: { |
| QualType KmpInt32Ty = Context.getIntTypeForBitwidth(32, 1); |
| QualType KmpInt32PtrTy = |
| Context.getPointerType(KmpInt32Ty).withConst().withRestrict(); |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(".global_tid.", KmpInt32PtrTy), |
| std::make_pair(".bound_tid.", KmpInt32PtrTy), |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_simd: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_for: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_for_simd: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_sections: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_section: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_single: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_master: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_critical: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_parallel_for: { |
| QualType KmpInt32Ty = Context.getIntTypeForBitwidth(32, 1); |
| QualType KmpInt32PtrTy = |
| Context.getPointerType(KmpInt32Ty).withConst().withRestrict(); |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(".global_tid.", KmpInt32PtrTy), |
| std::make_pair(".bound_tid.", KmpInt32PtrTy), |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_parallel_for_simd: { |
| QualType KmpInt32Ty = Context.getIntTypeForBitwidth(32, 1); |
| QualType KmpInt32PtrTy = |
| Context.getPointerType(KmpInt32Ty).withConst().withRestrict(); |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(".global_tid.", KmpInt32PtrTy), |
| std::make_pair(".bound_tid.", KmpInt32PtrTy), |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_parallel_sections: { |
| QualType KmpInt32Ty = Context.getIntTypeForBitwidth(32, 1); |
| QualType KmpInt32PtrTy = |
| Context.getPointerType(KmpInt32Ty).withConst().withRestrict(); |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(".global_tid.", KmpInt32PtrTy), |
| std::make_pair(".bound_tid.", KmpInt32PtrTy), |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_task: { |
| QualType KmpInt32Ty = Context.getIntTypeForBitwidth(32, 1); |
| QualType Args[] = {Context.VoidPtrTy.withConst().withRestrict()}; |
| FunctionProtoType::ExtProtoInfo EPI; |
| EPI.Variadic = true; |
| QualType CopyFnType = Context.getFunctionType(Context.VoidTy, Args, EPI); |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(".global_tid.", KmpInt32Ty), |
| std::make_pair(".part_id.", KmpInt32Ty), |
| std::make_pair(".privates.", |
| Context.VoidPtrTy.withConst().withRestrict()), |
| std::make_pair( |
| ".copy_fn.", |
| Context.getPointerType(CopyFnType).withConst().withRestrict()), |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| // Mark this captured region as inlined, because we don't use outlined |
| // function directly. |
| getCurCapturedRegion()->TheCapturedDecl->addAttr( |
| AlwaysInlineAttr::CreateImplicit( |
| Context, AlwaysInlineAttr::Keyword_forceinline, SourceRange())); |
| break; |
| } |
| case OMPD_ordered: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_atomic: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_target_data: |
| case OMPD_target: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_teams: { |
| QualType KmpInt32Ty = Context.getIntTypeForBitwidth(32, 1); |
| QualType KmpInt32PtrTy = |
| Context.getPointerType(KmpInt32Ty).withConst().withRestrict(); |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(".global_tid.", KmpInt32PtrTy), |
| std::make_pair(".bound_tid.", KmpInt32PtrTy), |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_taskgroup: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_taskloop: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_taskloop_simd: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_distribute: { |
| Sema::CapturedParamNameType Params[] = { |
| std::make_pair(StringRef(), QualType()) // __context with shared vars |
| }; |
| ActOnCapturedRegionStart(DSAStack->getConstructLoc(), CurScope, CR_OpenMP, |
| Params); |
| break; |
| } |
| case OMPD_threadprivate: |
| case OMPD_taskyield: |
| case OMPD_barrier: |
| case OMPD_taskwait: |
| case OMPD_cancellation_point: |
| case OMPD_cancel: |
| case OMPD_flush: |
| llvm_unreachable("OpenMP Directive is not allowed"); |
| case OMPD_unknown: |
| llvm_unreachable("Unknown OpenMP directive"); |
| } |
| } |
| |
| StmtResult Sema::ActOnOpenMPRegionEnd(StmtResult S, |
| ArrayRef<OMPClause *> Clauses) { |
| if (!S.isUsable()) { |
| ActOnCapturedRegionError(); |
| return StmtError(); |
| } |
| |
| OMPOrderedClause *OC = nullptr; |
| OMPScheduleClause *SC = nullptr; |
| SmallVector<OMPLinearClause *, 4> LCs; |
| // This is required for proper codegen. |
| for (auto *Clause : Clauses) { |
| if (isOpenMPPrivate(Clause->getClauseKind()) || |
| Clause->getClauseKind() == OMPC_copyprivate || |
| (getLangOpts().OpenMPUseTLS && |
| getASTContext().getTargetInfo().isTLSSupported() && |
| Clause->getClauseKind() == OMPC_copyin)) { |
| DSAStack->setForceVarCapturing(Clause->getClauseKind() == OMPC_copyin); |
| // Mark all variables in private list clauses as used in inner region. |
| for (auto *VarRef : Clause->children()) { |
| if (auto *E = cast_or_null<Expr>(VarRef)) { |
| MarkDeclarationsReferencedInExpr(E); |
| } |
| } |
| DSAStack->setForceVarCapturing(/*V=*/false); |
| } else if (isParallelOrTaskRegion(DSAStack->getCurrentDirective()) && |
| Clause->getClauseKind() == OMPC_schedule) { |
| // Mark all variables in private list clauses as used in inner region. |
| // Required for proper codegen of combined directives. |
| // TODO: add processing for other clauses. |
| if (auto *E = cast_or_null<Expr>( |
| cast<OMPScheduleClause>(Clause)->getHelperChunkSize())) |
| MarkDeclarationsReferencedInExpr(E); |
| } |
| if (Clause->getClauseKind() == OMPC_schedule) |
| SC = cast<OMPScheduleClause>(Clause); |
| else if (Clause->getClauseKind() == OMPC_ordered) |
| OC = cast<OMPOrderedClause>(Clause); |
| else if (Clause->getClauseKind() == OMPC_linear) |
| LCs.push_back(cast<OMPLinearClause>(Clause)); |
| } |
| bool ErrorFound = false; |
| // OpenMP, 2.7.1 Loop Construct, Restrictions |
| // The nonmonotonic modifier cannot be specified if an ordered clause is |
| // specified. |
| if (SC && |
| (SC->getFirstScheduleModifier() == OMPC_SCHEDULE_MODIFIER_nonmonotonic || |
| SC->getSecondScheduleModifier() == |
| OMPC_SCHEDULE_MODIFIER_nonmonotonic) && |
| OC) { |
| Diag(SC->getFirstScheduleModifier() == OMPC_SCHEDULE_MODIFIER_nonmonotonic |
| ? SC->getFirstScheduleModifierLoc() |
| : SC->getSecondScheduleModifierLoc(), |
| diag::err_omp_schedule_nonmonotonic_ordered) |
| << SourceRange(OC->getLocStart(), OC->getLocEnd()); |
| ErrorFound = true; |
| } |
| if (!LCs.empty() && OC && OC->getNumForLoops()) { |
| for (auto *C : LCs) { |
| Diag(C->getLocStart(), diag::err_omp_linear_ordered) |
| << SourceRange(OC->getLocStart(), OC->getLocEnd()); |
| } |
| ErrorFound = true; |
| } |
| if (isOpenMPWorksharingDirective(DSAStack->getCurrentDirective()) && |
| isOpenMPSimdDirective(DSAStack->getCurrentDirective()) && OC && |
| OC->getNumForLoops()) { |
| Diag(OC->getLocStart(), diag::err_omp_ordered_simd) |
| << getOpenMPDirectiveName(DSAStack->getCurrentDirective()); |
| ErrorFound = true; |
| } |
| if (ErrorFound) { |
| ActOnCapturedRegionError(); |
| return StmtError(); |
| } |
| return ActOnCapturedRegionEnd(S.get()); |
| } |
| |
| static bool CheckNestingOfRegions(Sema &SemaRef, DSAStackTy *Stack, |
| OpenMPDirectiveKind CurrentRegion, |
| const DeclarationNameInfo &CurrentName, |
| OpenMPDirectiveKind CancelRegion, |
| SourceLocation StartLoc) { |
| // Allowed nesting of constructs |
| // +------------------+-----------------+------------------------------------+ |
| // | Parent directive | Child directive | Closely (!), No-Closely(+), Both(*)| |
| // +------------------+-----------------+------------------------------------+ |
| // | parallel | parallel | * | |
| // | parallel | for | * | |
| // | parallel | for simd | * | |
| // | parallel | master | * | |
| // | parallel | critical | * | |
| // | parallel | simd | * | |
| // | parallel | sections | * | |
| // | parallel | section | + | |
| // | parallel | single | * | |
| // | parallel | parallel for | * | |
| // | parallel |parallel for simd| * | |
| // | parallel |parallel sections| * | |
| // | parallel | task | * | |
| // | parallel | taskyield | * | |
| // | parallel | barrier | * | |
| // | parallel | taskwait | * | |
| // | parallel | taskgroup | * | |
| // | parallel | flush | * | |
| // | parallel | ordered | + | |
| // | parallel | atomic | * | |
| // | parallel | target | * | |
| // | parallel | teams | + | |
| // | parallel | cancellation | | |
| // | | point | ! | |
| // | parallel | cancel | ! | |
| // | parallel | taskloop | * | |
| // | parallel | taskloop simd | * | |
| // | parallel | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | for | parallel | * | |
| // | for | for | + | |
| // | for | for simd | + | |
| // | for | master | + | |
| // | for | critical | * | |
| // | for | simd | * | |
| // | for | sections | + | |
| // | for | section | + | |
| // | for | single | + | |
| // | for | parallel for | * | |
| // | for |parallel for simd| * | |
| // | for |parallel sections| * | |
| // | for | task | * | |
| // | for | taskyield | * | |
| // | for | barrier | + | |
| // | for | taskwait | * | |
| // | for | taskgroup | * | |
| // | for | flush | * | |
| // | for | ordered | * (if construct is ordered) | |
| // | for | atomic | * | |
| // | for | target | * | |
| // | for | teams | + | |
| // | for | cancellation | | |
| // | | point | ! | |
| // | for | cancel | ! | |
| // | for | taskloop | * | |
| // | for | taskloop simd | * | |
| // | for | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | master | parallel | * | |
| // | master | for | + | |
| // | master | for simd | + | |
| // | master | master | * | |
| // | master | critical | * | |
| // | master | simd | * | |
| // | master | sections | + | |
| // | master | section | + | |
| // | master | single | + | |
| // | master | parallel for | * | |
| // | master |parallel for simd| * | |
| // | master |parallel sections| * | |
| // | master | task | * | |
| // | master | taskyield | * | |
| // | master | barrier | + | |
| // | master | taskwait | * | |
| // | master | taskgroup | * | |
| // | master | flush | * | |
| // | master | ordered | + | |
| // | master | atomic | * | |
| // | master | target | * | |
| // | master | teams | + | |
| // | master | cancellation | | |
| // | | point | | |
| // | master | cancel | | |
| // | master | taskloop | * | |
| // | master | taskloop simd | * | |
| // | master | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | critical | parallel | * | |
| // | critical | for | + | |
| // | critical | for simd | + | |
| // | critical | master | * | |
| // | critical | critical | * (should have different names) | |
| // | critical | simd | * | |
| // | critical | sections | + | |
| // | critical | section | + | |
| // | critical | single | + | |
| // | critical | parallel for | * | |
| // | critical |parallel for simd| * | |
| // | critical |parallel sections| * | |
| // | critical | task | * | |
| // | critical | taskyield | * | |
| // | critical | barrier | + | |
| // | critical | taskwait | * | |
| // | critical | taskgroup | * | |
| // | critical | ordered | + | |
| // | critical | atomic | * | |
| // | critical | target | * | |
| // | critical | teams | + | |
| // | critical | cancellation | | |
| // | | point | | |
| // | critical | cancel | | |
| // | critical | taskloop | * | |
| // | critical | taskloop simd | * | |
| // | critical | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | simd | parallel | | |
| // | simd | for | | |
| // | simd | for simd | | |
| // | simd | master | | |
| // | simd | critical | | |
| // | simd | simd | | |
| // | simd | sections | | |
| // | simd | section | | |
| // | simd | single | | |
| // | simd | parallel for | | |
| // | simd |parallel for simd| | |
| // | simd |parallel sections| | |
| // | simd | task | | |
| // | simd | taskyield | | |
| // | simd | barrier | | |
| // | simd | taskwait | | |
| // | simd | taskgroup | | |
| // | simd | flush | | |
| // | simd | ordered | + (with simd clause) | |
| // | simd | atomic | | |
| // | simd | target | | |
| // | simd | teams | | |
| // | simd | cancellation | | |
| // | | point | | |
| // | simd | cancel | | |
| // | simd | taskloop | | |
| // | simd | taskloop simd | | |
| // | simd | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | for simd | parallel | | |
| // | for simd | for | | |
| // | for simd | for simd | | |
| // | for simd | master | | |
| // | for simd | critical | | |
| // | for simd | simd | | |
| // | for simd | sections | | |
| // | for simd | section | | |
| // | for simd | single | | |
| // | for simd | parallel for | | |
| // | for simd |parallel for simd| | |
| // | for simd |parallel sections| | |
| // | for simd | task | | |
| // | for simd | taskyield | | |
| // | for simd | barrier | | |
| // | for simd | taskwait | | |
| // | for simd | taskgroup | | |
| // | for simd | flush | | |
| // | for simd | ordered | + (with simd clause) | |
| // | for simd | atomic | | |
| // | for simd | target | | |
| // | for simd | teams | | |
| // | for simd | cancellation | | |
| // | | point | | |
| // | for simd | cancel | | |
| // | for simd | taskloop | | |
| // | for simd | taskloop simd | | |
| // | for simd | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | parallel for simd| parallel | | |
| // | parallel for simd| for | | |
| // | parallel for simd| for simd | | |
| // | parallel for simd| master | | |
| // | parallel for simd| critical | | |
| // | parallel for simd| simd | | |
| // | parallel for simd| sections | | |
| // | parallel for simd| section | | |
| // | parallel for simd| single | | |
| // | parallel for simd| parallel for | | |
| // | parallel for simd|parallel for simd| | |
| // | parallel for simd|parallel sections| | |
| // | parallel for simd| task | | |
| // | parallel for simd| taskyield | | |
| // | parallel for simd| barrier | | |
| // | parallel for simd| taskwait | | |
| // | parallel for simd| taskgroup | | |
| // | parallel for simd| flush | | |
| // | parallel for simd| ordered | + (with simd clause) | |
| // | parallel for simd| atomic | | |
| // | parallel for simd| target | | |
| // | parallel for simd| teams | | |
| // | parallel for simd| cancellation | | |
| // | | point | | |
| // | parallel for simd| cancel | | |
| // | parallel for simd| taskloop | | |
| // | parallel for simd| taskloop simd | | |
| // | parallel for simd| distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | sections | parallel | * | |
| // | sections | for | + | |
| // | sections | for simd | + | |
| // | sections | master | + | |
| // | sections | critical | * | |
| // | sections | simd | * | |
| // | sections | sections | + | |
| // | sections | section | * | |
| // | sections | single | + | |
| // | sections | parallel for | * | |
| // | sections |parallel for simd| * | |
| // | sections |parallel sections| * | |
| // | sections | task | * | |
| // | sections | taskyield | * | |
| // | sections | barrier | + | |
| // | sections | taskwait | * | |
| // | sections | taskgroup | * | |
| // | sections | flush | * | |
| // | sections | ordered | + | |
| // | sections | atomic | * | |
| // | sections | target | * | |
| // | sections | teams | + | |
| // | sections | cancellation | | |
| // | | point | ! | |
| // | sections | cancel | ! | |
| // | sections | taskloop | * | |
| // | sections | taskloop simd | * | |
| // | sections | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | section | parallel | * | |
| // | section | for | + | |
| // | section | for simd | + | |
| // | section | master | + | |
| // | section | critical | * | |
| // | section | simd | * | |
| // | section | sections | + | |
| // | section | section | + | |
| // | section | single | + | |
| // | section | parallel for | * | |
| // | section |parallel for simd| * | |
| // | section |parallel sections| * | |
| // | section | task | * | |
| // | section | taskyield | * | |
| // | section | barrier | + | |
| // | section | taskwait | * | |
| // | section | taskgroup | * | |
| // | section | flush | * | |
| // | section | ordered | + | |
| // | section | atomic | * | |
| // | section | target | * | |
| // | section | teams | + | |
| // | section | cancellation | | |
| // | | point | ! | |
| // | section | cancel | ! | |
| // | section | taskloop | * | |
| // | section | taskloop simd | * | |
| // | section | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | single | parallel | * | |
| // | single | for | + | |
| // | single | for simd | + | |
| // | single | master | + | |
| // | single | critical | * | |
| // | single | simd | * | |
| // | single | sections | + | |
| // | single | section | + | |
| // | single | single | + | |
| // | single | parallel for | * | |
| // | single |parallel for simd| * | |
| // | single |parallel sections| * | |
| // | single | task | * | |
| // | single | taskyield | * | |
| // | single | barrier | + | |
| // | single | taskwait | * | |
| // | single | taskgroup | * | |
| // | single | flush | * | |
| // | single | ordered | + | |
| // | single | atomic | * | |
| // | single | target | * | |
| // | single | teams | + | |
| // | single | cancellation | | |
| // | | point | | |
| // | single | cancel | | |
| // | single | taskloop | * | |
| // | single | taskloop simd | * | |
| // | single | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | parallel for | parallel | * | |
| // | parallel for | for | + | |
| // | parallel for | for simd | + | |
| // | parallel for | master | + | |
| // | parallel for | critical | * | |
| // | parallel for | simd | * | |
| // | parallel for | sections | + | |
| // | parallel for | section | + | |
| // | parallel for | single | + | |
| // | parallel for | parallel for | * | |
| // | parallel for |parallel for simd| * | |
| // | parallel for |parallel sections| * | |
| // | parallel for | task | * | |
| // | parallel for | taskyield | * | |
| // | parallel for | barrier | + | |
| // | parallel for | taskwait | * | |
| // | parallel for | taskgroup | * | |
| // | parallel for | flush | * | |
| // | parallel for | ordered | * (if construct is ordered) | |
| // | parallel for | atomic | * | |
| // | parallel for | target | * | |
| // | parallel for | teams | + | |
| // | parallel for | cancellation | | |
| // | | point | ! | |
| // | parallel for | cancel | ! | |
| // | parallel for | taskloop | * | |
| // | parallel for | taskloop simd | * | |
| // | parallel for | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | parallel sections| parallel | * | |
| // | parallel sections| for | + | |
| // | parallel sections| for simd | + | |
| // | parallel sections| master | + | |
| // | parallel sections| critical | + | |
| // | parallel sections| simd | * | |
| // | parallel sections| sections | + | |
| // | parallel sections| section | * | |
| // | parallel sections| single | + | |
| // | parallel sections| parallel for | * | |
| // | parallel sections|parallel for simd| * | |
| // | parallel sections|parallel sections| * | |
| // | parallel sections| task | * | |
| // | parallel sections| taskyield | * | |
| // | parallel sections| barrier | + | |
| // | parallel sections| taskwait | * | |
| // | parallel sections| taskgroup | * | |
| // | parallel sections| flush | * | |
| // | parallel sections| ordered | + | |
| // | parallel sections| atomic | * | |
| // | parallel sections| target | * | |
| // | parallel sections| teams | + | |
| // | parallel sections| cancellation | | |
| // | | point | ! | |
| // | parallel sections| cancel | ! | |
| // | parallel sections| taskloop | * | |
| // | parallel sections| taskloop simd | * | |
| // | parallel sections| distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | task | parallel | * | |
| // | task | for | + | |
| // | task | for simd | + | |
| // | task | master | + | |
| // | task | critical | * | |
| // | task | simd | * | |
| // | task | sections | + | |
| // | task | section | + | |
| // | task | single | + | |
| // | task | parallel for | * | |
| // | task |parallel for simd| * | |
| // | task |parallel sections| * | |
| // | task | task | * | |
| // | task | taskyield | * | |
| // | task | barrier | + | |
| // | task | taskwait | * | |
| // | task | taskgroup | * | |
| // | task | flush | * | |
| // | task | ordered | + | |
| // | task | atomic | * | |
| // | task | target | * | |
| // | task | teams | + | |
| // | task | cancellation | | |
| // | | point | ! | |
| // | task | cancel | ! | |
| // | task | taskloop | * | |
| // | task | taskloop simd | * | |
| // | task | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | ordered | parallel | * | |
| // | ordered | for | + | |
| // | ordered | for simd | + | |
| // | ordered | master | * | |
| // | ordered | critical | * | |
| // | ordered | simd | * | |
| // | ordered | sections | + | |
| // | ordered | section | + | |
| // | ordered | single | + | |
| // | ordered | parallel for | * | |
| // | ordered |parallel for simd| * | |
| // | ordered |parallel sections| * | |
| // | ordered | task | * | |
| // | ordered | taskyield | * | |
| // | ordered | barrier | + | |
| // | ordered | taskwait | * | |
| // | ordered | taskgroup | * | |
| // | ordered | flush | * | |
| // | ordered | ordered | + | |
| // | ordered | atomic | * | |
| // | ordered | target | * | |
| // | ordered | teams | + | |
| // | ordered | cancellation | | |
| // | | point | | |
| // | ordered | cancel | | |
| // | ordered | taskloop | * | |
| // | ordered | taskloop simd | * | |
| // | ordered | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | atomic | parallel | | |
| // | atomic | for | | |
| // | atomic | for simd | | |
| // | atomic | master | | |
| // | atomic | critical | | |
| // | atomic | simd | | |
| // | atomic | sections | | |
| // | atomic | section | | |
| // | atomic | single | | |
| // | atomic | parallel for | | |
| // | atomic |parallel for simd| | |
| // | atomic |parallel sections| | |
| // | atomic | task | | |
| // | atomic | taskyield | | |
| // | atomic | barrier | | |
| // | atomic | taskwait | | |
| // | atomic | taskgroup | | |
| // | atomic | flush | | |
| // | atomic | ordered | | |
| // | atomic | atomic | | |
| // | atomic | target | | |
| // | atomic | teams | | |
| // | atomic | cancellation | | |
| // | | point | | |
| // | atomic | cancel | | |
| // | atomic | taskloop | | |
| // | atomic | taskloop simd | | |
| // | atomic | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | target | parallel | * | |
| // | target | for | * | |
| // | target | for simd | * | |
| // | target | master | * | |
| // | target | critical | * | |
| // | target | simd | * | |
| // | target | sections | * | |
| // | target | section | * | |
| // | target | single | * | |
| // | target | parallel for | * | |
| // | target |parallel for simd| * | |
| // | target |parallel sections| * | |
| // | target | task | * | |
| // | target | taskyield | * | |
| // | target | barrier | * | |
| // | target | taskwait | * | |
| // | target | taskgroup | * | |
| // | target | flush | * | |
| // | target | ordered | * | |
| // | target | atomic | * | |
| // | target | target | * | |
| // | target | teams | * | |
| // | target | cancellation | | |
| // | | point | | |
| // | target | cancel | | |
| // | target | taskloop | * | |
| // | target | taskloop simd | * | |
| // | target | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | teams | parallel | * | |
| // | teams | for | + | |
| // | teams | for simd | + | |
| // | teams | master | + | |
| // | teams | critical | + | |
| // | teams | simd | + | |
| // | teams | sections | + | |
| // | teams | section | + | |
| // | teams | single | + | |
| // | teams | parallel for | * | |
| // | teams |parallel for simd| * | |
| // | teams |parallel sections| * | |
| // | teams | task | + | |
| // | teams | taskyield | + | |
| // | teams | barrier | + | |
| // | teams | taskwait | + | |
| // | teams | taskgroup | + | |
| // | teams | flush | + | |
| // | teams | ordered | + | |
| // | teams | atomic | + | |
| // | teams | target | + | |
| // | teams | teams | + | |
| // | teams | cancellation | | |
| // | | point | | |
| // | teams | cancel | | |
| // | teams | taskloop | + | |
| // | teams | taskloop simd | + | |
| // | teams | distribute | ! | |
| // +------------------+-----------------+------------------------------------+ |
| // | taskloop | parallel | * | |
| // | taskloop | for | + | |
| // | taskloop | for simd | + | |
| // | taskloop | master | + | |
| // | taskloop | critical | * | |
| // | taskloop | simd | * | |
| // | taskloop | sections | + | |
| // | taskloop | section | + | |
| // | taskloop | single | + | |
| // | taskloop | parallel for | * | |
| // | taskloop |parallel for simd| * | |
| // | taskloop |parallel sections| * | |
| // | taskloop | task | * | |
| // | taskloop | taskyield | * | |
| // | taskloop | barrier | + | |
| // | taskloop | taskwait | * | |
| // | taskloop | taskgroup | * | |
| // | taskloop | flush | * | |
| // | taskloop | ordered | + | |
| // | taskloop | atomic | * | |
| // | taskloop | target | * | |
| // | taskloop | teams | + | |
| // | taskloop | cancellation | | |
| // | | point | | |
| // | taskloop | cancel | | |
| // | taskloop | taskloop | * | |
| // | taskloop | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | taskloop simd | parallel | | |
| // | taskloop simd | for | | |
| // | taskloop simd | for simd | | |
| // | taskloop simd | master | | |
| // | taskloop simd | critical | | |
| // | taskloop simd | simd | | |
| // | taskloop simd | sections | | |
| // | taskloop simd | section | | |
| // | taskloop simd | single | | |
| // | taskloop simd | parallel for | | |
| // | taskloop simd |parallel for simd| | |
| // | taskloop simd |parallel sections| | |
| // | taskloop simd | task | | |
| // | taskloop simd | taskyield | | |
| // | taskloop simd | barrier | | |
| // | taskloop simd | taskwait | | |
| // | taskloop simd | taskgroup | | |
| // | taskloop simd | flush | | |
| // | taskloop simd | ordered | + (with simd clause) | |
| // | taskloop simd | atomic | | |
| // | taskloop simd | target | | |
| // | taskloop simd | teams | | |
| // | taskloop simd | cancellation | | |
| // | | point | | |
| // | taskloop simd | cancel | | |
| // | taskloop simd | taskloop | | |
| // | taskloop simd | taskloop simd | | |
| // | taskloop simd | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| // | distribute | parallel | * | |
| // | distribute | for | * | |
| // | distribute | for simd | * | |
| // | distribute | master | * | |
| // | distribute | critical | * | |
| // | distribute | simd | * | |
| // | distribute | sections | * | |
| // | distribute | section | * | |
| // | distribute | single | * | |
| // | distribute | parallel for | * | |
| // | distribute |parallel for simd| * | |
| // | distribute |parallel sections| * | |
| // | distribute | task | * | |
| // | distribute | taskyield | * | |
| // | distribute | barrier | * | |
| // | distribute | taskwait | * | |
| // | distribute | taskgroup | * | |
| // | distribute | flush | * | |
| // | distribute | ordered | + | |
| // | distribute | atomic | * | |
| // | distribute | target | | |
| // | distribute | teams | | |
| // | distribute | cancellation | + | |
| // | | point | | |
| // | distribute | cancel | + | |
| // | distribute | taskloop | * | |
| // | distribute | taskloop simd | * | |
| // | distribute | distribute | | |
| // +------------------+-----------------+------------------------------------+ |
| if (Stack->getCurScope()) { |
| auto ParentRegion = Stack->getParentDirective(); |
| bool NestingProhibited = false; |
| bool CloseNesting = true; |
| enum { |
| NoRecommend, |
| ShouldBeInParallelRegion, |
| ShouldBeInOrderedRegion, |
| ShouldBeInTargetRegion, |
| ShouldBeInTeamsRegion |
| } Recommend = NoRecommend; |
| if (isOpenMPSimdDirective(ParentRegion) && CurrentRegion != OMPD_ordered) { |
| // OpenMP [2.16, Nesting of Regions] |
| // OpenMP constructs may not be nested inside a simd region. |
| // OpenMP [2.8.1,simd Construct, Restrictions] |
| // An ordered construct with the simd clause is the only OpenMP construct |
| // that can appear in the simd region. |
| SemaRef.Diag(StartLoc, diag::err_omp_prohibited_region_simd); |
| return true; |
| } |
| if (ParentRegion == OMPD_atomic) { |
| // OpenMP [2.16, Nesting of Regions] |
| // OpenMP constructs may not be nested inside an atomic region. |
| SemaRef.Diag(StartLoc, diag::err_omp_prohibited_region_atomic); |
| return true; |
| } |
| if (CurrentRegion == OMPD_section) { |
| // OpenMP [2.7.2, sections Construct, Restrictions] |
| // Orphaned section directives are prohibited. That is, the section |
| // directives must appear within the sections construct and must not be |
| // encountered elsewhere in the sections region. |
| if (ParentRegion != OMPD_sections && |
| ParentRegion != OMPD_parallel_sections) { |
| SemaRef.Diag(StartLoc, diag::err_omp_orphaned_section_directive) |
| << (ParentRegion != OMPD_unknown) |
| << getOpenMPDirectiveName(ParentRegion); |
| return true; |
| } |
| return false; |
| } |
| // Allow some constructs to be orphaned (they could be used in functions, |
| // called from OpenMP regions with the required preconditions). |
| if (ParentRegion == OMPD_unknown) |
| return false; |
| if (CurrentRegion == OMPD_cancellation_point || |
| CurrentRegion == OMPD_cancel) { |
| // OpenMP [2.16, Nesting of Regions] |
| // A cancellation point construct for which construct-type-clause is |
| // taskgroup must be nested inside a task construct. A cancellation |
| // point construct for which construct-type-clause is not taskgroup must |
| // be closely nested inside an OpenMP construct that matches the type |
| // specified in construct-type-clause. |
| // A cancel construct for which construct-type-clause is taskgroup must be |
| // nested inside a task construct. A cancel construct for which |
| // construct-type-clause is not taskgroup must be closely nested inside an |
| // OpenMP construct that matches the type specified in |
| // construct-type-clause. |
| NestingProhibited = |
| !((CancelRegion == OMPD_parallel && ParentRegion == OMPD_parallel) || |
| (CancelRegion == OMPD_for && |
| (ParentRegion == OMPD_for || ParentRegion == OMPD_parallel_for)) || |
| (CancelRegion == OMPD_taskgroup && ParentRegion == OMPD_task) || |
| (CancelRegion == OMPD_sections && |
| (ParentRegion == OMPD_section || ParentRegion == OMPD_sections || |
| ParentRegion == OMPD_parallel_sections))); |
| } else if (CurrentRegion == OMPD_master) { |
| // OpenMP [2.16, Nesting of Regions] |
| // A master region may not be closely nested inside a worksharing, |
| // atomic, or explicit task region. |
| NestingProhibited = isOpenMPWorksharingDirective(ParentRegion) || |
| ParentRegion == OMPD_task || |
| isOpenMPTaskLoopDirective(ParentRegion); |
| } else if (CurrentRegion == OMPD_critical && CurrentName.getName()) { |
| // OpenMP [2.16, Nesting of Regions] |
| // A critical region may not be nested (closely or otherwise) inside a |
| // critical region with the same name. Note that this restriction is not |
| // sufficient to prevent deadlock. |
| SourceLocation PreviousCriticalLoc; |
| bool DeadLock = |
| Stack->hasDirective([CurrentName, &PreviousCriticalLoc]( |
| OpenMPDirectiveKind K, |
| const DeclarationNameInfo &DNI, |
| SourceLocation Loc) |
| ->bool { |
| if (K == OMPD_critical && |
| DNI.getName() == CurrentName.getName()) { |
| PreviousCriticalLoc = Loc; |
| return true; |
| } else |
| return false; |
| }, |
| false /* skip top directive */); |
| if (DeadLock) { |
| SemaRef.Diag(StartLoc, |
| diag::err_omp_prohibited_region_critical_same_name) |
| << CurrentName.getName(); |
| if (PreviousCriticalLoc.isValid()) |
| SemaRef.Diag(PreviousCriticalLoc, |
| diag::note_omp_previous_critical_region); |
| return true; |
| } |
| } else if (CurrentRegion == OMPD_barrier) { |
| // OpenMP [2.16, Nesting of Regions] |
| // A barrier region may not be closely nested inside a worksharing, |
| // explicit task, critical, ordered, atomic, or master region. |
| NestingProhibited = |
| isOpenMPWorksharingDirective(ParentRegion) || |
| ParentRegion == OMPD_task || ParentRegion == OMPD_master || |
| ParentRegion == OMPD_critical || ParentRegion == OMPD_ordered || |
| isOpenMPTaskLoopDirective(ParentRegion); |
| } else if (isOpenMPWorksharingDirective(CurrentRegion) && |
| !isOpenMPParallelDirective(CurrentRegion)) { |
| // OpenMP [2.16, Nesting of Regions] |
| // A worksharing region may not be closely nested inside a worksharing, |
| // explicit task, critical, ordered, atomic, or master region. |
| NestingProhibited = |
| isOpenMPWorksharingDirective(ParentRegion) || |
| ParentRegion == OMPD_task || ParentRegion == OMPD_master || |
| ParentRegion == OMPD_critical || ParentRegion == OMPD_ordered || |
| isOpenMPTaskLoopDirective(ParentRegion); |
| Recommend = ShouldBeInParallelRegion; |
| } else if (CurrentRegion == OMPD_ordered) { |
| // OpenMP [2.16, Nesting of Regions] |
| // An ordered region may not be closely nested inside a critical, |
| // atomic, or explicit task region. |
| // An ordered region must be closely nested inside a loop region (or |
| // parallel loop region) with an ordered clause. |
| // OpenMP [2.8.1,simd Construct, Restrictions] |
| // An ordered construct with the simd clause is the only OpenMP construct |
| // that can appear in the simd region. |
| NestingProhibited = ParentRegion == OMPD_critical || |
| ParentRegion == OMPD_task || |
| isOpenMPTaskLoopDirective(ParentRegion) || |
| !(isOpenMPSimdDirective(ParentRegion) || |
| Stack->isParentOrderedRegion()); |
| Recommend = ShouldBeInOrderedRegion; |
| } else if (isOpenMPTeamsDirective(CurrentRegion)) { |
| // OpenMP [2.16, Nesting of Regions] |
| // If specified, a teams construct must be contained within a target |
| // construct. |
| NestingProhibited = ParentRegion != OMPD_target; |
| Recommend = ShouldBeInTargetRegion; |
| Stack->setParentTeamsRegionLoc(Stack->getConstructLoc()); |
| } |
| if (!NestingProhibited && isOpenMPTeamsDirective(ParentRegion)) { |
| // OpenMP [2.16, Nesting of Regions] |
| // distribute, parallel, parallel sections, parallel workshare, and the |
| // parallel loop and parallel loop SIMD constructs are the only OpenMP |
| // constructs that can be closely nested in the teams region. |
| NestingProhibited = !isOpenMPParallelDirective(CurrentRegion) && |
| !isOpenMPDistributeDirective(CurrentRegion); |
| Recommend = ShouldBeInParallelRegion; |
| } |
| if (!NestingProhibited && isOpenMPDistributeDirective(CurrentRegion)) { |
| // OpenMP 4.5 [2.17 Nesting of Regions] |
| // The region associated with the distribute construct must be strictly |
| // nested inside a teams region |
| NestingProhibited = !isOpenMPTeamsDirective(ParentRegion); |
| Recommend = ShouldBeInTeamsRegion; |
| } |
| if (NestingProhibited) { |
| SemaRef.Diag(StartLoc, diag::err_omp_prohibited_region) |
| << CloseNesting << getOpenMPDirectiveName(ParentRegion) << Recommend |
| << getOpenMPDirectiveName(CurrentRegion); |
| return true; |
| } |
| } |
| return false; |
| } |
| |
| static bool checkIfClauses(Sema &S, OpenMPDirectiveKind Kind, |
| ArrayRef<OMPClause *> Clauses, |
| ArrayRef<OpenMPDirectiveKind> AllowedNameModifiers) { |
| bool ErrorFound = false; |
| unsigned NamedModifiersNumber = 0; |
| SmallVector<const OMPIfClause *, OMPC_unknown + 1> FoundNameModifiers( |
| OMPD_unknown + 1); |
| SmallVector<SourceLocation, 4> NameModifierLoc; |
| for (const auto *C : Clauses) { |
| if (const auto *IC = dyn_cast_or_null<OMPIfClause>(C)) { |
| // At most one if clause without a directive-name-modifier can appear on |
| // the directive. |
| OpenMPDirectiveKind CurNM = IC->getNameModifier(); |
| if (FoundNameModifiers[CurNM]) { |
| S.Diag(C->getLocStart(), diag::err_omp_more_one_clause) |
| << getOpenMPDirectiveName(Kind) << getOpenMPClauseName(OMPC_if) |
| << (CurNM != OMPD_unknown) << getOpenMPDirectiveName(CurNM); |
| ErrorFound = true; |
| } else if (CurNM != OMPD_unknown) { |
| NameModifierLoc.push_back(IC->getNameModifierLoc()); |
| ++NamedModifiersNumber; |
| } |
| FoundNameModifiers[CurNM] = IC; |
| if (CurNM == OMPD_unknown) |
| continue; |
| // Check if the specified name modifier is allowed for the current |
| // directive. |
| // At most one if clause with the particular directive-name-modifier can |
| // appear on the directive. |
| bool MatchFound = false; |
| for (auto NM : AllowedNameModifiers) { |
| if (CurNM == NM) { |
| MatchFound = true; |
| break; |
| } |
| } |
| if (!MatchFound) { |
| S.Diag(IC->getNameModifierLoc(), |
| diag::err_omp_wrong_if_directive_name_modifier) |
| << getOpenMPDirectiveName(CurNM) << getOpenMPDirectiveName(Kind); |
| ErrorFound = true; |
| } |
| } |
| } |
| // If any if clause on the directive includes a directive-name-modifier then |
| // all if clauses on the directive must include a directive-name-modifier. |
| if (FoundNameModifiers[OMPD_unknown] && NamedModifiersNumber > 0) { |
| if (NamedModifiersNumber == AllowedNameModifiers.size()) { |
| S.Diag(FoundNameModifiers[OMPD_unknown]->getLocStart(), |
| diag::err_omp_no_more_if_clause); |
| } else { |
| std::string Values; |
| std::string Sep(", "); |
| unsigned AllowedCnt = 0; |
| unsigned TotalAllowedNum = |
| AllowedNameModifiers.size() - NamedModifiersNumber; |
| for (unsigned Cnt = 0, End = AllowedNameModifiers.size(); Cnt < End; |
| ++Cnt) { |
| OpenMPDirectiveKind NM = AllowedNameModifiers[Cnt]; |
| if (!FoundNameModifiers[NM]) { |
| Values += "'"; |
| Values += getOpenMPDirectiveName(NM); |
| Values += "'"; |
| if (AllowedCnt + 2 == TotalAllowedNum) |
| Values += " or "; |
| else if (AllowedCnt + 1 != TotalAllowedNum) |
| Values += Sep; |
| ++AllowedCnt; |
| } |
| } |
| S.Diag(FoundNameModifiers[OMPD_unknown]->getCondition()->getLocStart(), |
| diag::err_omp_unnamed_if_clause) |
| << (TotalAllowedNum > 1) << Values; |
| } |
| for (auto Loc : NameModifierLoc) { |
| S.Diag(Loc, diag::note_omp_previous_named_if_clause); |
| } |
| ErrorFound = true; |
| } |
| return ErrorFound; |
| } |
| |
| StmtResult Sema::ActOnOpenMPExecutableDirective( |
| OpenMPDirectiveKind Kind, const DeclarationNameInfo &DirName, |
| OpenMPDirectiveKind CancelRegion, ArrayRef<OMPClause *> Clauses, |
| Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc) { |
| StmtResult Res = StmtError(); |
| if (CheckNestingOfRegions(*this, DSAStack, Kind, DirName, CancelRegion, |
| StartLoc)) |
| return StmtError(); |
| |
| llvm::SmallVector<OMPClause *, 8> ClausesWithImplicit; |
| llvm::DenseMap<VarDecl *, Expr *> VarsWithInheritedDSA; |
| bool ErrorFound = false; |
| ClausesWithImplicit.append(Clauses.begin(), Clauses.end()); |
| if (AStmt) { |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| |
| // Check default data sharing attributes for referenced variables. |
| DSAAttrChecker DSAChecker(DSAStack, *this, cast<CapturedStmt>(AStmt)); |
| DSAChecker.Visit(cast<CapturedStmt>(AStmt)->getCapturedStmt()); |
| if (DSAChecker.isErrorFound()) |
| return StmtError(); |
| // Generate list of implicitly defined firstprivate variables. |
| VarsWithInheritedDSA = DSAChecker.getVarsWithInheritedDSA(); |
| |
| if (!DSAChecker.getImplicitFirstprivate().empty()) { |
| if (OMPClause *Implicit = ActOnOpenMPFirstprivateClause( |
| DSAChecker.getImplicitFirstprivate(), SourceLocation(), |
| SourceLocation(), SourceLocation())) { |
| ClausesWithImplicit.push_back(Implicit); |
| ErrorFound = cast<OMPFirstprivateClause>(Implicit)->varlist_size() != |
| DSAChecker.getImplicitFirstprivate().size(); |
| } else |
| ErrorFound = true; |
| } |
| } |
| |
| llvm::SmallVector<OpenMPDirectiveKind, 4> AllowedNameModifiers; |
| switch (Kind) { |
| case OMPD_parallel: |
| Res = ActOnOpenMPParallelDirective(ClausesWithImplicit, AStmt, StartLoc, |
| EndLoc); |
| AllowedNameModifiers.push_back(OMPD_parallel); |
| break; |
| case OMPD_simd: |
| Res = ActOnOpenMPSimdDirective(ClausesWithImplicit, AStmt, StartLoc, EndLoc, |
| VarsWithInheritedDSA); |
| break; |
| case OMPD_for: |
| Res = ActOnOpenMPForDirective(ClausesWithImplicit, AStmt, StartLoc, EndLoc, |
| VarsWithInheritedDSA); |
| break; |
| case OMPD_for_simd: |
| Res = ActOnOpenMPForSimdDirective(ClausesWithImplicit, AStmt, StartLoc, |
| EndLoc, VarsWithInheritedDSA); |
| break; |
| case OMPD_sections: |
| Res = ActOnOpenMPSectionsDirective(ClausesWithImplicit, AStmt, StartLoc, |
| EndLoc); |
| break; |
| case OMPD_section: |
| assert(ClausesWithImplicit.empty() && |
| "No clauses are allowed for 'omp section' directive"); |
| Res = ActOnOpenMPSectionDirective(AStmt, StartLoc, EndLoc); |
| break; |
| case OMPD_single: |
| Res = ActOnOpenMPSingleDirective(ClausesWithImplicit, AStmt, StartLoc, |
| EndLoc); |
| break; |
| case OMPD_master: |
| assert(ClausesWithImplicit.empty() && |
| "No clauses are allowed for 'omp master' directive"); |
| Res = ActOnOpenMPMasterDirective(AStmt, StartLoc, EndLoc); |
| break; |
| case OMPD_critical: |
| Res = ActOnOpenMPCriticalDirective(DirName, ClausesWithImplicit, AStmt, |
| StartLoc, EndLoc); |
| break; |
| case OMPD_parallel_for: |
| Res = ActOnOpenMPParallelForDirective(ClausesWithImplicit, AStmt, StartLoc, |
| EndLoc, VarsWithInheritedDSA); |
| AllowedNameModifiers.push_back(OMPD_parallel); |
| break; |
| case OMPD_parallel_for_simd: |
| Res = ActOnOpenMPParallelForSimdDirective( |
| ClausesWithImplicit, AStmt, StartLoc, EndLoc, VarsWithInheritedDSA); |
| AllowedNameModifiers.push_back(OMPD_parallel); |
| break; |
| case OMPD_parallel_sections: |
| Res = ActOnOpenMPParallelSectionsDirective(ClausesWithImplicit, AStmt, |
| StartLoc, EndLoc); |
| AllowedNameModifiers.push_back(OMPD_parallel); |
| break; |
| case OMPD_task: |
| Res = |
| ActOnOpenMPTaskDirective(ClausesWithImplicit, AStmt, StartLoc, EndLoc); |
| AllowedNameModifiers.push_back(OMPD_task); |
| break; |
| case OMPD_taskyield: |
| assert(ClausesWithImplicit.empty() && |
| "No clauses are allowed for 'omp taskyield' directive"); |
| assert(AStmt == nullptr && |
| "No associated statement allowed for 'omp taskyield' directive"); |
| Res = ActOnOpenMPTaskyieldDirective(StartLoc, EndLoc); |
| break; |
| case OMPD_barrier: |
| assert(ClausesWithImplicit.empty() && |
| "No clauses are allowed for 'omp barrier' directive"); |
| assert(AStmt == nullptr && |
| "No associated statement allowed for 'omp barrier' directive"); |
| Res = ActOnOpenMPBarrierDirective(StartLoc, EndLoc); |
| break; |
| case OMPD_taskwait: |
| assert(ClausesWithImplicit.empty() && |
| "No clauses are allowed for 'omp taskwait' directive"); |
| assert(AStmt == nullptr && |
| "No associated statement allowed for 'omp taskwait' directive"); |
| Res = ActOnOpenMPTaskwaitDirective(StartLoc, EndLoc); |
| break; |
| case OMPD_taskgroup: |
| assert(ClausesWithImplicit.empty() && |
| "No clauses are allowed for 'omp taskgroup' directive"); |
| Res = ActOnOpenMPTaskgroupDirective(AStmt, StartLoc, EndLoc); |
| break; |
| case OMPD_flush: |
| assert(AStmt == nullptr && |
| "No associated statement allowed for 'omp flush' directive"); |
| Res = ActOnOpenMPFlushDirective(ClausesWithImplicit, StartLoc, EndLoc); |
| break; |
| case OMPD_ordered: |
| Res = ActOnOpenMPOrderedDirective(ClausesWithImplicit, AStmt, StartLoc, |
| EndLoc); |
| break; |
| case OMPD_atomic: |
| Res = ActOnOpenMPAtomicDirective(ClausesWithImplicit, AStmt, StartLoc, |
| EndLoc); |
| break; |
| case OMPD_teams: |
| Res = |
| ActOnOpenMPTeamsDirective(ClausesWithImplicit, AStmt, StartLoc, EndLoc); |
| break; |
| case OMPD_target: |
| Res = ActOnOpenMPTargetDirective(ClausesWithImplicit, AStmt, StartLoc, |
| EndLoc); |
| AllowedNameModifiers.push_back(OMPD_target); |
| break; |
| case OMPD_cancellation_point: |
| assert(ClausesWithImplicit.empty() && |
| "No clauses are allowed for 'omp cancellation point' directive"); |
| assert(AStmt == nullptr && "No associated statement allowed for 'omp " |
| "cancellation point' directive"); |
| Res = ActOnOpenMPCancellationPointDirective(StartLoc, EndLoc, CancelRegion); |
| break; |
| case OMPD_cancel: |
| assert(AStmt == nullptr && |
| "No associated statement allowed for 'omp cancel' directive"); |
| Res = ActOnOpenMPCancelDirective(ClausesWithImplicit, StartLoc, EndLoc, |
| CancelRegion); |
| AllowedNameModifiers.push_back(OMPD_cancel); |
| break; |
| case OMPD_target_data: |
| Res = ActOnOpenMPTargetDataDirective(ClausesWithImplicit, AStmt, StartLoc, |
| EndLoc); |
| AllowedNameModifiers.push_back(OMPD_target_data); |
| break; |
| case OMPD_taskloop: |
| Res = ActOnOpenMPTaskLoopDirective(ClausesWithImplicit, AStmt, StartLoc, |
| EndLoc, VarsWithInheritedDSA); |
| AllowedNameModifiers.push_back(OMPD_taskloop); |
| break; |
| case OMPD_taskloop_simd: |
| Res = ActOnOpenMPTaskLoopSimdDirective(ClausesWithImplicit, AStmt, StartLoc, |
| EndLoc, VarsWithInheritedDSA); |
| AllowedNameModifiers.push_back(OMPD_taskloop); |
| break; |
| case OMPD_distribute: |
| Res = ActOnOpenMPDistributeDirective(ClausesWithImplicit, AStmt, StartLoc, |
| EndLoc, VarsWithInheritedDSA); |
| break; |
| case OMPD_threadprivate: |
| llvm_unreachable("OpenMP Directive is not allowed"); |
| case OMPD_unknown: |
| llvm_unreachable("Unknown OpenMP directive"); |
| } |
| |
| for (auto P : VarsWithInheritedDSA) { |
| Diag(P.second->getExprLoc(), diag::err_omp_no_dsa_for_variable) |
| << P.first << P.second->getSourceRange(); |
| } |
| ErrorFound = !VarsWithInheritedDSA.empty() || ErrorFound; |
| |
| if (!AllowedNameModifiers.empty()) |
| ErrorFound = checkIfClauses(*this, Kind, Clauses, AllowedNameModifiers) || |
| ErrorFound; |
| |
| if (ErrorFound) |
| return StmtError(); |
| return Res; |
| } |
| |
| StmtResult Sema::ActOnOpenMPParallelDirective(ArrayRef<OMPClause *> Clauses, |
| Stmt *AStmt, |
| SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| if (!AStmt) |
| return StmtError(); |
| |
| CapturedStmt *CS = cast<CapturedStmt>(AStmt); |
| // 1.2.2 OpenMP Language Terminology |
| // Structured block - An executable statement with a single entry at the |
| // top and a single exit at the bottom. |
| // The point of exit cannot be a branch out of the structured block. |
| // longjmp() and throw() must not violate the entry/exit criteria. |
| CS->getCapturedDecl()->setNothrow(); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| |
| return OMPParallelDirective::Create(Context, StartLoc, EndLoc, Clauses, AStmt, |
| DSAStack->isCancelRegion()); |
| } |
| |
| namespace { |
| /// \brief Helper class for checking canonical form of the OpenMP loops and |
| /// extracting iteration space of each loop in the loop nest, that will be used |
| /// for IR generation. |
| class OpenMPIterationSpaceChecker { |
| /// \brief Reference to Sema. |
| Sema &SemaRef; |
| /// \brief A location for diagnostics (when there is no some better location). |
| SourceLocation DefaultLoc; |
| /// \brief A location for diagnostics (when increment is not compatible). |
| SourceLocation ConditionLoc; |
| /// \brief A source location for referring to loop init later. |
| SourceRange InitSrcRange; |
| /// \brief A source location for referring to condition later. |
| SourceRange ConditionSrcRange; |
| /// \brief A source location for referring to increment later. |
| SourceRange IncrementSrcRange; |
| /// \brief Loop variable. |
| VarDecl *Var; |
| /// \brief Reference to loop variable. |
| DeclRefExpr *VarRef; |
| /// \brief Lower bound (initializer for the var). |
| Expr *LB; |
| /// \brief Upper bound. |
| Expr *UB; |
| /// \brief Loop step (increment). |
| Expr *Step; |
| /// \brief This flag is true when condition is one of: |
| /// Var < UB |
| /// Var <= UB |
| /// UB > Var |
| /// UB >= Var |
| bool TestIsLessOp; |
| /// \brief This flag is true when condition is strict ( < or > ). |
| bool TestIsStrictOp; |
| /// \brief This flag is true when step is subtracted on each iteration. |
| bool SubtractStep; |
| |
| public: |
| OpenMPIterationSpaceChecker(Sema &SemaRef, SourceLocation DefaultLoc) |
| : SemaRef(SemaRef), DefaultLoc(DefaultLoc), ConditionLoc(DefaultLoc), |
| InitSrcRange(SourceRange()), ConditionSrcRange(SourceRange()), |
| IncrementSrcRange(SourceRange()), Var(nullptr), VarRef(nullptr), |
| LB(nullptr), UB(nullptr), Step(nullptr), TestIsLessOp(false), |
| TestIsStrictOp(false), SubtractStep(false) {} |
| /// \brief Check init-expr for canonical loop form and save loop counter |
| /// variable - #Var and its initialization value - #LB. |
| bool CheckInit(Stmt *S, bool EmitDiags = true); |
| /// \brief Check test-expr for canonical form, save upper-bound (#UB), flags |
| /// for less/greater and for strict/non-strict comparison. |
| bool CheckCond(Expr *S); |
| /// \brief Check incr-expr for canonical loop form and return true if it |
| /// does not conform, otherwise save loop step (#Step). |
| bool CheckInc(Expr *S); |
| /// \brief Return the loop counter variable. |
| VarDecl *GetLoopVar() const { return Var; } |
| /// \brief Return the reference expression to loop counter variable. |
| DeclRefExpr *GetLoopVarRefExpr() const { return VarRef; } |
| /// \brief Source range of the loop init. |
| SourceRange GetInitSrcRange() const { return InitSrcRange; } |
| /// \brief Source range of the loop condition. |
| SourceRange GetConditionSrcRange() const { return ConditionSrcRange; } |
| /// \brief Source range of the loop increment. |
| SourceRange GetIncrementSrcRange() const { return IncrementSrcRange; } |
| /// \brief True if the step should be subtracted. |
| bool ShouldSubtractStep() const { return SubtractStep; } |
| /// \brief Build the expression to calculate the number of iterations. |
| Expr *BuildNumIterations(Scope *S, const bool LimitedType) const; |
| /// \brief Build the precondition expression for the loops. |
| Expr *BuildPreCond(Scope *S, Expr *Cond) const; |
| /// \brief Build reference expression to the counter be used for codegen. |
| Expr *BuildCounterVar() const; |
| /// \brief Build reference expression to the private counter be used for |
| /// codegen. |
| Expr *BuildPrivateCounterVar() const; |
| /// \brief Build initization of the counter be used for codegen. |
| Expr *BuildCounterInit() const; |
| /// \brief Build step of the counter be used for codegen. |
| Expr *BuildCounterStep() const; |
| /// \brief Return true if any expression is dependent. |
| bool Dependent() const; |
| |
| private: |
| /// \brief Check the right-hand side of an assignment in the increment |
| /// expression. |
| bool CheckIncRHS(Expr *RHS); |
| /// \brief Helper to set loop counter variable and its initializer. |
| bool SetVarAndLB(VarDecl *NewVar, DeclRefExpr *NewVarRefExpr, Expr *NewLB); |
| /// \brief Helper to set upper bound. |
| bool SetUB(Expr *NewUB, bool LessOp, bool StrictOp, SourceRange SR, |
| SourceLocation SL); |
| /// \brief Helper to set loop increment. |
| bool SetStep(Expr *NewStep, bool Subtract); |
| }; |
| |
| bool OpenMPIterationSpaceChecker::Dependent() const { |
| if (!Var) { |
| assert(!LB && !UB && !Step); |
| return false; |
| } |
| return Var->getType()->isDependentType() || (LB && LB->isValueDependent()) || |
| (UB && UB->isValueDependent()) || (Step && Step->isValueDependent()); |
| } |
| |
| template <typename T> |
| static T *getExprAsWritten(T *E) { |
| if (auto *ExprTemp = dyn_cast<ExprWithCleanups>(E)) |
| E = ExprTemp->getSubExpr(); |
| |
| if (auto *MTE = dyn_cast<MaterializeTemporaryExpr>(E)) |
| E = MTE->GetTemporaryExpr(); |
| |
| while (auto *Binder = dyn_cast<CXXBindTemporaryExpr>(E)) |
| E = Binder->getSubExpr(); |
| |
| if (auto *ICE = dyn_cast<ImplicitCastExpr>(E)) |
| E = ICE->getSubExprAsWritten(); |
| return E->IgnoreParens(); |
| } |
| |
| bool OpenMPIterationSpaceChecker::SetVarAndLB(VarDecl *NewVar, |
| DeclRefExpr *NewVarRefExpr, |
| Expr *NewLB) { |
| // State consistency checking to ensure correct usage. |
| assert(Var == nullptr && LB == nullptr && VarRef == nullptr && |
| UB == nullptr && Step == nullptr && !TestIsLessOp && !TestIsStrictOp); |
| if (!NewVar || !NewLB) |
| return true; |
| Var = NewVar; |
| VarRef = NewVarRefExpr; |
| if (auto *CE = dyn_cast_or_null<CXXConstructExpr>(NewLB)) |
| if (const CXXConstructorDecl *Ctor = CE->getConstructor()) |
| if ((Ctor->isCopyOrMoveConstructor() || |
| Ctor->isConvertingConstructor(/*AllowExplicit=*/false)) && |
| CE->getNumArgs() > 0 && CE->getArg(0) != nullptr) |
| NewLB = CE->getArg(0)->IgnoreParenImpCasts(); |
| LB = NewLB; |
| return false; |
| } |
| |
| bool OpenMPIterationSpaceChecker::SetUB(Expr *NewUB, bool LessOp, bool StrictOp, |
| SourceRange SR, SourceLocation SL) { |
| // State consistency checking to ensure correct usage. |
| assert(Var != nullptr && LB != nullptr && UB == nullptr && Step == nullptr && |
| !TestIsLessOp && !TestIsStrictOp); |
| if (!NewUB) |
| return true; |
| UB = NewUB; |
| TestIsLessOp = LessOp; |
| TestIsStrictOp = StrictOp; |
| ConditionSrcRange = SR; |
| ConditionLoc = SL; |
| return false; |
| } |
| |
| bool OpenMPIterationSpaceChecker::SetStep(Expr *NewStep, bool Subtract) { |
| // State consistency checking to ensure correct usage. |
| assert(Var != nullptr && LB != nullptr && Step == nullptr); |
| if (!NewStep) |
| return true; |
| if (!NewStep->isValueDependent()) { |
| // Check that the step is integer expression. |
| SourceLocation StepLoc = NewStep->getLocStart(); |
| ExprResult Val = |
| SemaRef.PerformOpenMPImplicitIntegerConversion(StepLoc, NewStep); |
| if (Val.isInvalid()) |
| return true; |
| NewStep = Val.get(); |
| |
| // OpenMP [2.6, Canonical Loop Form, Restrictions] |
| // If test-expr is of form var relational-op b and relational-op is < or |
| // <= then incr-expr must cause var to increase on each iteration of the |
| // loop. If test-expr is of form var relational-op b and relational-op is |
| // > or >= then incr-expr must cause var to decrease on each iteration of |
| // the loop. |
| // If test-expr is of form b relational-op var and relational-op is < or |
| // <= then incr-expr must cause var to decrease on each iteration of the |
| // loop. If test-expr is of form b relational-op var and relational-op is |
| // > or >= then incr-expr must cause var to increase on each iteration of |
| // the loop. |
| llvm::APSInt Result; |
| bool IsConstant = NewStep->isIntegerConstantExpr(Result, SemaRef.Context); |
| bool IsUnsigned = !NewStep->getType()->hasSignedIntegerRepresentation(); |
| bool IsConstNeg = |
| IsConstant && Result.isSigned() && (Subtract != Result.isNegative()); |
| bool IsConstPos = |
| IsConstant && Result.isSigned() && (Subtract == Result.isNegative()); |
| bool IsConstZero = IsConstant && !Result.getBoolValue(); |
| if (UB && (IsConstZero || |
| (TestIsLessOp ? (IsConstNeg || (IsUnsigned && Subtract)) |
| : (IsConstPos || (IsUnsigned && !Subtract))))) { |
| SemaRef.Diag(NewStep->getExprLoc(), |
| diag::err_omp_loop_incr_not_compatible) |
| << Var << TestIsLessOp << NewStep->getSourceRange(); |
| SemaRef.Diag(ConditionLoc, |
| diag::note_omp_loop_cond_requres_compatible_incr) |
| << TestIsLessOp << ConditionSrcRange; |
| return true; |
| } |
| if (TestIsLessOp == Subtract) { |
| NewStep = SemaRef.CreateBuiltinUnaryOp(NewStep->getExprLoc(), UO_Minus, |
| NewStep).get(); |
| Subtract = !Subtract; |
| } |
| } |
| |
| Step = NewStep; |
| SubtractStep = Subtract; |
| return false; |
| } |
| |
| bool OpenMPIterationSpaceChecker::CheckInit(Stmt *S, bool EmitDiags) { |
| // Check init-expr for canonical loop form and save loop counter |
| // variable - #Var and its initialization value - #LB. |
| // OpenMP [2.6] Canonical loop form. init-expr may be one of the following: |
| // var = lb |
| // integer-type var = lb |
| // random-access-iterator-type var = lb |
| // pointer-type var = lb |
| // |
| if (!S) { |
| if (EmitDiags) { |
| SemaRef.Diag(DefaultLoc, diag::err_omp_loop_not_canonical_init); |
| } |
| return true; |
| } |
| InitSrcRange = S->getSourceRange(); |
| if (Expr *E = dyn_cast<Expr>(S)) |
| S = E->IgnoreParens(); |
| if (auto BO = dyn_cast<BinaryOperator>(S)) { |
| if (BO->getOpcode() == BO_Assign) |
| if (auto DRE = dyn_cast<DeclRefExpr>(BO->getLHS()->IgnoreParens())) |
| return SetVarAndLB(dyn_cast<VarDecl>(DRE->getDecl()), DRE, |
| BO->getRHS()); |
| } else if (auto DS = dyn_cast<DeclStmt>(S)) { |
| if (DS->isSingleDecl()) { |
| if (auto Var = dyn_cast_or_null<VarDecl>(DS->getSingleDecl())) { |
| if (Var->hasInit() && !Var->getType()->isReferenceType()) { |
| // Accept non-canonical init form here but emit ext. warning. |
| if (Var->getInitStyle() != VarDecl::CInit && EmitDiags) |
| SemaRef.Diag(S->getLocStart(), |
| diag::ext_omp_loop_not_canonical_init) |
| << S->getSourceRange(); |
| return SetVarAndLB(Var, nullptr, Var->getInit()); |
| } |
| } |
| } |
| } else if (auto CE = dyn_cast<CXXOperatorCallExpr>(S)) |
| if (CE->getOperator() == OO_Equal) |
| if (auto DRE = dyn_cast<DeclRefExpr>(CE->getArg(0))) |
| return SetVarAndLB(dyn_cast<VarDecl>(DRE->getDecl()), DRE, |
| CE->getArg(1)); |
| |
| if (EmitDiags) { |
| SemaRef.Diag(S->getLocStart(), diag::err_omp_loop_not_canonical_init) |
| << S->getSourceRange(); |
| } |
| return true; |
| } |
| |
| /// \brief Ignore parenthesizes, implicit casts, copy constructor and return the |
| /// variable (which may be the loop variable) if possible. |
| static const VarDecl *GetInitVarDecl(const Expr *E) { |
| if (!E) |
| return nullptr; |
| E = getExprAsWritten(E); |
| if (auto *CE = dyn_cast_or_null<CXXConstructExpr>(E)) |
| if (const CXXConstructorDecl *Ctor = CE->getConstructor()) |
| if ((Ctor->isCopyOrMoveConstructor() || |
| Ctor->isConvertingConstructor(/*AllowExplicit=*/false)) && |
| CE->getNumArgs() > 0 && CE->getArg(0) != nullptr) |
| E = CE->getArg(0)->IgnoreParenImpCasts(); |
| auto DRE = dyn_cast_or_null<DeclRefExpr>(E); |
| if (!DRE) |
| return nullptr; |
| return dyn_cast<VarDecl>(DRE->getDecl()); |
| } |
| |
| bool OpenMPIterationSpaceChecker::CheckCond(Expr *S) { |
| // Check test-expr for canonical form, save upper-bound UB, flags for |
| // less/greater and for strict/non-strict comparison. |
| // OpenMP [2.6] Canonical loop form. Test-expr may be one of the following: |
| // var relational-op b |
| // b relational-op var |
| // |
| if (!S) { |
| SemaRef.Diag(DefaultLoc, diag::err_omp_loop_not_canonical_cond) << Var; |
| return true; |
| } |
| S = getExprAsWritten(S); |
| SourceLocation CondLoc = S->getLocStart(); |
| if (auto BO = dyn_cast<BinaryOperator>(S)) { |
| if (BO->isRelationalOp()) { |
| if (GetInitVarDecl(BO->getLHS()) == Var) |
| return SetUB(BO->getRHS(), |
| (BO->getOpcode() == BO_LT || BO->getOpcode() == BO_LE), |
| (BO->getOpcode() == BO_LT || BO->getOpcode() == BO_GT), |
| BO->getSourceRange(), BO->getOperatorLoc()); |
| if (GetInitVarDecl(BO->getRHS()) == Var) |
| return SetUB(BO->getLHS(), |
| (BO->getOpcode() == BO_GT || BO->getOpcode() == BO_GE), |
| (BO->getOpcode() == BO_LT || BO->getOpcode() == BO_GT), |
| BO->getSourceRange(), BO->getOperatorLoc()); |
| } |
| } else if (auto CE = dyn_cast<CXXOperatorCallExpr>(S)) { |
| if (CE->getNumArgs() == 2) { |
| auto Op = CE->getOperator(); |
| switch (Op) { |
| case OO_Greater: |
| case OO_GreaterEqual: |
| case OO_Less: |
| case OO_LessEqual: |
| if (GetInitVarDecl(CE->getArg(0)) == Var) |
| return SetUB(CE->getArg(1), Op == OO_Less || Op == OO_LessEqual, |
| Op == OO_Less || Op == OO_Greater, CE->getSourceRange(), |
| CE->getOperatorLoc()); |
| if (GetInitVarDecl(CE->getArg(1)) == Var) |
| return SetUB(CE->getArg(0), Op == OO_Greater || Op == OO_GreaterEqual, |
| Op == OO_Less || Op == OO_Greater, CE->getSourceRange(), |
| CE->getOperatorLoc()); |
| break; |
| default: |
| break; |
| } |
| } |
| } |
| SemaRef.Diag(CondLoc, diag::err_omp_loop_not_canonical_cond) |
| << S->getSourceRange() << Var; |
| return true; |
| } |
| |
| bool OpenMPIterationSpaceChecker::CheckIncRHS(Expr *RHS) { |
| // RHS of canonical loop form increment can be: |
| // var + incr |
| // incr + var |
| // var - incr |
| // |
| RHS = RHS->IgnoreParenImpCasts(); |
| if (auto BO = dyn_cast<BinaryOperator>(RHS)) { |
| if (BO->isAdditiveOp()) { |
| bool IsAdd = BO->getOpcode() == BO_Add; |
| if (GetInitVarDecl(BO->getLHS()) == Var) |
| return SetStep(BO->getRHS(), !IsAdd); |
| if (IsAdd && GetInitVarDecl(BO->getRHS()) == Var) |
| return SetStep(BO->getLHS(), false); |
| } |
| } else if (auto CE = dyn_cast<CXXOperatorCallExpr>(RHS)) { |
| bool IsAdd = CE->getOperator() == OO_Plus; |
| if ((IsAdd || CE->getOperator() == OO_Minus) && CE->getNumArgs() == 2) { |
| if (GetInitVarDecl(CE->getArg(0)) == Var) |
| return SetStep(CE->getArg(1), !IsAdd); |
| if (IsAdd && GetInitVarDecl(CE->getArg(1)) == Var) |
| return SetStep(CE->getArg(0), false); |
| } |
| } |
| SemaRef.Diag(RHS->getLocStart(), diag::err_omp_loop_not_canonical_incr) |
| << RHS->getSourceRange() << Var; |
| return true; |
| } |
| |
| bool OpenMPIterationSpaceChecker::CheckInc(Expr *S) { |
| // Check incr-expr for canonical loop form and return true if it |
| // does not conform. |
| // OpenMP [2.6] Canonical loop form. Test-expr may be one of the following: |
| // ++var |
| // var++ |
| // --var |
| // var-- |
| // var += incr |
| // var -= incr |
| // var = var + incr |
| // var = incr + var |
| // var = var - incr |
| // |
| if (!S) { |
| SemaRef.Diag(DefaultLoc, diag::err_omp_loop_not_canonical_incr) << Var; |
| return true; |
| } |
| IncrementSrcRange = S->getSourceRange(); |
| S = S->IgnoreParens(); |
| if (auto UO = dyn_cast<UnaryOperator>(S)) { |
| if (UO->isIncrementDecrementOp() && GetInitVarDecl(UO->getSubExpr()) == Var) |
| return SetStep( |
| SemaRef.ActOnIntegerConstant(UO->getLocStart(), |
| (UO->isDecrementOp() ? -1 : 1)).get(), |
| false); |
| } else if (auto BO = dyn_cast<BinaryOperator>(S)) { |
| switch (BO->getOpcode()) { |
| case BO_AddAssign: |
| case BO_SubAssign: |
| if (GetInitVarDecl(BO->getLHS()) == Var) |
| return SetStep(BO->getRHS(), BO->getOpcode() == BO_SubAssign); |
| break; |
| case BO_Assign: |
| if (GetInitVarDecl(BO->getLHS()) == Var) |
| return CheckIncRHS(BO->getRHS()); |
| break; |
| default: |
| break; |
| } |
| } else if (auto CE = dyn_cast<CXXOperatorCallExpr>(S)) { |
| switch (CE->getOperator()) { |
| case OO_PlusPlus: |
| case OO_MinusMinus: |
| if (GetInitVarDecl(CE->getArg(0)) == Var) |
| return SetStep( |
| SemaRef.ActOnIntegerConstant( |
| CE->getLocStart(), |
| ((CE->getOperator() == OO_MinusMinus) ? -1 : 1)).get(), |
| false); |
| break; |
| case OO_PlusEqual: |
| case OO_MinusEqual: |
| if (GetInitVarDecl(CE->getArg(0)) == Var) |
| return SetStep(CE->getArg(1), CE->getOperator() == OO_MinusEqual); |
| break; |
| case OO_Equal: |
| if (GetInitVarDecl(CE->getArg(0)) == Var) |
| return CheckIncRHS(CE->getArg(1)); |
| break; |
| default: |
| break; |
| } |
| } |
| SemaRef.Diag(S->getLocStart(), diag::err_omp_loop_not_canonical_incr) |
| << S->getSourceRange() << Var; |
| return true; |
| } |
| |
| namespace { |
| // Transform variables declared in GNU statement expressions to new ones to |
| // avoid crash on codegen. |
| class TransformToNewDefs : public TreeTransform<TransformToNewDefs> { |
| typedef TreeTransform<TransformToNewDefs> BaseTransform; |
| |
| public: |
| TransformToNewDefs(Sema &SemaRef) : BaseTransform(SemaRef) {} |
| |
| Decl *TransformDefinition(SourceLocation Loc, Decl *D) { |
| if (auto *VD = cast<VarDecl>(D)) |
| if (!isa<ParmVarDecl>(D) && !isa<VarTemplateSpecializationDecl>(D) && |
| !isa<ImplicitParamDecl>(D)) { |
| auto *NewVD = VarDecl::Create( |
| SemaRef.Context, VD->getDeclContext(), VD->getLocStart(), |
| VD->getLocation(), VD->getIdentifier(), VD->getType(), |
| VD->getTypeSourceInfo(), VD->getStorageClass()); |
| NewVD->setTSCSpec(VD->getTSCSpec()); |
| NewVD->setInit(VD->getInit()); |
| NewVD->setInitStyle(VD->getInitStyle()); |
| NewVD->setExceptionVariable(VD->isExceptionVariable()); |
| NewVD->setNRVOVariable(VD->isNRVOVariable()); |
| NewVD->setCXXForRangeDecl(VD->isInExternCXXContext()); |
| NewVD->setConstexpr(VD->isConstexpr()); |
| NewVD->setInitCapture(VD->isInitCapture()); |
| NewVD->setPreviousDeclInSameBlockScope( |
| VD->isPreviousDeclInSameBlockScope()); |
| VD->getDeclContext()->addHiddenDecl(NewVD); |
| if (VD->hasAttrs()) |
| NewVD->setAttrs(VD->getAttrs()); |
| transformedLocalDecl(VD, NewVD); |
| return NewVD; |
| } |
| return BaseTransform::TransformDefinition(Loc, D); |
| } |
| |
| ExprResult TransformDeclRefExpr(DeclRefExpr *E) { |
| if (auto *NewD = TransformDecl(E->getExprLoc(), E->getDecl())) |
| if (E->getDecl() != NewD) { |
| NewD->setReferenced(); |
| NewD->markUsed(SemaRef.Context); |
| return DeclRefExpr::Create( |
| SemaRef.Context, E->getQualifierLoc(), E->getTemplateKeywordLoc(), |
| cast<ValueDecl>(NewD), E->refersToEnclosingVariableOrCapture(), |
| E->getNameInfo(), E->getType(), E->getValueKind()); |
| } |
| return BaseTransform::TransformDeclRefExpr(E); |
| } |
| }; |
| } |
| |
| /// \brief Build the expression to calculate the number of iterations. |
| Expr * |
| OpenMPIterationSpaceChecker::BuildNumIterations(Scope *S, |
| const bool LimitedType) const { |
| TransformToNewDefs Transform(SemaRef); |
| ExprResult Diff; |
| auto VarType = Var->getType().getNonReferenceType(); |
| if (VarType->isIntegerType() || VarType->isPointerType() || |
| SemaRef.getLangOpts().CPlusPlus) { |
| // Upper - Lower |
| auto *UBExpr = TestIsLessOp ? UB : LB; |
| auto *LBExpr = TestIsLessOp ? LB : UB; |
| Expr *Upper = Transform.TransformExpr(UBExpr).get(); |
| Expr *Lower = Transform.TransformExpr(LBExpr).get(); |
| if (!Upper || !Lower) |
| return nullptr; |
| Upper = SemaRef.PerformImplicitConversion(Upper, UBExpr->getType(), |
| Sema::AA_Converting, |
| /*AllowExplicit=*/true) |
| .get(); |
| Lower = SemaRef.PerformImplicitConversion(Lower, LBExpr->getType(), |
| Sema::AA_Converting, |
| /*AllowExplicit=*/true) |
| .get(); |
| if (!Upper || !Lower) |
| return nullptr; |
| |
| Diff = SemaRef.BuildBinOp(S, DefaultLoc, BO_Sub, Upper, Lower); |
| |
| if (!Diff.isUsable() && VarType->getAsCXXRecordDecl()) { |
| // BuildBinOp already emitted error, this one is to point user to upper |
| // and lower bound, and to tell what is passed to 'operator-'. |
| SemaRef.Diag(Upper->getLocStart(), diag::err_omp_loop_diff_cxx) |
| << Upper->getSourceRange() << Lower->getSourceRange(); |
| return nullptr; |
| } |
| } |
| |
| if (!Diff.isUsable()) |
| return nullptr; |
| |
| // Upper - Lower [- 1] |
| if (TestIsStrictOp) |
| Diff = SemaRef.BuildBinOp( |
| S, DefaultLoc, BO_Sub, Diff.get(), |
| SemaRef.ActOnIntegerConstant(SourceLocation(), 1).get()); |
| if (!Diff.isUsable()) |
| return nullptr; |
| |
| // Upper - Lower [- 1] + Step |
| auto NewStep = Transform.TransformExpr(Step->IgnoreImplicit()); |
| if (NewStep.isInvalid()) |
| return nullptr; |
| NewStep = SemaRef.PerformImplicitConversion( |
| NewStep.get(), Step->IgnoreImplicit()->getType(), Sema::AA_Converting, |
| /*AllowExplicit=*/true); |
| if (NewStep.isInvalid()) |
| return nullptr; |
| Diff = SemaRef.BuildBinOp(S, DefaultLoc, BO_Add, Diff.get(), NewStep.get()); |
| if (!Diff.isUsable()) |
| return nullptr; |
| |
| // Parentheses (for dumping/debugging purposes only). |
| Diff = SemaRef.ActOnParenExpr(DefaultLoc, DefaultLoc, Diff.get()); |
| if (!Diff.isUsable()) |
| return nullptr; |
| |
| // (Upper - Lower [- 1] + Step) / Step |
| NewStep = Transform.TransformExpr(Step->IgnoreImplicit()); |
| if (NewStep.isInvalid()) |
| return nullptr; |
| NewStep = SemaRef.PerformImplicitConversion( |
| NewStep.get(), Step->IgnoreImplicit()->getType(), Sema::AA_Converting, |
| /*AllowExplicit=*/true); |
| if (NewStep.isInvalid()) |
| return nullptr; |
| Diff = SemaRef.BuildBinOp(S, DefaultLoc, BO_Div, Diff.get(), NewStep.get()); |
| if (!Diff.isUsable()) |
| return nullptr; |
| |
| // OpenMP runtime requires 32-bit or 64-bit loop variables. |
| QualType Type = Diff.get()->getType(); |
| auto &C = SemaRef.Context; |
| bool UseVarType = VarType->hasIntegerRepresentation() && |
| C.getTypeSize(Type) > C.getTypeSize(VarType); |
| if (!Type->isIntegerType() || UseVarType) { |
| unsigned NewSize = |
| UseVarType ? C.getTypeSize(VarType) : C.getTypeSize(Type); |
| bool IsSigned = UseVarType ? VarType->hasSignedIntegerRepresentation() |
| : Type->hasSignedIntegerRepresentation(); |
| Type = C.getIntTypeForBitwidth(NewSize, IsSigned); |
| Diff = SemaRef.PerformImplicitConversion( |
| Diff.get(), Type, Sema::AA_Converting, /*AllowExplicit=*/true); |
| if (!Diff.isUsable()) |
| return nullptr; |
| } |
| if (LimitedType) { |
| unsigned NewSize = (C.getTypeSize(Type) > 32) ? 64 : 32; |
| if (NewSize != C.getTypeSize(Type)) { |
| if (NewSize < C.getTypeSize(Type)) { |
| assert(NewSize == 64 && "incorrect loop var size"); |
| SemaRef.Diag(DefaultLoc, diag::warn_omp_loop_64_bit_var) |
| << InitSrcRange << ConditionSrcRange; |
| } |
| QualType NewType = C.getIntTypeForBitwidth( |
| NewSize, Type->hasSignedIntegerRepresentation() || |
| C.getTypeSize(Type) < NewSize); |
| Diff = SemaRef.PerformImplicitConversion(Diff.get(), NewType, |
| Sema::AA_Converting, true); |
| if (!Diff.isUsable()) |
| return nullptr; |
| } |
| } |
| |
| return Diff.get(); |
| } |
| |
| Expr *OpenMPIterationSpaceChecker::BuildPreCond(Scope *S, Expr *Cond) const { |
| // Try to build LB <op> UB, where <op> is <, >, <=, or >=. |
| bool Suppress = SemaRef.getDiagnostics().getSuppressAllDiagnostics(); |
| SemaRef.getDiagnostics().setSuppressAllDiagnostics(/*Val=*/true); |
| TransformToNewDefs Transform(SemaRef); |
| |
| auto NewLB = Transform.TransformExpr(LB); |
| auto NewUB = Transform.TransformExpr(UB); |
| if (NewLB.isInvalid() || NewUB.isInvalid()) |
| return Cond; |
| NewLB = SemaRef.PerformImplicitConversion(NewLB.get(), LB->getType(), |
| Sema::AA_Converting, |
| /*AllowExplicit=*/true); |
| NewUB = SemaRef.PerformImplicitConversion(NewUB.get(), UB->getType(), |
| Sema::AA_Converting, |
| /*AllowExplicit=*/true); |
| if (NewLB.isInvalid() || NewUB.isInvalid()) |
| return Cond; |
| auto CondExpr = SemaRef.BuildBinOp( |
| S, DefaultLoc, TestIsLessOp ? (TestIsStrictOp ? BO_LT : BO_LE) |
| : (TestIsStrictOp ? BO_GT : BO_GE), |
| NewLB.get(), NewUB.get()); |
| if (CondExpr.isUsable()) { |
| CondExpr = SemaRef.PerformImplicitConversion( |
| CondExpr.get(), SemaRef.Context.BoolTy, /*Action=*/Sema::AA_Casting, |
| /*AllowExplicit=*/true); |
| } |
| SemaRef.getDiagnostics().setSuppressAllDiagnostics(Suppress); |
| // Otherwise use original loop conditon and evaluate it in runtime. |
| return CondExpr.isUsable() ? CondExpr.get() : Cond; |
| } |
| |
| /// \brief Build reference expression to the counter be used for codegen. |
| Expr *OpenMPIterationSpaceChecker::BuildCounterVar() const { |
| return buildDeclRefExpr(SemaRef, Var, Var->getType().getNonReferenceType(), |
| DefaultLoc); |
| } |
| |
| Expr *OpenMPIterationSpaceChecker::BuildPrivateCounterVar() const { |
| if (Var && !Var->isInvalidDecl()) { |
| auto Type = Var->getType().getNonReferenceType(); |
| auto *PrivateVar = |
| buildVarDecl(SemaRef, DefaultLoc, Type, Var->getName(), |
| Var->hasAttrs() ? &Var->getAttrs() : nullptr); |
| if (PrivateVar->isInvalidDecl()) |
| return nullptr; |
| return buildDeclRefExpr(SemaRef, PrivateVar, Type, DefaultLoc); |
| } |
| return nullptr; |
| } |
| |
| /// \brief Build initization of the counter be used for codegen. |
| Expr *OpenMPIterationSpaceChecker::BuildCounterInit() const { return LB; } |
| |
| /// \brief Build step of the counter be used for codegen. |
| Expr *OpenMPIterationSpaceChecker::BuildCounterStep() const { return Step; } |
| |
| /// \brief Iteration space of a single for loop. |
| struct LoopIterationSpace { |
| /// \brief Condition of the loop. |
| Expr *PreCond; |
| /// \brief This expression calculates the number of iterations in the loop. |
| /// It is always possible to calculate it before starting the loop. |
| Expr *NumIterations; |
| /// \brief The loop counter variable. |
| Expr *CounterVar; |
| /// \brief Private loop counter variable. |
| Expr *PrivateCounterVar; |
| /// \brief This is initializer for the initial value of #CounterVar. |
| Expr *CounterInit; |
| /// \brief This is step for the #CounterVar used to generate its update: |
| /// #CounterVar = #CounterInit + #CounterStep * CurrentIteration. |
| Expr *CounterStep; |
| /// \brief Should step be subtracted? |
| bool Subtract; |
| /// \brief Source range of the loop init. |
| SourceRange InitSrcRange; |
| /// \brief Source range of the loop condition. |
| SourceRange CondSrcRange; |
| /// \brief Source range of the loop increment. |
| SourceRange IncSrcRange; |
| }; |
| |
| } // namespace |
| |
| void Sema::ActOnOpenMPLoopInitialization(SourceLocation ForLoc, Stmt *Init) { |
| assert(getLangOpts().OpenMP && "OpenMP is not active."); |
| assert(Init && "Expected loop in canonical form."); |
| unsigned AssociatedLoops = DSAStack->getAssociatedLoops(); |
| if (AssociatedLoops > 0 && |
| isOpenMPLoopDirective(DSAStack->getCurrentDirective())) { |
| OpenMPIterationSpaceChecker ISC(*this, ForLoc); |
| if (!ISC.CheckInit(Init, /*EmitDiags=*/false)) |
| DSAStack->addLoopControlVariable(ISC.GetLoopVar()); |
| DSAStack->setAssociatedLoops(AssociatedLoops - 1); |
| } |
| } |
| |
| /// \brief Called on a for stmt to check and extract its iteration space |
| /// for further processing (such as collapsing). |
| static bool CheckOpenMPIterationSpace( |
| OpenMPDirectiveKind DKind, Stmt *S, Sema &SemaRef, DSAStackTy &DSA, |
| unsigned CurrentNestedLoopCount, unsigned NestedLoopCount, |
| Expr *CollapseLoopCountExpr, Expr *OrderedLoopCountExpr, |
| llvm::DenseMap<VarDecl *, Expr *> &VarsWithImplicitDSA, |
| LoopIterationSpace &ResultIterSpace) { |
| // OpenMP [2.6, Canonical Loop Form] |
| // for (init-expr; test-expr; incr-expr) structured-block |
| auto For = dyn_cast_or_null<ForStmt>(S); |
| if (!For) { |
| SemaRef.Diag(S->getLocStart(), diag::err_omp_not_for) |
| << (CollapseLoopCountExpr != nullptr || OrderedLoopCountExpr != nullptr) |
| << getOpenMPDirectiveName(DKind) << NestedLoopCount |
| << (CurrentNestedLoopCount > 0) << CurrentNestedLoopCount; |
| if (NestedLoopCount > 1) { |
| if (CollapseLoopCountExpr && OrderedLoopCountExpr) |
| SemaRef.Diag(DSA.getConstructLoc(), |
| diag::note_omp_collapse_ordered_expr) |
| << 2 << CollapseLoopCountExpr->getSourceRange() |
| << OrderedLoopCountExpr->getSourceRange(); |
| else if (CollapseLoopCountExpr) |
| SemaRef.Diag(CollapseLoopCountExpr->getExprLoc(), |
| diag::note_omp_collapse_ordered_expr) |
| << 0 << CollapseLoopCountExpr->getSourceRange(); |
| else |
| SemaRef.Diag(OrderedLoopCountExpr->getExprLoc(), |
| diag::note_omp_collapse_ordered_expr) |
| << 1 << OrderedLoopCountExpr->getSourceRange(); |
| } |
| return true; |
| } |
| assert(For->getBody()); |
| |
| OpenMPIterationSpaceChecker ISC(SemaRef, For->getForLoc()); |
| |
| // Check init. |
| auto Init = For->getInit(); |
| if (ISC.CheckInit(Init)) { |
| return true; |
| } |
| |
| bool HasErrors = false; |
| |
| // Check loop variable's type. |
| auto Var = ISC.GetLoopVar(); |
| |
| // OpenMP [2.6, Canonical Loop Form] |
| // Var is one of the following: |
| // A variable of signed or unsigned integer type. |
| // For C++, a variable of a random access iterator type. |
| // For C, a variable of a pointer type. |
| auto VarType = Var->getType().getNonReferenceType(); |
| if (!VarType->isDependentType() && !VarType->isIntegerType() && |
| !VarType->isPointerType() && |
| !(SemaRef.getLangOpts().CPlusPlus && VarType->isOverloadableType())) { |
| SemaRef.Diag(Init->getLocStart(), diag::err_omp_loop_variable_type) |
| << SemaRef.getLangOpts().CPlusPlus; |
| HasErrors = true; |
| } |
| |
| // OpenMP, 2.14.1.1 Data-sharing Attribute Rules for Variables Referenced in a |
| // Construct |
| // The loop iteration variable(s) in the associated for-loop(s) of a for or |
| // parallel for construct is (are) private. |
| // The loop iteration variable in the associated for-loop of a simd construct |
| // with just one associated for-loop is linear with a constant-linear-step |
| // that is the increment of the associated for-loop. |
| // Exclude loop var from the list of variables with implicitly defined data |
| // sharing attributes. |
| VarsWithImplicitDSA.erase(Var); |
| |
| // OpenMP [2.14.1.1, Data-sharing Attribute Rules for Variables Referenced in |
| // a Construct, C/C++]. |
| // The loop iteration variable in the associated for-loop of a simd construct |
| // with just one associated for-loop may be listed in a linear clause with a |
| // constant-linear-step that is the increment of the associated for-loop. |
| // The loop iteration variable(s) in the associated for-loop(s) of a for or |
| // parallel for construct may be listed in a private or lastprivate clause. |
| DSAStackTy::DSAVarData DVar = DSA.getTopDSA(Var, false); |
| auto LoopVarRefExpr = ISC.GetLoopVarRefExpr(); |
| // If LoopVarRefExpr is nullptr it means the corresponding loop variable is |
| // declared in the loop and it is predetermined as a private. |
| auto PredeterminedCKind = |
| isOpenMPSimdDirective(DKind) |
| ? ((NestedLoopCount == 1) ? OMPC_linear : OMPC_lastprivate) |
| : OMPC_private; |
| if (((isOpenMPSimdDirective(DKind) && DVar.CKind != OMPC_unknown && |
| DVar.CKind != PredeterminedCKind) || |
| ((isOpenMPWorksharingDirective(DKind) || DKind == OMPD_taskloop || |
| isOpenMPDistributeDirective(DKind)) && |
| !isOpenMPSimdDirective(DKind) && DVar.CKind != OMPC_unknown && |
| DVar.CKind != OMPC_private && DVar.CKind != OMPC_lastprivate)) && |
| (DVar.CKind != OMPC_private || DVar.RefExpr != nullptr)) { |
| SemaRef.Diag(Init->getLocStart(), diag::err_omp_loop_var_dsa) |
| << getOpenMPClauseName(DVar.CKind) << getOpenMPDirectiveName(DKind) |
| << getOpenMPClauseName(PredeterminedCKind); |
| if (DVar.RefExpr == nullptr) |
| DVar.CKind = PredeterminedCKind; |
| ReportOriginalDSA(SemaRef, &DSA, Var, DVar, /*IsLoopIterVar=*/true); |
| HasErrors = true; |
| } else if (LoopVarRefExpr != nullptr) { |
| // Make the loop iteration variable private (for worksharing constructs), |
| // linear (for simd directives with the only one associated loop) or |
| // lastprivate (for simd directives with several collapsed or ordered |
| // loops). |
| if (DVar.CKind == OMPC_unknown) |
| DVar = DSA.hasDSA(Var, isOpenMPPrivate, MatchesAlways(), |
| /*FromParent=*/false); |
| DSA.addDSA(Var, LoopVarRefExpr, PredeterminedCKind); |
| } |
| |
| assert(isOpenMPLoopDirective(DKind) && "DSA for non-loop vars"); |
| |
| // Check test-expr. |
| HasErrors |= ISC.CheckCond(For->getCond()); |
| |
| // Check incr-expr. |
| HasErrors |= ISC.CheckInc(For->getInc()); |
| |
| if (ISC.Dependent() || SemaRef.CurContext->isDependentContext() || HasErrors) |
| return HasErrors; |
| |
| // Build the loop's iteration space representation. |
| ResultIterSpace.PreCond = ISC.BuildPreCond(DSA.getCurScope(), For->getCond()); |
| ResultIterSpace.NumIterations = ISC.BuildNumIterations( |
| DSA.getCurScope(), (isOpenMPWorksharingDirective(DKind) || |
| isOpenMPTaskLoopDirective(DKind) || |
| isOpenMPDistributeDirective(DKind))); |
| ResultIterSpace.CounterVar = ISC.BuildCounterVar(); |
| ResultIterSpace.PrivateCounterVar = ISC.BuildPrivateCounterVar(); |
| ResultIterSpace.CounterInit = ISC.BuildCounterInit(); |
| ResultIterSpace.CounterStep = ISC.BuildCounterStep(); |
| ResultIterSpace.InitSrcRange = ISC.GetInitSrcRange(); |
| ResultIterSpace.CondSrcRange = ISC.GetConditionSrcRange(); |
| ResultIterSpace.IncSrcRange = ISC.GetIncrementSrcRange(); |
| ResultIterSpace.Subtract = ISC.ShouldSubtractStep(); |
| |
| HasErrors |= (ResultIterSpace.PreCond == nullptr || |
| ResultIterSpace.NumIterations == nullptr || |
| ResultIterSpace.CounterVar == nullptr || |
| ResultIterSpace.PrivateCounterVar == nullptr || |
| ResultIterSpace.CounterInit == nullptr || |
| ResultIterSpace.CounterStep == nullptr); |
| |
| return HasErrors; |
| } |
| |
| /// \brief Build 'VarRef = Start. |
| static ExprResult BuildCounterInit(Sema &SemaRef, Scope *S, SourceLocation Loc, |
| ExprResult VarRef, ExprResult Start) { |
| TransformToNewDefs Transform(SemaRef); |
| // Build 'VarRef = Start. |
| auto NewStart = Transform.TransformExpr(Start.get()->IgnoreImplicit()); |
| if (NewStart.isInvalid()) |
| return ExprError(); |
| NewStart = SemaRef.PerformImplicitConversion( |
| NewStart.get(), Start.get()->IgnoreImplicit()->getType(), |
| Sema::AA_Converting, |
| /*AllowExplicit=*/true); |
| if (NewStart.isInvalid()) |
| return ExprError(); |
| NewStart = SemaRef.PerformImplicitConversion( |
| NewStart.get(), VarRef.get()->getType(), Sema::AA_Converting, |
| /*AllowExplicit=*/true); |
| if (!NewStart.isUsable()) |
| return ExprError(); |
| |
| auto Init = |
| SemaRef.BuildBinOp(S, Loc, BO_Assign, VarRef.get(), NewStart.get()); |
| return Init; |
| } |
| |
| /// \brief Build 'VarRef = Start + Iter * Step'. |
| static ExprResult BuildCounterUpdate(Sema &SemaRef, Scope *S, |
| SourceLocation Loc, ExprResult VarRef, |
| ExprResult Start, ExprResult Iter, |
| ExprResult Step, bool Subtract) { |
| // Add parentheses (for debugging purposes only). |
| Iter = SemaRef.ActOnParenExpr(Loc, Loc, Iter.get()); |
| if (!VarRef.isUsable() || !Start.isUsable() || !Iter.isUsable() || |
| !Step.isUsable()) |
| return ExprError(); |
| |
| TransformToNewDefs Transform(SemaRef); |
| auto NewStep = Transform.TransformExpr(Step.get()->IgnoreImplicit()); |
| if (NewStep.isInvalid()) |
| return ExprError(); |
| NewStep = SemaRef.PerformImplicitConversion( |
| NewStep.get(), Step.get()->IgnoreImplicit()->getType(), |
| Sema::AA_Converting, |
| /*AllowExplicit=*/true); |
| if (NewStep.isInvalid()) |
| return ExprError(); |
| ExprResult Update = |
| SemaRef.BuildBinOp(S, Loc, BO_Mul, Iter.get(), NewStep.get()); |
| if (!Update.isUsable()) |
| return ExprError(); |
| |
| // Build 'VarRef = Start + Iter * Step'. |
| auto NewStart = Transform.TransformExpr(Start.get()->IgnoreImplicit()); |
| if (NewStart.isInvalid()) |
| return ExprError(); |
| NewStart = SemaRef.PerformImplicitConversion( |
| NewStart.get(), Start.get()->IgnoreImplicit()->getType(), |
| Sema::AA_Converting, |
| /*AllowExplicit=*/true); |
| if (NewStart.isInvalid()) |
| return ExprError(); |
| Update = SemaRef.BuildBinOp(S, Loc, (Subtract ? BO_Sub : BO_Add), |
| NewStart.get(), Update.get()); |
| if (!Update.isUsable()) |
| return ExprError(); |
| |
| Update = SemaRef.PerformImplicitConversion( |
| Update.get(), VarRef.get()->getType(), Sema::AA_Converting, true); |
| if (!Update.isUsable()) |
| return ExprError(); |
| |
| Update = SemaRef.BuildBinOp(S, Loc, BO_Assign, VarRef.get(), Update.get()); |
| return Update; |
| } |
| |
| /// \brief Convert integer expression \a E to make it have at least \a Bits |
| /// bits. |
| static ExprResult WidenIterationCount(unsigned Bits, Expr *E, |
| Sema &SemaRef) { |
| if (E == nullptr) |
| return ExprError(); |
| auto &C = SemaRef.Context; |
| QualType OldType = E->getType(); |
| unsigned HasBits = C.getTypeSize(OldType); |
| if (HasBits >= Bits) |
| return ExprResult(E); |
| // OK to convert to signed, because new type has more bits than old. |
| QualType NewType = C.getIntTypeForBitwidth(Bits, /* Signed */ true); |
| return SemaRef.PerformImplicitConversion(E, NewType, Sema::AA_Converting, |
| true); |
| } |
| |
| /// \brief Check if the given expression \a E is a constant integer that fits |
| /// into \a Bits bits. |
| static bool FitsInto(unsigned Bits, bool Signed, Expr *E, Sema &SemaRef) { |
| if (E == nullptr) |
| return false; |
| llvm::APSInt Result; |
| if (E->isIntegerConstantExpr(Result, SemaRef.Context)) |
| return Signed ? Result.isSignedIntN(Bits) : Result.isIntN(Bits); |
| return false; |
| } |
| |
| /// \brief Called on a for stmt to check itself and nested loops (if any). |
| /// \return Returns 0 if one of the collapsed stmts is not canonical for loop, |
| /// number of collapsed loops otherwise. |
| static unsigned |
| CheckOpenMPLoop(OpenMPDirectiveKind DKind, Expr *CollapseLoopCountExpr, |
| Expr *OrderedLoopCountExpr, Stmt *AStmt, Sema &SemaRef, |
| DSAStackTy &DSA, |
| llvm::DenseMap<VarDecl *, Expr *> &VarsWithImplicitDSA, |
| OMPLoopDirective::HelperExprs &Built) { |
| unsigned NestedLoopCount = 1; |
| if (CollapseLoopCountExpr) { |
| // Found 'collapse' clause - calculate collapse number. |
| llvm::APSInt Result; |
| if (CollapseLoopCountExpr->EvaluateAsInt(Result, SemaRef.getASTContext())) |
| NestedLoopCount = Result.getLimitedValue(); |
| } |
| if (OrderedLoopCountExpr) { |
| // Found 'ordered' clause - calculate collapse number. |
| llvm::APSInt Result; |
| if (OrderedLoopCountExpr->EvaluateAsInt(Result, SemaRef.getASTContext())) { |
| if (Result.getLimitedValue() < NestedLoopCount) { |
| SemaRef.Diag(OrderedLoopCountExpr->getExprLoc(), |
| diag::err_omp_wrong_ordered_loop_count) |
| << OrderedLoopCountExpr->getSourceRange(); |
| SemaRef.Diag(CollapseLoopCountExpr->getExprLoc(), |
| diag::note_collapse_loop_count) |
| << CollapseLoopCountExpr->getSourceRange(); |
| } |
| NestedLoopCount = Result.getLimitedValue(); |
| } |
| } |
| // This is helper routine for loop directives (e.g., 'for', 'simd', |
| // 'for simd', etc.). |
| SmallVector<LoopIterationSpace, 4> IterSpaces; |
| IterSpaces.resize(NestedLoopCount); |
| Stmt *CurStmt = AStmt->IgnoreContainers(/* IgnoreCaptured */ true); |
| for (unsigned Cnt = 0; Cnt < NestedLoopCount; ++Cnt) { |
| if (CheckOpenMPIterationSpace(DKind, CurStmt, SemaRef, DSA, Cnt, |
| NestedLoopCount, CollapseLoopCountExpr, |
| OrderedLoopCountExpr, VarsWithImplicitDSA, |
| IterSpaces[Cnt])) |
| return 0; |
| // Move on to the next nested for loop, or to the loop body. |
| // OpenMP [2.8.1, simd construct, Restrictions] |
| // All loops associated with the construct must be perfectly nested; that |
| // is, there must be no intervening code nor any OpenMP directive between |
| // any two loops. |
| CurStmt = cast<ForStmt>(CurStmt)->getBody()->IgnoreContainers(); |
| } |
| |
| Built.clear(/* size */ NestedLoopCount); |
| |
| if (SemaRef.CurContext->isDependentContext()) |
| return NestedLoopCount; |
| |
| // An example of what is generated for the following code: |
| // |
| // #pragma omp simd collapse(2) ordered(2) |
| // for (i = 0; i < NI; ++i) |
| // for (k = 0; k < NK; ++k) |
| // for (j = J0; j < NJ; j+=2) { |
| // <loop body> |
| // } |
| // |
| // We generate the code below. |
| // Note: the loop body may be outlined in CodeGen. |
| // Note: some counters may be C++ classes, operator- is used to find number of |
| // iterations and operator+= to calculate counter value. |
| // Note: decltype(NumIterations) must be integer type (in 'omp for', only i32 |
| // or i64 is currently supported). |
| // |
| // #define NumIterations (NI * ((NJ - J0 - 1 + 2) / 2)) |
| // for (int[32|64]_t IV = 0; IV < NumIterations; ++IV ) { |
| // .local.i = IV / ((NJ - J0 - 1 + 2) / 2); |
| // .local.j = J0 + (IV % ((NJ - J0 - 1 + 2) / 2)) * 2; |
| // // similar updates for vars in clauses (e.g. 'linear') |
| // <loop body (using local i and j)> |
| // } |
| // i = NI; // assign final values of counters |
| // j = NJ; |
| // |
| |
| // Last iteration number is (I1 * I2 * ... In) - 1, where I1, I2 ... In are |
| // the iteration counts of the collapsed for loops. |
| // Precondition tests if there is at least one iteration (all conditions are |
| // true). |
| auto PreCond = ExprResult(IterSpaces[0].PreCond); |
| auto N0 = IterSpaces[0].NumIterations; |
| ExprResult LastIteration32 = WidenIterationCount( |
| 32 /* Bits */, SemaRef.PerformImplicitConversion( |
| N0->IgnoreImpCasts(), N0->getType(), |
| Sema::AA_Converting, /*AllowExplicit=*/true) |
| .get(), |
| SemaRef); |
| ExprResult LastIteration64 = WidenIterationCount( |
| 64 /* Bits */, SemaRef.PerformImplicitConversion( |
| N0->IgnoreImpCasts(), N0->getType(), |
| Sema::AA_Converting, /*AllowExplicit=*/true) |
| .get(), |
| SemaRef); |
| |
| if (!LastIteration32.isUsable() || !LastIteration64.isUsable()) |
| return NestedLoopCount; |
| |
| auto &C = SemaRef.Context; |
| bool AllCountsNeedLessThan32Bits = C.getTypeSize(N0->getType()) < 32; |
| |
| Scope *CurScope = DSA.getCurScope(); |
| for (unsigned Cnt = 1; Cnt < NestedLoopCount; ++Cnt) { |
| if (PreCond.isUsable()) { |
| PreCond = SemaRef.BuildBinOp(CurScope, SourceLocation(), BO_LAnd, |
| PreCond.get(), IterSpaces[Cnt].PreCond); |
| } |
| auto N = IterSpaces[Cnt].NumIterations; |
| AllCountsNeedLessThan32Bits &= C.getTypeSize(N->getType()) < 32; |
| if (LastIteration32.isUsable()) |
| LastIteration32 = SemaRef.BuildBinOp( |
| CurScope, SourceLocation(), BO_Mul, LastIteration32.get(), |
| SemaRef.PerformImplicitConversion(N->IgnoreImpCasts(), N->getType(), |
| Sema::AA_Converting, |
| /*AllowExplicit=*/true) |
| .get()); |
| if (LastIteration64.isUsable()) |
| LastIteration64 = SemaRef.BuildBinOp( |
| CurScope, SourceLocation(), BO_Mul, LastIteration64.get(), |
| SemaRef.PerformImplicitConversion(N->IgnoreImpCasts(), N->getType(), |
| Sema::AA_Converting, |
| /*AllowExplicit=*/true) |
| .get()); |
| } |
| |
| // Choose either the 32-bit or 64-bit version. |
| ExprResult LastIteration = LastIteration64; |
| if (LastIteration32.isUsable() && |
| C.getTypeSize(LastIteration32.get()->getType()) == 32 && |
| (AllCountsNeedLessThan32Bits || NestedLoopCount == 1 || |
| FitsInto( |
| 32 /* Bits */, |
| LastIteration32.get()->getType()->hasSignedIntegerRepresentation(), |
| LastIteration64.get(), SemaRef))) |
| LastIteration = LastIteration32; |
| |
| if (!LastIteration.isUsable()) |
| return 0; |
| |
| // Save the number of iterations. |
| ExprResult NumIterations = LastIteration; |
| { |
| LastIteration = SemaRef.BuildBinOp( |
| CurScope, SourceLocation(), BO_Sub, LastIteration.get(), |
| SemaRef.ActOnIntegerConstant(SourceLocation(), 1).get()); |
| if (!LastIteration.isUsable()) |
| return 0; |
| } |
| |
| // Calculate the last iteration number beforehand instead of doing this on |
| // each iteration. Do not do this if the number of iterations may be kfold-ed. |
| llvm::APSInt Result; |
| bool IsConstant = |
| LastIteration.get()->isIntegerConstantExpr(Result, SemaRef.Context); |
| ExprResult CalcLastIteration; |
| if (!IsConstant) { |
| SourceLocation SaveLoc; |
| VarDecl *SaveVar = |
| buildVarDecl(SemaRef, SaveLoc, LastIteration.get()->getType(), |
| ".omp.last.iteration"); |
| ExprResult SaveRef = buildDeclRefExpr( |
| SemaRef, SaveVar, LastIteration.get()->getType(), SaveLoc); |
| CalcLastIteration = SemaRef.BuildBinOp(CurScope, SaveLoc, BO_Assign, |
| SaveRef.get(), LastIteration.get()); |
| LastIteration = SaveRef; |
| |
| // Prepare SaveRef + 1. |
| NumIterations = SemaRef.BuildBinOp( |
| CurScope, SaveLoc, BO_Add, SaveRef.get(), |
| SemaRef.ActOnIntegerConstant(SourceLocation(), 1).get()); |
| if (!NumIterations.isUsable()) |
| return 0; |
| } |
| |
| SourceLocation InitLoc = IterSpaces[0].InitSrcRange.getBegin(); |
| |
| QualType VType = LastIteration.get()->getType(); |
| // Build variables passed into runtime, nesessary for worksharing directives. |
| ExprResult LB, UB, IL, ST, EUB; |
| if (isOpenMPWorksharingDirective(DKind) || isOpenMPTaskLoopDirective(DKind) || |
| isOpenMPDistributeDirective(DKind)) { |
| // Lower bound variable, initialized with zero. |
| VarDecl *LBDecl = buildVarDecl(SemaRef, InitLoc, VType, ".omp.lb"); |
| LB = buildDeclRefExpr(SemaRef, LBDecl, VType, InitLoc); |
| SemaRef.AddInitializerToDecl( |
| LBDecl, SemaRef.ActOnIntegerConstant(InitLoc, 0).get(), |
| /*DirectInit*/ false, /*TypeMayContainAuto*/ false); |
| |
| // Upper bound variable, initialized with last iteration number. |
| VarDecl *UBDecl = buildVarDecl(SemaRef, InitLoc, VType, ".omp.ub"); |
| UB = buildDeclRefExpr(SemaRef, UBDecl, VType, InitLoc); |
| SemaRef.AddInitializerToDecl(UBDecl, LastIteration.get(), |
| /*DirectInit*/ false, |
| /*TypeMayContainAuto*/ false); |
| |
| // A 32-bit variable-flag where runtime returns 1 for the last iteration. |
| // This will be used to implement clause 'lastprivate'. |
| QualType Int32Ty = SemaRef.Context.getIntTypeForBitwidth(32, true); |
| VarDecl *ILDecl = buildVarDecl(SemaRef, InitLoc, Int32Ty, ".omp.is_last"); |
| IL = buildDeclRefExpr(SemaRef, ILDecl, Int32Ty, InitLoc); |
| SemaRef.AddInitializerToDecl( |
| ILDecl, SemaRef.ActOnIntegerConstant(InitLoc, 0).get(), |
| /*DirectInit*/ false, /*TypeMayContainAuto*/ false); |
| |
| // Stride variable returned by runtime (we initialize it to 1 by default). |
| VarDecl *STDecl = buildVarDecl(SemaRef, InitLoc, VType, ".omp.stride"); |
| ST = buildDeclRefExpr(SemaRef, STDecl, VType, InitLoc); |
| SemaRef.AddInitializerToDecl( |
| STDecl, SemaRef.ActOnIntegerConstant(InitLoc, 1).get(), |
| /*DirectInit*/ false, /*TypeMayContainAuto*/ false); |
| |
| // Build expression: UB = min(UB, LastIteration) |
| // It is nesessary for CodeGen of directives with static scheduling. |
| ExprResult IsUBGreater = SemaRef.BuildBinOp(CurScope, InitLoc, BO_GT, |
| UB.get(), LastIteration.get()); |
| ExprResult CondOp = SemaRef.ActOnConditionalOp( |
| InitLoc, InitLoc, IsUBGreater.get(), LastIteration.get(), UB.get()); |
| EUB = SemaRef.BuildBinOp(CurScope, InitLoc, BO_Assign, UB.get(), |
| CondOp.get()); |
| EUB = SemaRef.ActOnFinishFullExpr(EUB.get()); |
| } |
| |
| // Build the iteration variable and its initialization before loop. |
| ExprResult IV; |
| ExprResult Init; |
| { |
| VarDecl *IVDecl = buildVarDecl(SemaRef, InitLoc, VType, ".omp.iv"); |
| IV = buildDeclRefExpr(SemaRef, IVDecl, VType, InitLoc); |
| Expr *RHS = (isOpenMPWorksharingDirective(DKind) || |
| isOpenMPTaskLoopDirective(DKind) || |
| isOpenMPDistributeDirective(DKind)) |
| ? LB.get() |
| : SemaRef.ActOnIntegerConstant(SourceLocation(), 0).get(); |
| Init = SemaRef.BuildBinOp(CurScope, InitLoc, BO_Assign, IV.get(), RHS); |
| Init = SemaRef.ActOnFinishFullExpr(Init.get()); |
| } |
| |
| // Loop condition (IV < NumIterations) or (IV <= UB) for worksharing loops. |
| SourceLocation CondLoc; |
| ExprResult Cond = |
| (isOpenMPWorksharingDirective(DKind) || |
| isOpenMPTaskLoopDirective(DKind) || isOpenMPDistributeDirective(DKind)) |
| ? SemaRef.BuildBinOp(CurScope, CondLoc, BO_LE, IV.get(), UB.get()) |
| : SemaRef.BuildBinOp(CurScope, CondLoc, BO_LT, IV.get(), |
| NumIterations.get()); |
| |
| // Loop increment (IV = IV + 1) |
| SourceLocation IncLoc; |
| ExprResult Inc = |
| SemaRef.BuildBinOp(CurScope, IncLoc, BO_Add, IV.get(), |
| SemaRef.ActOnIntegerConstant(IncLoc, 1).get()); |
| if (!Inc.isUsable()) |
| return 0; |
| Inc = SemaRef.BuildBinOp(CurScope, IncLoc, BO_Assign, IV.get(), Inc.get()); |
| Inc = SemaRef.ActOnFinishFullExpr(Inc.get()); |
| if (!Inc.isUsable()) |
| return 0; |
| |
| // Increments for worksharing loops (LB = LB + ST; UB = UB + ST). |
| // Used for directives with static scheduling. |
| ExprResult NextLB, NextUB; |
| if (isOpenMPWorksharingDirective(DKind) || isOpenMPTaskLoopDirective(DKind) || |
| isOpenMPDistributeDirective(DKind)) { |
| // LB + ST |
| NextLB = SemaRef.BuildBinOp(CurScope, IncLoc, BO_Add, LB.get(), ST.get()); |
| if (!NextLB.isUsable()) |
| return 0; |
| // LB = LB + ST |
| NextLB = |
| SemaRef.BuildBinOp(CurScope, IncLoc, BO_Assign, LB.get(), NextLB.get()); |
| NextLB = SemaRef.ActOnFinishFullExpr(NextLB.get()); |
| if (!NextLB.isUsable()) |
| return 0; |
| // UB + ST |
| NextUB = SemaRef.BuildBinOp(CurScope, IncLoc, BO_Add, UB.get(), ST.get()); |
| if (!NextUB.isUsable()) |
| return 0; |
| // UB = UB + ST |
| NextUB = |
| SemaRef.BuildBinOp(CurScope, IncLoc, BO_Assign, UB.get(), NextUB.get()); |
| NextUB = SemaRef.ActOnFinishFullExpr(NextUB.get()); |
| if (!NextUB.isUsable()) |
| return 0; |
| } |
| |
| // Build updates and final values of the loop counters. |
| bool HasErrors = false; |
| Built.Counters.resize(NestedLoopCount); |
| Built.Inits.resize(NestedLoopCount); |
| Built.Updates.resize(NestedLoopCount); |
| Built.Finals.resize(NestedLoopCount); |
| { |
| ExprResult Div; |
| // Go from inner nested loop to outer. |
| for (int Cnt = NestedLoopCount - 1; Cnt >= 0; --Cnt) { |
| LoopIterationSpace &IS = IterSpaces[Cnt]; |
| SourceLocation UpdLoc = IS.IncSrcRange.getBegin(); |
| // Build: Iter = (IV / Div) % IS.NumIters |
| // where Div is product of previous iterations' IS.NumIters. |
| ExprResult Iter; |
| if (Div.isUsable()) { |
| Iter = |
| SemaRef.BuildBinOp(CurScope, UpdLoc, BO_Div, IV.get(), Div.get()); |
| } else { |
| Iter = IV; |
| assert((Cnt == (int)NestedLoopCount - 1) && |
| "unusable div expected on first iteration only"); |
| } |
| |
| if (Cnt != 0 && Iter.isUsable()) |
| Iter = SemaRef.BuildBinOp(CurScope, UpdLoc, BO_Rem, Iter.get(), |
| IS.NumIterations); |
| if (!Iter.isUsable()) { |
| HasErrors = true; |
| break; |
| } |
| |
| // Build update: IS.CounterVar(Private) = IS.Start + Iter * IS.Step |
| auto *CounterVar = buildDeclRefExpr( |
| SemaRef, cast<VarDecl>(cast<DeclRefExpr>(IS.CounterVar)->getDecl()), |
| IS.CounterVar->getType(), IS.CounterVar->getExprLoc(), |
| /*RefersToCapture=*/true); |
| ExprResult Init = BuildCounterInit(SemaRef, CurScope, UpdLoc, CounterVar, |
| IS.CounterInit); |
| if (!Init.isUsable()) { |
| HasErrors = true; |
| break; |
| } |
| ExprResult Update = |
| BuildCounterUpdate(SemaRef, CurScope, UpdLoc, CounterVar, |
| IS.CounterInit, Iter, IS.CounterStep, IS.Subtract); |
| if (!Update.isUsable()) { |
| HasErrors = true; |
| break; |
| } |
| |
| // Build final: IS.CounterVar = IS.Start + IS.NumIters * IS.Step |
| ExprResult Final = BuildCounterUpdate( |
| SemaRef, CurScope, UpdLoc, CounterVar, IS.CounterInit, |
| IS.NumIterations, IS.CounterStep, IS.Subtract); |
| if (!Final.isUsable()) { |
| HasErrors = true; |
| break; |
| } |
| |
| // Build Div for the next iteration: Div <- Div * IS.NumIters |
| if (Cnt != 0) { |
| if (Div.isUnset()) |
| Div = IS.NumIterations; |
| else |
| Div = SemaRef.BuildBinOp(CurScope, UpdLoc, BO_Mul, Div.get(), |
| IS.NumIterations); |
| |
| // Add parentheses (for debugging purposes only). |
| if (Div.isUsable()) |
| Div = SemaRef.ActOnParenExpr(UpdLoc, UpdLoc, Div.get()); |
| if (!Div.isUsable()) { |
| HasErrors = true; |
| break; |
| } |
| } |
| if (!Update.isUsable() || !Final.isUsable()) { |
| HasErrors = true; |
| break; |
| } |
| // Save results |
| Built.Counters[Cnt] = IS.CounterVar; |
| Built.PrivateCounters[Cnt] = IS.PrivateCounterVar; |
| Built.Inits[Cnt] = Init.get(); |
| Built.Updates[Cnt] = Update.get(); |
| Built.Finals[Cnt] = Final.get(); |
| } |
| } |
| |
| if (HasErrors) |
| return 0; |
| |
| // Save results |
| Built.IterationVarRef = IV.get(); |
| Built.LastIteration = LastIteration.get(); |
| Built.NumIterations = NumIterations.get(); |
| Built.CalcLastIteration = |
| SemaRef.ActOnFinishFullExpr(CalcLastIteration.get()).get(); |
| Built.PreCond = PreCond.get(); |
| Built.Cond = Cond.get(); |
| Built.Init = Init.get(); |
| Built.Inc = Inc.get(); |
| Built.LB = LB.get(); |
| Built.UB = UB.get(); |
| Built.IL = IL.get(); |
| Built.ST = ST.get(); |
| Built.EUB = EUB.get(); |
| Built.NLB = NextLB.get(); |
| Built.NUB = NextUB.get(); |
| |
| return NestedLoopCount; |
| } |
| |
| static Expr *getCollapseNumberExpr(ArrayRef<OMPClause *> Clauses) { |
| auto CollapseClauses = |
| OMPExecutableDirective::getClausesOfKind<OMPCollapseClause>(Clauses); |
| if (CollapseClauses.begin() != CollapseClauses.end()) |
| return (*CollapseClauses.begin())->getNumForLoops(); |
| return nullptr; |
| } |
| |
| static Expr *getOrderedNumberExpr(ArrayRef<OMPClause *> Clauses) { |
| auto OrderedClauses = |
| OMPExecutableDirective::getClausesOfKind<OMPOrderedClause>(Clauses); |
| if (OrderedClauses.begin() != OrderedClauses.end()) |
| return (*OrderedClauses.begin())->getNumForLoops(); |
| return nullptr; |
| } |
| |
| static bool checkSimdlenSafelenValues(Sema &S, const Expr *Simdlen, |
| const Expr *Safelen) { |
| llvm::APSInt SimdlenRes, SafelenRes; |
| if (Simdlen->isValueDependent() || Simdlen->isTypeDependent() || |
| Simdlen->isInstantiationDependent() || |
| Simdlen->containsUnexpandedParameterPack()) |
| return false; |
| if (Safelen->isValueDependent() || Safelen->isTypeDependent() || |
| Safelen->isInstantiationDependent() || |
| Safelen->containsUnexpandedParameterPack()) |
| return false; |
| Simdlen->EvaluateAsInt(SimdlenRes, S.Context); |
| Safelen->EvaluateAsInt(SafelenRes, S.Context); |
| // OpenMP 4.1 [2.8.1, simd Construct, Restrictions] |
| // If both simdlen and safelen clauses are specified, the value of the simdlen |
| // parameter must be less than or equal to the value of the safelen parameter. |
| if (SimdlenRes > SafelenRes) { |
| S.Diag(Simdlen->getExprLoc(), diag::err_omp_wrong_simdlen_safelen_values) |
| << Simdlen->getSourceRange() << Safelen->getSourceRange(); |
| return true; |
| } |
| return false; |
| } |
| |
| StmtResult Sema::ActOnOpenMPSimdDirective( |
| ArrayRef<OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, |
| SourceLocation EndLoc, |
| llvm::DenseMap<VarDecl *, Expr *> &VarsWithImplicitDSA) { |
| if (!AStmt) |
| return StmtError(); |
| |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| OMPLoopDirective::HelperExprs B; |
| // In presence of clause 'collapse' or 'ordered' with number of loops, it will |
| // define the nested loops number. |
| unsigned NestedLoopCount = CheckOpenMPLoop( |
| OMPD_simd, getCollapseNumberExpr(Clauses), getOrderedNumberExpr(Clauses), |
| AStmt, *this, *DSAStack, VarsWithImplicitDSA, B); |
| if (NestedLoopCount == 0) |
| return StmtError(); |
| |
| assert((CurContext->isDependentContext() || B.builtAll()) && |
| "omp simd loop exprs were not built"); |
| |
| if (!CurContext->isDependentContext()) { |
| // Finalize the clauses that need pre-built expressions for CodeGen. |
| for (auto C : Clauses) { |
| if (auto LC = dyn_cast<OMPLinearClause>(C)) |
| if (FinishOpenMPLinearClause(*LC, cast<DeclRefExpr>(B.IterationVarRef), |
| B.NumIterations, *this, CurScope)) |
| return StmtError(); |
| } |
| } |
| |
| // OpenMP 4.1 [2.8.1, simd Construct, Restrictions] |
| // If both simdlen and safelen clauses are specified, the value of the simdlen |
| // parameter must be less than or equal to the value of the safelen parameter. |
| OMPSafelenClause *Safelen = nullptr; |
| OMPSimdlenClause *Simdlen = nullptr; |
| for (auto *Clause : Clauses) { |
| if (Clause->getClauseKind() == OMPC_safelen) |
| Safelen = cast<OMPSafelenClause>(Clause); |
| else if (Clause->getClauseKind() == OMPC_simdlen) |
| Simdlen = cast<OMPSimdlenClause>(Clause); |
| if (Safelen && Simdlen) |
| break; |
| } |
| if (Simdlen && Safelen && |
| checkSimdlenSafelenValues(*this, Simdlen->getSimdlen(), |
| Safelen->getSafelen())) |
| return StmtError(); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| return OMPSimdDirective::Create(Context, StartLoc, EndLoc, NestedLoopCount, |
| Clauses, AStmt, B); |
| } |
| |
| StmtResult Sema::ActOnOpenMPForDirective( |
| ArrayRef<OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, |
| SourceLocation EndLoc, |
| llvm::DenseMap<VarDecl *, Expr *> &VarsWithImplicitDSA) { |
| if (!AStmt) |
| return StmtError(); |
| |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| OMPLoopDirective::HelperExprs B; |
| // In presence of clause 'collapse' or 'ordered' with number of loops, it will |
| // define the nested loops number. |
| unsigned NestedLoopCount = CheckOpenMPLoop( |
| OMPD_for, getCollapseNumberExpr(Clauses), getOrderedNumberExpr(Clauses), |
| AStmt, *this, *DSAStack, VarsWithImplicitDSA, B); |
| if (NestedLoopCount == 0) |
| return StmtError(); |
| |
| assert((CurContext->isDependentContext() || B.builtAll()) && |
| "omp for loop exprs were not built"); |
| |
| if (!CurContext->isDependentContext()) { |
| // Finalize the clauses that need pre-built expressions for CodeGen. |
| for (auto C : Clauses) { |
| if (auto LC = dyn_cast<OMPLinearClause>(C)) |
| if (FinishOpenMPLinearClause(*LC, cast<DeclRefExpr>(B.IterationVarRef), |
| B.NumIterations, *this, CurScope)) |
| return StmtError(); |
| } |
| } |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| return OMPForDirective::Create(Context, StartLoc, EndLoc, NestedLoopCount, |
| Clauses, AStmt, B, DSAStack->isCancelRegion()); |
| } |
| |
| StmtResult Sema::ActOnOpenMPForSimdDirective( |
| ArrayRef<OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, |
| SourceLocation EndLoc, |
| llvm::DenseMap<VarDecl *, Expr *> &VarsWithImplicitDSA) { |
| if (!AStmt) |
| return StmtError(); |
| |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| OMPLoopDirective::HelperExprs B; |
| // In presence of clause 'collapse' or 'ordered' with number of loops, it will |
| // define the nested loops number. |
| unsigned NestedLoopCount = |
| CheckOpenMPLoop(OMPD_for_simd, getCollapseNumberExpr(Clauses), |
| getOrderedNumberExpr(Clauses), AStmt, *this, *DSAStack, |
| VarsWithImplicitDSA, B); |
| if (NestedLoopCount == 0) |
| return StmtError(); |
| |
| assert((CurContext->isDependentContext() || B.builtAll()) && |
| "omp for simd loop exprs were not built"); |
| |
| if (!CurContext->isDependentContext()) { |
| // Finalize the clauses that need pre-built expressions for CodeGen. |
| for (auto C : Clauses) { |
| if (auto LC = dyn_cast<OMPLinearClause>(C)) |
| if (FinishOpenMPLinearClause(*LC, cast<DeclRefExpr>(B.IterationVarRef), |
| B.NumIterations, *this, CurScope)) |
| return StmtError(); |
| } |
| } |
| |
| // OpenMP 4.1 [2.8.1, simd Construct, Restrictions] |
| // If both simdlen and safelen clauses are specified, the value of the simdlen |
| // parameter must be less than or equal to the value of the safelen parameter. |
| OMPSafelenClause *Safelen = nullptr; |
| OMPSimdlenClause *Simdlen = nullptr; |
| for (auto *Clause : Clauses) { |
| if (Clause->getClauseKind() == OMPC_safelen) |
| Safelen = cast<OMPSafelenClause>(Clause); |
| else if (Clause->getClauseKind() == OMPC_simdlen) |
| Simdlen = cast<OMPSimdlenClause>(Clause); |
| if (Safelen && Simdlen) |
| break; |
| } |
| if (Simdlen && Safelen && |
| checkSimdlenSafelenValues(*this, Simdlen->getSimdlen(), |
| Safelen->getSafelen())) |
| return StmtError(); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| return OMPForSimdDirective::Create(Context, StartLoc, EndLoc, NestedLoopCount, |
| Clauses, AStmt, B); |
| } |
| |
| StmtResult Sema::ActOnOpenMPSectionsDirective(ArrayRef<OMPClause *> Clauses, |
| Stmt *AStmt, |
| SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| if (!AStmt) |
| return StmtError(); |
| |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| auto BaseStmt = AStmt; |
| while (CapturedStmt *CS = dyn_cast_or_null<CapturedStmt>(BaseStmt)) |
| BaseStmt = CS->getCapturedStmt(); |
| if (auto C = dyn_cast_or_null<CompoundStmt>(BaseStmt)) { |
| auto S = C->children(); |
| if (S.begin() == S.end()) |
| return StmtError(); |
| // All associated statements must be '#pragma omp section' except for |
| // the first one. |
| for (Stmt *SectionStmt : llvm::make_range(std::next(S.begin()), S.end())) { |
| if (!SectionStmt || !isa<OMPSectionDirective>(SectionStmt)) { |
| if (SectionStmt) |
| Diag(SectionStmt->getLocStart(), |
| diag::err_omp_sections_substmt_not_section); |
| return StmtError(); |
| } |
| cast<OMPSectionDirective>(SectionStmt) |
| ->setHasCancel(DSAStack->isCancelRegion()); |
| } |
| } else { |
| Diag(AStmt->getLocStart(), diag::err_omp_sections_not_compound_stmt); |
| return StmtError(); |
| } |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| |
| return OMPSectionsDirective::Create(Context, StartLoc, EndLoc, Clauses, AStmt, |
| DSAStack->isCancelRegion()); |
| } |
| |
| StmtResult Sema::ActOnOpenMPSectionDirective(Stmt *AStmt, |
| SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| if (!AStmt) |
| return StmtError(); |
| |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| DSAStack->setParentCancelRegion(DSAStack->isCancelRegion()); |
| |
| return OMPSectionDirective::Create(Context, StartLoc, EndLoc, AStmt, |
| DSAStack->isCancelRegion()); |
| } |
| |
| StmtResult Sema::ActOnOpenMPSingleDirective(ArrayRef<OMPClause *> Clauses, |
| Stmt *AStmt, |
| SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| if (!AStmt) |
| return StmtError(); |
| |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| |
| // OpenMP [2.7.3, single Construct, Restrictions] |
| // The copyprivate clause must not be used with the nowait clause. |
| OMPClause *Nowait = nullptr; |
| OMPClause *Copyprivate = nullptr; |
| for (auto *Clause : Clauses) { |
| if (Clause->getClauseKind() == OMPC_nowait) |
| Nowait = Clause; |
| else if (Clause->getClauseKind() == OMPC_copyprivate) |
| Copyprivate = Clause; |
| if (Copyprivate && Nowait) { |
| Diag(Copyprivate->getLocStart(), |
| diag::err_omp_single_copyprivate_with_nowait); |
| Diag(Nowait->getLocStart(), diag::note_omp_nowait_clause_here); |
| return StmtError(); |
| } |
| } |
| |
| return OMPSingleDirective::Create(Context, StartLoc, EndLoc, Clauses, AStmt); |
| } |
| |
| StmtResult Sema::ActOnOpenMPMasterDirective(Stmt *AStmt, |
| SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| if (!AStmt) |
| return StmtError(); |
| |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| |
| return OMPMasterDirective::Create(Context, StartLoc, EndLoc, AStmt); |
| } |
| |
| StmtResult Sema::ActOnOpenMPCriticalDirective( |
| const DeclarationNameInfo &DirName, ArrayRef<OMPClause *> Clauses, |
| Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc) { |
| if (!AStmt) |
| return StmtError(); |
| |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| |
| bool ErrorFound = false; |
| llvm::APSInt Hint; |
| SourceLocation HintLoc; |
| bool DependentHint = false; |
| for (auto *C : Clauses) { |
| if (C->getClauseKind() == OMPC_hint) { |
| if (!DirName.getName()) { |
| Diag(C->getLocStart(), diag::err_omp_hint_clause_no_name); |
| ErrorFound = true; |
| } |
| Expr *E = cast<OMPHintClause>(C)->getHint(); |
| if (E->isTypeDependent() || E->isValueDependent() || |
| E->isInstantiationDependent()) |
| DependentHint = true; |
| else { |
| Hint = E->EvaluateKnownConstInt(Context); |
| HintLoc = C->getLocStart(); |
| } |
| } |
| } |
| if (ErrorFound) |
| return StmtError(); |
| auto Pair = DSAStack->getCriticalWithHint(DirName); |
| if (Pair.first && DirName.getName() && !DependentHint) { |
| if (llvm::APSInt::compareValues(Hint, Pair.second) != 0) { |
| Diag(StartLoc, diag::err_omp_critical_with_hint); |
| if (HintLoc.isValid()) { |
| Diag(HintLoc, diag::note_omp_critical_hint_here) |
| << 0 << Hint.toString(/*Radix=*/10, /*Signed=*/false); |
| } else |
| Diag(StartLoc, diag::note_omp_critical_no_hint) << 0; |
| if (auto *C = Pair.first->getSingleClause<OMPHintClause>()) { |
| Diag(C->getLocStart(), diag::note_omp_critical_hint_here) |
| << 1 |
| << C->getHint()->EvaluateKnownConstInt(Context).toString( |
| /*Radix=*/10, /*Signed=*/false); |
| } else |
| Diag(Pair.first->getLocStart(), diag::note_omp_critical_no_hint) << 1; |
| } |
| } |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| |
| auto *Dir = OMPCriticalDirective::Create(Context, DirName, StartLoc, EndLoc, |
| Clauses, AStmt); |
| if (!Pair.first && DirName.getName() && !DependentHint) |
| DSAStack->addCriticalWithHint(Dir, Hint); |
| return Dir; |
| } |
| |
| StmtResult Sema::ActOnOpenMPParallelForDirective( |
| ArrayRef<OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, |
| SourceLocation EndLoc, |
| llvm::DenseMap<VarDecl *, Expr *> &VarsWithImplicitDSA) { |
| if (!AStmt) |
| return StmtError(); |
| |
| CapturedStmt *CS = cast<CapturedStmt>(AStmt); |
| // 1.2.2 OpenMP Language Terminology |
| // Structured block - An executable statement with a single entry at the |
| // top and a single exit at the bottom. |
| // The point of exit cannot be a branch out of the structured block. |
| // longjmp() and throw() must not violate the entry/exit criteria. |
| CS->getCapturedDecl()->setNothrow(); |
| |
| OMPLoopDirective::HelperExprs B; |
| // In presence of clause 'collapse' or 'ordered' with number of loops, it will |
| // define the nested loops number. |
| unsigned NestedLoopCount = |
| CheckOpenMPLoop(OMPD_parallel_for, getCollapseNumberExpr(Clauses), |
| getOrderedNumberExpr(Clauses), AStmt, *this, *DSAStack, |
| VarsWithImplicitDSA, B); |
| if (NestedLoopCount == 0) |
| return StmtError(); |
| |
| assert((CurContext->isDependentContext() || B.builtAll()) && |
| "omp parallel for loop exprs were not built"); |
| |
| if (!CurContext->isDependentContext()) { |
| // Finalize the clauses that need pre-built expressions for CodeGen. |
| for (auto C : Clauses) { |
| if (auto LC = dyn_cast<OMPLinearClause>(C)) |
| if (FinishOpenMPLinearClause(*LC, cast<DeclRefExpr>(B.IterationVarRef), |
| B.NumIterations, *this, CurScope)) |
| return StmtError(); |
| } |
| } |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| return OMPParallelForDirective::Create(Context, StartLoc, EndLoc, |
| NestedLoopCount, Clauses, AStmt, B, |
| DSAStack->isCancelRegion()); |
| } |
| |
| StmtResult Sema::ActOnOpenMPParallelForSimdDirective( |
| ArrayRef<OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, |
| SourceLocation EndLoc, |
| llvm::DenseMap<VarDecl *, Expr *> &VarsWithImplicitDSA) { |
| if (!AStmt) |
| return StmtError(); |
| |
| CapturedStmt *CS = cast<CapturedStmt>(AStmt); |
| // 1.2.2 OpenMP Language Terminology |
| // Structured block - An executable statement with a single entry at the |
| // top and a single exit at the bottom. |
| // The point of exit cannot be a branch out of the structured block. |
| // longjmp() and throw() must not violate the entry/exit criteria. |
| CS->getCapturedDecl()->setNothrow(); |
| |
| OMPLoopDirective::HelperExprs B; |
| // In presence of clause 'collapse' or 'ordered' with number of loops, it will |
| // define the nested loops number. |
| unsigned NestedLoopCount = |
| CheckOpenMPLoop(OMPD_parallel_for_simd, getCollapseNumberExpr(Clauses), |
| getOrderedNumberExpr(Clauses), AStmt, *this, *DSAStack, |
| VarsWithImplicitDSA, B); |
| if (NestedLoopCount == 0) |
| return StmtError(); |
| |
| if (!CurContext->isDependentContext()) { |
| // Finalize the clauses that need pre-built expressions for CodeGen. |
| for (auto C : Clauses) { |
| if (auto LC = dyn_cast<OMPLinearClause>(C)) |
| if (FinishOpenMPLinearClause(*LC, cast<DeclRefExpr>(B.IterationVarRef), |
| B.NumIterations, *this, CurScope)) |
| return StmtError(); |
| } |
| } |
| |
| // OpenMP 4.1 [2.8.1, simd Construct, Restrictions] |
| // If both simdlen and safelen clauses are specified, the value of the simdlen |
| // parameter must be less than or equal to the value of the safelen parameter. |
| OMPSafelenClause *Safelen = nullptr; |
| OMPSimdlenClause *Simdlen = nullptr; |
| for (auto *Clause : Clauses) { |
| if (Clause->getClauseKind() == OMPC_safelen) |
| Safelen = cast<OMPSafelenClause>(Clause); |
| else if (Clause->getClauseKind() == OMPC_simdlen) |
| Simdlen = cast<OMPSimdlenClause>(Clause); |
| if (Safelen && Simdlen) |
| break; |
| } |
| if (Simdlen && Safelen && |
| checkSimdlenSafelenValues(*this, Simdlen->getSimdlen(), |
| Safelen->getSafelen())) |
| return StmtError(); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| return OMPParallelForSimdDirective::Create( |
| Context, StartLoc, EndLoc, NestedLoopCount, Clauses, AStmt, B); |
| } |
| |
| StmtResult |
| Sema::ActOnOpenMPParallelSectionsDirective(ArrayRef<OMPClause *> Clauses, |
| Stmt *AStmt, SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| if (!AStmt) |
| return StmtError(); |
| |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| auto BaseStmt = AStmt; |
| while (CapturedStmt *CS = dyn_cast_or_null<CapturedStmt>(BaseStmt)) |
| BaseStmt = CS->getCapturedStmt(); |
| if (auto C = dyn_cast_or_null<CompoundStmt>(BaseStmt)) { |
| auto S = C->children(); |
| if (S.begin() == S.end()) |
| return StmtError(); |
| // All associated statements must be '#pragma omp section' except for |
| // the first one. |
| for (Stmt *SectionStmt : llvm::make_range(std::next(S.begin()), S.end())) { |
| if (!SectionStmt || !isa<OMPSectionDirective>(SectionStmt)) { |
| if (SectionStmt) |
| Diag(SectionStmt->getLocStart(), |
| diag::err_omp_parallel_sections_substmt_not_section); |
| return StmtError(); |
| } |
| cast<OMPSectionDirective>(SectionStmt) |
| ->setHasCancel(DSAStack->isCancelRegion()); |
| } |
| } else { |
| Diag(AStmt->getLocStart(), |
| diag::err_omp_parallel_sections_not_compound_stmt); |
| return StmtError(); |
| } |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| |
| return OMPParallelSectionsDirective::Create( |
| Context, StartLoc, EndLoc, Clauses, AStmt, DSAStack->isCancelRegion()); |
| } |
| |
| StmtResult Sema::ActOnOpenMPTaskDirective(ArrayRef<OMPClause *> Clauses, |
| Stmt *AStmt, SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| if (!AStmt) |
| return StmtError(); |
| |
| CapturedStmt *CS = cast<CapturedStmt>(AStmt); |
| // 1.2.2 OpenMP Language Terminology |
| // Structured block - An executable statement with a single entry at the |
| // top and a single exit at the bottom. |
| // The point of exit cannot be a branch out of the structured block. |
| // longjmp() and throw() must not violate the entry/exit criteria. |
| CS->getCapturedDecl()->setNothrow(); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| |
| return OMPTaskDirective::Create(Context, StartLoc, EndLoc, Clauses, AStmt, |
| DSAStack->isCancelRegion()); |
| } |
| |
| StmtResult Sema::ActOnOpenMPTaskyieldDirective(SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| return OMPTaskyieldDirective::Create(Context, StartLoc, EndLoc); |
| } |
| |
| StmtResult Sema::ActOnOpenMPBarrierDirective(SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| return OMPBarrierDirective::Create(Context, StartLoc, EndLoc); |
| } |
| |
| StmtResult Sema::ActOnOpenMPTaskwaitDirective(SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| return OMPTaskwaitDirective::Create(Context, StartLoc, EndLoc); |
| } |
| |
| StmtResult Sema::ActOnOpenMPTaskgroupDirective(Stmt *AStmt, |
| SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| if (!AStmt) |
| return StmtError(); |
| |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| |
| return OMPTaskgroupDirective::Create(Context, StartLoc, EndLoc, AStmt); |
| } |
| |
| StmtResult Sema::ActOnOpenMPFlushDirective(ArrayRef<OMPClause *> Clauses, |
| SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| assert(Clauses.size() <= 1 && "Extra clauses in flush directive"); |
| return OMPFlushDirective::Create(Context, StartLoc, EndLoc, Clauses); |
| } |
| |
| StmtResult Sema::ActOnOpenMPOrderedDirective(ArrayRef<OMPClause *> Clauses, |
| Stmt *AStmt, |
| SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| OMPClause *DependFound = nullptr; |
| OMPClause *DependSourceClause = nullptr; |
| OMPClause *DependSinkClause = nullptr; |
| bool ErrorFound = false; |
| OMPThreadsClause *TC = nullptr; |
| OMPSIMDClause *SC = nullptr; |
| for (auto *C : Clauses) { |
| if (auto *DC = dyn_cast<OMPDependClause>(C)) { |
| DependFound = C; |
| if (DC->getDependencyKind() == OMPC_DEPEND_source) { |
| if (DependSourceClause) { |
| Diag(C->getLocStart(), diag::err_omp_more_one_clause) |
| << getOpenMPDirectiveName(OMPD_ordered) |
| << getOpenMPClauseName(OMPC_depend) << 2; |
| ErrorFound = true; |
| } else |
| DependSourceClause = C; |
| if (DependSinkClause) { |
| Diag(C->getLocStart(), diag::err_omp_depend_sink_source_not_allowed) |
| << 0; |
| ErrorFound = true; |
| } |
| } else if (DC->getDependencyKind() == OMPC_DEPEND_sink) { |
| if (DependSourceClause) { |
| Diag(C->getLocStart(), diag::err_omp_depend_sink_source_not_allowed) |
| << 1; |
| ErrorFound = true; |
| } |
| DependSinkClause = C; |
| } |
| } else if (C->getClauseKind() == OMPC_threads) |
| TC = cast<OMPThreadsClause>(C); |
| else if (C->getClauseKind() == OMPC_simd) |
| SC = cast<OMPSIMDClause>(C); |
| } |
| if (!ErrorFound && !SC && |
| isOpenMPSimdDirective(DSAStack->getParentDirective())) { |
| // OpenMP [2.8.1,simd Construct, Restrictions] |
| // An ordered construct with the simd clause is the only OpenMP construct |
| // that can appear in the simd region. |
| Diag(StartLoc, diag::err_omp_prohibited_region_simd); |
| ErrorFound = true; |
| } else if (DependFound && (TC || SC)) { |
| Diag(DependFound->getLocStart(), diag::err_omp_depend_clause_thread_simd) |
| << getOpenMPClauseName(TC ? TC->getClauseKind() : SC->getClauseKind()); |
| ErrorFound = true; |
| } else if (DependFound && !DSAStack->getParentOrderedRegionParam()) { |
| Diag(DependFound->getLocStart(), |
| diag::err_omp_ordered_directive_without_param); |
| ErrorFound = true; |
| } else if (TC || Clauses.empty()) { |
| if (auto *Param = DSAStack->getParentOrderedRegionParam()) { |
| SourceLocation ErrLoc = TC ? TC->getLocStart() : StartLoc; |
| Diag(ErrLoc, diag::err_omp_ordered_directive_with_param) |
| << (TC != nullptr); |
| Diag(Param->getLocStart(), diag::note_omp_ordered_param); |
| ErrorFound = true; |
| } |
| } |
| if ((!AStmt && !DependFound) || ErrorFound) |
| return StmtError(); |
| |
| if (AStmt) { |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| } |
| |
| return OMPOrderedDirective::Create(Context, StartLoc, EndLoc, Clauses, AStmt); |
| } |
| |
| namespace { |
| /// \brief Helper class for checking expression in 'omp atomic [update]' |
| /// construct. |
| class OpenMPAtomicUpdateChecker { |
| /// \brief Error results for atomic update expressions. |
| enum ExprAnalysisErrorCode { |
| /// \brief A statement is not an expression statement. |
| NotAnExpression, |
| /// \brief Expression is not builtin binary or unary operation. |
| NotABinaryOrUnaryExpression, |
| /// \brief Unary operation is not post-/pre- increment/decrement operation. |
| NotAnUnaryIncDecExpression, |
| /// \brief An expression is not of scalar type. |
| NotAScalarType, |
| /// \brief A binary operation is not an assignment operation. |
| NotAnAssignmentOp, |
| /// \brief RHS part of the binary operation is not a binary expression. |
| NotABinaryExpression, |
| /// \brief RHS part is not additive/multiplicative/shift/biwise binary |
| /// expression. |
| NotABinaryOperator, |
| /// \brief RHS binary operation does not have reference to the updated LHS |
| /// part. |
| NotAnUpdateExpression, |
| /// \brief No errors is found. |
| NoError |
| }; |
| /// \brief Reference to Sema. |
| Sema &SemaRef; |
| /// \brief A location for note diagnostics (when error is found). |
| SourceLocation NoteLoc; |
| /// \brief 'x' lvalue part of the source atomic expression. |
| Expr *X; |
| /// \brief 'expr' rvalue part of the source atomic expression. |
| Expr *E; |
| /// \brief Helper expression of the form |
| /// 'OpaqueValueExpr(x) binop OpaqueValueExpr(expr)' or |
| /// 'OpaqueValueExpr(expr) binop OpaqueValueExpr(x)'. |
| Expr *UpdateExpr; |
| /// \brief Is 'x' a LHS in a RHS part of full update expression. It is |
| /// important for non-associative operations. |
| bool IsXLHSInRHSPart; |
| BinaryOperatorKind Op; |
| SourceLocation OpLoc; |
| /// \brief true if the source expression is a postfix unary operation, false |
| /// if it is a prefix unary operation. |
| bool IsPostfixUpdate; |
| |
| public: |
| OpenMPAtomicUpdateChecker(Sema &SemaRef) |
| : SemaRef(SemaRef), X(nullptr), E(nullptr), UpdateExpr(nullptr), |
| IsXLHSInRHSPart(false), Op(BO_PtrMemD), IsPostfixUpdate(false) {} |
| /// \brief Check specified statement that it is suitable for 'atomic update' |
| /// constructs and extract 'x', 'expr' and Operation from the original |
| /// expression. If DiagId and NoteId == 0, then only check is performed |
| /// without error notification. |
| /// \param DiagId Diagnostic which should be emitted if error is found. |
| /// \param NoteId Diagnostic note for the main error message. |
| /// \return true if statement is not an update expression, false otherwise. |
| bool checkStatement(Stmt *S, unsigned DiagId = 0, unsigned NoteId = 0); |
| /// \brief Return the 'x' lvalue part of the source atomic expression. |
| Expr *getX() const { return X; } |
| /// \brief Return the 'expr' rvalue part of the source atomic expression. |
| Expr *getExpr() const { return E; } |
| /// \brief Return the update expression used in calculation of the updated |
| /// value. Always has form 'OpaqueValueExpr(x) binop OpaqueValueExpr(expr)' or |
| /// 'OpaqueValueExpr(expr) binop OpaqueValueExpr(x)'. |
| Expr *getUpdateExpr() const { return UpdateExpr; } |
| /// \brief Return true if 'x' is LHS in RHS part of full update expression, |
| /// false otherwise. |
| bool isXLHSInRHSPart() const { return IsXLHSInRHSPart; } |
| |
| /// \brief true if the source expression is a postfix unary operation, false |
| /// if it is a prefix unary operation. |
| bool isPostfixUpdate() const { return IsPostfixUpdate; } |
| |
| private: |
| bool checkBinaryOperation(BinaryOperator *AtomicBinOp, unsigned DiagId = 0, |
| unsigned NoteId = 0); |
| }; |
| } // namespace |
| |
| bool OpenMPAtomicUpdateChecker::checkBinaryOperation( |
| BinaryOperator *AtomicBinOp, unsigned DiagId, unsigned NoteId) { |
| ExprAnalysisErrorCode ErrorFound = NoError; |
| SourceLocation ErrorLoc, NoteLoc; |
| SourceRange ErrorRange, NoteRange; |
| // Allowed constructs are: |
| // x = x binop expr; |
| // x = expr binop x; |
| if (AtomicBinOp->getOpcode() == BO_Assign) { |
| X = AtomicBinOp->getLHS(); |
| if (auto *AtomicInnerBinOp = dyn_cast<BinaryOperator>( |
| AtomicBinOp->getRHS()->IgnoreParenImpCasts())) { |
| if (AtomicInnerBinOp->isMultiplicativeOp() || |
| AtomicInnerBinOp->isAdditiveOp() || AtomicInnerBinOp->isShiftOp() || |
| AtomicInnerBinOp->isBitwiseOp()) { |
| Op = AtomicInnerBinOp->getOpcode(); |
| OpLoc = AtomicInnerBinOp->getOperatorLoc(); |
| auto *LHS = AtomicInnerBinOp->getLHS(); |
| auto *RHS = AtomicInnerBinOp->getRHS(); |
| llvm::FoldingSetNodeID XId, LHSId, RHSId; |
| X->IgnoreParenImpCasts()->Profile(XId, SemaRef.getASTContext(), |
| /*Canonical=*/true); |
| LHS->IgnoreParenImpCasts()->Profile(LHSId, SemaRef.getASTContext(), |
| /*Canonical=*/true); |
| RHS->IgnoreParenImpCasts()->Profile(RHSId, SemaRef.getASTContext(), |
| /*Canonical=*/true); |
| if (XId == LHSId) { |
| E = RHS; |
| IsXLHSInRHSPart = true; |
| } else if (XId == RHSId) { |
| E = LHS; |
| IsXLHSInRHSPart = false; |
| } else { |
| ErrorLoc = AtomicInnerBinOp->getExprLoc(); |
| ErrorRange = AtomicInnerBinOp->getSourceRange(); |
| NoteLoc = X->getExprLoc(); |
| NoteRange = X->getSourceRange(); |
| ErrorFound = NotAnUpdateExpression; |
| } |
| } else { |
| ErrorLoc = AtomicInnerBinOp->getExprLoc(); |
| ErrorRange = AtomicInnerBinOp->getSourceRange(); |
| NoteLoc = AtomicInnerBinOp->getOperatorLoc(); |
| NoteRange = SourceRange(NoteLoc, NoteLoc); |
| ErrorFound = NotABinaryOperator; |
| } |
| } else { |
| NoteLoc = ErrorLoc = AtomicBinOp->getRHS()->getExprLoc(); |
| NoteRange = ErrorRange = AtomicBinOp->getRHS()->getSourceRange(); |
| ErrorFound = NotABinaryExpression; |
| } |
| } else { |
| ErrorLoc = AtomicBinOp->getExprLoc(); |
| ErrorRange = AtomicBinOp->getSourceRange(); |
| NoteLoc = AtomicBinOp->getOperatorLoc(); |
| NoteRange = SourceRange(NoteLoc, NoteLoc); |
| ErrorFound = NotAnAssignmentOp; |
| } |
| if (ErrorFound != NoError && DiagId != 0 && NoteId != 0) { |
| SemaRef.Diag(ErrorLoc, DiagId) << ErrorRange; |
| SemaRef.Diag(NoteLoc, NoteId) << ErrorFound << NoteRange; |
| return true; |
| } else if (SemaRef.CurContext->isDependentContext()) |
| E = X = UpdateExpr = nullptr; |
| return ErrorFound != NoError; |
| } |
| |
| bool OpenMPAtomicUpdateChecker::checkStatement(Stmt *S, unsigned DiagId, |
| unsigned NoteId) { |
| ExprAnalysisErrorCode ErrorFound = NoError; |
| SourceLocation ErrorLoc, NoteLoc; |
| SourceRange ErrorRange, NoteRange; |
| // Allowed constructs are: |
| // x++; |
| // x--; |
| // ++x; |
| // --x; |
| // x binop= expr; |
| // x = x binop expr; |
| // x = expr binop x; |
| if (auto *AtomicBody = dyn_cast<Expr>(S)) { |
| AtomicBody = AtomicBody->IgnoreParenImpCasts(); |
| if (AtomicBody->getType()->isScalarType() || |
| AtomicBody->isInstantiationDependent()) { |
| if (auto *AtomicCompAssignOp = dyn_cast<CompoundAssignOperator>( |
| AtomicBody->IgnoreParenImpCasts())) { |
| // Check for Compound Assignment Operation |
| Op = BinaryOperator::getOpForCompoundAssignment( |
| AtomicCompAssignOp->getOpcode()); |
| OpLoc = AtomicCompAssignOp->getOperatorLoc(); |
| E = AtomicCompAssignOp->getRHS(); |
| X = AtomicCompAssignOp->getLHS(); |
| IsXLHSInRHSPart = true; |
| } else if (auto *AtomicBinOp = dyn_cast<BinaryOperator>( |
| AtomicBody->IgnoreParenImpCasts())) { |
| // Check for Binary Operation |
| if(checkBinaryOperation(AtomicBinOp, DiagId, NoteId)) |
| return true; |
| } else if (auto *AtomicUnaryOp = |
| dyn_cast<UnaryOperator>(AtomicBody->IgnoreParenImpCasts())) { |
| // Check for Unary Operation |
| if (AtomicUnaryOp->isIncrementDecrementOp()) { |
| IsPostfixUpdate = AtomicUnaryOp->isPostfix(); |
| Op = AtomicUnaryOp->isIncrementOp() ? BO_Add : BO_Sub; |
| OpLoc = AtomicUnaryOp->getOperatorLoc(); |
| X = AtomicUnaryOp->getSubExpr(); |
| E = SemaRef.ActOnIntegerConstant(OpLoc, /*uint64_t Val=*/1).get(); |
| IsXLHSInRHSPart = true; |
| } else { |
| ErrorFound = NotAnUnaryIncDecExpression; |
| ErrorLoc = AtomicUnaryOp->getExprLoc(); |
| ErrorRange = AtomicUnaryOp->getSourceRange(); |
| NoteLoc = AtomicUnaryOp->getOperatorLoc(); |
| NoteRange = SourceRange(NoteLoc, NoteLoc); |
| } |
| } else if (!AtomicBody->isInstantiationDependent()) { |
| ErrorFound = NotABinaryOrUnaryExpression; |
| NoteLoc = ErrorLoc = AtomicBody->getExprLoc(); |
| NoteRange = ErrorRange = AtomicBody->getSourceRange(); |
| } |
| } else { |
| ErrorFound = NotAScalarType; |
| NoteLoc = ErrorLoc = AtomicBody->getLocStart(); |
| NoteRange = ErrorRange = SourceRange(NoteLoc, NoteLoc); |
| } |
| } else { |
| ErrorFound = NotAnExpression; |
| NoteLoc = ErrorLoc = S->getLocStart(); |
| NoteRange = ErrorRange = SourceRange(NoteLoc, NoteLoc); |
| } |
| if (ErrorFound != NoError && DiagId != 0 && NoteId != 0) { |
| SemaRef.Diag(ErrorLoc, DiagId) << ErrorRange; |
| SemaRef.Diag(NoteLoc, NoteId) << ErrorFound << NoteRange; |
| return true; |
| } else if (SemaRef.CurContext->isDependentContext()) |
| E = X = UpdateExpr = nullptr; |
| if (ErrorFound == NoError && E && X) { |
| // Build an update expression of form 'OpaqueValueExpr(x) binop |
| // OpaqueValueExpr(expr)' or 'OpaqueValueExpr(expr) binop |
| // OpaqueValueExpr(x)' and then cast it to the type of the 'x' expression. |
| auto *OVEX = new (SemaRef.getASTContext()) |
| OpaqueValueExpr(X->getExprLoc(), X->getType(), VK_RValue); |
| auto *OVEExpr = new (SemaRef.getASTContext()) |
| OpaqueValueExpr(E->getExprLoc(), E->getType(), VK_RValue); |
| auto Update = |
| SemaRef.CreateBuiltinBinOp(OpLoc, Op, IsXLHSInRHSPart ? OVEX : OVEExpr, |
| IsXLHSInRHSPart ? OVEExpr : OVEX); |
| if (Update.isInvalid()) |
| return true; |
| Update = SemaRef.PerformImplicitConversion(Update.get(), X->getType(), |
| Sema::AA_Casting); |
| if (Update.isInvalid()) |
| return true; |
| UpdateExpr = Update.get(); |
| } |
| return ErrorFound != NoError; |
| } |
| |
| StmtResult Sema::ActOnOpenMPAtomicDirective(ArrayRef<OMPClause *> Clauses, |
| Stmt *AStmt, |
| SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| if (!AStmt) |
| return StmtError(); |
| |
| auto CS = cast<CapturedStmt>(AStmt); |
| // 1.2.2 OpenMP Language Terminology |
| // Structured block - An executable statement with a single entry at the |
| // top and a single exit at the bottom. |
| // The point of exit cannot be a branch out of the structured block. |
| // longjmp() and throw() must not violate the entry/exit criteria. |
| OpenMPClauseKind AtomicKind = OMPC_unknown; |
| SourceLocation AtomicKindLoc; |
| for (auto *C : Clauses) { |
| if (C->getClauseKind() == OMPC_read || C->getClauseKind() == OMPC_write || |
| C->getClauseKind() == OMPC_update || |
| C->getClauseKind() == OMPC_capture) { |
| if (AtomicKind != OMPC_unknown) { |
| Diag(C->getLocStart(), diag::err_omp_atomic_several_clauses) |
| << SourceRange(C->getLocStart(), C->getLocEnd()); |
| Diag(AtomicKindLoc, diag::note_omp_atomic_previous_clause) |
| << getOpenMPClauseName(AtomicKind); |
| } else { |
| AtomicKind = C->getClauseKind(); |
| AtomicKindLoc = C->getLocStart(); |
| } |
| } |
| } |
| |
| auto Body = CS->getCapturedStmt(); |
| if (auto *EWC = dyn_cast<ExprWithCleanups>(Body)) |
| Body = EWC->getSubExpr(); |
| |
| Expr *X = nullptr; |
| Expr *V = nullptr; |
| Expr *E = nullptr; |
| Expr *UE = nullptr; |
| bool IsXLHSInRHSPart = false; |
| bool IsPostfixUpdate = false; |
| // OpenMP [2.12.6, atomic Construct] |
| // In the next expressions: |
| // * x and v (as applicable) are both l-value expressions with scalar type. |
| // * During the execution of an atomic region, multiple syntactic |
| // occurrences of x must designate the same storage location. |
| // * Neither of v and expr (as applicable) may access the storage location |
| // designated by x. |
| // * Neither of x and expr (as applicable) may access the storage location |
| // designated by v. |
| // * expr is an expression with scalar type. |
| // * binop is one of +, *, -, /, &, ^, |, <<, or >>. |
| // * binop, binop=, ++, and -- are not overloaded operators. |
| // * The expression x binop expr must be numerically equivalent to x binop |
| // (expr). This requirement is satisfied if the operators in expr have |
| // precedence greater than binop, or by using parentheses around expr or |
| // subexpressions of expr. |
| // * The expression expr binop x must be numerically equivalent to (expr) |
| // binop x. This requirement is satisfied if the operators in expr have |
| // precedence equal to or greater than binop, or by using parentheses around |
| // expr or subexpressions of expr. |
| // * For forms that allow multiple occurrences of x, the number of times |
| // that x is evaluated is unspecified. |
| if (AtomicKind == OMPC_read) { |
| enum { |
| NotAnExpression, |
| NotAnAssignmentOp, |
| NotAScalarType, |
| NotAnLValue, |
| NoError |
| } ErrorFound = NoError; |
| SourceLocation ErrorLoc, NoteLoc; |
| SourceRange ErrorRange, NoteRange; |
| // If clause is read: |
| // v = x; |
| if (auto AtomicBody = dyn_cast<Expr>(Body)) { |
| auto AtomicBinOp = |
| dyn_cast<BinaryOperator>(AtomicBody->IgnoreParenImpCasts()); |
| if (AtomicBinOp && AtomicBinOp->getOpcode() == BO_Assign) { |
| X = AtomicBinOp->getRHS()->IgnoreParenImpCasts(); |
| V = AtomicBinOp->getLHS()->IgnoreParenImpCasts(); |
| if ((X->isInstantiationDependent() || X->getType()->isScalarType()) && |
| (V->isInstantiationDependent() || V->getType()->isScalarType())) { |
| if (!X->isLValue() || !V->isLValue()) { |
| auto NotLValueExpr = X->isLValue() ? V : X; |
| ErrorFound = NotAnLValue; |
| ErrorLoc = AtomicBinOp->getExprLoc(); |
| ErrorRange = AtomicBinOp->getSourceRange(); |
| NoteLoc = NotLValueExpr->getExprLoc(); |
| NoteRange = NotLValueExpr->getSourceRange(); |
| } |
| } else if (!X->isInstantiationDependent() || |
| !V->isInstantiationDependent()) { |
| auto NotScalarExpr = |
| (X->isInstantiationDependent() || X->getType()->isScalarType()) |
| ? V |
| : X; |
| ErrorFound = NotAScalarType; |
| ErrorLoc = AtomicBinOp->getExprLoc(); |
| ErrorRange = AtomicBinOp->getSourceRange(); |
| NoteLoc = NotScalarExpr->getExprLoc(); |
| NoteRange = NotScalarExpr->getSourceRange(); |
| } |
| } else if (!AtomicBody->isInstantiationDependent()) { |
| ErrorFound = NotAnAssignmentOp; |
| ErrorLoc = AtomicBody->getExprLoc(); |
| ErrorRange = AtomicBody->getSourceRange(); |
| NoteLoc = AtomicBinOp ? AtomicBinOp->getOperatorLoc() |
| : AtomicBody->getExprLoc(); |
| NoteRange = AtomicBinOp ? AtomicBinOp->getSourceRange() |
| : AtomicBody->getSourceRange(); |
| } |
| } else { |
| ErrorFound = NotAnExpression; |
| NoteLoc = ErrorLoc = Body->getLocStart(); |
| NoteRange = ErrorRange = SourceRange(NoteLoc, NoteLoc); |
| } |
| if (ErrorFound != NoError) { |
| Diag(ErrorLoc, diag::err_omp_atomic_read_not_expression_statement) |
| << ErrorRange; |
| Diag(NoteLoc, diag::note_omp_atomic_read_write) << ErrorFound |
| << NoteRange; |
| return StmtError(); |
| } else if (CurContext->isDependentContext()) |
| V = X = nullptr; |
| } else if (AtomicKind == OMPC_write) { |
| enum { |
| NotAnExpression, |
| NotAnAssignmentOp, |
| NotAScalarType, |
| NotAnLValue, |
| NoError |
| } ErrorFound = NoError; |
| SourceLocation ErrorLoc, NoteLoc; |
| SourceRange ErrorRange, NoteRange; |
| // If clause is write: |
| // x = expr; |
| if (auto AtomicBody = dyn_cast<Expr>(Body)) { |
| auto AtomicBinOp = |
| dyn_cast<BinaryOperator>(AtomicBody->IgnoreParenImpCasts()); |
| if (AtomicBinOp && AtomicBinOp->getOpcode() == BO_Assign) { |
| X = AtomicBinOp->getLHS(); |
| E = AtomicBinOp->getRHS(); |
| if ((X->isInstantiationDependent() || X->getType()->isScalarType()) && |
| (E->isInstantiationDependent() || E->getType()->isScalarType())) { |
| if (!X->isLValue()) { |
| ErrorFound = NotAnLValue; |
| ErrorLoc = AtomicBinOp->getExprLoc(); |
| ErrorRange = AtomicBinOp->getSourceRange(); |
| NoteLoc = X->getExprLoc(); |
| NoteRange = X->getSourceRange(); |
| } |
| } else if (!X->isInstantiationDependent() || |
| !E->isInstantiationDependent()) { |
| auto NotScalarExpr = |
| (X->isInstantiationDependent() || X->getType()->isScalarType()) |
| ? E |
| : X; |
| ErrorFound = NotAScalarType; |
| ErrorLoc = AtomicBinOp->getExprLoc(); |
| ErrorRange = AtomicBinOp->getSourceRange(); |
| NoteLoc = NotScalarExpr->getExprLoc(); |
| NoteRange = NotScalarExpr->getSourceRange(); |
| } |
| } else if (!AtomicBody->isInstantiationDependent()) { |
| ErrorFound = NotAnAssignmentOp; |
| ErrorLoc = AtomicBody->getExprLoc(); |
| ErrorRange = AtomicBody->getSourceRange(); |
| NoteLoc = AtomicBinOp ? AtomicBinOp->getOperatorLoc() |
| : AtomicBody->getExprLoc(); |
| NoteRange = AtomicBinOp ? AtomicBinOp->getSourceRange() |
| : AtomicBody->getSourceRange(); |
| } |
| } else { |
| ErrorFound = NotAnExpression; |
| NoteLoc = ErrorLoc = Body->getLocStart(); |
| NoteRange = ErrorRange = SourceRange(NoteLoc, NoteLoc); |
| } |
| if (ErrorFound != NoError) { |
| Diag(ErrorLoc, diag::err_omp_atomic_write_not_expression_statement) |
| << ErrorRange; |
| Diag(NoteLoc, diag::note_omp_atomic_read_write) << ErrorFound |
| << NoteRange; |
| return StmtError(); |
| } else if (CurContext->isDependentContext()) |
| E = X = nullptr; |
| } else if (AtomicKind == OMPC_update || AtomicKind == OMPC_unknown) { |
| // If clause is update: |
| // x++; |
| // x--; |
| // ++x; |
| // --x; |
| // x binop= expr; |
| // x = x binop expr; |
| // x = expr binop x; |
| OpenMPAtomicUpdateChecker Checker(*this); |
| if (Checker.checkStatement( |
| Body, (AtomicKind == OMPC_update) |
| ? diag::err_omp_atomic_update_not_expression_statement |
| : diag::err_omp_atomic_not_expression_statement, |
| diag::note_omp_atomic_update)) |
| return StmtError(); |
| if (!CurContext->isDependentContext()) { |
| E = Checker.getExpr(); |
| X = Checker.getX(); |
| UE = Checker.getUpdateExpr(); |
| IsXLHSInRHSPart = Checker.isXLHSInRHSPart(); |
| } |
| } else if (AtomicKind == OMPC_capture) { |
| enum { |
| NotAnAssignmentOp, |
| NotACompoundStatement, |
| NotTwoSubstatements, |
| NotASpecificExpression, |
| NoError |
| } ErrorFound = NoError; |
| SourceLocation ErrorLoc, NoteLoc; |
| SourceRange ErrorRange, NoteRange; |
| if (auto *AtomicBody = dyn_cast<Expr>(Body)) { |
| // If clause is a capture: |
| // v = x++; |
| // v = x--; |
| // v = ++x; |
| // v = --x; |
| // v = x binop= expr; |
| // v = x = x binop expr; |
| // v = x = expr binop x; |
| auto *AtomicBinOp = |
| dyn_cast<BinaryOperator>(AtomicBody->IgnoreParenImpCasts()); |
| if (AtomicBinOp && AtomicBinOp->getOpcode() == BO_Assign) { |
| V = AtomicBinOp->getLHS(); |
| Body = AtomicBinOp->getRHS()->IgnoreParenImpCasts(); |
| OpenMPAtomicUpdateChecker Checker(*this); |
| if (Checker.checkStatement( |
| Body, diag::err_omp_atomic_capture_not_expression_statement, |
| diag::note_omp_atomic_update)) |
| return StmtError(); |
| E = Checker.getExpr(); |
| X = Checker.getX(); |
| UE = Checker.getUpdateExpr(); |
| IsXLHSInRHSPart = Checker.isXLHSInRHSPart(); |
| IsPostfixUpdate = Checker.isPostfixUpdate(); |
| } else if (!AtomicBody->isInstantiationDependent()) { |
| ErrorLoc = AtomicBody->getExprLoc(); |
| ErrorRange = AtomicBody->getSourceRange(); |
| NoteLoc = AtomicBinOp ? AtomicBinOp->getOperatorLoc() |
| : AtomicBody->getExprLoc(); |
| NoteRange = AtomicBinOp ? AtomicBinOp->getSourceRange() |
| : AtomicBody->getSourceRange(); |
| ErrorFound = NotAnAssignmentOp; |
| } |
| if (ErrorFound != NoError) { |
| Diag(ErrorLoc, diag::err_omp_atomic_capture_not_expression_statement) |
| << ErrorRange; |
| Diag(NoteLoc, diag::note_omp_atomic_capture) << ErrorFound << NoteRange; |
| return StmtError(); |
| } else if (CurContext->isDependentContext()) { |
| UE = V = E = X = nullptr; |
| } |
| } else { |
| // If clause is a capture: |
| // { v = x; x = expr; } |
| // { v = x; x++; } |
| // { v = x; x--; } |
| // { v = x; ++x; } |
| // { v = x; --x; } |
| // { v = x; x binop= expr; } |
| // { v = x; x = x binop expr; } |
| // { v = x; x = expr binop x; } |
| // { x++; v = x; } |
| // { x--; v = x; } |
| // { ++x; v = x; } |
| // { --x; v = x; } |
| // { x binop= expr; v = x; } |
| // { x = x binop expr; v = x; } |
| // { x = expr binop x; v = x; } |
| if (auto *CS = dyn_cast<CompoundStmt>(Body)) { |
| // Check that this is { expr1; expr2; } |
| if (CS->size() == 2) { |
| auto *First = CS->body_front(); |
| auto *Second = CS->body_back(); |
| if (auto *EWC = dyn_cast<ExprWithCleanups>(First)) |
| First = EWC->getSubExpr()->IgnoreParenImpCasts(); |
| if (auto *EWC = dyn_cast<ExprWithCleanups>(Second)) |
| Second = EWC->getSubExpr()->IgnoreParenImpCasts(); |
| // Need to find what subexpression is 'v' and what is 'x'. |
| OpenMPAtomicUpdateChecker Checker(*this); |
| bool IsUpdateExprFound = !Checker.checkStatement(Second); |
| BinaryOperator *BinOp = nullptr; |
| if (IsUpdateExprFound) { |
| BinOp = dyn_cast<BinaryOperator>(First); |
| IsUpdateExprFound = BinOp && BinOp->getOpcode() == BO_Assign; |
| } |
| if (IsUpdateExprFound && !CurContext->isDependentContext()) { |
| // { v = x; x++; } |
| // { v = x; x--; } |
| // { v = x; ++x; } |
| // { v = x; --x; } |
| // { v = x; x binop= expr; } |
| // { v = x; x = x binop expr; } |
| // { v = x; x = expr binop x; } |
| // Check that the first expression has form v = x. |
| auto *PossibleX = BinOp->getRHS()->IgnoreParenImpCasts(); |
| llvm::FoldingSetNodeID XId, PossibleXId; |
| Checker.getX()->Profile(XId, Context, /*Canonical=*/true); |
| PossibleX->Profile(PossibleXId, Context, /*Canonical=*/true); |
| IsUpdateExprFound = XId == PossibleXId; |
| if (IsUpdateExprFound) { |
| V = BinOp->getLHS(); |
| X = Checker.getX(); |
| E = Checker.getExpr(); |
| UE = Checker.getUpdateExpr(); |
| IsXLHSInRHSPart = Checker.isXLHSInRHSPart(); |
| IsPostfixUpdate = true; |
| } |
| } |
| if (!IsUpdateExprFound) { |
| IsUpdateExprFound = !Checker.checkStatement(First); |
| BinOp = nullptr; |
| if (IsUpdateExprFound) { |
| BinOp = dyn_cast<BinaryOperator>(Second); |
| IsUpdateExprFound = BinOp && BinOp->getOpcode() == BO_Assign; |
| } |
| if (IsUpdateExprFound && !CurContext->isDependentContext()) { |
| // { x++; v = x; } |
| // { x--; v = x; } |
| // { ++x; v = x; } |
| // { --x; v = x; } |
| // { x binop= expr; v = x; } |
| // { x = x binop expr; v = x; } |
| // { x = expr binop x; v = x; } |
| // Check that the second expression has form v = x. |
| auto *PossibleX = BinOp->getRHS()->IgnoreParenImpCasts(); |
| llvm::FoldingSetNodeID XId, PossibleXId; |
| Checker.getX()->Profile(XId, Context, /*Canonical=*/true); |
| PossibleX->Profile(PossibleXId, Context, /*Canonical=*/true); |
| IsUpdateExprFound = XId == PossibleXId; |
| if (IsUpdateExprFound) { |
| V = BinOp->getLHS(); |
| X = Checker.getX(); |
| E = Checker.getExpr(); |
| UE = Checker.getUpdateExpr(); |
| IsXLHSInRHSPart = Checker.isXLHSInRHSPart(); |
| IsPostfixUpdate = false; |
| } |
| } |
| } |
| if (!IsUpdateExprFound) { |
| // { v = x; x = expr; } |
| auto *FirstExpr = dyn_cast<Expr>(First); |
| auto *SecondExpr = dyn_cast<Expr>(Second); |
| if (!FirstExpr || !SecondExpr || |
| !(FirstExpr->isInstantiationDependent() || |
| SecondExpr->isInstantiationDependent())) { |
| auto *FirstBinOp = dyn_cast<BinaryOperator>(First); |
| if (!FirstBinOp || FirstBinOp->getOpcode() != BO_Assign) { |
| ErrorFound = NotAnAssignmentOp; |
| NoteLoc = ErrorLoc = FirstBinOp ? FirstBinOp->getOperatorLoc() |
| : First->getLocStart(); |
| NoteRange = ErrorRange = FirstBinOp |
| ? FirstBinOp->getSourceRange() |
| : SourceRange(ErrorLoc, ErrorLoc); |
| } else { |
| auto *SecondBinOp = dyn_cast<BinaryOperator>(Second); |
| if (!SecondBinOp || SecondBinOp->getOpcode() != BO_Assign) { |
| ErrorFound = NotAnAssignmentOp; |
| NoteLoc = ErrorLoc = SecondBinOp |
| ? SecondBinOp->getOperatorLoc() |
| : Second->getLocStart(); |
| NoteRange = ErrorRange = |
| SecondBinOp ? SecondBinOp->getSourceRange() |
| : SourceRange(ErrorLoc, ErrorLoc); |
| } else { |
| auto *PossibleXRHSInFirst = |
| FirstBinOp->getRHS()->IgnoreParenImpCasts(); |
| auto *PossibleXLHSInSecond = |
| SecondBinOp->getLHS()->IgnoreParenImpCasts(); |
| llvm::FoldingSetNodeID X1Id, X2Id; |
| PossibleXRHSInFirst->Profile(X1Id, Context, |
| /*Canonical=*/true); |
| PossibleXLHSInSecond->Profile(X2Id, Context, |
| /*Canonical=*/true); |
| IsUpdateExprFound = X1Id == X2Id; |
| if (IsUpdateExprFound) { |
| V = FirstBinOp->getLHS(); |
| X = SecondBinOp->getLHS(); |
| E = SecondBinOp->getRHS(); |
| UE = nullptr; |
| IsXLHSInRHSPart = false; |
| IsPostfixUpdate = true; |
| } else { |
| ErrorFound = NotASpecificExpression; |
| ErrorLoc = FirstBinOp->getExprLoc(); |
| ErrorRange = FirstBinOp->getSourceRange(); |
| NoteLoc = SecondBinOp->getLHS()->getExprLoc(); |
| NoteRange = SecondBinOp->getRHS()->getSourceRange(); |
| } |
| } |
| } |
| } |
| } |
| } else { |
| NoteLoc = ErrorLoc = Body->getLocStart(); |
| NoteRange = ErrorRange = |
| SourceRange(Body->getLocStart(), Body->getLocStart()); |
| ErrorFound = NotTwoSubstatements; |
| } |
| } else { |
| NoteLoc = ErrorLoc = Body->getLocStart(); |
| NoteRange = ErrorRange = |
| SourceRange(Body->getLocStart(), Body->getLocStart()); |
| ErrorFound = NotACompoundStatement; |
| } |
| if (ErrorFound != NoError) { |
| Diag(ErrorLoc, diag::err_omp_atomic_capture_not_compound_statement) |
| << ErrorRange; |
| Diag(NoteLoc, diag::note_omp_atomic_capture) << ErrorFound << NoteRange; |
| return StmtError(); |
| } else if (CurContext->isDependentContext()) { |
| UE = V = E = X = nullptr; |
| } |
| } |
| } |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| |
| return OMPAtomicDirective::Create(Context, StartLoc, EndLoc, Clauses, AStmt, |
| X, V, E, UE, IsXLHSInRHSPart, |
| IsPostfixUpdate); |
| } |
| |
| StmtResult Sema::ActOnOpenMPTargetDirective(ArrayRef<OMPClause *> Clauses, |
| Stmt *AStmt, |
| SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| if (!AStmt) |
| return StmtError(); |
| |
| CapturedStmt *CS = cast<CapturedStmt>(AStmt); |
| // 1.2.2 OpenMP Language Terminology |
| // Structured block - An executable statement with a single entry at the |
| // top and a single exit at the bottom. |
| // The point of exit cannot be a branch out of the structured block. |
| // longjmp() and throw() must not violate the entry/exit criteria. |
| CS->getCapturedDecl()->setNothrow(); |
| |
| // OpenMP [2.16, Nesting of Regions] |
| // If specified, a teams construct must be contained within a target |
| // construct. That target construct must contain no statements or directives |
| // outside of the teams construct. |
| if (DSAStack->hasInnerTeamsRegion()) { |
| auto S = AStmt->IgnoreContainers(/*IgnoreCaptured*/ true); |
| bool OMPTeamsFound = true; |
| if (auto *CS = dyn_cast<CompoundStmt>(S)) { |
| auto I = CS->body_begin(); |
| while (I != CS->body_end()) { |
| auto OED = dyn_cast<OMPExecutableDirective>(*I); |
| if (!OED || !isOpenMPTeamsDirective(OED->getDirectiveKind())) { |
| OMPTeamsFound = false; |
| break; |
| } |
| ++I; |
| } |
| assert(I != CS->body_end() && "Not found statement"); |
| S = *I; |
| } |
| if (!OMPTeamsFound) { |
| Diag(StartLoc, diag::err_omp_target_contains_not_only_teams); |
| Diag(DSAStack->getInnerTeamsRegionLoc(), |
| diag::note_omp_nested_teams_construct_here); |
| Diag(S->getLocStart(), diag::note_omp_nested_statement_here) |
| << isa<OMPExecutableDirective>(S); |
| return StmtError(); |
| } |
| } |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| |
| return OMPTargetDirective::Create(Context, StartLoc, EndLoc, Clauses, AStmt); |
| } |
| |
| StmtResult Sema::ActOnOpenMPTargetDataDirective(ArrayRef<OMPClause *> Clauses, |
| Stmt *AStmt, |
| SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| if (!AStmt) |
| return StmtError(); |
| |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| |
| return OMPTargetDataDirective::Create(Context, StartLoc, EndLoc, Clauses, |
| AStmt); |
| } |
| |
| StmtResult Sema::ActOnOpenMPTeamsDirective(ArrayRef<OMPClause *> Clauses, |
| Stmt *AStmt, SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| if (!AStmt) |
| return StmtError(); |
| |
| CapturedStmt *CS = cast<CapturedStmt>(AStmt); |
| // 1.2.2 OpenMP Language Terminology |
| // Structured block - An executable statement with a single entry at the |
| // top and a single exit at the bottom. |
| // The point of exit cannot be a branch out of the structured block. |
| // longjmp() and throw() must not violate the entry/exit criteria. |
| CS->getCapturedDecl()->setNothrow(); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| |
| return OMPTeamsDirective::Create(Context, StartLoc, EndLoc, Clauses, AStmt); |
| } |
| |
| StmtResult |
| Sema::ActOnOpenMPCancellationPointDirective(SourceLocation StartLoc, |
| SourceLocation EndLoc, |
| OpenMPDirectiveKind CancelRegion) { |
| if (CancelRegion != OMPD_parallel && CancelRegion != OMPD_for && |
| CancelRegion != OMPD_sections && CancelRegion != OMPD_taskgroup) { |
| Diag(StartLoc, diag::err_omp_wrong_cancel_region) |
| << getOpenMPDirectiveName(CancelRegion); |
| return StmtError(); |
| } |
| if (DSAStack->isParentNowaitRegion()) { |
| Diag(StartLoc, diag::err_omp_parent_cancel_region_nowait) << 0; |
| return StmtError(); |
| } |
| if (DSAStack->isParentOrderedRegion()) { |
| Diag(StartLoc, diag::err_omp_parent_cancel_region_ordered) << 0; |
| return StmtError(); |
| } |
| return OMPCancellationPointDirective::Create(Context, StartLoc, EndLoc, |
| CancelRegion); |
| } |
| |
| StmtResult Sema::ActOnOpenMPCancelDirective(ArrayRef<OMPClause *> Clauses, |
| SourceLocation StartLoc, |
| SourceLocation EndLoc, |
| OpenMPDirectiveKind CancelRegion) { |
| if (CancelRegion != OMPD_parallel && CancelRegion != OMPD_for && |
| CancelRegion != OMPD_sections && CancelRegion != OMPD_taskgroup) { |
| Diag(StartLoc, diag::err_omp_wrong_cancel_region) |
| << getOpenMPDirectiveName(CancelRegion); |
| return StmtError(); |
| } |
| if (DSAStack->isParentNowaitRegion()) { |
| Diag(StartLoc, diag::err_omp_parent_cancel_region_nowait) << 1; |
| return StmtError(); |
| } |
| if (DSAStack->isParentOrderedRegion()) { |
| Diag(StartLoc, diag::err_omp_parent_cancel_region_ordered) << 1; |
| return StmtError(); |
| } |
| DSAStack->setParentCancelRegion(/*Cancel=*/true); |
| return OMPCancelDirective::Create(Context, StartLoc, EndLoc, Clauses, |
| CancelRegion); |
| } |
| |
| static bool checkGrainsizeNumTasksClauses(Sema &S, |
| ArrayRef<OMPClause *> Clauses) { |
| OMPClause *PrevClause = nullptr; |
| bool ErrorFound = false; |
| for (auto *C : Clauses) { |
| if (C->getClauseKind() == OMPC_grainsize || |
| C->getClauseKind() == OMPC_num_tasks) { |
| if (!PrevClause) |
| PrevClause = C; |
| else if (PrevClause->getClauseKind() != C->getClauseKind()) { |
| S.Diag(C->getLocStart(), |
| diag::err_omp_grainsize_num_tasks_mutually_exclusive) |
| << getOpenMPClauseName(C->getClauseKind()) |
| << getOpenMPClauseName(PrevClause->getClauseKind()); |
| S.Diag(PrevClause->getLocStart(), |
| diag::note_omp_previous_grainsize_num_tasks) |
| << getOpenMPClauseName(PrevClause->getClauseKind()); |
| ErrorFound = true; |
| } |
| } |
| } |
| return ErrorFound; |
| } |
| |
| StmtResult Sema::ActOnOpenMPTaskLoopDirective( |
| ArrayRef<OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, |
| SourceLocation EndLoc, |
| llvm::DenseMap<VarDecl *, Expr *> &VarsWithImplicitDSA) { |
| if (!AStmt) |
| return StmtError(); |
| |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| OMPLoopDirective::HelperExprs B; |
| // In presence of clause 'collapse' or 'ordered' with number of loops, it will |
| // define the nested loops number. |
| unsigned NestedLoopCount = |
| CheckOpenMPLoop(OMPD_taskloop, getCollapseNumberExpr(Clauses), |
| /*OrderedLoopCountExpr=*/nullptr, AStmt, *this, *DSAStack, |
| VarsWithImplicitDSA, B); |
| if (NestedLoopCount == 0) |
| return StmtError(); |
| |
| assert((CurContext->isDependentContext() || B.builtAll()) && |
| "omp for loop exprs were not built"); |
| |
| // OpenMP, [2.9.2 taskloop Construct, Restrictions] |
| // The grainsize clause and num_tasks clause are mutually exclusive and may |
| // not appear on the same taskloop directive. |
| if (checkGrainsizeNumTasksClauses(*this, Clauses)) |
| return StmtError(); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| return OMPTaskLoopDirective::Create(Context, StartLoc, EndLoc, |
| NestedLoopCount, Clauses, AStmt, B); |
| } |
| |
| StmtResult Sema::ActOnOpenMPTaskLoopSimdDirective( |
| ArrayRef<OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, |
| SourceLocation EndLoc, |
| llvm::DenseMap<VarDecl *, Expr *> &VarsWithImplicitDSA) { |
| if (!AStmt) |
| return StmtError(); |
| |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| OMPLoopDirective::HelperExprs B; |
| // In presence of clause 'collapse' or 'ordered' with number of loops, it will |
| // define the nested loops number. |
| unsigned NestedLoopCount = |
| CheckOpenMPLoop(OMPD_taskloop_simd, getCollapseNumberExpr(Clauses), |
| /*OrderedLoopCountExpr=*/nullptr, AStmt, *this, *DSAStack, |
| VarsWithImplicitDSA, B); |
| if (NestedLoopCount == 0) |
| return StmtError(); |
| |
| assert((CurContext->isDependentContext() || B.builtAll()) && |
| "omp for loop exprs were not built"); |
| |
| // OpenMP, [2.9.2 taskloop Construct, Restrictions] |
| // The grainsize clause and num_tasks clause are mutually exclusive and may |
| // not appear on the same taskloop directive. |
| if (checkGrainsizeNumTasksClauses(*this, Clauses)) |
| return StmtError(); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| return OMPTaskLoopSimdDirective::Create(Context, StartLoc, EndLoc, |
| NestedLoopCount, Clauses, AStmt, B); |
| } |
| |
| StmtResult Sema::ActOnOpenMPDistributeDirective( |
| ArrayRef<OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, |
| SourceLocation EndLoc, |
| llvm::DenseMap<VarDecl *, Expr *> &VarsWithImplicitDSA) { |
| if (!AStmt) |
| return StmtError(); |
| |
| assert(isa<CapturedStmt>(AStmt) && "Captured statement expected"); |
| OMPLoopDirective::HelperExprs B; |
| // In presence of clause 'collapse' with number of loops, it will |
| // define the nested loops number. |
| unsigned NestedLoopCount = |
| CheckOpenMPLoop(OMPD_distribute, getCollapseNumberExpr(Clauses), |
| nullptr /*ordered not a clause on distribute*/, AStmt, |
| *this, *DSAStack, VarsWithImplicitDSA, B); |
| if (NestedLoopCount == 0) |
| return StmtError(); |
| |
| assert((CurContext->isDependentContext() || B.builtAll()) && |
| "omp for loop exprs were not built"); |
| |
| getCurFunction()->setHasBranchProtectedScope(); |
| return OMPDistributeDirective::Create(Context, StartLoc, EndLoc, |
| NestedLoopCount, Clauses, AStmt, B); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPSingleExprClause(OpenMPClauseKind Kind, Expr *Expr, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| OMPClause *Res = nullptr; |
| switch (Kind) { |
| case OMPC_final: |
| Res = ActOnOpenMPFinalClause(Expr, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_num_threads: |
| Res = ActOnOpenMPNumThreadsClause(Expr, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_safelen: |
| Res = ActOnOpenMPSafelenClause(Expr, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_simdlen: |
| Res = ActOnOpenMPSimdlenClause(Expr, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_collapse: |
| Res = ActOnOpenMPCollapseClause(Expr, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_ordered: |
| Res = ActOnOpenMPOrderedClause(StartLoc, EndLoc, LParenLoc, Expr); |
| break; |
| case OMPC_device: |
| Res = ActOnOpenMPDeviceClause(Expr, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_num_teams: |
| Res = ActOnOpenMPNumTeamsClause(Expr, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_thread_limit: |
| Res = ActOnOpenMPThreadLimitClause(Expr, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_priority: |
| Res = ActOnOpenMPPriorityClause(Expr, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_grainsize: |
| Res = ActOnOpenMPGrainsizeClause(Expr, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_num_tasks: |
| Res = ActOnOpenMPNumTasksClause(Expr, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_hint: |
| Res = ActOnOpenMPHintClause(Expr, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_if: |
| case OMPC_default: |
| case OMPC_proc_bind: |
| case OMPC_schedule: |
| case OMPC_private: |
| case OMPC_firstprivate: |
| case OMPC_lastprivate: |
| case OMPC_shared: |
| case OMPC_reduction: |
| case OMPC_linear: |
| case OMPC_aligned: |
| case OMPC_copyin: |
| case OMPC_copyprivate: |
| case OMPC_nowait: |
| case OMPC_untied: |
| case OMPC_mergeable: |
| case OMPC_threadprivate: |
| case OMPC_flush: |
| case OMPC_read: |
| case OMPC_write: |
| case OMPC_update: |
| case OMPC_capture: |
| case OMPC_seq_cst: |
| case OMPC_depend: |
| case OMPC_threads: |
| case OMPC_simd: |
| case OMPC_map: |
| case OMPC_nogroup: |
| case OMPC_dist_schedule: |
| case OMPC_unknown: |
| llvm_unreachable("Clause is not allowed."); |
| } |
| return Res; |
| } |
| |
| OMPClause *Sema::ActOnOpenMPIfClause(OpenMPDirectiveKind NameModifier, |
| Expr *Condition, SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation NameModifierLoc, |
| SourceLocation ColonLoc, |
| SourceLocation EndLoc) { |
| Expr *ValExpr = Condition; |
| if (!Condition->isValueDependent() && !Condition->isTypeDependent() && |
| !Condition->isInstantiationDependent() && |
| !Condition->containsUnexpandedParameterPack()) { |
| ExprResult Val = ActOnBooleanCondition(DSAStack->getCurScope(), |
| Condition->getExprLoc(), Condition); |
| if (Val.isInvalid()) |
| return nullptr; |
| |
| ValExpr = Val.get(); |
| } |
| |
| return new (Context) OMPIfClause(NameModifier, ValExpr, StartLoc, LParenLoc, |
| NameModifierLoc, ColonLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPFinalClause(Expr *Condition, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| Expr *ValExpr = Condition; |
| if (!Condition->isValueDependent() && !Condition->isTypeDependent() && |
| !Condition->isInstantiationDependent() && |
| !Condition->containsUnexpandedParameterPack()) { |
| ExprResult Val = ActOnBooleanCondition(DSAStack->getCurScope(), |
| Condition->getExprLoc(), Condition); |
| if (Val.isInvalid()) |
| return nullptr; |
| |
| ValExpr = Val.get(); |
| } |
| |
| return new (Context) OMPFinalClause(ValExpr, StartLoc, LParenLoc, EndLoc); |
| } |
| ExprResult Sema::PerformOpenMPImplicitIntegerConversion(SourceLocation Loc, |
| Expr *Op) { |
| if (!Op) |
| return ExprError(); |
| |
| class IntConvertDiagnoser : public ICEConvertDiagnoser { |
| public: |
| IntConvertDiagnoser() |
| : ICEConvertDiagnoser(/*AllowScopedEnumerations*/ false, false, true) {} |
| SemaDiagnosticBuilder diagnoseNotInt(Sema &S, SourceLocation Loc, |
| QualType T) override { |
| return S.Diag(Loc, diag::err_omp_not_integral) << T; |
| } |
| SemaDiagnosticBuilder diagnoseIncomplete(Sema &S, SourceLocation Loc, |
| QualType T) override { |
| return S.Diag(Loc, diag::err_omp_incomplete_type) << T; |
| } |
| SemaDiagnosticBuilder diagnoseExplicitConv(Sema &S, SourceLocation Loc, |
| QualType T, |
| QualType ConvTy) override { |
| return S.Diag(Loc, diag::err_omp_explicit_conversion) << T << ConvTy; |
| } |
| SemaDiagnosticBuilder noteExplicitConv(Sema &S, CXXConversionDecl *Conv, |
| QualType ConvTy) override { |
| return S.Diag(Conv->getLocation(), diag::note_omp_conversion_here) |
| << ConvTy->isEnumeralType() << ConvTy; |
| } |
| SemaDiagnosticBuilder diagnoseAmbiguous(Sema &S, SourceLocation Loc, |
| QualType T) override { |
| return S.Diag(Loc, diag::err_omp_ambiguous_conversion) << T; |
| } |
| SemaDiagnosticBuilder noteAmbiguous(Sema &S, CXXConversionDecl *Conv, |
| QualType ConvTy) override { |
| return S.Diag(Conv->getLocation(), diag::note_omp_conversion_here) |
| << ConvTy->isEnumeralType() << ConvTy; |
| } |
| SemaDiagnosticBuilder diagnoseConversion(Sema &, SourceLocation, QualType, |
| QualType) override { |
| llvm_unreachable("conversion functions are permitted"); |
| } |
| } ConvertDiagnoser; |
| return PerformContextualImplicitConversion(Loc, Op, ConvertDiagnoser); |
| } |
| |
| static bool IsNonNegativeIntegerValue(Expr *&ValExpr, Sema &SemaRef, |
| OpenMPClauseKind CKind, |
| bool StrictlyPositive) { |
| if (!ValExpr->isTypeDependent() && !ValExpr->isValueDependent() && |
| !ValExpr->isInstantiationDependent()) { |
| SourceLocation Loc = ValExpr->getExprLoc(); |
| ExprResult Value = |
| SemaRef.PerformOpenMPImplicitIntegerConversion(Loc, ValExpr); |
| if (Value.isInvalid()) |
| return false; |
| |
| ValExpr = Value.get(); |
| // The expression must evaluate to a non-negative integer value. |
| llvm::APSInt Result; |
| if (ValExpr->isIntegerConstantExpr(Result, SemaRef.Context) && |
| Result.isSigned() && |
| !((!StrictlyPositive && Result.isNonNegative()) || |
| (StrictlyPositive && Result.isStrictlyPositive()))) { |
| SemaRef.Diag(Loc, diag::err_omp_negative_expression_in_clause) |
| << getOpenMPClauseName(CKind) << (StrictlyPositive ? 1 : 0) |
| << ValExpr->getSourceRange(); |
| return false; |
| } |
| } |
| return true; |
| } |
| |
| OMPClause *Sema::ActOnOpenMPNumThreadsClause(Expr *NumThreads, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| Expr *ValExpr = NumThreads; |
| |
| // OpenMP [2.5, Restrictions] |
| // The num_threads expression must evaluate to a positive integer value. |
| if (!IsNonNegativeIntegerValue(ValExpr, *this, OMPC_num_threads, |
| /*StrictlyPositive=*/true)) |
| return nullptr; |
| |
| return new (Context) |
| OMPNumThreadsClause(ValExpr, StartLoc, LParenLoc, EndLoc); |
| } |
| |
| ExprResult Sema::VerifyPositiveIntegerConstantInClause(Expr *E, |
| OpenMPClauseKind CKind, |
| bool StrictlyPositive) { |
| if (!E) |
| return ExprError(); |
| if (E->isValueDependent() || E->isTypeDependent() || |
| E->isInstantiationDependent() || E->containsUnexpandedParameterPack()) |
| return E; |
| llvm::APSInt Result; |
| ExprResult ICE = VerifyIntegerConstantExpression(E, &Result); |
| if (ICE.isInvalid()) |
| return ExprError(); |
| if ((StrictlyPositive && !Result.isStrictlyPositive()) || |
| (!StrictlyPositive && !Result.isNonNegative())) { |
| Diag(E->getExprLoc(), diag::err_omp_negative_expression_in_clause) |
| << getOpenMPClauseName(CKind) << (StrictlyPositive ? 1 : 0) |
| << E->getSourceRange(); |
| return ExprError(); |
| } |
| if (CKind == OMPC_aligned && !Result.isPowerOf2()) { |
| Diag(E->getExprLoc(), diag::warn_omp_alignment_not_power_of_two) |
| << E->getSourceRange(); |
| return ExprError(); |
| } |
| if (CKind == OMPC_collapse && DSAStack->getAssociatedLoops() == 1) |
| DSAStack->setAssociatedLoops(Result.getExtValue()); |
| else if (CKind == OMPC_ordered) |
| DSAStack->setAssociatedLoops(Result.getExtValue()); |
| return ICE; |
| } |
| |
| OMPClause *Sema::ActOnOpenMPSafelenClause(Expr *Len, SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| // OpenMP [2.8.1, simd construct, Description] |
| // The parameter of the safelen clause must be a constant |
| // positive integer expression. |
| ExprResult Safelen = VerifyPositiveIntegerConstantInClause(Len, OMPC_safelen); |
| if (Safelen.isInvalid()) |
| return nullptr; |
| return new (Context) |
| OMPSafelenClause(Safelen.get(), StartLoc, LParenLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPSimdlenClause(Expr *Len, SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| // OpenMP [2.8.1, simd construct, Description] |
| // The parameter of the simdlen clause must be a constant |
| // positive integer expression. |
| ExprResult Simdlen = VerifyPositiveIntegerConstantInClause(Len, OMPC_simdlen); |
| if (Simdlen.isInvalid()) |
| return nullptr; |
| return new (Context) |
| OMPSimdlenClause(Simdlen.get(), StartLoc, LParenLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPCollapseClause(Expr *NumForLoops, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| // OpenMP [2.7.1, loop construct, Description] |
| // OpenMP [2.8.1, simd construct, Description] |
| // OpenMP [2.9.6, distribute construct, Description] |
| // The parameter of the collapse clause must be a constant |
| // positive integer expression. |
| ExprResult NumForLoopsResult = |
| VerifyPositiveIntegerConstantInClause(NumForLoops, OMPC_collapse); |
| if (NumForLoopsResult.isInvalid()) |
| return nullptr; |
| return new (Context) |
| OMPCollapseClause(NumForLoopsResult.get(), StartLoc, LParenLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPOrderedClause(SourceLocation StartLoc, |
| SourceLocation EndLoc, |
| SourceLocation LParenLoc, |
| Expr *NumForLoops) { |
| // OpenMP [2.7.1, loop construct, Description] |
| // OpenMP [2.8.1, simd construct, Description] |
| // OpenMP [2.9.6, distribute construct, Description] |
| // The parameter of the ordered clause must be a constant |
| // positive integer expression if any. |
| if (NumForLoops && LParenLoc.isValid()) { |
| ExprResult NumForLoopsResult = |
| VerifyPositiveIntegerConstantInClause(NumForLoops, OMPC_ordered); |
| if (NumForLoopsResult.isInvalid()) |
| return nullptr; |
| NumForLoops = NumForLoopsResult.get(); |
| } else |
| NumForLoops = nullptr; |
| DSAStack->setOrderedRegion(/*IsOrdered=*/true, NumForLoops); |
| return new (Context) |
| OMPOrderedClause(NumForLoops, StartLoc, LParenLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPSimpleClause( |
| OpenMPClauseKind Kind, unsigned Argument, SourceLocation ArgumentLoc, |
| SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) { |
| OMPClause *Res = nullptr; |
| switch (Kind) { |
| case OMPC_default: |
| Res = |
| ActOnOpenMPDefaultClause(static_cast<OpenMPDefaultClauseKind>(Argument), |
| ArgumentLoc, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_proc_bind: |
| Res = ActOnOpenMPProcBindClause( |
| static_cast<OpenMPProcBindClauseKind>(Argument), ArgumentLoc, StartLoc, |
| LParenLoc, EndLoc); |
| break; |
| case OMPC_if: |
| case OMPC_final: |
| case OMPC_num_threads: |
| case OMPC_safelen: |
| case OMPC_simdlen: |
| case OMPC_collapse: |
| case OMPC_schedule: |
| case OMPC_private: |
| case OMPC_firstprivate: |
| case OMPC_lastprivate: |
| case OMPC_shared: |
| case OMPC_reduction: |
| case OMPC_linear: |
| case OMPC_aligned: |
| case OMPC_copyin: |
| case OMPC_copyprivate: |
| case OMPC_ordered: |
| case OMPC_nowait: |
| case OMPC_untied: |
| case OMPC_mergeable: |
| case OMPC_threadprivate: |
| case OMPC_flush: |
| case OMPC_read: |
| case OMPC_write: |
| case OMPC_update: |
| case OMPC_capture: |
| case OMPC_seq_cst: |
| case OMPC_depend: |
| case OMPC_device: |
| case OMPC_threads: |
| case OMPC_simd: |
| case OMPC_map: |
| case OMPC_num_teams: |
| case OMPC_thread_limit: |
| case OMPC_priority: |
| case OMPC_grainsize: |
| case OMPC_nogroup: |
| case OMPC_num_tasks: |
| case OMPC_hint: |
| case OMPC_dist_schedule: |
| case OMPC_unknown: |
| llvm_unreachable("Clause is not allowed."); |
| } |
| return Res; |
| } |
| |
| static std::string |
| getListOfPossibleValues(OpenMPClauseKind K, unsigned First, unsigned Last, |
| ArrayRef<unsigned> Exclude = llvm::None) { |
| std::string Values; |
| unsigned Bound = Last >= 2 ? Last - 2 : 0; |
| unsigned Skipped = Exclude.size(); |
| auto S = Exclude.begin(), E = Exclude.end(); |
| for (unsigned i = First; i < Last; ++i) { |
| if (std::find(S, E, i) != E) { |
| --Skipped; |
| continue; |
| } |
| Values += "'"; |
| Values += getOpenMPSimpleClauseTypeName(K, i); |
| Values += "'"; |
| if (i == Bound - Skipped) |
| Values += " or "; |
| else if (i != Bound + 1 - Skipped) |
| Values += ", "; |
| } |
| return Values; |
| } |
| |
| OMPClause *Sema::ActOnOpenMPDefaultClause(OpenMPDefaultClauseKind Kind, |
| SourceLocation KindKwLoc, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| if (Kind == OMPC_DEFAULT_unknown) { |
| static_assert(OMPC_DEFAULT_unknown > 0, |
| "OMPC_DEFAULT_unknown not greater than 0"); |
| Diag(KindKwLoc, diag::err_omp_unexpected_clause_value) |
| << getListOfPossibleValues(OMPC_default, /*First=*/0, |
| /*Last=*/OMPC_DEFAULT_unknown) |
| << getOpenMPClauseName(OMPC_default); |
| return nullptr; |
| } |
| switch (Kind) { |
| case OMPC_DEFAULT_none: |
| DSAStack->setDefaultDSANone(KindKwLoc); |
| break; |
| case OMPC_DEFAULT_shared: |
| DSAStack->setDefaultDSAShared(KindKwLoc); |
| break; |
| case OMPC_DEFAULT_unknown: |
| llvm_unreachable("Clause kind is not allowed."); |
| break; |
| } |
| return new (Context) |
| OMPDefaultClause(Kind, KindKwLoc, StartLoc, LParenLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPProcBindClause(OpenMPProcBindClauseKind Kind, |
| SourceLocation KindKwLoc, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| if (Kind == OMPC_PROC_BIND_unknown) { |
| Diag(KindKwLoc, diag::err_omp_unexpected_clause_value) |
| << getListOfPossibleValues(OMPC_proc_bind, /*First=*/0, |
| /*Last=*/OMPC_PROC_BIND_unknown) |
| << getOpenMPClauseName(OMPC_proc_bind); |
| return nullptr; |
| } |
| return new (Context) |
| OMPProcBindClause(Kind, KindKwLoc, StartLoc, LParenLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPSingleExprWithArgClause( |
| OpenMPClauseKind Kind, ArrayRef<unsigned> Argument, Expr *Expr, |
| SourceLocation StartLoc, SourceLocation LParenLoc, |
| ArrayRef<SourceLocation> ArgumentLoc, SourceLocation DelimLoc, |
| SourceLocation EndLoc) { |
| OMPClause *Res = nullptr; |
| switch (Kind) { |
| case OMPC_schedule: |
| enum { Modifier1, Modifier2, ScheduleKind, NumberOfElements }; |
| assert(Argument.size() == NumberOfElements && |
| ArgumentLoc.size() == NumberOfElements); |
| Res = ActOnOpenMPScheduleClause( |
| static_cast<OpenMPScheduleClauseModifier>(Argument[Modifier1]), |
| static_cast<OpenMPScheduleClauseModifier>(Argument[Modifier2]), |
| static_cast<OpenMPScheduleClauseKind>(Argument[ScheduleKind]), Expr, |
| StartLoc, LParenLoc, ArgumentLoc[Modifier1], ArgumentLoc[Modifier2], |
| ArgumentLoc[ScheduleKind], DelimLoc, EndLoc); |
| break; |
| case OMPC_if: |
| assert(Argument.size() == 1 && ArgumentLoc.size() == 1); |
| Res = ActOnOpenMPIfClause(static_cast<OpenMPDirectiveKind>(Argument.back()), |
| Expr, StartLoc, LParenLoc, ArgumentLoc.back(), |
| DelimLoc, EndLoc); |
| break; |
| case OMPC_dist_schedule: |
| Res = ActOnOpenMPDistScheduleClause( |
| static_cast<OpenMPDistScheduleClauseKind>(Argument.back()), Expr, |
| StartLoc, LParenLoc, ArgumentLoc.back(), DelimLoc, EndLoc); |
| break; |
| case OMPC_final: |
| case OMPC_num_threads: |
| case OMPC_safelen: |
| case OMPC_simdlen: |
| case OMPC_collapse: |
| case OMPC_default: |
| case OMPC_proc_bind: |
| case OMPC_private: |
| case OMPC_firstprivate: |
| case OMPC_lastprivate: |
| case OMPC_shared: |
| case OMPC_reduction: |
| case OMPC_linear: |
| case OMPC_aligned: |
| case OMPC_copyin: |
| case OMPC_copyprivate: |
| case OMPC_ordered: |
| case OMPC_nowait: |
| case OMPC_untied: |
| case OMPC_mergeable: |
| case OMPC_threadprivate: |
| case OMPC_flush: |
| case OMPC_read: |
| case OMPC_write: |
| case OMPC_update: |
| case OMPC_capture: |
| case OMPC_seq_cst: |
| case OMPC_depend: |
| case OMPC_device: |
| case OMPC_threads: |
| case OMPC_simd: |
| case OMPC_map: |
| case OMPC_num_teams: |
| case OMPC_thread_limit: |
| case OMPC_priority: |
| case OMPC_grainsize: |
| case OMPC_nogroup: |
| case OMPC_num_tasks: |
| case OMPC_hint: |
| case OMPC_unknown: |
| llvm_unreachable("Clause is not allowed."); |
| } |
| return Res; |
| } |
| |
| static bool checkScheduleModifiers(Sema &S, OpenMPScheduleClauseModifier M1, |
| OpenMPScheduleClauseModifier M2, |
| SourceLocation M1Loc, SourceLocation M2Loc) { |
| if (M1 == OMPC_SCHEDULE_MODIFIER_unknown && M1Loc.isValid()) { |
| SmallVector<unsigned, 2> Excluded; |
| if (M2 != OMPC_SCHEDULE_MODIFIER_unknown) |
| Excluded.push_back(M2); |
| if (M2 == OMPC_SCHEDULE_MODIFIER_nonmonotonic) |
| Excluded.push_back(OMPC_SCHEDULE_MODIFIER_monotonic); |
| if (M2 == OMPC_SCHEDULE_MODIFIER_monotonic) |
| Excluded.push_back(OMPC_SCHEDULE_MODIFIER_nonmonotonic); |
| S.Diag(M1Loc, diag::err_omp_unexpected_clause_value) |
| << getListOfPossibleValues(OMPC_schedule, |
| /*First=*/OMPC_SCHEDULE_MODIFIER_unknown + 1, |
| /*Last=*/OMPC_SCHEDULE_MODIFIER_last, |
| Excluded) |
| << getOpenMPClauseName(OMPC_schedule); |
| return true; |
| } |
| return false; |
| } |
| |
| OMPClause *Sema::ActOnOpenMPScheduleClause( |
| OpenMPScheduleClauseModifier M1, OpenMPScheduleClauseModifier M2, |
| OpenMPScheduleClauseKind Kind, Expr *ChunkSize, SourceLocation StartLoc, |
| SourceLocation LParenLoc, SourceLocation M1Loc, SourceLocation M2Loc, |
| SourceLocation KindLoc, SourceLocation CommaLoc, SourceLocation EndLoc) { |
| if (checkScheduleModifiers(*this, M1, M2, M1Loc, M2Loc) || |
| checkScheduleModifiers(*this, M2, M1, M2Loc, M1Loc)) |
| return nullptr; |
| // OpenMP, 2.7.1, Loop Construct, Restrictions |
| // Either the monotonic modifier or the nonmonotonic modifier can be specified |
| // but not both. |
| if ((M1 == M2 && M1 != OMPC_SCHEDULE_MODIFIER_unknown) || |
| (M1 == OMPC_SCHEDULE_MODIFIER_monotonic && |
| M2 == OMPC_SCHEDULE_MODIFIER_nonmonotonic) || |
| (M1 == OMPC_SCHEDULE_MODIFIER_nonmonotonic && |
| M2 == OMPC_SCHEDULE_MODIFIER_monotonic)) { |
| Diag(M2Loc, diag::err_omp_unexpected_schedule_modifier) |
| << getOpenMPSimpleClauseTypeName(OMPC_schedule, M2) |
| << getOpenMPSimpleClauseTypeName(OMPC_schedule, M1); |
| return nullptr; |
| } |
| if (Kind == OMPC_SCHEDULE_unknown) { |
| std::string Values; |
| if (M1Loc.isInvalid() && M2Loc.isInvalid()) { |
| unsigned Exclude[] = {OMPC_SCHEDULE_unknown}; |
| Values = getListOfPossibleValues(OMPC_schedule, /*First=*/0, |
| /*Last=*/OMPC_SCHEDULE_MODIFIER_last, |
| Exclude); |
| } else { |
| Values = getListOfPossibleValues(OMPC_schedule, /*First=*/0, |
| /*Last=*/OMPC_SCHEDULE_unknown); |
| } |
| Diag(KindLoc, diag::err_omp_unexpected_clause_value) |
| << Values << getOpenMPClauseName(OMPC_schedule); |
| return nullptr; |
| } |
| // OpenMP, 2.7.1, Loop Construct, Restrictions |
| // The nonmonotonic modifier can only be specified with schedule(dynamic) or |
| // schedule(guided). |
| if ((M1 == OMPC_SCHEDULE_MODIFIER_nonmonotonic || |
| M2 == OMPC_SCHEDULE_MODIFIER_nonmonotonic) && |
| Kind != OMPC_SCHEDULE_dynamic && Kind != OMPC_SCHEDULE_guided) { |
| Diag(M1 == OMPC_SCHEDULE_MODIFIER_nonmonotonic ? M1Loc : M2Loc, |
| diag::err_omp_schedule_nonmonotonic_static); |
| return nullptr; |
| } |
| Expr *ValExpr = ChunkSize; |
| Expr *HelperValExpr = nullptr; |
| if (ChunkSize) { |
| if (!ChunkSize->isValueDependent() && !ChunkSize->isTypeDependent() && |
| !ChunkSize->isInstantiationDependent() && |
| !ChunkSize->containsUnexpandedParameterPack()) { |
| SourceLocation ChunkSizeLoc = ChunkSize->getLocStart(); |
| ExprResult Val = |
| PerformOpenMPImplicitIntegerConversion(ChunkSizeLoc, ChunkSize); |
| if (Val.isInvalid()) |
| return nullptr; |
| |
| ValExpr = Val.get(); |
| |
| // OpenMP [2.7.1, Restrictions] |
| // chunk_size must be a loop invariant integer expression with a positive |
| // value. |
| llvm::APSInt Result; |
| if (ValExpr->isIntegerConstantExpr(Result, Context)) { |
| if (Result.isSigned() && !Result.isStrictlyPositive()) { |
| Diag(ChunkSizeLoc, diag::err_omp_negative_expression_in_clause) |
| << "schedule" << 1 << ChunkSize->getSourceRange(); |
| return nullptr; |
| } |
| } else if (isParallelOrTaskRegion(DSAStack->getCurrentDirective())) { |
| auto *ImpVar = buildVarDecl(*this, ChunkSize->getExprLoc(), |
| ChunkSize->getType(), ".chunk."); |
| auto *ImpVarRef = buildDeclRefExpr(*this, ImpVar, ChunkSize->getType(), |
| ChunkSize->getExprLoc(), |
| /*RefersToCapture=*/true); |
| HelperValExpr = ImpVarRef; |
| } |
| } |
| } |
| |
| return new (Context) |
| OMPScheduleClause(StartLoc, LParenLoc, KindLoc, CommaLoc, EndLoc, Kind, |
| ValExpr, HelperValExpr, M1, M1Loc, M2, M2Loc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPClause(OpenMPClauseKind Kind, |
| SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| OMPClause *Res = nullptr; |
| switch (Kind) { |
| case OMPC_ordered: |
| Res = ActOnOpenMPOrderedClause(StartLoc, EndLoc); |
| break; |
| case OMPC_nowait: |
| Res = ActOnOpenMPNowaitClause(StartLoc, EndLoc); |
| break; |
| case OMPC_untied: |
| Res = ActOnOpenMPUntiedClause(StartLoc, EndLoc); |
| break; |
| case OMPC_mergeable: |
| Res = ActOnOpenMPMergeableClause(StartLoc, EndLoc); |
| break; |
| case OMPC_read: |
| Res = ActOnOpenMPReadClause(StartLoc, EndLoc); |
| break; |
| case OMPC_write: |
| Res = ActOnOpenMPWriteClause(StartLoc, EndLoc); |
| break; |
| case OMPC_update: |
| Res = ActOnOpenMPUpdateClause(StartLoc, EndLoc); |
| break; |
| case OMPC_capture: |
| Res = ActOnOpenMPCaptureClause(StartLoc, EndLoc); |
| break; |
| case OMPC_seq_cst: |
| Res = ActOnOpenMPSeqCstClause(StartLoc, EndLoc); |
| break; |
| case OMPC_threads: |
| Res = ActOnOpenMPThreadsClause(StartLoc, EndLoc); |
| break; |
| case OMPC_simd: |
| Res = ActOnOpenMPSIMDClause(StartLoc, EndLoc); |
| break; |
| case OMPC_nogroup: |
| Res = ActOnOpenMPNogroupClause(StartLoc, EndLoc); |
| break; |
| case OMPC_if: |
| case OMPC_final: |
| case OMPC_num_threads: |
| case OMPC_safelen: |
| case OMPC_simdlen: |
| case OMPC_collapse: |
| case OMPC_schedule: |
| case OMPC_private: |
| case OMPC_firstprivate: |
| case OMPC_lastprivate: |
| case OMPC_shared: |
| case OMPC_reduction: |
| case OMPC_linear: |
| case OMPC_aligned: |
| case OMPC_copyin: |
| case OMPC_copyprivate: |
| case OMPC_default: |
| case OMPC_proc_bind: |
| case OMPC_threadprivate: |
| case OMPC_flush: |
| case OMPC_depend: |
| case OMPC_device: |
| case OMPC_map: |
| case OMPC_num_teams: |
| case OMPC_thread_limit: |
| case OMPC_priority: |
| case OMPC_grainsize: |
| case OMPC_num_tasks: |
| case OMPC_hint: |
| case OMPC_dist_schedule: |
| case OMPC_unknown: |
| llvm_unreachable("Clause is not allowed."); |
| } |
| return Res; |
| } |
| |
| OMPClause *Sema::ActOnOpenMPNowaitClause(SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| DSAStack->setNowaitRegion(); |
| return new (Context) OMPNowaitClause(StartLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPUntiedClause(SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| return new (Context) OMPUntiedClause(StartLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPMergeableClause(SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| return new (Context) OMPMergeableClause(StartLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPReadClause(SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| return new (Context) OMPReadClause(StartLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPWriteClause(SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| return new (Context) OMPWriteClause(StartLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPUpdateClause(SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| return new (Context) OMPUpdateClause(StartLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPCaptureClause(SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| return new (Context) OMPCaptureClause(StartLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPSeqCstClause(SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| return new (Context) OMPSeqCstClause(StartLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPThreadsClause(SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| return new (Context) OMPThreadsClause(StartLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPSIMDClause(SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| return new (Context) OMPSIMDClause(StartLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPNogroupClause(SourceLocation StartLoc, |
| SourceLocation EndLoc) { |
| return new (Context) OMPNogroupClause(StartLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPVarListClause( |
| OpenMPClauseKind Kind, ArrayRef<Expr *> VarList, Expr *TailExpr, |
| SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation ColonLoc, |
| SourceLocation EndLoc, CXXScopeSpec &ReductionIdScopeSpec, |
| const DeclarationNameInfo &ReductionId, OpenMPDependClauseKind DepKind, |
| OpenMPLinearClauseKind LinKind, OpenMPMapClauseKind MapTypeModifier, |
| OpenMPMapClauseKind MapType, SourceLocation DepLinMapLoc) { |
| OMPClause *Res = nullptr; |
| switch (Kind) { |
| case OMPC_private: |
| Res = ActOnOpenMPPrivateClause(VarList, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_firstprivate: |
| Res = ActOnOpenMPFirstprivateClause(VarList, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_lastprivate: |
| Res = ActOnOpenMPLastprivateClause(VarList, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_shared: |
| Res = ActOnOpenMPSharedClause(VarList, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_reduction: |
| Res = ActOnOpenMPReductionClause(VarList, StartLoc, LParenLoc, ColonLoc, |
| EndLoc, ReductionIdScopeSpec, ReductionId); |
| break; |
| case OMPC_linear: |
| Res = ActOnOpenMPLinearClause(VarList, TailExpr, StartLoc, LParenLoc, |
| LinKind, DepLinMapLoc, ColonLoc, EndLoc); |
| break; |
| case OMPC_aligned: |
| Res = ActOnOpenMPAlignedClause(VarList, TailExpr, StartLoc, LParenLoc, |
| ColonLoc, EndLoc); |
| break; |
| case OMPC_copyin: |
| Res = ActOnOpenMPCopyinClause(VarList, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_copyprivate: |
| Res = ActOnOpenMPCopyprivateClause(VarList, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_flush: |
| Res = ActOnOpenMPFlushClause(VarList, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_depend: |
| Res = ActOnOpenMPDependClause(DepKind, DepLinMapLoc, ColonLoc, VarList, |
| StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_map: |
| Res = ActOnOpenMPMapClause(MapTypeModifier, MapType, DepLinMapLoc, ColonLoc, |
| VarList, StartLoc, LParenLoc, EndLoc); |
| break; |
| case OMPC_if: |
| case OMPC_final: |
| case OMPC_num_threads: |
| case OMPC_safelen: |
| case OMPC_simdlen: |
| case OMPC_collapse: |
| case OMPC_default: |
| case OMPC_proc_bind: |
| case OMPC_schedule: |
| case OMPC_ordered: |
| case OMPC_nowait: |
| case OMPC_untied: |
| case OMPC_mergeable: |
| case OMPC_threadprivate: |
| case OMPC_read: |
| case OMPC_write: |
| case OMPC_update: |
| case OMPC_capture: |
| case OMPC_seq_cst: |
| case OMPC_device: |
| case OMPC_threads: |
| case OMPC_simd: |
| case OMPC_num_teams: |
| case OMPC_thread_limit: |
| case OMPC_priority: |
| case OMPC_grainsize: |
| case OMPC_nogroup: |
| case OMPC_num_tasks: |
| case OMPC_hint: |
| case OMPC_dist_schedule: |
| case OMPC_unknown: |
| llvm_unreachable("Clause is not allowed."); |
| } |
| return Res; |
| } |
| |
| OMPClause *Sema::ActOnOpenMPPrivateClause(ArrayRef<Expr *> VarList, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| SmallVector<Expr *, 8> Vars; |
| SmallVector<Expr *, 8> PrivateCopies; |
| for (auto &RefExpr : VarList) { |
| assert(RefExpr && "NULL expr in OpenMP private clause."); |
| if (isa<DependentScopeDeclRefExpr>(RefExpr)) { |
| // It will be analyzed later. |
| Vars.push_back(RefExpr); |
| PrivateCopies.push_back(nullptr); |
| continue; |
| } |
| |
| SourceLocation ELoc = RefExpr->getExprLoc(); |
| // OpenMP [2.1, C/C++] |
| // A list item is a variable name. |
| // OpenMP [2.9.3.3, Restrictions, p.1] |
| // A variable that is part of another variable (as an array or |
| // structure element) cannot appear in a private clause. |
| DeclRefExpr *DE = dyn_cast_or_null<DeclRefExpr>(RefExpr); |
| if (!DE || !isa<VarDecl>(DE->getDecl())) { |
| Diag(ELoc, diag::err_omp_expected_var_name) << RefExpr->getSourceRange(); |
| continue; |
| } |
| Decl *D = DE->getDecl(); |
| VarDecl *VD = cast<VarDecl>(D); |
| |
| QualType Type = VD->getType(); |
| if (Type->isDependentType() || Type->isInstantiationDependentType()) { |
| // It will be analyzed later. |
| Vars.push_back(DE); |
| PrivateCopies.push_back(nullptr); |
| continue; |
| } |
| |
| // OpenMP [2.9.3.3, Restrictions, C/C++, p.3] |
| // A variable that appears in a private clause must not have an incomplete |
| // type or a reference type. |
| if (RequireCompleteType(ELoc, Type, |
| diag::err_omp_private_incomplete_type)) { |
| continue; |
| } |
| Type = Type.getNonReferenceType(); |
| |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct] |
| // Variables with the predetermined data-sharing attributes may not be |
| // listed in data-sharing attributes clauses, except for the cases |
| // listed below. For these exceptions only, listing a predetermined |
| // variable in a data-sharing attribute clause is allowed and overrides |
| // the variable's predetermined data-sharing attributes. |
| DSAStackTy::DSAVarData DVar = DSAStack->getTopDSA(VD, false); |
| if (DVar.CKind != OMPC_unknown && DVar.CKind != OMPC_private) { |
| Diag(ELoc, diag::err_omp_wrong_dsa) << getOpenMPClauseName(DVar.CKind) |
| << getOpenMPClauseName(OMPC_private); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| |
| // Variably modified types are not supported for tasks. |
| if (!Type->isAnyPointerType() && Type->isVariablyModifiedType() && |
| DSAStack->getCurrentDirective() == OMPD_task) { |
| Diag(ELoc, diag::err_omp_variably_modified_type_not_supported) |
| << getOpenMPClauseName(OMPC_private) << Type |
| << getOpenMPDirectiveName(DSAStack->getCurrentDirective()); |
| bool IsDecl = |
| VD->isThisDeclarationADefinition(Context) == VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| continue; |
| } |
| |
| // OpenMP [2.9.3.3, Restrictions, C/C++, p.1] |
| // A variable of class type (or array thereof) that appears in a private |
| // clause requires an accessible, unambiguous default constructor for the |
| // class type. |
| // Generate helper private variable and initialize it with the default |
| // value. The address of the original variable is replaced by the address of |
| // the new private variable in CodeGen. This new variable is not added to |
| // IdResolver, so the code in the OpenMP region uses original variable for |
| // proper diagnostics. |
| Type = Type.getUnqualifiedType(); |
| auto VDPrivate = buildVarDecl(*this, DE->getExprLoc(), Type, VD->getName(), |
| VD->hasAttrs() ? &VD->getAttrs() : nullptr); |
| ActOnUninitializedDecl(VDPrivate, /*TypeMayContainAuto=*/false); |
| if (VDPrivate->isInvalidDecl()) |
| continue; |
| auto VDPrivateRefExpr = buildDeclRefExpr( |
| *this, VDPrivate, DE->getType().getUnqualifiedType(), DE->getExprLoc()); |
| |
| DSAStack->addDSA(VD, DE, OMPC_private); |
| Vars.push_back(DE); |
| PrivateCopies.push_back(VDPrivateRefExpr); |
| } |
| |
| if (Vars.empty()) |
| return nullptr; |
| |
| return OMPPrivateClause::Create(Context, StartLoc, LParenLoc, EndLoc, Vars, |
| PrivateCopies); |
| } |
| |
| namespace { |
| class DiagsUninitializedSeveretyRAII { |
| private: |
| DiagnosticsEngine &Diags; |
| SourceLocation SavedLoc; |
| bool IsIgnored; |
| |
| public: |
| DiagsUninitializedSeveretyRAII(DiagnosticsEngine &Diags, SourceLocation Loc, |
| bool IsIgnored) |
| : Diags(Diags), SavedLoc(Loc), IsIgnored(IsIgnored) { |
| if (!IsIgnored) { |
| Diags.setSeverity(/*Diag*/ diag::warn_uninit_self_reference_in_init, |
| /*Map*/ diag::Severity::Ignored, Loc); |
| } |
| } |
| ~DiagsUninitializedSeveretyRAII() { |
| if (!IsIgnored) |
| Diags.popMappings(SavedLoc); |
| } |
| }; |
| } |
| |
| OMPClause *Sema::ActOnOpenMPFirstprivateClause(ArrayRef<Expr *> VarList, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| SmallVector<Expr *, 8> Vars; |
| SmallVector<Expr *, 8> PrivateCopies; |
| SmallVector<Expr *, 8> Inits; |
| bool IsImplicitClause = |
| StartLoc.isInvalid() && LParenLoc.isInvalid() && EndLoc.isInvalid(); |
| auto ImplicitClauseLoc = DSAStack->getConstructLoc(); |
| |
| for (auto &RefExpr : VarList) { |
| assert(RefExpr && "NULL expr in OpenMP firstprivate clause."); |
| if (isa<DependentScopeDeclRefExpr>(RefExpr)) { |
| // It will be analyzed later. |
| Vars.push_back(RefExpr); |
| PrivateCopies.push_back(nullptr); |
| Inits.push_back(nullptr); |
| continue; |
| } |
| |
| SourceLocation ELoc = |
| IsImplicitClause ? ImplicitClauseLoc : RefExpr->getExprLoc(); |
| // OpenMP [2.1, C/C++] |
| // A list item is a variable name. |
| // OpenMP [2.9.3.3, Restrictions, p.1] |
| // A variable that is part of another variable (as an array or |
| // structure element) cannot appear in a private clause. |
| DeclRefExpr *DE = dyn_cast_or_null<DeclRefExpr>(RefExpr); |
| if (!DE || !isa<VarDecl>(DE->getDecl())) { |
| Diag(ELoc, diag::err_omp_expected_var_name) << RefExpr->getSourceRange(); |
| continue; |
| } |
| Decl *D = DE->getDecl(); |
| VarDecl *VD = cast<VarDecl>(D); |
| |
| QualType Type = VD->getType(); |
| if (Type->isDependentType() || Type->isInstantiationDependentType()) { |
| // It will be analyzed later. |
| Vars.push_back(DE); |
| PrivateCopies.push_back(nullptr); |
| Inits.push_back(nullptr); |
| continue; |
| } |
| |
| // OpenMP [2.9.3.3, Restrictions, C/C++, p.3] |
| // A variable that appears in a private clause must not have an incomplete |
| // type or a reference type. |
| if (RequireCompleteType(ELoc, Type, |
| diag::err_omp_firstprivate_incomplete_type)) { |
| continue; |
| } |
| Type = Type.getNonReferenceType(); |
| |
| // OpenMP [2.9.3.4, Restrictions, C/C++, p.1] |
| // A variable of class type (or array thereof) that appears in a private |
| // clause requires an accessible, unambiguous copy constructor for the |
| // class type. |
| auto ElemType = Context.getBaseElementType(Type).getNonReferenceType(); |
| |
| // If an implicit firstprivate variable found it was checked already. |
| if (!IsImplicitClause) { |
| DSAStackTy::DSAVarData DVar = DSAStack->getTopDSA(VD, false); |
| bool IsConstant = ElemType.isConstant(Context); |
| // OpenMP [2.4.13, Data-sharing Attribute Clauses] |
| // A list item that specifies a given variable may not appear in more |
| // than one clause on the same directive, except that a variable may be |
| // specified in both firstprivate and lastprivate clauses. |
| if (DVar.CKind != OMPC_unknown && DVar.CKind != OMPC_firstprivate && |
| DVar.CKind != OMPC_lastprivate && DVar.RefExpr) { |
| Diag(ELoc, diag::err_omp_wrong_dsa) |
| << getOpenMPClauseName(DVar.CKind) |
| << getOpenMPClauseName(OMPC_firstprivate); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct] |
| // Variables with the predetermined data-sharing attributes may not be |
| // listed in data-sharing attributes clauses, except for the cases |
| // listed below. For these exceptions only, listing a predetermined |
| // variable in a data-sharing attribute clause is allowed and overrides |
| // the variable's predetermined data-sharing attributes. |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct, C/C++, p.2] |
| // Variables with const-qualified type having no mutable member may be |
| // listed in a firstprivate clause, even if they are static data members. |
| if (!(IsConstant || VD->isStaticDataMember()) && !DVar.RefExpr && |
| DVar.CKind != OMPC_unknown && DVar.CKind != OMPC_shared) { |
| Diag(ELoc, diag::err_omp_wrong_dsa) |
| << getOpenMPClauseName(DVar.CKind) |
| << getOpenMPClauseName(OMPC_firstprivate); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| |
| OpenMPDirectiveKind CurrDir = DSAStack->getCurrentDirective(); |
| // OpenMP [2.9.3.4, Restrictions, p.2] |
| // A list item that is private within a parallel region must not appear |
| // in a firstprivate clause on a worksharing construct if any of the |
| // worksharing regions arising from the worksharing construct ever bind |
| // to any of the parallel regions arising from the parallel construct. |
| if (isOpenMPWorksharingDirective(CurrDir) && |
| !isOpenMPParallelDirective(CurrDir)) { |
| DVar = DSAStack->getImplicitDSA(VD, true); |
| if (DVar.CKind != OMPC_shared && |
| (isOpenMPParallelDirective(DVar.DKind) || |
| DVar.DKind == OMPD_unknown)) { |
| Diag(ELoc, diag::err_omp_required_access) |
| << getOpenMPClauseName(OMPC_firstprivate) |
| << getOpenMPClauseName(OMPC_shared); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| } |
| // OpenMP [2.9.3.4, Restrictions, p.3] |
| // A list item that appears in a reduction clause of a parallel construct |
| // must not appear in a firstprivate clause on a worksharing or task |
| // construct if any of the worksharing or task regions arising from the |
| // worksharing or task construct ever bind to any of the parallel regions |
| // arising from the parallel construct. |
| // OpenMP [2.9.3.4, Restrictions, p.4] |
| // A list item that appears in a reduction clause in worksharing |
| // construct must not appear in a firstprivate clause in a task construct |
| // encountered during execution of any of the worksharing regions arising |
| // from the worksharing construct. |
| if (CurrDir == OMPD_task) { |
| DVar = |
| DSAStack->hasInnermostDSA(VD, MatchesAnyClause(OMPC_reduction), |
| [](OpenMPDirectiveKind K) -> bool { |
| return isOpenMPParallelDirective(K) || |
| isOpenMPWorksharingDirective(K); |
| }, |
| false); |
| if (DVar.CKind == OMPC_reduction && |
| (isOpenMPParallelDirective(DVar.DKind) || |
| isOpenMPWorksharingDirective(DVar.DKind))) { |
| Diag(ELoc, diag::err_omp_parallel_reduction_in_task_firstprivate) |
| << getOpenMPDirectiveName(DVar.DKind); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| } |
| |
| // OpenMP 4.5 [2.15.3.4, Restrictions, p.3] |
| // A list item that is private within a teams region must not appear in a |
| // firstprivate clause on a distribute construct if any of the distribute |
| // regions arising from the distribute construct ever bind to any of the |
| // teams regions arising from the teams construct. |
| // OpenMP 4.5 [2.15.3.4, Restrictions, p.3] |
| // A list item that appears in a reduction clause of a teams construct |
| // must not appear in a firstprivate clause on a distribute construct if |
| // any of the distribute regions arising from the distribute construct |
| // ever bind to any of the teams regions arising from the teams construct. |
| // OpenMP 4.5 [2.10.8, Distribute Construct, p.3] |
| // A list item may appear in a firstprivate or lastprivate clause but not |
| // both. |
| if (CurrDir == OMPD_distribute) { |
| DVar = DSAStack->hasInnermostDSA(VD, MatchesAnyClause(OMPC_private), |
| [](OpenMPDirectiveKind K) -> bool { |
| return isOpenMPTeamsDirective(K); |
| }, |
| false); |
| if (DVar.CKind == OMPC_private && isOpenMPTeamsDirective(DVar.DKind)) { |
| Diag(ELoc, diag::err_omp_firstprivate_distribute_private_teams); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| DVar = DSAStack->hasInnermostDSA(VD, MatchesAnyClause(OMPC_reduction), |
| [](OpenMPDirectiveKind K) -> bool { |
| return isOpenMPTeamsDirective(K); |
| }, |
| false); |
| if (DVar.CKind == OMPC_reduction && |
| isOpenMPTeamsDirective(DVar.DKind)) { |
| Diag(ELoc, diag::err_omp_firstprivate_distribute_in_teams_reduction); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| DVar = DSAStack->getTopDSA(VD, false); |
| if (DVar.CKind == OMPC_lastprivate) { |
| Diag(ELoc, diag::err_omp_firstprivate_and_lastprivate_in_distribute); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| } |
| } |
| |
| // Variably modified types are not supported for tasks. |
| if (!Type->isAnyPointerType() && Type->isVariablyModifiedType() && |
| DSAStack->getCurrentDirective() == OMPD_task) { |
| Diag(ELoc, diag::err_omp_variably_modified_type_not_supported) |
| << getOpenMPClauseName(OMPC_firstprivate) << Type |
| << getOpenMPDirectiveName(DSAStack->getCurrentDirective()); |
| bool IsDecl = |
| VD->isThisDeclarationADefinition(Context) == VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| continue; |
| } |
| |
| Type = Type.getUnqualifiedType(); |
| auto VDPrivate = buildVarDecl(*this, ELoc, Type, VD->getName(), |
| VD->hasAttrs() ? &VD->getAttrs() : nullptr); |
| // Generate helper private variable and initialize it with the value of the |
| // original variable. The address of the original variable is replaced by |
| // the address of the new private variable in the CodeGen. This new variable |
| // is not added to IdResolver, so the code in the OpenMP region uses |
| // original variable for proper diagnostics and variable capturing. |
| Expr *VDInitRefExpr = nullptr; |
| // For arrays generate initializer for single element and replace it by the |
| // original array element in CodeGen. |
| if (Type->isArrayType()) { |
| auto VDInit = |
| buildVarDecl(*this, DE->getExprLoc(), ElemType, VD->getName()); |
| VDInitRefExpr = buildDeclRefExpr(*this, VDInit, ElemType, ELoc); |
| auto Init = DefaultLvalueConversion(VDInitRefExpr).get(); |
| ElemType = ElemType.getUnqualifiedType(); |
| auto *VDInitTemp = buildVarDecl(*this, DE->getLocStart(), ElemType, |
| ".firstprivate.temp"); |
| InitializedEntity Entity = |
| InitializedEntity::InitializeVariable(VDInitTemp); |
| InitializationKind Kind = InitializationKind::CreateCopy(ELoc, ELoc); |
| |
| InitializationSequence InitSeq(*this, Entity, Kind, Init); |
| ExprResult Result = InitSeq.Perform(*this, Entity, Kind, Init); |
| if (Result.isInvalid()) |
| VDPrivate->setInvalidDecl(); |
| else |
| VDPrivate->setInit(Result.getAs<Expr>()); |
| // Remove temp variable declaration. |
| Context.Deallocate(VDInitTemp); |
| } else { |
| auto *VDInit = |
| buildVarDecl(*this, DE->getLocStart(), Type, ".firstprivate.temp"); |
| VDInitRefExpr = |
| buildDeclRefExpr(*this, VDInit, DE->getType(), DE->getExprLoc()); |
| AddInitializerToDecl(VDPrivate, |
| DefaultLvalueConversion(VDInitRefExpr).get(), |
| /*DirectInit=*/false, /*TypeMayContainAuto=*/false); |
| } |
| if (VDPrivate->isInvalidDecl()) { |
| if (IsImplicitClause) { |
| Diag(DE->getExprLoc(), |
| diag::note_omp_task_predetermined_firstprivate_here); |
| } |
| continue; |
| } |
| CurContext->addDecl(VDPrivate); |
| auto VDPrivateRefExpr = buildDeclRefExpr( |
| *this, VDPrivate, DE->getType().getUnqualifiedType(), DE->getExprLoc()); |
| DSAStack->addDSA(VD, DE, OMPC_firstprivate); |
| Vars.push_back(DE); |
| PrivateCopies.push_back(VDPrivateRefExpr); |
| Inits.push_back(VDInitRefExpr); |
| } |
| |
| if (Vars.empty()) |
| return nullptr; |
| |
| return OMPFirstprivateClause::Create(Context, StartLoc, LParenLoc, EndLoc, |
| Vars, PrivateCopies, Inits); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPLastprivateClause(ArrayRef<Expr *> VarList, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| SmallVector<Expr *, 8> Vars; |
| SmallVector<Expr *, 8> SrcExprs; |
| SmallVector<Expr *, 8> DstExprs; |
| SmallVector<Expr *, 8> AssignmentOps; |
| for (auto &RefExpr : VarList) { |
| assert(RefExpr && "NULL expr in OpenMP lastprivate clause."); |
| if (isa<DependentScopeDeclRefExpr>(RefExpr)) { |
| // It will be analyzed later. |
| Vars.push_back(RefExpr); |
| SrcExprs.push_back(nullptr); |
| DstExprs.push_back(nullptr); |
| AssignmentOps.push_back(nullptr); |
| continue; |
| } |
| |
| SourceLocation ELoc = RefExpr->getExprLoc(); |
| // OpenMP [2.1, C/C++] |
| // A list item is a variable name. |
| // OpenMP [2.14.3.5, Restrictions, p.1] |
| // A variable that is part of another variable (as an array or structure |
| // element) cannot appear in a lastprivate clause. |
| DeclRefExpr *DE = dyn_cast_or_null<DeclRefExpr>(RefExpr); |
| if (!DE || !isa<VarDecl>(DE->getDecl())) { |
| Diag(ELoc, diag::err_omp_expected_var_name) << RefExpr->getSourceRange(); |
| continue; |
| } |
| Decl *D = DE->getDecl(); |
| VarDecl *VD = cast<VarDecl>(D); |
| |
| QualType Type = VD->getType(); |
| if (Type->isDependentType() || Type->isInstantiationDependentType()) { |
| // It will be analyzed later. |
| Vars.push_back(DE); |
| SrcExprs.push_back(nullptr); |
| DstExprs.push_back(nullptr); |
| AssignmentOps.push_back(nullptr); |
| continue; |
| } |
| |
| // OpenMP [2.14.3.5, Restrictions, C/C++, p.2] |
| // A variable that appears in a lastprivate clause must not have an |
| // incomplete type or a reference type. |
| if (RequireCompleteType(ELoc, Type, |
| diag::err_omp_lastprivate_incomplete_type)) { |
| continue; |
| } |
| Type = Type.getNonReferenceType(); |
| |
| // OpenMP [2.14.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct] |
| // Variables with the predetermined data-sharing attributes may not be |
| // listed in data-sharing attributes clauses, except for the cases |
| // listed below. |
| DSAStackTy::DSAVarData DVar = DSAStack->getTopDSA(VD, false); |
| if (DVar.CKind != OMPC_unknown && DVar.CKind != OMPC_lastprivate && |
| DVar.CKind != OMPC_firstprivate && |
| (DVar.CKind != OMPC_private || DVar.RefExpr != nullptr)) { |
| Diag(ELoc, diag::err_omp_wrong_dsa) |
| << getOpenMPClauseName(DVar.CKind) |
| << getOpenMPClauseName(OMPC_lastprivate); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| |
| OpenMPDirectiveKind CurrDir = DSAStack->getCurrentDirective(); |
| // OpenMP [2.14.3.5, Restrictions, p.2] |
| // A list item that is private within a parallel region, or that appears in |
| // the reduction clause of a parallel construct, must not appear in a |
| // lastprivate clause on a worksharing construct if any of the corresponding |
| // worksharing regions ever binds to any of the corresponding parallel |
| // regions. |
| DSAStackTy::DSAVarData TopDVar = DVar; |
| if (isOpenMPWorksharingDirective(CurrDir) && |
| !isOpenMPParallelDirective(CurrDir)) { |
| DVar = DSAStack->getImplicitDSA(VD, true); |
| if (DVar.CKind != OMPC_shared) { |
| Diag(ELoc, diag::err_omp_required_access) |
| << getOpenMPClauseName(OMPC_lastprivate) |
| << getOpenMPClauseName(OMPC_shared); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| } |
| // OpenMP [2.14.3.5, Restrictions, C++, p.1,2] |
| // A variable of class type (or array thereof) that appears in a |
| // lastprivate clause requires an accessible, unambiguous default |
| // constructor for the class type, unless the list item is also specified |
| // in a firstprivate clause. |
| // A variable of class type (or array thereof) that appears in a |
| // lastprivate clause requires an accessible, unambiguous copy assignment |
| // operator for the class type. |
| Type = Context.getBaseElementType(Type).getNonReferenceType(); |
| auto *SrcVD = buildVarDecl(*this, DE->getLocStart(), |
| Type.getUnqualifiedType(), ".lastprivate.src", |
| VD->hasAttrs() ? &VD->getAttrs() : nullptr); |
| auto *PseudoSrcExpr = buildDeclRefExpr( |
| *this, SrcVD, Type.getUnqualifiedType(), DE->getExprLoc()); |
| auto *DstVD = |
| buildVarDecl(*this, DE->getLocStart(), Type, ".lastprivate.dst", |
| VD->hasAttrs() ? &VD->getAttrs() : nullptr); |
| auto *PseudoDstExpr = |
| buildDeclRefExpr(*this, DstVD, Type, DE->getExprLoc()); |
| // For arrays generate assignment operation for single element and replace |
| // it by the original array element in CodeGen. |
| auto AssignmentOp = BuildBinOp(/*S=*/nullptr, DE->getExprLoc(), BO_Assign, |
| PseudoDstExpr, PseudoSrcExpr); |
| if (AssignmentOp.isInvalid()) |
| continue; |
| AssignmentOp = ActOnFinishFullExpr(AssignmentOp.get(), DE->getExprLoc(), |
| /*DiscardedValue=*/true); |
| if (AssignmentOp.isInvalid()) |
| continue; |
| |
| // OpenMP 4.5 [2.10.8, Distribute Construct, p.3] |
| // A list item may appear in a firstprivate or lastprivate clause but not |
| // both. |
| if (CurrDir == OMPD_distribute) { |
| DSAStackTy::DSAVarData DVar = DSAStack->getTopDSA(VD, false); |
| if (DVar.CKind == OMPC_firstprivate) { |
| Diag(ELoc, diag::err_omp_firstprivate_and_lastprivate_in_distribute); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| } |
| |
| if (TopDVar.CKind != OMPC_firstprivate) |
| DSAStack->addDSA(VD, DE, OMPC_lastprivate); |
| Vars.push_back(DE); |
| SrcExprs.push_back(PseudoSrcExpr); |
| DstExprs.push_back(PseudoDstExpr); |
| AssignmentOps.push_back(AssignmentOp.get()); |
| } |
| |
| if (Vars.empty()) |
| return nullptr; |
| |
| return OMPLastprivateClause::Create(Context, StartLoc, LParenLoc, EndLoc, |
| Vars, SrcExprs, DstExprs, AssignmentOps); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPSharedClause(ArrayRef<Expr *> VarList, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| SmallVector<Expr *, 8> Vars; |
| for (auto &RefExpr : VarList) { |
| assert(RefExpr && "NULL expr in OpenMP shared clause."); |
| if (isa<DependentScopeDeclRefExpr>(RefExpr)) { |
| // It will be analyzed later. |
| Vars.push_back(RefExpr); |
| continue; |
| } |
| |
| SourceLocation ELoc = RefExpr->getExprLoc(); |
| // OpenMP [2.1, C/C++] |
| // A list item is a variable name. |
| // OpenMP [2.14.3.2, Restrictions, p.1] |
| // A variable that is part of another variable (as an array or structure |
| // element) cannot appear in a shared unless it is a static data member |
| // of a C++ class. |
| DeclRefExpr *DE = dyn_cast<DeclRefExpr>(RefExpr); |
| if (!DE || !isa<VarDecl>(DE->getDecl())) { |
| Diag(ELoc, diag::err_omp_expected_var_name) << RefExpr->getSourceRange(); |
| continue; |
| } |
| Decl *D = DE->getDecl(); |
| VarDecl *VD = cast<VarDecl>(D); |
| |
| QualType Type = VD->getType(); |
| if (Type->isDependentType() || Type->isInstantiationDependentType()) { |
| // It will be analyzed later. |
| Vars.push_back(DE); |
| continue; |
| } |
| |
| // OpenMP [2.9.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct] |
| // Variables with the predetermined data-sharing attributes may not be |
| // listed in data-sharing attributes clauses, except for the cases |
| // listed below. For these exceptions only, listing a predetermined |
| // variable in a data-sharing attribute clause is allowed and overrides |
| // the variable's predetermined data-sharing attributes. |
| DSAStackTy::DSAVarData DVar = DSAStack->getTopDSA(VD, false); |
| if (DVar.CKind != OMPC_unknown && DVar.CKind != OMPC_shared && |
| DVar.RefExpr) { |
| Diag(ELoc, diag::err_omp_wrong_dsa) << getOpenMPClauseName(DVar.CKind) |
| << getOpenMPClauseName(OMPC_shared); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| |
| DSAStack->addDSA(VD, DE, OMPC_shared); |
| Vars.push_back(DE); |
| } |
| |
| if (Vars.empty()) |
| return nullptr; |
| |
| return OMPSharedClause::Create(Context, StartLoc, LParenLoc, EndLoc, Vars); |
| } |
| |
| namespace { |
| class DSARefChecker : public StmtVisitor<DSARefChecker, bool> { |
| DSAStackTy *Stack; |
| |
| public: |
| bool VisitDeclRefExpr(DeclRefExpr *E) { |
| if (VarDecl *VD = dyn_cast<VarDecl>(E->getDecl())) { |
| DSAStackTy::DSAVarData DVar = Stack->getTopDSA(VD, false); |
| if (DVar.CKind == OMPC_shared && !DVar.RefExpr) |
| return false; |
| if (DVar.CKind != OMPC_unknown) |
| return true; |
| DSAStackTy::DSAVarData DVarPrivate = |
| Stack->hasDSA(VD, isOpenMPPrivate, MatchesAlways(), false); |
| if (DVarPrivate.CKind != OMPC_unknown) |
| return true; |
| return false; |
| } |
| return false; |
| } |
| bool VisitStmt(Stmt *S) { |
| for (auto Child : S->children()) { |
| if (Child && Visit(Child)) |
| return true; |
| } |
| return false; |
| } |
| explicit DSARefChecker(DSAStackTy *S) : Stack(S) {} |
| }; |
| } // namespace |
| |
| OMPClause *Sema::ActOnOpenMPReductionClause( |
| ArrayRef<Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, |
| SourceLocation ColonLoc, SourceLocation EndLoc, |
| CXXScopeSpec &ReductionIdScopeSpec, |
| const DeclarationNameInfo &ReductionId) { |
| // TODO: Allow scope specification search when 'declare reduction' is |
| // supported. |
| assert(ReductionIdScopeSpec.isEmpty() && |
| "No support for scoped reduction identifiers yet."); |
| |
| auto DN = ReductionId.getName(); |
| auto OOK = DN.getCXXOverloadedOperator(); |
| BinaryOperatorKind BOK = BO_Comma; |
| |
| // OpenMP [2.14.3.6, reduction clause] |
| // C |
| // reduction-identifier is either an identifier or one of the following |
| // operators: +, -, *, &, |, ^, && and || |
| // C++ |
| // reduction-identifier is either an id-expression or one of the following |
| // operators: +, -, *, &, |, ^, && and || |
| // FIXME: Only 'min' and 'max' identifiers are supported for now. |
| switch (OOK) { |
| case OO_Plus: |
| case OO_Minus: |
| BOK = BO_Add; |
| break; |
| case OO_Star: |
| BOK = BO_Mul; |
| break; |
| case OO_Amp: |
| BOK = BO_And; |
| break; |
| case OO_Pipe: |
| BOK = BO_Or; |
| break; |
| case OO_Caret: |
| BOK = BO_Xor; |
| break; |
| case OO_AmpAmp: |
| BOK = BO_LAnd; |
| break; |
| case OO_PipePipe: |
| BOK = BO_LOr; |
| break; |
| case OO_New: |
| case OO_Delete: |
| case OO_Array_New: |
| case OO_Array_Delete: |
| case OO_Slash: |
| case OO_Percent: |
| case OO_Tilde: |
| case OO_Exclaim: |
| case OO_Equal: |
| case OO_Less: |
| case OO_Greater: |
| case OO_LessEqual: |
| case OO_GreaterEqual: |
| case OO_PlusEqual: |
| case OO_MinusEqual: |
| case OO_StarEqual: |
| case OO_SlashEqual: |
| case OO_PercentEqual: |
| case OO_CaretEqual: |
| case OO_AmpEqual: |
| case OO_PipeEqual: |
| case OO_LessLess: |
| case OO_GreaterGreater: |
| case OO_LessLessEqual: |
| case OO_GreaterGreaterEqual: |
| case OO_EqualEqual: |
| case OO_ExclaimEqual: |
| case OO_PlusPlus: |
| case OO_MinusMinus: |
| case OO_Comma: |
| case OO_ArrowStar: |
| case OO_Arrow: |
| case OO_Call: |
| case OO_Subscript: |
| case OO_Conditional: |
| case OO_Coawait: |
| case NUM_OVERLOADED_OPERATORS: |
| llvm_unreachable("Unexpected reduction identifier"); |
| case OO_None: |
| if (auto II = DN.getAsIdentifierInfo()) { |
| if (II->isStr("max")) |
| BOK = BO_GT; |
| else if (II->isStr("min")) |
| BOK = BO_LT; |
| } |
| break; |
| } |
| SourceRange ReductionIdRange; |
| if (ReductionIdScopeSpec.isValid()) { |
| ReductionIdRange.setBegin(ReductionIdScopeSpec.getBeginLoc()); |
| } |
| ReductionIdRange.setEnd(ReductionId.getEndLoc()); |
| if (BOK == BO_Comma) { |
| // Not allowed reduction identifier is found. |
| Diag(ReductionId.getLocStart(), diag::err_omp_unknown_reduction_identifier) |
| << ReductionIdRange; |
| return nullptr; |
| } |
| |
| SmallVector<Expr *, 8> Vars; |
| SmallVector<Expr *, 8> Privates; |
| SmallVector<Expr *, 8> LHSs; |
| SmallVector<Expr *, 8> RHSs; |
| SmallVector<Expr *, 8> ReductionOps; |
| for (auto RefExpr : VarList) { |
| assert(RefExpr && "nullptr expr in OpenMP reduction clause."); |
| if (isa<DependentScopeDeclRefExpr>(RefExpr)) { |
| // It will be analyzed later. |
| Vars.push_back(RefExpr); |
| Privates.push_back(nullptr); |
| LHSs.push_back(nullptr); |
| RHSs.push_back(nullptr); |
| ReductionOps.push_back(nullptr); |
| continue; |
| } |
| |
| if (RefExpr->isTypeDependent() || RefExpr->isValueDependent() || |
| RefExpr->isInstantiationDependent() || |
| RefExpr->containsUnexpandedParameterPack()) { |
| // It will be analyzed later. |
| Vars.push_back(RefExpr); |
| Privates.push_back(nullptr); |
| LHSs.push_back(nullptr); |
| RHSs.push_back(nullptr); |
| ReductionOps.push_back(nullptr); |
| continue; |
| } |
| |
| auto ELoc = RefExpr->getExprLoc(); |
| auto ERange = RefExpr->getSourceRange(); |
| // OpenMP [2.1, C/C++] |
| // A list item is a variable or array section, subject to the restrictions |
| // specified in Section 2.4 on page 42 and in each of the sections |
| // describing clauses and directives for which a list appears. |
| // OpenMP [2.14.3.3, Restrictions, p.1] |
| // A variable that is part of another variable (as an array or |
| // structure element) cannot appear in a private clause. |
| auto *DE = dyn_cast<DeclRefExpr>(RefExpr); |
| auto *ASE = dyn_cast<ArraySubscriptExpr>(RefExpr); |
| auto *OASE = dyn_cast<OMPArraySectionExpr>(RefExpr); |
| if (!ASE && !OASE && (!DE || !isa<VarDecl>(DE->getDecl()))) { |
| Diag(ELoc, diag::err_omp_expected_var_name_or_array_item) << ERange; |
| continue; |
| } |
| QualType Type; |
| VarDecl *VD = nullptr; |
| if (DE) { |
| auto D = DE->getDecl(); |
| VD = cast<VarDecl>(D); |
| Type = VD->getType(); |
| } else if (ASE) { |
| Type = ASE->getType(); |
| auto *Base = ASE->getBase()->IgnoreParenImpCasts(); |
| while (auto *TempASE = dyn_cast<ArraySubscriptExpr>(Base)) |
| Base = TempASE->getBase()->IgnoreParenImpCasts(); |
| DE = dyn_cast<DeclRefExpr>(Base); |
| if (DE) |
| VD = dyn_cast<VarDecl>(DE->getDecl()); |
| if (!VD) { |
| Diag(Base->getExprLoc(), diag::err_omp_expected_base_var_name) |
| << 0 << Base->getSourceRange(); |
| continue; |
| } |
| } else if (OASE) { |
| auto BaseType = OMPArraySectionExpr::getBaseOriginalType(OASE->getBase()); |
| if (auto *ATy = BaseType->getAsArrayTypeUnsafe()) |
| Type = ATy->getElementType(); |
| else |
| Type = BaseType->getPointeeType(); |
| auto *Base = OASE->getBase()->IgnoreParenImpCasts(); |
| while (auto *TempOASE = dyn_cast<OMPArraySectionExpr>(Base)) |
| Base = TempOASE->getBase()->IgnoreParenImpCasts(); |
| while (auto *TempASE = dyn_cast<ArraySubscriptExpr>(Base)) |
| Base = TempASE->getBase()->IgnoreParenImpCasts(); |
| DE = dyn_cast<DeclRefExpr>(Base); |
| if (DE) |
| VD = dyn_cast<VarDecl>(DE->getDecl()); |
| if (!VD) { |
| Diag(Base->getExprLoc(), diag::err_omp_expected_base_var_name) |
| << 1 << Base->getSourceRange(); |
| continue; |
| } |
| } |
| |
| // OpenMP [2.9.3.3, Restrictions, C/C++, p.3] |
| // A variable that appears in a private clause must not have an incomplete |
| // type or a reference type. |
| if (RequireCompleteType(ELoc, Type, |
| diag::err_omp_reduction_incomplete_type)) |
| continue; |
| // OpenMP [2.14.3.6, reduction clause, Restrictions] |
| // Arrays may not appear in a reduction clause. |
| if (Type.getNonReferenceType()->isArrayType()) { |
| Diag(ELoc, diag::err_omp_reduction_type_array) << Type << ERange; |
| if (!ASE && !OASE) { |
| bool IsDecl = VD->isThisDeclarationADefinition(Context) == |
| VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| } |
| continue; |
| } |
| // OpenMP [2.14.3.6, reduction clause, Restrictions] |
| // A list item that appears in a reduction clause must not be |
| // const-qualified. |
| if (Type.getNonReferenceType().isConstant(Context)) { |
| Diag(ELoc, diag::err_omp_const_reduction_list_item) |
| << getOpenMPClauseName(OMPC_reduction) << Type << ERange; |
| if (!ASE && !OASE) { |
| bool IsDecl = VD->isThisDeclarationADefinition(Context) == |
| VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| } |
| continue; |
| } |
| // OpenMP [2.9.3.6, Restrictions, C/C++, p.4] |
| // If a list-item is a reference type then it must bind to the same object |
| // for all threads of the team. |
| if (!ASE && !OASE) { |
| VarDecl *VDDef = VD->getDefinition(); |
| if (Type->isReferenceType() && VDDef) { |
| DSARefChecker Check(DSAStack); |
| if (Check.Visit(VDDef->getInit())) { |
| Diag(ELoc, diag::err_omp_reduction_ref_type_arg) << ERange; |
| Diag(VDDef->getLocation(), diag::note_defined_here) << VDDef; |
| continue; |
| } |
| } |
| } |
| // OpenMP [2.14.3.6, reduction clause, Restrictions] |
| // The type of a list item that appears in a reduction clause must be valid |
| // for the reduction-identifier. For a max or min reduction in C, the type |
| // of the list item must be an allowed arithmetic data type: char, int, |
| // float, double, or _Bool, possibly modified with long, short, signed, or |
| // unsigned. For a max or min reduction in C++, the type of the list item |
| // must be an allowed arithmetic data type: char, wchar_t, int, float, |
| // double, or bool, possibly modified with long, short, signed, or unsigned. |
| if ((BOK == BO_GT || BOK == BO_LT) && |
| !(Type->isScalarType() || |
| (getLangOpts().CPlusPlus && Type->isArithmeticType()))) { |
| Diag(ELoc, diag::err_omp_clause_not_arithmetic_type_arg) |
| << getLangOpts().CPlusPlus; |
| if (!ASE && !OASE) { |
| bool IsDecl = VD->isThisDeclarationADefinition(Context) == |
| VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| } |
| continue; |
| } |
| if ((BOK == BO_OrAssign || BOK == BO_AndAssign || BOK == BO_XorAssign) && |
| !getLangOpts().CPlusPlus && Type->isFloatingType()) { |
| Diag(ELoc, diag::err_omp_clause_floating_type_arg); |
| if (!ASE && !OASE) { |
| bool IsDecl = VD->isThisDeclarationADefinition(Context) == |
| VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| } |
| continue; |
| } |
| // OpenMP [2.14.1.1, Data-sharing Attribute Rules for Variables Referenced |
| // in a Construct] |
| // Variables with the predetermined data-sharing attributes may not be |
| // listed in data-sharing attributes clauses, except for the cases |
| // listed below. For these exceptions only, listing a predetermined |
| // variable in a data-sharing attribute clause is allowed and overrides |
| // the variable's predetermined data-sharing attributes. |
| // OpenMP [2.14.3.6, Restrictions, p.3] |
| // Any number of reduction clauses can be specified on the directive, |
| // but a list item can appear only once in the reduction clauses for that |
| // directive. |
| DSAStackTy::DSAVarData DVar; |
| DVar = DSAStack->getTopDSA(VD, false); |
| if (DVar.CKind == OMPC_reduction) { |
| Diag(ELoc, diag::err_omp_once_referenced) |
| << getOpenMPClauseName(OMPC_reduction); |
| if (DVar.RefExpr) { |
| Diag(DVar.RefExpr->getExprLoc(), diag::note_omp_referenced); |
| } |
| } else if (DVar.CKind != OMPC_unknown) { |
| Diag(ELoc, diag::err_omp_wrong_dsa) |
| << getOpenMPClauseName(DVar.CKind) |
| << getOpenMPClauseName(OMPC_reduction); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| |
| // OpenMP [2.14.3.6, Restrictions, p.1] |
| // A list item that appears in a reduction clause of a worksharing |
| // construct must be shared in the parallel regions to which any of the |
| // worksharing regions arising from the worksharing construct bind. |
| OpenMPDirectiveKind CurrDir = DSAStack->getCurrentDirective(); |
| if (isOpenMPWorksharingDirective(CurrDir) && |
| !isOpenMPParallelDirective(CurrDir)) { |
| DVar = DSAStack->getImplicitDSA(VD, true); |
| if (DVar.CKind != OMPC_shared) { |
| Diag(ELoc, diag::err_omp_required_access) |
| << getOpenMPClauseName(OMPC_reduction) |
| << getOpenMPClauseName(OMPC_shared); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| } |
| |
| Type = Type.getNonLValueExprType(Context).getUnqualifiedType(); |
| auto *LHSVD = buildVarDecl(*this, ELoc, Type, ".reduction.lhs", |
| VD->hasAttrs() ? &VD->getAttrs() : nullptr); |
| auto *RHSVD = buildVarDecl(*this, ELoc, Type, VD->getName(), |
| VD->hasAttrs() ? &VD->getAttrs() : nullptr); |
| auto PrivateTy = Type; |
| if (OASE) { |
| // For array sections only: |
| // Create pseudo array type for private copy. The size for this array will |
| // be generated during codegen. |
| // For array subscripts or single variables Private Ty is the same as Type |
| // (type of the variable or single array element). |
| PrivateTy = Context.getVariableArrayType( |
| Type, new (Context) OpaqueValueExpr(SourceLocation(), |
| Context.getSizeType(), VK_RValue), |
| ArrayType::Normal, /*IndexTypeQuals=*/0, SourceRange()); |
| } |
| // Private copy. |
| auto *PrivateVD = buildVarDecl(*this, ELoc, PrivateTy, VD->getName(), |
| VD->hasAttrs() ? &VD->getAttrs() : nullptr); |
| // Add initializer for private variable. |
| Expr *Init = nullptr; |
| switch (BOK) { |
| case BO_Add: |
| case BO_Xor: |
| case BO_Or: |
| case BO_LOr: |
| // '+', '-', '^', '|', '||' reduction ops - initializer is '0'. |
| if (Type->isScalarType() || Type->isAnyComplexType()) { |
| Init = ActOnIntegerConstant(ELoc, /*Val=*/0).get(); |
| } |
| break; |
| case BO_Mul: |
| case BO_LAnd: |
| if (Type->isScalarType() || Type->isAnyComplexType()) { |
| // '*' and '&&' reduction ops - initializer is '1'. |
| Init = ActOnIntegerConstant(ELoc, /*Val=*/1).get(); |
| } |
| break; |
| case BO_And: { |
| // '&' reduction op - initializer is '~0'. |
| QualType OrigType = Type; |
| if (auto *ComplexTy = OrigType->getAs<ComplexType>()) { |
| Type = ComplexTy->getElementType(); |
| } |
| if (Type->isRealFloatingType()) { |
| llvm::APFloat InitValue = |
| llvm::APFloat::getAllOnesValue(Context.getTypeSize(Type), |
| /*isIEEE=*/true); |
| Init = FloatingLiteral::Create(Context, InitValue, /*isexact=*/true, |
| Type, ELoc); |
| } else if (Type->isScalarType()) { |
| auto Size = Context.getTypeSize(Type); |
| QualType IntTy = Context.getIntTypeForBitwidth(Size, /*Signed=*/0); |
| llvm::APInt InitValue = llvm::APInt::getAllOnesValue(Size); |
| Init = IntegerLiteral::Create(Context, InitValue, IntTy, ELoc); |
| } |
| if (Init && OrigType->isAnyComplexType()) { |
| // Init = 0xFFFF + 0xFFFFi; |
| auto *Im = new (Context) ImaginaryLiteral(Init, OrigType); |
| Init = CreateBuiltinBinOp(ELoc, BO_Add, Init, Im).get(); |
| } |
| Type = OrigType; |
| break; |
| } |
| case BO_LT: |
| case BO_GT: { |
| // 'min' reduction op - initializer is 'Largest representable number in |
| // the reduction list item type'. |
| // 'max' reduction op - initializer is 'Least representable number in |
| // the reduction list item type'. |
| if (Type->isIntegerType() || Type->isPointerType()) { |
| bool IsSigned = Type->hasSignedIntegerRepresentation(); |
| auto Size = Context.getTypeSize(Type); |
| QualType IntTy = |
| Context.getIntTypeForBitwidth(Size, /*Signed=*/IsSigned); |
| llvm::APInt InitValue = |
| (BOK != BO_LT) |
| ? IsSigned ? llvm::APInt::getSignedMinValue(Size) |
| : llvm::APInt::getMinValue(Size) |
| : IsSigned ? llvm::APInt::getSignedMaxValue(Size) |
| : llvm::APInt::getMaxValue(Size); |
| Init = IntegerLiteral::Create(Context, InitValue, IntTy, ELoc); |
| if (Type->isPointerType()) { |
| // Cast to pointer type. |
| auto CastExpr = BuildCStyleCastExpr( |
| SourceLocation(), Context.getTrivialTypeSourceInfo(Type, ELoc), |
| SourceLocation(), Init); |
| if (CastExpr.isInvalid()) |
| continue; |
| Init = CastExpr.get(); |
| } |
| } else if (Type->isRealFloatingType()) { |
| llvm::APFloat InitValue = llvm::APFloat::getLargest( |
| Context.getFloatTypeSemantics(Type), BOK != BO_LT); |
| Init = FloatingLiteral::Create(Context, InitValue, /*isexact=*/true, |
| Type, ELoc); |
| } |
| break; |
| } |
| case BO_PtrMemD: |
| case BO_PtrMemI: |
| case BO_MulAssign: |
| case BO_Div: |
| case BO_Rem: |
| case BO_Sub: |
| case BO_Shl: |
| case BO_Shr: |
| case BO_LE: |
| case BO_GE: |
| case BO_EQ: |
| case BO_NE: |
| case BO_AndAssign: |
| case BO_XorAssign: |
| case BO_OrAssign: |
| case BO_Assign: |
| case BO_AddAssign: |
| case BO_SubAssign: |
| case BO_DivAssign: |
| case BO_RemAssign: |
| case BO_ShlAssign: |
| case BO_ShrAssign: |
| case BO_Comma: |
| llvm_unreachable("Unexpected reduction operation"); |
| } |
| if (Init) { |
| AddInitializerToDecl(RHSVD, Init, /*DirectInit=*/false, |
| /*TypeMayContainAuto=*/false); |
| } else |
| ActOnUninitializedDecl(RHSVD, /*TypeMayContainAuto=*/false); |
| if (!RHSVD->hasInit()) { |
| Diag(ELoc, diag::err_omp_reduction_id_not_compatible) << Type |
| << ReductionIdRange; |
| if (VD) { |
| bool IsDecl = VD->isThisDeclarationADefinition(Context) == |
| VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| } |
| continue; |
| } |
| // Store initializer for single element in private copy. Will be used during |
| // codegen. |
| PrivateVD->setInit(RHSVD->getInit()); |
| PrivateVD->setInitStyle(RHSVD->getInitStyle()); |
| auto *LHSDRE = buildDeclRefExpr(*this, LHSVD, Type, ELoc); |
| auto *RHSDRE = buildDeclRefExpr(*this, RHSVD, Type, ELoc); |
| auto *PrivateDRE = buildDeclRefExpr(*this, PrivateVD, PrivateTy, ELoc); |
| ExprResult ReductionOp = |
| BuildBinOp(DSAStack->getCurScope(), ReductionId.getLocStart(), BOK, |
| LHSDRE, RHSDRE); |
| if (ReductionOp.isUsable()) { |
| if (BOK != BO_LT && BOK != BO_GT) { |
| ReductionOp = |
| BuildBinOp(DSAStack->getCurScope(), ReductionId.getLocStart(), |
| BO_Assign, LHSDRE, ReductionOp.get()); |
| } else { |
| auto *ConditionalOp = new (Context) ConditionalOperator( |
| ReductionOp.get(), SourceLocation(), LHSDRE, SourceLocation(), |
| RHSDRE, Type, VK_LValue, OK_Ordinary); |
| ReductionOp = |
| BuildBinOp(DSAStack->getCurScope(), ReductionId.getLocStart(), |
| BO_Assign, LHSDRE, ConditionalOp); |
| } |
| ReductionOp = ActOnFinishFullExpr(ReductionOp.get()); |
| } |
| if (ReductionOp.isInvalid()) |
| continue; |
| |
| DSAStack->addDSA(VD, DE, OMPC_reduction); |
| Vars.push_back(RefExpr); |
| Privates.push_back(PrivateDRE); |
| LHSs.push_back(LHSDRE); |
| RHSs.push_back(RHSDRE); |
| ReductionOps.push_back(ReductionOp.get()); |
| } |
| |
| if (Vars.empty()) |
| return nullptr; |
| |
| return OMPReductionClause::Create( |
| Context, StartLoc, LParenLoc, ColonLoc, EndLoc, Vars, |
| ReductionIdScopeSpec.getWithLocInContext(Context), ReductionId, Privates, |
| LHSs, RHSs, ReductionOps); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPLinearClause( |
| ArrayRef<Expr *> VarList, Expr *Step, SourceLocation StartLoc, |
| SourceLocation LParenLoc, OpenMPLinearClauseKind LinKind, |
| SourceLocation LinLoc, SourceLocation ColonLoc, SourceLocation EndLoc) { |
| SmallVector<Expr *, 8> Vars; |
| SmallVector<Expr *, 8> Privates; |
| SmallVector<Expr *, 8> Inits; |
| if ((!LangOpts.CPlusPlus && LinKind != OMPC_LINEAR_val) || |
| LinKind == OMPC_LINEAR_unknown) { |
| Diag(LinLoc, diag::err_omp_wrong_linear_modifier) << LangOpts.CPlusPlus; |
| LinKind = OMPC_LINEAR_val; |
| } |
| for (auto &RefExpr : VarList) { |
| assert(RefExpr && "NULL expr in OpenMP linear clause."); |
| if (isa<DependentScopeDeclRefExpr>(RefExpr)) { |
| // It will be analyzed later. |
| Vars.push_back(RefExpr); |
| Privates.push_back(nullptr); |
| Inits.push_back(nullptr); |
| continue; |
| } |
| |
| // OpenMP [2.14.3.7, linear clause] |
| // A list item that appears in a linear clause is subject to the private |
| // clause semantics described in Section 2.14.3.3 on page 159 except as |
| // noted. In addition, the value of the new list item on each iteration |
| // of the associated loop(s) corresponds to the value of the original |
| // list item before entering the construct plus the logical number of |
| // the iteration times linear-step. |
| |
| SourceLocation ELoc = RefExpr->getExprLoc(); |
| // OpenMP [2.1, C/C++] |
| // A list item is a variable name. |
| // OpenMP [2.14.3.3, Restrictions, p.1] |
| // A variable that is part of another variable (as an array or |
| // structure element) cannot appear in a private clause. |
| DeclRefExpr *DE = dyn_cast<DeclRefExpr>(RefExpr); |
| if (!DE || !isa<VarDecl>(DE->getDecl())) { |
| Diag(ELoc, diag::err_omp_expected_var_name) << RefExpr->getSourceRange(); |
| continue; |
| } |
| |
| VarDecl *VD = cast<VarDecl>(DE->getDecl()); |
| |
| // OpenMP [2.14.3.7, linear clause] |
| // A list-item cannot appear in more than one linear clause. |
| // A list-item that appears in a linear clause cannot appear in any |
| // other data-sharing attribute clause. |
| DSAStackTy::DSAVarData DVar = DSAStack->getTopDSA(VD, false); |
| if (DVar.RefExpr) { |
| Diag(ELoc, diag::err_omp_wrong_dsa) << getOpenMPClauseName(DVar.CKind) |
| << getOpenMPClauseName(OMPC_linear); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| |
| QualType QType = VD->getType(); |
| if (QType->isDependentType() || QType->isInstantiationDependentType()) { |
| // It will be analyzed later. |
| Vars.push_back(DE); |
| Privates.push_back(nullptr); |
| Inits.push_back(nullptr); |
| continue; |
| } |
| |
| // A variable must not have an incomplete type or a reference type. |
| if (RequireCompleteType(ELoc, QType, |
| diag::err_omp_linear_incomplete_type)) { |
| continue; |
| } |
| if ((LinKind == OMPC_LINEAR_uval || LinKind == OMPC_LINEAR_ref) && |
| !QType->isReferenceType()) { |
| Diag(ELoc, diag::err_omp_wrong_linear_modifier_non_reference) |
| << QType << getOpenMPSimpleClauseTypeName(OMPC_linear, LinKind); |
| continue; |
| } |
| QType = QType.getNonReferenceType(); |
| |
| // A list item must not be const-qualified. |
| if (QType.isConstant(Context)) { |
| Diag(ELoc, diag::err_omp_const_variable) |
| << getOpenMPClauseName(OMPC_linear); |
| bool IsDecl = |
| VD->isThisDeclarationADefinition(Context) == VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| continue; |
| } |
| |
| // A list item must be of integral or pointer type. |
| QType = QType.getUnqualifiedType().getCanonicalType(); |
| const Type *Ty = QType.getTypePtrOrNull(); |
| if (!Ty || (!Ty->isDependentType() && !Ty->isIntegralType(Context) && |
| !Ty->isPointerType())) { |
| Diag(ELoc, diag::err_omp_linear_expected_int_or_ptr) << QType; |
| bool IsDecl = |
| VD->isThisDeclarationADefinition(Context) == VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| continue; |
| } |
| |
| // Build private copy of original var. |
| auto *Private = buildVarDecl(*this, ELoc, QType, VD->getName(), |
| VD->hasAttrs() ? &VD->getAttrs() : nullptr); |
| auto *PrivateRef = buildDeclRefExpr( |
| *this, Private, DE->getType().getUnqualifiedType(), DE->getExprLoc()); |
| // Build var to save initial value. |
| VarDecl *Init = buildVarDecl(*this, ELoc, QType, ".linear.start"); |
| Expr *InitExpr; |
| if (LinKind == OMPC_LINEAR_uval) |
| InitExpr = VD->getInit(); |
| else |
| InitExpr = DE; |
| AddInitializerToDecl(Init, DefaultLvalueConversion(InitExpr).get(), |
| /*DirectInit*/ false, /*TypeMayContainAuto*/ false); |
| auto InitRef = buildDeclRefExpr( |
| *this, Init, DE->getType().getUnqualifiedType(), DE->getExprLoc()); |
| DSAStack->addDSA(VD, DE, OMPC_linear); |
| Vars.push_back(DE); |
| Privates.push_back(PrivateRef); |
| Inits.push_back(InitRef); |
| } |
| |
| if (Vars.empty()) |
| return nullptr; |
| |
| Expr *StepExpr = Step; |
| Expr *CalcStepExpr = nullptr; |
| if (Step && !Step->isValueDependent() && !Step->isTypeDependent() && |
| !Step->isInstantiationDependent() && |
| !Step->containsUnexpandedParameterPack()) { |
| SourceLocation StepLoc = Step->getLocStart(); |
| ExprResult Val = PerformOpenMPImplicitIntegerConversion(StepLoc, Step); |
| if (Val.isInvalid()) |
| return nullptr; |
| StepExpr = Val.get(); |
| |
| // Build var to save the step value. |
| VarDecl *SaveVar = |
| buildVarDecl(*this, StepLoc, StepExpr->getType(), ".linear.step"); |
| ExprResult SaveRef = |
| buildDeclRefExpr(*this, SaveVar, StepExpr->getType(), StepLoc); |
| ExprResult CalcStep = |
| BuildBinOp(CurScope, StepLoc, BO_Assign, SaveRef.get(), StepExpr); |
| CalcStep = ActOnFinishFullExpr(CalcStep.get()); |
| |
| // Warn about zero linear step (it would be probably better specified as |
| // making corresponding variables 'const'). |
| llvm::APSInt Result; |
| bool IsConstant = StepExpr->isIntegerConstantExpr(Result, Context); |
| if (IsConstant && !Result.isNegative() && !Result.isStrictlyPositive()) |
| Diag(StepLoc, diag::warn_omp_linear_step_zero) << Vars[0] |
| << (Vars.size() > 1); |
| if (!IsConstant && CalcStep.isUsable()) { |
| // Calculate the step beforehand instead of doing this on each iteration. |
| // (This is not used if the number of iterations may be kfold-ed). |
| CalcStepExpr = CalcStep.get(); |
| } |
| } |
| |
| return OMPLinearClause::Create(Context, StartLoc, LParenLoc, LinKind, LinLoc, |
| ColonLoc, EndLoc, Vars, Privates, Inits, |
| StepExpr, CalcStepExpr); |
| } |
| |
| static bool FinishOpenMPLinearClause(OMPLinearClause &Clause, DeclRefExpr *IV, |
| Expr *NumIterations, Sema &SemaRef, |
| Scope *S) { |
| // Walk the vars and build update/final expressions for the CodeGen. |
| SmallVector<Expr *, 8> Updates; |
| SmallVector<Expr *, 8> Finals; |
| Expr *Step = Clause.getStep(); |
| Expr *CalcStep = Clause.getCalcStep(); |
| // OpenMP [2.14.3.7, linear clause] |
| // If linear-step is not specified it is assumed to be 1. |
| if (Step == nullptr) |
| Step = SemaRef.ActOnIntegerConstant(SourceLocation(), 1).get(); |
| else if (CalcStep) |
| Step = cast<BinaryOperator>(CalcStep)->getLHS(); |
| bool HasErrors = false; |
| auto CurInit = Clause.inits().begin(); |
| auto CurPrivate = Clause.privates().begin(); |
| auto LinKind = Clause.getModifier(); |
| for (auto &RefExpr : Clause.varlists()) { |
| Expr *InitExpr = *CurInit; |
| |
| // Build privatized reference to the current linear var. |
| auto DE = cast<DeclRefExpr>(RefExpr); |
| Expr *CapturedRef; |
| if (LinKind == OMPC_LINEAR_uval) |
| CapturedRef = cast<VarDecl>(DE->getDecl())->getInit(); |
| else |
| CapturedRef = |
| buildDeclRefExpr(SemaRef, cast<VarDecl>(DE->getDecl()), |
| DE->getType().getUnqualifiedType(), DE->getExprLoc(), |
| /*RefersToCapture=*/true); |
| |
| // Build update: Var = InitExpr + IV * Step |
| ExprResult Update = |
| BuildCounterUpdate(SemaRef, S, RefExpr->getExprLoc(), *CurPrivate, |
| InitExpr, IV, Step, /* Subtract */ false); |
| Update = SemaRef.ActOnFinishFullExpr(Update.get(), DE->getLocStart(), |
| /*DiscardedValue=*/true); |
| |
| // Build final: Var = InitExpr + NumIterations * Step |
| ExprResult Final = |
| BuildCounterUpdate(SemaRef, S, RefExpr->getExprLoc(), CapturedRef, |
| InitExpr, NumIterations, Step, /* Subtract */ false); |
| Final = SemaRef.ActOnFinishFullExpr(Final.get(), DE->getLocStart(), |
| /*DiscardedValue=*/true); |
| if (!Update.isUsable() || !Final.isUsable()) { |
| Updates.push_back(nullptr); |
| Finals.push_back(nullptr); |
| HasErrors = true; |
| } else { |
| Updates.push_back(Update.get()); |
| Finals.push_back(Final.get()); |
| } |
| ++CurInit, ++CurPrivate; |
| } |
| Clause.setUpdates(Updates); |
| Clause.setFinals(Finals); |
| return HasErrors; |
| } |
| |
| OMPClause *Sema::ActOnOpenMPAlignedClause( |
| ArrayRef<Expr *> VarList, Expr *Alignment, SourceLocation StartLoc, |
| SourceLocation LParenLoc, SourceLocation ColonLoc, SourceLocation EndLoc) { |
| |
| SmallVector<Expr *, 8> Vars; |
| for (auto &RefExpr : VarList) { |
| assert(RefExpr && "NULL expr in OpenMP aligned clause."); |
| if (isa<DependentScopeDeclRefExpr>(RefExpr)) { |
| // It will be analyzed later. |
| Vars.push_back(RefExpr); |
| continue; |
| } |
| |
| SourceLocation ELoc = RefExpr->getExprLoc(); |
| // OpenMP [2.1, C/C++] |
| // A list item is a variable name. |
| DeclRefExpr *DE = dyn_cast<DeclRefExpr>(RefExpr); |
| if (!DE || !isa<VarDecl>(DE->getDecl())) { |
| Diag(ELoc, diag::err_omp_expected_var_name) << RefExpr->getSourceRange(); |
| continue; |
| } |
| |
| VarDecl *VD = cast<VarDecl>(DE->getDecl()); |
| |
| // OpenMP [2.8.1, simd construct, Restrictions] |
| // The type of list items appearing in the aligned clause must be |
| // array, pointer, reference to array, or reference to pointer. |
| QualType QType = VD->getType(); |
| QType = QType.getNonReferenceType().getUnqualifiedType().getCanonicalType(); |
| const Type *Ty = QType.getTypePtrOrNull(); |
| if (!Ty || (!Ty->isDependentType() && !Ty->isArrayType() && |
| !Ty->isPointerType())) { |
| Diag(ELoc, diag::err_omp_aligned_expected_array_or_ptr) |
| << QType << getLangOpts().CPlusPlus << RefExpr->getSourceRange(); |
| bool IsDecl = |
| VD->isThisDeclarationADefinition(Context) == VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| continue; |
| } |
| |
| // OpenMP [2.8.1, simd construct, Restrictions] |
| // A list-item cannot appear in more than one aligned clause. |
| if (DeclRefExpr *PrevRef = DSAStack->addUniqueAligned(VD, DE)) { |
| Diag(ELoc, diag::err_omp_aligned_twice) << RefExpr->getSourceRange(); |
| Diag(PrevRef->getExprLoc(), diag::note_omp_explicit_dsa) |
| << getOpenMPClauseName(OMPC_aligned); |
| continue; |
| } |
| |
| Vars.push_back(DE); |
| } |
| |
| // OpenMP [2.8.1, simd construct, Description] |
| // The parameter of the aligned clause, alignment, must be a constant |
| // positive integer expression. |
| // If no optional parameter is specified, implementation-defined default |
| // alignments for SIMD instructions on the target platforms are assumed. |
| if (Alignment != nullptr) { |
| ExprResult AlignResult = |
| VerifyPositiveIntegerConstantInClause(Alignment, OMPC_aligned); |
| if (AlignResult.isInvalid()) |
| return nullptr; |
| Alignment = AlignResult.get(); |
| } |
| if (Vars.empty()) |
| return nullptr; |
| |
| return OMPAlignedClause::Create(Context, StartLoc, LParenLoc, ColonLoc, |
| EndLoc, Vars, Alignment); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPCopyinClause(ArrayRef<Expr *> VarList, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| SmallVector<Expr *, 8> Vars; |
| SmallVector<Expr *, 8> SrcExprs; |
| SmallVector<Expr *, 8> DstExprs; |
| SmallVector<Expr *, 8> AssignmentOps; |
| for (auto &RefExpr : VarList) { |
| assert(RefExpr && "NULL expr in OpenMP copyin clause."); |
| if (isa<DependentScopeDeclRefExpr>(RefExpr)) { |
| // It will be analyzed later. |
| Vars.push_back(RefExpr); |
| SrcExprs.push_back(nullptr); |
| DstExprs.push_back(nullptr); |
| AssignmentOps.push_back(nullptr); |
| continue; |
| } |
| |
| SourceLocation ELoc = RefExpr->getExprLoc(); |
| // OpenMP [2.1, C/C++] |
| // A list item is a variable name. |
| // OpenMP [2.14.4.1, Restrictions, p.1] |
| // A list item that appears in a copyin clause must be threadprivate. |
| DeclRefExpr *DE = dyn_cast<DeclRefExpr>(RefExpr); |
| if (!DE || !isa<VarDecl>(DE->getDecl())) { |
| Diag(ELoc, diag::err_omp_expected_var_name) << RefExpr->getSourceRange(); |
| continue; |
| } |
| |
| Decl *D = DE->getDecl(); |
| VarDecl *VD = cast<VarDecl>(D); |
| |
| QualType Type = VD->getType(); |
| if (Type->isDependentType() || Type->isInstantiationDependentType()) { |
| // It will be analyzed later. |
| Vars.push_back(DE); |
| SrcExprs.push_back(nullptr); |
| DstExprs.push_back(nullptr); |
| AssignmentOps.push_back(nullptr); |
| continue; |
| } |
| |
| // OpenMP [2.14.4.1, Restrictions, C/C++, p.1] |
| // A list item that appears in a copyin clause must be threadprivate. |
| if (!DSAStack->isThreadPrivate(VD)) { |
| Diag(ELoc, diag::err_omp_required_access) |
| << getOpenMPClauseName(OMPC_copyin) |
| << getOpenMPDirectiveName(OMPD_threadprivate); |
| continue; |
| } |
| |
| // OpenMP [2.14.4.1, Restrictions, C/C++, p.2] |
| // A variable of class type (or array thereof) that appears in a |
| // copyin clause requires an accessible, unambiguous copy assignment |
| // operator for the class type. |
| auto ElemType = Context.getBaseElementType(Type).getNonReferenceType(); |
| auto *SrcVD = |
| buildVarDecl(*this, DE->getLocStart(), ElemType.getUnqualifiedType(), |
| ".copyin.src", VD->hasAttrs() ? &VD->getAttrs() : nullptr); |
| auto *PseudoSrcExpr = buildDeclRefExpr( |
| *this, SrcVD, ElemType.getUnqualifiedType(), DE->getExprLoc()); |
| auto *DstVD = |
| buildVarDecl(*this, DE->getLocStart(), ElemType, ".copyin.dst", |
| VD->hasAttrs() ? &VD->getAttrs() : nullptr); |
| auto *PseudoDstExpr = |
| buildDeclRefExpr(*this, DstVD, ElemType, DE->getExprLoc()); |
| // For arrays generate assignment operation for single element and replace |
| // it by the original array element in CodeGen. |
| auto AssignmentOp = BuildBinOp(/*S=*/nullptr, DE->getExprLoc(), BO_Assign, |
| PseudoDstExpr, PseudoSrcExpr); |
| if (AssignmentOp.isInvalid()) |
| continue; |
| AssignmentOp = ActOnFinishFullExpr(AssignmentOp.get(), DE->getExprLoc(), |
| /*DiscardedValue=*/true); |
| if (AssignmentOp.isInvalid()) |
| continue; |
| |
| DSAStack->addDSA(VD, DE, OMPC_copyin); |
| Vars.push_back(DE); |
| SrcExprs.push_back(PseudoSrcExpr); |
| DstExprs.push_back(PseudoDstExpr); |
| AssignmentOps.push_back(AssignmentOp.get()); |
| } |
| |
| if (Vars.empty()) |
| return nullptr; |
| |
| return OMPCopyinClause::Create(Context, StartLoc, LParenLoc, EndLoc, Vars, |
| SrcExprs, DstExprs, AssignmentOps); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPCopyprivateClause(ArrayRef<Expr *> VarList, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| SmallVector<Expr *, 8> Vars; |
| SmallVector<Expr *, 8> SrcExprs; |
| SmallVector<Expr *, 8> DstExprs; |
| SmallVector<Expr *, 8> AssignmentOps; |
| for (auto &RefExpr : VarList) { |
| assert(RefExpr && "NULL expr in OpenMP copyprivate clause."); |
| if (isa<DependentScopeDeclRefExpr>(RefExpr)) { |
| // It will be analyzed later. |
| Vars.push_back(RefExpr); |
| SrcExprs.push_back(nullptr); |
| DstExprs.push_back(nullptr); |
| AssignmentOps.push_back(nullptr); |
| continue; |
| } |
| |
| SourceLocation ELoc = RefExpr->getExprLoc(); |
| // OpenMP [2.1, C/C++] |
| // A list item is a variable name. |
| // OpenMP [2.14.4.1, Restrictions, p.1] |
| // A list item that appears in a copyin clause must be threadprivate. |
| DeclRefExpr *DE = dyn_cast<DeclRefExpr>(RefExpr); |
| if (!DE || !isa<VarDecl>(DE->getDecl())) { |
| Diag(ELoc, diag::err_omp_expected_var_name) << RefExpr->getSourceRange(); |
| continue; |
| } |
| |
| Decl *D = DE->getDecl(); |
| VarDecl *VD = cast<VarDecl>(D); |
| |
| QualType Type = VD->getType(); |
| if (Type->isDependentType() || Type->isInstantiationDependentType()) { |
| // It will be analyzed later. |
| Vars.push_back(DE); |
| SrcExprs.push_back(nullptr); |
| DstExprs.push_back(nullptr); |
| AssignmentOps.push_back(nullptr); |
| continue; |
| } |
| |
| // OpenMP [2.14.4.2, Restrictions, p.2] |
| // A list item that appears in a copyprivate clause may not appear in a |
| // private or firstprivate clause on the single construct. |
| if (!DSAStack->isThreadPrivate(VD)) { |
| auto DVar = DSAStack->getTopDSA(VD, false); |
| if (DVar.CKind != OMPC_unknown && DVar.CKind != OMPC_copyprivate && |
| DVar.RefExpr) { |
| Diag(ELoc, diag::err_omp_wrong_dsa) |
| << getOpenMPClauseName(DVar.CKind) |
| << getOpenMPClauseName(OMPC_copyprivate); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| |
| // OpenMP [2.11.4.2, Restrictions, p.1] |
| // All list items that appear in a copyprivate clause must be either |
| // threadprivate or private in the enclosing context. |
| if (DVar.CKind == OMPC_unknown) { |
| DVar = DSAStack->getImplicitDSA(VD, false); |
| if (DVar.CKind == OMPC_shared) { |
| Diag(ELoc, diag::err_omp_required_access) |
| << getOpenMPClauseName(OMPC_copyprivate) |
| << "threadprivate or private in the enclosing context"; |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| } |
| } |
| |
| // Variably modified types are not supported. |
| if (!Type->isAnyPointerType() && Type->isVariablyModifiedType()) { |
| Diag(ELoc, diag::err_omp_variably_modified_type_not_supported) |
| << getOpenMPClauseName(OMPC_copyprivate) << Type |
| << getOpenMPDirectiveName(DSAStack->getCurrentDirective()); |
| bool IsDecl = |
| VD->isThisDeclarationADefinition(Context) == VarDecl::DeclarationOnly; |
| Diag(VD->getLocation(), |
| IsDecl ? diag::note_previous_decl : diag::note_defined_here) |
| << VD; |
| continue; |
| } |
| |
| // OpenMP [2.14.4.1, Restrictions, C/C++, p.2] |
| // A variable of class type (or array thereof) that appears in a |
| // copyin clause requires an accessible, unambiguous copy assignment |
| // operator for the class type. |
| Type = Context.getBaseElementType(Type.getNonReferenceType()) |
| .getUnqualifiedType(); |
| auto *SrcVD = |
| buildVarDecl(*this, DE->getLocStart(), Type, ".copyprivate.src", |
| VD->hasAttrs() ? &VD->getAttrs() : nullptr); |
| auto *PseudoSrcExpr = |
| buildDeclRefExpr(*this, SrcVD, Type, DE->getExprLoc()); |
| auto *DstVD = |
| buildVarDecl(*this, DE->getLocStart(), Type, ".copyprivate.dst", |
| VD->hasAttrs() ? &VD->getAttrs() : nullptr); |
| auto *PseudoDstExpr = |
| buildDeclRefExpr(*this, DstVD, Type, DE->getExprLoc()); |
| auto AssignmentOp = BuildBinOp(/*S=*/nullptr, DE->getExprLoc(), BO_Assign, |
| PseudoDstExpr, PseudoSrcExpr); |
| if (AssignmentOp.isInvalid()) |
| continue; |
| AssignmentOp = ActOnFinishFullExpr(AssignmentOp.get(), DE->getExprLoc(), |
| /*DiscardedValue=*/true); |
| if (AssignmentOp.isInvalid()) |
| continue; |
| |
| // No need to mark vars as copyprivate, they are already threadprivate or |
| // implicitly private. |
| Vars.push_back(DE); |
| SrcExprs.push_back(PseudoSrcExpr); |
| DstExprs.push_back(PseudoDstExpr); |
| AssignmentOps.push_back(AssignmentOp.get()); |
| } |
| |
| if (Vars.empty()) |
| return nullptr; |
| |
| return OMPCopyprivateClause::Create(Context, StartLoc, LParenLoc, EndLoc, |
| Vars, SrcExprs, DstExprs, AssignmentOps); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPFlushClause(ArrayRef<Expr *> VarList, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| if (VarList.empty()) |
| return nullptr; |
| |
| return OMPFlushClause::Create(Context, StartLoc, LParenLoc, EndLoc, VarList); |
| } |
| |
| OMPClause * |
| Sema::ActOnOpenMPDependClause(OpenMPDependClauseKind DepKind, |
| SourceLocation DepLoc, SourceLocation ColonLoc, |
| ArrayRef<Expr *> VarList, SourceLocation StartLoc, |
| SourceLocation LParenLoc, SourceLocation EndLoc) { |
| if (DSAStack->getCurrentDirective() == OMPD_ordered && |
| DepKind != OMPC_DEPEND_source && DepKind != OMPC_DEPEND_sink) { |
| Diag(DepLoc, diag::err_omp_unexpected_clause_value) |
| << "'source' or 'sink'" << getOpenMPClauseName(OMPC_depend); |
| return nullptr; |
| } |
| if (DSAStack->getCurrentDirective() != OMPD_ordered && |
| (DepKind == OMPC_DEPEND_unknown || DepKind == OMPC_DEPEND_source || |
| DepKind == OMPC_DEPEND_sink)) { |
| unsigned Except[] = {OMPC_DEPEND_source, OMPC_DEPEND_sink}; |
| Diag(DepLoc, diag::err_omp_unexpected_clause_value) |
| << getListOfPossibleValues(OMPC_depend, /*First=*/0, |
| /*Last=*/OMPC_DEPEND_unknown, Except) |
| << getOpenMPClauseName(OMPC_depend); |
| return nullptr; |
| } |
| SmallVector<Expr *, 8> Vars; |
| llvm::APSInt DepCounter(/*BitWidth=*/32); |
| llvm::APSInt TotalDepCount(/*BitWidth=*/32); |
| if (DepKind == OMPC_DEPEND_sink) { |
| if (auto *OrderedCountExpr = DSAStack->getParentOrderedRegionParam()) { |
| TotalDepCount = OrderedCountExpr->EvaluateKnownConstInt(Context); |
| TotalDepCount.setIsUnsigned(/*Val=*/true); |
| } |
| } |
| if ((DepKind != OMPC_DEPEND_sink && DepKind != OMPC_DEPEND_source) || |
| DSAStack->getParentOrderedRegionParam()) { |
| for (auto &RefExpr : VarList) { |
| assert(RefExpr && "NULL expr in OpenMP shared clause."); |
| if (isa<DependentScopeDeclRefExpr>(RefExpr) || |
| (DepKind == OMPC_DEPEND_sink && CurContext->isDependentContext())) { |
| // It will be analyzed later. |
| Vars.push_back(RefExpr); |
| continue; |
| } |
| |
| SourceLocation ELoc = RefExpr->getExprLoc(); |
| auto *SimpleExpr = RefExpr->IgnoreParenCasts(); |
| if (DepKind == OMPC_DEPEND_sink) { |
| if (DepCounter >= TotalDepCount) { |
| Diag(ELoc, diag::err_omp_depend_sink_unexpected_expr); |
| continue; |
| } |
| ++DepCounter; |
| // OpenMP [2.13.9, Summary] |
| // depend(dependence-type : vec), where dependence-type is: |
| // 'sink' and where vec is the iteration vector, which has the form: |
| // x1 [+- d1], x2 [+- d2 ], . . . , xn [+- dn] |
| // where n is the value specified by the ordered clause in the loop |
| // directive, xi denotes the loop iteration variable of the i-th nested |
| // loop associated with the loop directive, and di is a constant |
| // non-negative integer. |
| SimpleExpr = SimpleExpr->IgnoreImplicit(); |
| auto *DE = dyn_cast<DeclRefExpr>(SimpleExpr); |
| if (!DE) { |
| OverloadedOperatorKind OOK = OO_None; |
| SourceLocation OOLoc; |
| Expr *LHS, *RHS; |
| if (auto *BO = dyn_cast<BinaryOperator>(SimpleExpr)) { |
| OOK = BinaryOperator::getOverloadedOperator(BO->getOpcode()); |
| OOLoc = BO->getOperatorLoc(); |
| LHS = BO->getLHS()->IgnoreParenImpCasts(); |
| RHS = BO->getRHS()->IgnoreParenImpCasts(); |
| } else if (auto *OCE = dyn_cast<CXXOperatorCallExpr>(SimpleExpr)) { |
| OOK = OCE->getOperator(); |
| OOLoc = OCE->getOperatorLoc(); |
| LHS = OCE->getArg(/*Arg=*/0)->IgnoreParenImpCasts(); |
| RHS = OCE->getArg(/*Arg=*/1)->IgnoreParenImpCasts(); |
| } else if (auto *MCE = dyn_cast<CXXMemberCallExpr>(SimpleExpr)) { |
| OOK = MCE->getMethodDecl() |
| ->getNameInfo() |
| .getName() |
| .getCXXOverloadedOperator(); |
| OOLoc = MCE->getCallee()->getExprLoc(); |
| LHS = MCE->getImplicitObjectArgument()->IgnoreParenImpCasts(); |
| RHS = MCE->getArg(/*Arg=*/0)->IgnoreParenImpCasts(); |
| } else { |
| Diag(ELoc, diag::err_omp_depend_sink_wrong_expr); |
| continue; |
| } |
| DE = dyn_cast<DeclRefExpr>(LHS); |
| if (!DE) { |
| Diag(LHS->getExprLoc(), |
| diag::err_omp_depend_sink_expected_loop_iteration) |
| << DSAStack->getParentLoopControlVariable( |
| DepCounter.getZExtValue()); |
| continue; |
| } |
| if (OOK != OO_Plus && OOK != OO_Minus) { |
| Diag(OOLoc, diag::err_omp_depend_sink_expected_plus_minus); |
| continue; |
| } |
| ExprResult Res = VerifyPositiveIntegerConstantInClause( |
| RHS, OMPC_depend, /*StrictlyPositive=*/false); |
| if (Res.isInvalid()) |
| continue; |
| } |
| auto *VD = dyn_cast<VarDecl>(DE->getDecl()); |
| if (!CurContext->isDependentContext() && |
| DSAStack->getParentOrderedRegionParam() && |
| (!VD || DepCounter != DSAStack->isParentLoopControlVariable(VD))) { |
| Diag(DE->getExprLoc(), |
| diag::err_omp_depend_sink_expected_loop_iteration) |
| << DSAStack->getParentLoopControlVariable( |
| DepCounter.getZExtValue()); |
| continue; |
| } |
| } else { |
| // OpenMP [2.11.1.1, Restrictions, p.3] |
| // A variable that is part of another variable (such as a field of a |
| // structure) but is not an array element or an array section cannot |
| // appear in a depend clause. |
| auto *DE = dyn_cast<DeclRefExpr>(SimpleExpr); |
| auto *ASE = dyn_cast<ArraySubscriptExpr>(SimpleExpr); |
| auto *OASE = dyn_cast<OMPArraySectionExpr>(SimpleExpr); |
| if (!RefExpr->IgnoreParenImpCasts()->isLValue() || |
| (!ASE && !DE && !OASE) || (DE && !isa<VarDecl>(DE->getDecl())) || |
| (ASE && !ASE->getBase()->getType()->isAnyPointerType() && |
| !ASE->getBase()->getType()->isArrayType())) { |
| Diag(ELoc, diag::err_omp_expected_var_name_or_array_item) |
| << RefExpr->getSourceRange(); |
| continue; |
| } |
| } |
| |
| Vars.push_back(RefExpr->IgnoreParenImpCasts()); |
| } |
| |
| if (!CurContext->isDependentContext() && DepKind == OMPC_DEPEND_sink && |
| TotalDepCount > VarList.size() && |
| DSAStack->getParentOrderedRegionParam()) { |
| Diag(EndLoc, diag::err_omp_depend_sink_expected_loop_iteration) |
| << DSAStack->getParentLoopControlVariable(VarList.size() + 1); |
| } |
| if (DepKind != OMPC_DEPEND_source && DepKind != OMPC_DEPEND_sink && |
| Vars.empty()) |
| return nullptr; |
| } |
| |
| return OMPDependClause::Create(Context, StartLoc, LParenLoc, EndLoc, DepKind, |
| DepLoc, ColonLoc, Vars); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPDeviceClause(Expr *Device, SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| Expr *ValExpr = Device; |
| |
| // OpenMP [2.9.1, Restrictions] |
| // The device expression must evaluate to a non-negative integer value. |
| if (!IsNonNegativeIntegerValue(ValExpr, *this, OMPC_device, |
| /*StrictlyPositive=*/false)) |
| return nullptr; |
| |
| return new (Context) OMPDeviceClause(ValExpr, StartLoc, LParenLoc, EndLoc); |
| } |
| |
| static bool IsCXXRecordForMappable(Sema &SemaRef, SourceLocation Loc, |
| DSAStackTy *Stack, CXXRecordDecl *RD) { |
| if (!RD || RD->isInvalidDecl()) |
| return true; |
| |
| if (auto *CTSD = dyn_cast<ClassTemplateSpecializationDecl>(RD)) |
| if (auto *CTD = CTSD->getSpecializedTemplate()) |
| RD = CTD->getTemplatedDecl(); |
| auto QTy = SemaRef.Context.getRecordType(RD); |
| if (RD->isDynamicClass()) { |
| SemaRef.Diag(Loc, diag::err_omp_not_mappable_type) << QTy; |
| SemaRef.Diag(RD->getLocation(), diag::note_omp_polymorphic_in_target); |
| return false; |
| } |
| auto *DC = RD; |
| bool IsCorrect = true; |
| for (auto *I : DC->decls()) { |
| if (I) { |
| if (auto *MD = dyn_cast<CXXMethodDecl>(I)) { |
| if (MD->isStatic()) { |
| SemaRef.Diag(Loc, diag::err_omp_not_mappable_type) << QTy; |
| SemaRef.Diag(MD->getLocation(), |
| diag::note_omp_static_member_in_target); |
| IsCorrect = false; |
| } |
| } else if (auto *VD = dyn_cast<VarDecl>(I)) { |
| if (VD->isStaticDataMember()) { |
| SemaRef.Diag(Loc, diag::err_omp_not_mappable_type) << QTy; |
| SemaRef.Diag(VD->getLocation(), |
| diag::note_omp_static_member_in_target); |
| IsCorrect = false; |
| } |
| } |
| } |
| } |
| |
| for (auto &I : RD->bases()) { |
| if (!IsCXXRecordForMappable(SemaRef, I.getLocStart(), Stack, |
| I.getType()->getAsCXXRecordDecl())) |
| IsCorrect = false; |
| } |
| return IsCorrect; |
| } |
| |
| static bool CheckTypeMappable(SourceLocation SL, SourceRange SR, Sema &SemaRef, |
| DSAStackTy *Stack, QualType QTy) { |
| NamedDecl *ND; |
| if (QTy->isIncompleteType(&ND)) { |
| SemaRef.Diag(SL, diag::err_incomplete_type) << QTy << SR; |
| return false; |
| } else if (CXXRecordDecl *RD = dyn_cast_or_null<CXXRecordDecl>(ND)) { |
| if (!RD->isInvalidDecl() && |
| !IsCXXRecordForMappable(SemaRef, SL, Stack, RD)) |
| return false; |
| } |
| return true; |
| } |
| |
| OMPClause *Sema::ActOnOpenMPMapClause( |
| OpenMPMapClauseKind MapTypeModifier, OpenMPMapClauseKind MapType, |
| SourceLocation MapLoc, SourceLocation ColonLoc, ArrayRef<Expr *> VarList, |
| SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) { |
| SmallVector<Expr *, 4> Vars; |
| |
| for (auto &RE : VarList) { |
| assert(RE && "Null expr in omp map"); |
| if (isa<DependentScopeDeclRefExpr>(RE)) { |
| // It will be analyzed later. |
| Vars.push_back(RE); |
| continue; |
| } |
| SourceLocation ELoc = RE->getExprLoc(); |
| |
| // OpenMP [2.14.5, Restrictions] |
| // A variable that is part of another variable (such as field of a |
| // structure) but is not an array element or an array section cannot appear |
| // in a map clause. |
| auto *VE = RE->IgnoreParenLValueCasts(); |
| |
| if (VE->isValueDependent() || VE->isTypeDependent() || |
| VE->isInstantiationDependent() || |
| VE->containsUnexpandedParameterPack()) { |
| // It will be analyzed later. |
| Vars.push_back(RE); |
| continue; |
| } |
| |
| auto *SimpleExpr = RE->IgnoreParenCasts(); |
| auto *DE = dyn_cast<DeclRefExpr>(SimpleExpr); |
| auto *ASE = dyn_cast<ArraySubscriptExpr>(SimpleExpr); |
| auto *OASE = dyn_cast<OMPArraySectionExpr>(SimpleExpr); |
| |
| if (!RE->IgnoreParenImpCasts()->isLValue() || |
| (!OASE && !ASE && !DE) || |
| (DE && !isa<VarDecl>(DE->getDecl())) || |
| (ASE && !ASE->getBase()->getType()->isAnyPointerType() && |
| !ASE->getBase()->getType()->isArrayType())) { |
| Diag(ELoc, diag::err_omp_expected_var_name_or_array_item) |
| << RE->getSourceRange(); |
| continue; |
| } |
| |
| Decl *D = nullptr; |
| if (DE) { |
| D = DE->getDecl(); |
| } else if (ASE) { |
| auto *B = ASE->getBase()->IgnoreParenCasts(); |
| D = dyn_cast<DeclRefExpr>(B)->getDecl(); |
| } else if (OASE) { |
| auto *B = OASE->getBase(); |
| D = dyn_cast<DeclRefExpr>(B)->getDecl(); |
| } |
| assert(D && "Null decl on map clause."); |
| auto *VD = cast<VarDecl>(D); |
| |
| // OpenMP [2.14.5, Restrictions, p.8] |
| // threadprivate variables cannot appear in a map clause. |
| if (DSAStack->isThreadPrivate(VD)) { |
| auto DVar = DSAStack->getTopDSA(VD, false); |
| Diag(ELoc, diag::err_omp_threadprivate_in_map); |
| ReportOriginalDSA(*this, DSAStack, VD, DVar); |
| continue; |
| } |
| |
| // OpenMP [2.14.5, Restrictions, p.2] |
| // At most one list item can be an array item derived from a given variable |
| // in map clauses of the same construct. |
| // OpenMP [2.14.5, Restrictions, p.3] |
| // List items of map clauses in the same construct must not share original |
| // storage. |
| // OpenMP [2.14.5, Restrictions, C/C++, p.2] |
| // A variable for which the type is pointer, reference to array, or |
| // reference to pointer and an array section derived from that variable |
| // must not appear as list items of map clauses of the same construct. |
| DSAStackTy::MapInfo MI = DSAStack->IsMappedInCurrentRegion(VD); |
| if (MI.RefExpr) { |
| Diag(ELoc, diag::err_omp_map_shared_storage) << ELoc; |
| Diag(MI.RefExpr->getExprLoc(), diag::note_used_here) |
| << MI.RefExpr->getSourceRange(); |
| continue; |
| } |
| |
| // OpenMP [2.14.5, Restrictions, C/C++, p.3,4] |
| // A variable for which the type is pointer, reference to array, or |
| // reference to pointer must not appear as a list item if the enclosing |
| // device data environment already contains an array section derived from |
| // that variable. |
| // An array section derived from a variable for which the type is pointer, |
| // reference to array, or reference to pointer must not appear as a list |
| // item if the enclosing device data environment already contains that |
| // variable. |
| QualType Type = VD->getType(); |
| MI = DSAStack->getMapInfoForVar(VD); |
| if (MI.RefExpr && (isa<DeclRefExpr>(MI.RefExpr->IgnoreParenLValueCasts()) != |
| isa<DeclRefExpr>(VE)) && |
| (Type->isPointerType() || Type->isReferenceType())) { |
| Diag(ELoc, diag::err_omp_map_shared_storage) << ELoc; |
| Diag(MI.RefExpr->getExprLoc(), diag::note_used_here) |
| << MI.RefExpr->getSourceRange(); |
| continue; |
| } |
| |
| // OpenMP [2.14.5, Restrictions, C/C++, p.7] |
| // A list item must have a mappable type. |
| if (!CheckTypeMappable(VE->getExprLoc(), VE->getSourceRange(), *this, |
| DSAStack, Type)) |
| continue; |
| |
| Vars.push_back(RE); |
| MI.RefExpr = RE; |
| DSAStack->addMapInfoForVar(VD, MI); |
| } |
| if (Vars.empty()) |
| return nullptr; |
| |
| return OMPMapClause::Create(Context, StartLoc, LParenLoc, EndLoc, Vars, |
| MapTypeModifier, MapType, MapLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPNumTeamsClause(Expr *NumTeams, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| Expr *ValExpr = NumTeams; |
| |
| // OpenMP [teams Constrcut, Restrictions] |
| // The num_teams expression must evaluate to a positive integer value. |
| if (!IsNonNegativeIntegerValue(ValExpr, *this, OMPC_num_teams, |
| /*StrictlyPositive=*/true)) |
| return nullptr; |
| |
| return new (Context) OMPNumTeamsClause(ValExpr, StartLoc, LParenLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPThreadLimitClause(Expr *ThreadLimit, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| Expr *ValExpr = ThreadLimit; |
| |
| // OpenMP [teams Constrcut, Restrictions] |
| // The thread_limit expression must evaluate to a positive integer value. |
| if (!IsNonNegativeIntegerValue(ValExpr, *this, OMPC_thread_limit, |
| /*StrictlyPositive=*/true)) |
| return nullptr; |
| |
| return new (Context) OMPThreadLimitClause(ValExpr, StartLoc, LParenLoc, |
| EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPPriorityClause(Expr *Priority, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| Expr *ValExpr = Priority; |
| |
| // OpenMP [2.9.1, task Constrcut] |
| // The priority-value is a non-negative numerical scalar expression. |
| if (!IsNonNegativeIntegerValue(ValExpr, *this, OMPC_priority, |
| /*StrictlyPositive=*/false)) |
| return nullptr; |
| |
| return new (Context) OMPPriorityClause(ValExpr, StartLoc, LParenLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPGrainsizeClause(Expr *Grainsize, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| Expr *ValExpr = Grainsize; |
| |
| // OpenMP [2.9.2, taskloop Constrcut] |
| // The parameter of the grainsize clause must be a positive integer |
| // expression. |
| if (!IsNonNegativeIntegerValue(ValExpr, *this, OMPC_grainsize, |
| /*StrictlyPositive=*/true)) |
| return nullptr; |
| |
| return new (Context) OMPGrainsizeClause(ValExpr, StartLoc, LParenLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPNumTasksClause(Expr *NumTasks, |
| SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| Expr *ValExpr = NumTasks; |
| |
| // OpenMP [2.9.2, taskloop Constrcut] |
| // The parameter of the num_tasks clause must be a positive integer |
| // expression. |
| if (!IsNonNegativeIntegerValue(ValExpr, *this, OMPC_num_tasks, |
| /*StrictlyPositive=*/true)) |
| return nullptr; |
| |
| return new (Context) OMPNumTasksClause(ValExpr, StartLoc, LParenLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPHintClause(Expr *Hint, SourceLocation StartLoc, |
| SourceLocation LParenLoc, |
| SourceLocation EndLoc) { |
| // OpenMP [2.13.2, critical construct, Description] |
| // ... where hint-expression is an integer constant expression that evaluates |
| // to a valid lock hint. |
| ExprResult HintExpr = VerifyPositiveIntegerConstantInClause(Hint, OMPC_hint); |
| if (HintExpr.isInvalid()) |
| return nullptr; |
| return new (Context) |
| OMPHintClause(HintExpr.get(), StartLoc, LParenLoc, EndLoc); |
| } |
| |
| OMPClause *Sema::ActOnOpenMPDistScheduleClause( |
| OpenMPDistScheduleClauseKind Kind, Expr *ChunkSize, SourceLocation StartLoc, |
| SourceLocation LParenLoc, SourceLocation KindLoc, SourceLocation CommaLoc, |
| SourceLocation EndLoc) { |
| if (Kind == OMPC_DIST_SCHEDULE_unknown) { |
| std::string Values; |
| Values += "'"; |
| Values += getOpenMPSimpleClauseTypeName(OMPC_dist_schedule, 0); |
| Values += "'"; |
| Diag(KindLoc, diag::err_omp_unexpected_clause_value) |
| << Values << getOpenMPClauseName(OMPC_dist_schedule); |
| return nullptr; |
| } |
| Expr *ValExpr = ChunkSize; |
| Expr *HelperValExpr = nullptr; |
| if (ChunkSize) { |
| if (!ChunkSize->isValueDependent() && !ChunkSize->isTypeDependent() && |
| !ChunkSize->isInstantiationDependent() && |
| !ChunkSize->containsUnexpandedParameterPack()) { |
| SourceLocation ChunkSizeLoc = ChunkSize->getLocStart(); |
| ExprResult Val = |
| PerformOpenMPImplicitIntegerConversion(ChunkSizeLoc, ChunkSize); |
| if (Val.isInvalid()) |
| return nullptr; |
| |
| ValExpr = Val.get(); |
| |
| // OpenMP [2.7.1, Restrictions] |
| // chunk_size must be a loop invariant integer expression with a positive |
| // value. |
| llvm::APSInt Result; |
| if (ValExpr->isIntegerConstantExpr(Result, Context)) { |
| if (Result.isSigned() && !Result.isStrictlyPositive()) { |
| Diag(ChunkSizeLoc, diag::err_omp_negative_expression_in_clause) |
| << "dist_schedule" << ChunkSize->getSourceRange(); |
| return nullptr; |
| } |
| } else if (isParallelOrTaskRegion(DSAStack->getCurrentDirective())) { |
| auto *ImpVar = buildVarDecl(*this, ChunkSize->getExprLoc(), |
| ChunkSize->getType(), ".chunk."); |
| auto *ImpVarRef = buildDeclRefExpr(*this, ImpVar, ChunkSize->getType(), |
| ChunkSize->getExprLoc(), |
| /*RefersToCapture=*/true); |
| HelperValExpr = ImpVarRef; |
| } |
| } |
| } |
| |
| return new (Context) |
| OMPDistScheduleClause(StartLoc, LParenLoc, KindLoc, CommaLoc, EndLoc, |
| Kind, ValExpr, HelperValExpr); |
| } |