//===- OpenMPClause.h - Classes for OpenMP clauses --------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // /// \file /// This file defines OpenMP AST classes for clauses. /// There are clauses for executable directives, clauses for declarative /// directives and clauses which can be used in both kinds of directives. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_AST_OPENMPCLAUSE_H #define LLVM_CLANG_AST_OPENMPCLAUSE_H #include "clang/AST/Decl.h" #include "clang/AST/DeclarationName.h" #include "clang/AST/Expr.h" #include "clang/AST/NestedNameSpecifier.h" #include "clang/AST/Stmt.h" #include "clang/AST/StmtIterator.h" #include "clang/Basic/LLVM.h" #include "clang/Basic/OpenMPKinds.h" #include "clang/Basic/SourceLocation.h" #include "llvm/ADT/ArrayRef.h" #include "llvm/ADT/MapVector.h" #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/iterator.h" #include "llvm/ADT/iterator_range.h" #include "llvm/Support/Casting.h" #include "llvm/Support/Compiler.h" #include "llvm/Support/TrailingObjects.h" #include #include #include #include namespace clang { class ASTContext; //===----------------------------------------------------------------------===// // AST classes for clauses. //===----------------------------------------------------------------------===// /// This is a basic class for representing single OpenMP clause. class OMPClause { /// Starting location of the clause (the clause keyword). SourceLocation StartLoc; /// Ending location of the clause. SourceLocation EndLoc; /// Kind of the clause. OpenMPClauseKind Kind; protected: OMPClause(OpenMPClauseKind K, SourceLocation StartLoc, SourceLocation EndLoc) : StartLoc(StartLoc), EndLoc(EndLoc), Kind(K) {} public: /// Returns the starting location of the clause. SourceLocation getBeginLoc() const { return StartLoc; } /// Returns the ending location of the clause. SourceLocation getEndLoc() const { return EndLoc; } /// Sets the starting location of the clause. void setLocStart(SourceLocation Loc) { StartLoc = Loc; } /// Sets the ending location of the clause. void setLocEnd(SourceLocation Loc) { EndLoc = Loc; } /// Returns kind of OpenMP clause (private, shared, reduction, etc.). OpenMPClauseKind getClauseKind() const { return Kind; } bool isImplicit() const { return StartLoc.isInvalid(); } using child_iterator = StmtIterator; using const_child_iterator = ConstStmtIterator; using child_range = llvm::iterator_range; using const_child_range = llvm::iterator_range; child_range children(); const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } /// Get the iterator range for the expressions used in the clauses. Used /// expressions include only the children that must be evaluated at the /// runtime before entering the construct. child_range used_children(); const_child_range used_children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } static bool classof(const OMPClause *) { return true; } }; /// Class that handles pre-initialization statement for some clauses, like /// 'shedule', 'firstprivate' etc. class OMPClauseWithPreInit { friend class OMPClauseReader; /// Pre-initialization statement for the clause. Stmt *PreInit = nullptr; /// Region that captures the associated stmt. OpenMPDirectiveKind CaptureRegion = OMPD_unknown; protected: OMPClauseWithPreInit(const OMPClause *This) { assert(get(This) && "get is not tuned for pre-init."); } /// Set pre-initialization statement for the clause. void setPreInitStmt(Stmt *S, OpenMPDirectiveKind ThisRegion = OMPD_unknown) { PreInit = S; CaptureRegion = ThisRegion; } public: /// Get pre-initialization statement for the clause. const Stmt *getPreInitStmt() const { return PreInit; } /// Get pre-initialization statement for the clause. Stmt *getPreInitStmt() { return PreInit; } /// Get capture region for the stmt in the clause. OpenMPDirectiveKind getCaptureRegion() const { return CaptureRegion; } static OMPClauseWithPreInit *get(OMPClause *C); static const OMPClauseWithPreInit *get(const OMPClause *C); }; /// Class that handles post-update expression for some clauses, like /// 'lastprivate', 'reduction' etc. class OMPClauseWithPostUpdate : public OMPClauseWithPreInit { friend class OMPClauseReader; /// Post-update expression for the clause. Expr *PostUpdate = nullptr; protected: OMPClauseWithPostUpdate(const OMPClause *This) : OMPClauseWithPreInit(This) { assert(get(This) && "get is not tuned for post-update."); } /// Set pre-initialization statement for the clause. void setPostUpdateExpr(Expr *S) { PostUpdate = S; } public: /// Get post-update expression for the clause. const Expr *getPostUpdateExpr() const { return PostUpdate; } /// Get post-update expression for the clause. Expr *getPostUpdateExpr() { return PostUpdate; } static OMPClauseWithPostUpdate *get(OMPClause *C); static const OMPClauseWithPostUpdate *get(const OMPClause *C); }; /// This structure contains most locations needed for by an OMPVarListClause. struct OMPVarListLocTy { /// Starting location of the clause (the clause keyword). SourceLocation StartLoc; /// Location of '('. SourceLocation LParenLoc; /// Ending location of the clause. SourceLocation EndLoc; OMPVarListLocTy() = default; OMPVarListLocTy(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : StartLoc(StartLoc), LParenLoc(LParenLoc), EndLoc(EndLoc) {} }; /// This represents clauses with the list of variables like 'private', /// 'firstprivate', 'copyin', 'shared', or 'reduction' clauses in the /// '#pragma omp ...' directives. template class OMPVarListClause : public OMPClause { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// Number of variables in the list. unsigned NumVars; protected: /// Build a clause with \a N variables /// /// \param K Kind of the clause. /// \param StartLoc Starting location of the clause (the clause keyword). /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param N Number of the variables in the clause. OMPVarListClause(OpenMPClauseKind K, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, unsigned N) : OMPClause(K, StartLoc, EndLoc), LParenLoc(LParenLoc), NumVars(N) {} /// Fetches list of variables associated with this clause. MutableArrayRef getVarRefs() { return MutableArrayRef( static_cast(this)->template getTrailingObjects(), NumVars); } /// Sets the list of variables for this clause. void setVarRefs(ArrayRef VL) { assert(VL.size() == NumVars && "Number of variables is not the same as the preallocated buffer"); std::copy(VL.begin(), VL.end(), static_cast(this)->template getTrailingObjects()); } public: using varlist_iterator = MutableArrayRef::iterator; using varlist_const_iterator = ArrayRef::iterator; using varlist_range = llvm::iterator_range; using varlist_const_range = llvm::iterator_range; unsigned varlist_size() const { return NumVars; } bool varlist_empty() const { return NumVars == 0; } varlist_range varlists() { return varlist_range(varlist_begin(), varlist_end()); } varlist_const_range varlists() const { return varlist_const_range(varlist_begin(), varlist_end()); } varlist_iterator varlist_begin() { return getVarRefs().begin(); } varlist_iterator varlist_end() { return getVarRefs().end(); } varlist_const_iterator varlist_begin() const { return getVarRefs().begin(); } varlist_const_iterator varlist_end() const { return getVarRefs().end(); } /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Fetches list of all variables in the clause. ArrayRef getVarRefs() const { return llvm::makeArrayRef( static_cast(this)->template getTrailingObjects(), NumVars); } }; /// This represents 'allocator' clause in the '#pragma omp ...' /// directive. /// /// \code /// #pragma omp allocate(a) allocator(omp_default_mem_alloc) /// \endcode /// In this example directive '#pragma omp allocate' has simple 'allocator' /// clause with the allocator 'omp_default_mem_alloc'. class OMPAllocatorClause : public OMPClause { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// Expression with the allocator. Stmt *Allocator = nullptr; /// Set allocator. void setAllocator(Expr *A) { Allocator = A; } public: /// Build 'allocator' clause with the given allocator. /// /// \param A Allocator. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. OMPAllocatorClause(Expr *A, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_allocator, StartLoc, EndLoc), LParenLoc(LParenLoc), Allocator(A) {} /// Build an empty clause. OMPAllocatorClause() : OMPClause(OMPC_allocator, SourceLocation(), SourceLocation()) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Returns allocator. Expr *getAllocator() const { return cast_or_null(Allocator); } child_range children() { return child_range(&Allocator, &Allocator + 1); } const_child_range children() const { return const_child_range(&Allocator, &Allocator + 1); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_allocator; } }; /// This represents clause 'allocate' in the '#pragma omp ...' directives. /// /// \code /// #pragma omp parallel private(a) allocate(omp_default_mem_alloc :a) /// \endcode /// In this example directive '#pragma omp parallel' has clause 'private' /// and clause 'allocate' for the variable 'a'. class OMPAllocateClause final : public OMPVarListClause, private llvm::TrailingObjects { friend class OMPClauseReader; friend OMPVarListClause; friend TrailingObjects; /// Allocator specified in the clause, or 'nullptr' if the default one is /// used. Expr *Allocator = nullptr; /// Position of the ':' delimiter in the clause; SourceLocation ColonLoc; /// Build clause with number of variables \a N. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param Allocator Allocator expression. /// \param ColonLoc Location of ':' delimiter. /// \param EndLoc Ending location of the clause. /// \param N Number of the variables in the clause. OMPAllocateClause(SourceLocation StartLoc, SourceLocation LParenLoc, Expr *Allocator, SourceLocation ColonLoc, SourceLocation EndLoc, unsigned N) : OMPVarListClause(OMPC_allocate, StartLoc, LParenLoc, EndLoc, N), Allocator(Allocator), ColonLoc(ColonLoc) {} /// Build an empty clause. /// /// \param N Number of variables. explicit OMPAllocateClause(unsigned N) : OMPVarListClause(OMPC_allocate, SourceLocation(), SourceLocation(), SourceLocation(), N) {} /// Sets location of ':' symbol in clause. void setColonLoc(SourceLocation CL) { ColonLoc = CL; } void setAllocator(Expr *A) { Allocator = A; } public: /// Creates clause with a list of variables \a VL. /// /// \param C AST context. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param Allocator Allocator expression. /// \param ColonLoc Location of ':' delimiter. /// \param EndLoc Ending location of the clause. /// \param VL List of references to the variables. static OMPAllocateClause *Create(const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc, Expr *Allocator, SourceLocation ColonLoc, SourceLocation EndLoc, ArrayRef VL); /// Returns the allocator expression or nullptr, if no allocator is specified. Expr *getAllocator() const { return Allocator; } /// Returns the location of the ':' delimiter. SourceLocation getColonLoc() const { return ColonLoc; } /// Creates an empty clause with the place for \a N variables. /// /// \param C AST context. /// \param N The number of variables. static OMPAllocateClause *CreateEmpty(const ASTContext &C, unsigned N); child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_allocate; } }; /// This represents 'if' clause in the '#pragma omp ...' directive. /// /// \code /// #pragma omp parallel if(parallel:a > 5) /// \endcode /// In this example directive '#pragma omp parallel' has simple 'if' clause with /// condition 'a > 5' and directive name modifier 'parallel'. class OMPIfClause : public OMPClause, public OMPClauseWithPreInit { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// Condition of the 'if' clause. Stmt *Condition = nullptr; /// Location of ':' (if any). SourceLocation ColonLoc; /// Directive name modifier for the clause. OpenMPDirectiveKind NameModifier = OMPD_unknown; /// Name modifier location. SourceLocation NameModifierLoc; /// Set condition. void setCondition(Expr *Cond) { Condition = Cond; } /// Set directive name modifier for the clause. void setNameModifier(OpenMPDirectiveKind NM) { NameModifier = NM; } /// Set location of directive name modifier for the clause. void setNameModifierLoc(SourceLocation Loc) { NameModifierLoc = Loc; } /// Set location of ':'. void setColonLoc(SourceLocation Loc) { ColonLoc = Loc; } public: /// Build 'if' clause with condition \a Cond. /// /// \param NameModifier [OpenMP 4.1] Directive name modifier of clause. /// \param Cond Condition of the clause. /// \param HelperCond Helper condition for the clause. /// \param CaptureRegion Innermost OpenMP region where expressions in this /// clause must be captured. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param NameModifierLoc Location of directive name modifier. /// \param ColonLoc [OpenMP 4.1] Location of ':'. /// \param EndLoc Ending location of the clause. OMPIfClause(OpenMPDirectiveKind NameModifier, Expr *Cond, Stmt *HelperCond, OpenMPDirectiveKind CaptureRegion, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation NameModifierLoc, SourceLocation ColonLoc, SourceLocation EndLoc) : OMPClause(OMPC_if, StartLoc, EndLoc), OMPClauseWithPreInit(this), LParenLoc(LParenLoc), Condition(Cond), ColonLoc(ColonLoc), NameModifier(NameModifier), NameModifierLoc(NameModifierLoc) { setPreInitStmt(HelperCond, CaptureRegion); } /// Build an empty clause. OMPIfClause() : OMPClause(OMPC_if, SourceLocation(), SourceLocation()), OMPClauseWithPreInit(this) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Return the location of ':'. SourceLocation getColonLoc() const { return ColonLoc; } /// Returns condition. Expr *getCondition() const { return cast_or_null(Condition); } /// Return directive name modifier associated with the clause. OpenMPDirectiveKind getNameModifier() const { return NameModifier; } /// Return the location of directive name modifier. SourceLocation getNameModifierLoc() const { return NameModifierLoc; } child_range children() { return child_range(&Condition, &Condition + 1); } const_child_range children() const { return const_child_range(&Condition, &Condition + 1); } child_range used_children(); const_child_range used_children() const { auto Children = const_cast(this)->used_children(); return const_child_range(Children.begin(), Children.end()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_if; } }; /// This represents 'final' clause in the '#pragma omp ...' directive. /// /// \code /// #pragma omp task final(a > 5) /// \endcode /// In this example directive '#pragma omp task' has simple 'final' /// clause with condition 'a > 5'. class OMPFinalClause : public OMPClause, public OMPClauseWithPreInit { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// Condition of the 'if' clause. Stmt *Condition = nullptr; /// Set condition. void setCondition(Expr *Cond) { Condition = Cond; } public: /// Build 'final' clause with condition \a Cond. /// /// \param Cond Condition of the clause. /// \param HelperCond Helper condition for the construct. /// \param CaptureRegion Innermost OpenMP region where expressions in this /// clause must be captured. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. OMPFinalClause(Expr *Cond, Stmt *HelperCond, OpenMPDirectiveKind CaptureRegion, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_final, StartLoc, EndLoc), OMPClauseWithPreInit(this), LParenLoc(LParenLoc), Condition(Cond) { setPreInitStmt(HelperCond, CaptureRegion); } /// Build an empty clause. OMPFinalClause() : OMPClause(OMPC_final, SourceLocation(), SourceLocation()), OMPClauseWithPreInit(this) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Returns condition. Expr *getCondition() const { return cast_or_null(Condition); } child_range children() { return child_range(&Condition, &Condition + 1); } const_child_range children() const { return const_child_range(&Condition, &Condition + 1); } child_range used_children(); const_child_range used_children() const { auto Children = const_cast(this)->used_children(); return const_child_range(Children.begin(), Children.end()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_final; } }; /// This represents 'num_threads' clause in the '#pragma omp ...' /// directive. /// /// \code /// #pragma omp parallel num_threads(6) /// \endcode /// In this example directive '#pragma omp parallel' has simple 'num_threads' /// clause with number of threads '6'. class OMPNumThreadsClause : public OMPClause, public OMPClauseWithPreInit { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// Condition of the 'num_threads' clause. Stmt *NumThreads = nullptr; /// Set condition. void setNumThreads(Expr *NThreads) { NumThreads = NThreads; } public: /// Build 'num_threads' clause with condition \a NumThreads. /// /// \param NumThreads Number of threads for the construct. /// \param HelperNumThreads Helper Number of threads for the construct. /// \param CaptureRegion Innermost OpenMP region where expressions in this /// clause must be captured. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. OMPNumThreadsClause(Expr *NumThreads, Stmt *HelperNumThreads, OpenMPDirectiveKind CaptureRegion, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_num_threads, StartLoc, EndLoc), OMPClauseWithPreInit(this), LParenLoc(LParenLoc), NumThreads(NumThreads) { setPreInitStmt(HelperNumThreads, CaptureRegion); } /// Build an empty clause. OMPNumThreadsClause() : OMPClause(OMPC_num_threads, SourceLocation(), SourceLocation()), OMPClauseWithPreInit(this) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Returns number of threads. Expr *getNumThreads() const { return cast_or_null(NumThreads); } child_range children() { return child_range(&NumThreads, &NumThreads + 1); } const_child_range children() const { return const_child_range(&NumThreads, &NumThreads + 1); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_num_threads; } }; /// This represents 'safelen' clause in the '#pragma omp ...' /// directive. /// /// \code /// #pragma omp simd safelen(4) /// \endcode /// In this example directive '#pragma omp simd' has clause 'safelen' /// with single expression '4'. /// If the safelen clause is used then no two iterations executed /// concurrently with SIMD instructions can have a greater distance /// in the logical iteration space than its value. The parameter of /// the safelen clause must be a constant positive integer expression. class OMPSafelenClause : public OMPClause { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// Safe iteration space distance. Stmt *Safelen = nullptr; /// Set safelen. void setSafelen(Expr *Len) { Safelen = Len; } public: /// Build 'safelen' clause. /// /// \param Len Expression associated with this clause. /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPSafelenClause(Expr *Len, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_safelen, StartLoc, EndLoc), LParenLoc(LParenLoc), Safelen(Len) {} /// Build an empty clause. explicit OMPSafelenClause() : OMPClause(OMPC_safelen, SourceLocation(), SourceLocation()) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Return safe iteration space distance. Expr *getSafelen() const { return cast_or_null(Safelen); } child_range children() { return child_range(&Safelen, &Safelen + 1); } const_child_range children() const { return const_child_range(&Safelen, &Safelen + 1); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_safelen; } }; /// This represents 'simdlen' clause in the '#pragma omp ...' /// directive. /// /// \code /// #pragma omp simd simdlen(4) /// \endcode /// In this example directive '#pragma omp simd' has clause 'simdlen' /// with single expression '4'. /// If the 'simdlen' clause is used then it specifies the preferred number of /// iterations to be executed concurrently. The parameter of the 'simdlen' /// clause must be a constant positive integer expression. class OMPSimdlenClause : public OMPClause { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// Safe iteration space distance. Stmt *Simdlen = nullptr; /// Set simdlen. void setSimdlen(Expr *Len) { Simdlen = Len; } public: /// Build 'simdlen' clause. /// /// \param Len Expression associated with this clause. /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPSimdlenClause(Expr *Len, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_simdlen, StartLoc, EndLoc), LParenLoc(LParenLoc), Simdlen(Len) {} /// Build an empty clause. explicit OMPSimdlenClause() : OMPClause(OMPC_simdlen, SourceLocation(), SourceLocation()) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Return safe iteration space distance. Expr *getSimdlen() const { return cast_or_null(Simdlen); } child_range children() { return child_range(&Simdlen, &Simdlen + 1); } const_child_range children() const { return const_child_range(&Simdlen, &Simdlen + 1); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_simdlen; } }; /// This represents 'collapse' clause in the '#pragma omp ...' /// directive. /// /// \code /// #pragma omp simd collapse(3) /// \endcode /// In this example directive '#pragma omp simd' has clause 'collapse' /// with single expression '3'. /// The parameter must be a constant positive integer expression, it specifies /// the number of nested loops that should be collapsed into a single iteration /// space. class OMPCollapseClause : public OMPClause { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// Number of for-loops. Stmt *NumForLoops = nullptr; /// Set the number of associated for-loops. void setNumForLoops(Expr *Num) { NumForLoops = Num; } public: /// Build 'collapse' clause. /// /// \param Num Expression associated with this clause. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. OMPCollapseClause(Expr *Num, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_collapse, StartLoc, EndLoc), LParenLoc(LParenLoc), NumForLoops(Num) {} /// Build an empty clause. explicit OMPCollapseClause() : OMPClause(OMPC_collapse, SourceLocation(), SourceLocation()) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Return the number of associated for-loops. Expr *getNumForLoops() const { return cast_or_null(NumForLoops); } child_range children() { return child_range(&NumForLoops, &NumForLoops + 1); } const_child_range children() const { return const_child_range(&NumForLoops, &NumForLoops + 1); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_collapse; } }; /// This represents 'default' clause in the '#pragma omp ...' directive. /// /// \code /// #pragma omp parallel default(shared) /// \endcode /// In this example directive '#pragma omp parallel' has simple 'default' /// clause with kind 'shared'. class OMPDefaultClause : public OMPClause { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// A kind of the 'default' clause. OpenMPDefaultClauseKind Kind = OMPC_DEFAULT_unknown; /// Start location of the kind in source code. SourceLocation KindKwLoc; /// Set kind of the clauses. /// /// \param K Argument of clause. void setDefaultKind(OpenMPDefaultClauseKind K) { Kind = K; } /// Set argument location. /// /// \param KLoc Argument location. void setDefaultKindKwLoc(SourceLocation KLoc) { KindKwLoc = KLoc; } public: /// Build 'default' clause with argument \a A ('none' or 'shared'). /// /// \param A Argument of the clause ('none' or 'shared'). /// \param ALoc Starting location of the argument. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. OMPDefaultClause(OpenMPDefaultClauseKind A, SourceLocation ALoc, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_default, StartLoc, EndLoc), LParenLoc(LParenLoc), Kind(A), KindKwLoc(ALoc) {} /// Build an empty clause. OMPDefaultClause() : OMPClause(OMPC_default, SourceLocation(), SourceLocation()) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Returns kind of the clause. OpenMPDefaultClauseKind getDefaultKind() const { return Kind; } /// Returns location of clause kind. SourceLocation getDefaultKindKwLoc() const { return KindKwLoc; } child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_default; } }; /// This represents 'proc_bind' clause in the '#pragma omp ...' /// directive. /// /// \code /// #pragma omp parallel proc_bind(master) /// \endcode /// In this example directive '#pragma omp parallel' has simple 'proc_bind' /// clause with kind 'master'. class OMPProcBindClause : public OMPClause { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// A kind of the 'proc_bind' clause. OpenMPProcBindClauseKind Kind = OMPC_PROC_BIND_unknown; /// Start location of the kind in source code. SourceLocation KindKwLoc; /// Set kind of the clause. /// /// \param K Kind of clause. void setProcBindKind(OpenMPProcBindClauseKind K) { Kind = K; } /// Set clause kind location. /// /// \param KLoc Kind location. void setProcBindKindKwLoc(SourceLocation KLoc) { KindKwLoc = KLoc; } public: /// Build 'proc_bind' clause with argument \a A ('master', 'close' or /// 'spread'). /// /// \param A Argument of the clause ('master', 'close' or 'spread'). /// \param ALoc Starting location of the argument. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. OMPProcBindClause(OpenMPProcBindClauseKind A, SourceLocation ALoc, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_proc_bind, StartLoc, EndLoc), LParenLoc(LParenLoc), Kind(A), KindKwLoc(ALoc) {} /// Build an empty clause. OMPProcBindClause() : OMPClause(OMPC_proc_bind, SourceLocation(), SourceLocation()) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Returns kind of the clause. OpenMPProcBindClauseKind getProcBindKind() const { return Kind; } /// Returns location of clause kind. SourceLocation getProcBindKindKwLoc() const { return KindKwLoc; } child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_proc_bind; } }; /// This represents 'unified_address' clause in the '#pragma omp requires' /// directive. /// /// \code /// #pragma omp requires unified_address /// \endcode /// In this example directive '#pragma omp requires' has 'unified_address' /// clause. class OMPUnifiedAddressClause final : public OMPClause { public: friend class OMPClauseReader; /// Build 'unified_address' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPUnifiedAddressClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_unified_address, StartLoc, EndLoc) {} /// Build an empty clause. OMPUnifiedAddressClause() : OMPClause(OMPC_unified_address, SourceLocation(), SourceLocation()) {} child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_unified_address; } }; /// This represents 'unified_shared_memory' clause in the '#pragma omp requires' /// directive. /// /// \code /// #pragma omp requires unified_shared_memory /// \endcode /// In this example directive '#pragma omp requires' has 'unified_shared_memory' /// clause. class OMPUnifiedSharedMemoryClause final : public OMPClause { public: friend class OMPClauseReader; /// Build 'unified_shared_memory' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPUnifiedSharedMemoryClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_unified_shared_memory, StartLoc, EndLoc) {} /// Build an empty clause. OMPUnifiedSharedMemoryClause() : OMPClause(OMPC_unified_shared_memory, SourceLocation(), SourceLocation()) {} child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_unified_shared_memory; } }; /// This represents 'reverse_offload' clause in the '#pragma omp requires' /// directive. /// /// \code /// #pragma omp requires reverse_offload /// \endcode /// In this example directive '#pragma omp requires' has 'reverse_offload' /// clause. class OMPReverseOffloadClause final : public OMPClause { public: friend class OMPClauseReader; /// Build 'reverse_offload' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPReverseOffloadClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_reverse_offload, StartLoc, EndLoc) {} /// Build an empty clause. OMPReverseOffloadClause() : OMPClause(OMPC_reverse_offload, SourceLocation(), SourceLocation()) {} child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_reverse_offload; } }; /// This represents 'dynamic_allocators' clause in the '#pragma omp requires' /// directive. /// /// \code /// #pragma omp requires dynamic_allocators /// \endcode /// In this example directive '#pragma omp requires' has 'dynamic_allocators' /// clause. class OMPDynamicAllocatorsClause final : public OMPClause { public: friend class OMPClauseReader; /// Build 'dynamic_allocators' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPDynamicAllocatorsClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_dynamic_allocators, StartLoc, EndLoc) {} /// Build an empty clause. OMPDynamicAllocatorsClause() : OMPClause(OMPC_dynamic_allocators, SourceLocation(), SourceLocation()) { } child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_dynamic_allocators; } }; /// This represents 'atomic_default_mem_order' clause in the '#pragma omp /// requires' directive. /// /// \code /// #pragma omp requires atomic_default_mem_order(seq_cst) /// \endcode /// In this example directive '#pragma omp requires' has simple /// atomic_default_mem_order' clause with kind 'seq_cst'. class OMPAtomicDefaultMemOrderClause final : public OMPClause { friend class OMPClauseReader; /// Location of '(' SourceLocation LParenLoc; /// A kind of the 'atomic_default_mem_order' clause. OpenMPAtomicDefaultMemOrderClauseKind Kind = OMPC_ATOMIC_DEFAULT_MEM_ORDER_unknown; /// Start location of the kind in source code. SourceLocation KindKwLoc; /// Set kind of the clause. /// /// \param K Kind of clause. void setAtomicDefaultMemOrderKind(OpenMPAtomicDefaultMemOrderClauseKind K) { Kind = K; } /// Set clause kind location. /// /// \param KLoc Kind location. void setAtomicDefaultMemOrderKindKwLoc(SourceLocation KLoc) { KindKwLoc = KLoc; } public: /// Build 'atomic_default_mem_order' clause with argument \a A ('seq_cst', /// 'acq_rel' or 'relaxed'). /// /// \param A Argument of the clause ('seq_cst', 'acq_rel' or 'relaxed'). /// \param ALoc Starting location of the argument. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. OMPAtomicDefaultMemOrderClause(OpenMPAtomicDefaultMemOrderClauseKind A, SourceLocation ALoc, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_atomic_default_mem_order, StartLoc, EndLoc), LParenLoc(LParenLoc), Kind(A), KindKwLoc(ALoc) {} /// Build an empty clause. OMPAtomicDefaultMemOrderClause() : OMPClause(OMPC_atomic_default_mem_order, SourceLocation(), SourceLocation()) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the locaiton of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Returns kind of the clause. OpenMPAtomicDefaultMemOrderClauseKind getAtomicDefaultMemOrderKind() const { return Kind; } /// Returns location of clause kind. SourceLocation getAtomicDefaultMemOrderKindKwLoc() const { return KindKwLoc; } child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_atomic_default_mem_order; } }; /// This represents 'schedule' clause in the '#pragma omp ...' directive. /// /// \code /// #pragma omp for schedule(static, 3) /// \endcode /// In this example directive '#pragma omp for' has 'schedule' clause with /// arguments 'static' and '3'. class OMPScheduleClause : public OMPClause, public OMPClauseWithPreInit { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// A kind of the 'schedule' clause. OpenMPScheduleClauseKind Kind = OMPC_SCHEDULE_unknown; /// Modifiers for 'schedule' clause. enum {FIRST, SECOND, NUM_MODIFIERS}; OpenMPScheduleClauseModifier Modifiers[NUM_MODIFIERS]; /// Locations of modifiers. SourceLocation ModifiersLoc[NUM_MODIFIERS]; /// Start location of the schedule ind in source code. SourceLocation KindLoc; /// Location of ',' (if any). SourceLocation CommaLoc; /// Chunk size. Expr *ChunkSize = nullptr; /// Set schedule kind. /// /// \param K Schedule kind. void setScheduleKind(OpenMPScheduleClauseKind K) { Kind = K; } /// Set the first schedule modifier. /// /// \param M Schedule modifier. void setFirstScheduleModifier(OpenMPScheduleClauseModifier M) { Modifiers[FIRST] = M; } /// Set the second schedule modifier. /// /// \param M Schedule modifier. void setSecondScheduleModifier(OpenMPScheduleClauseModifier M) { Modifiers[SECOND] = M; } /// Set location of the first schedule modifier. void setFirstScheduleModifierLoc(SourceLocation Loc) { ModifiersLoc[FIRST] = Loc; } /// Set location of the second schedule modifier. void setSecondScheduleModifierLoc(SourceLocation Loc) { ModifiersLoc[SECOND] = Loc; } /// Set schedule modifier location. /// /// \param M Schedule modifier location. void setScheduleModifer(OpenMPScheduleClauseModifier M) { if (Modifiers[FIRST] == OMPC_SCHEDULE_MODIFIER_unknown) Modifiers[FIRST] = M; else { assert(Modifiers[SECOND] == OMPC_SCHEDULE_MODIFIER_unknown); Modifiers[SECOND] = M; } } /// Sets the location of '('. /// /// \param Loc Location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Set schedule kind start location. /// /// \param KLoc Schedule kind location. void setScheduleKindLoc(SourceLocation KLoc) { KindLoc = KLoc; } /// Set location of ','. /// /// \param Loc Location of ','. void setCommaLoc(SourceLocation Loc) { CommaLoc = Loc; } /// Set chunk size. /// /// \param E Chunk size. void setChunkSize(Expr *E) { ChunkSize = E; } public: /// Build 'schedule' clause with schedule kind \a Kind and chunk size /// expression \a ChunkSize. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param KLoc Starting location of the argument. /// \param CommaLoc Location of ','. /// \param EndLoc Ending location of the clause. /// \param Kind Schedule kind. /// \param ChunkSize Chunk size. /// \param HelperChunkSize Helper chunk size for combined directives. /// \param M1 The first modifier applied to 'schedule' clause. /// \param M1Loc Location of the first modifier /// \param M2 The second modifier applied to 'schedule' clause. /// \param M2Loc Location of the second modifier OMPScheduleClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation KLoc, SourceLocation CommaLoc, SourceLocation EndLoc, OpenMPScheduleClauseKind Kind, Expr *ChunkSize, Stmt *HelperChunkSize, OpenMPScheduleClauseModifier M1, SourceLocation M1Loc, OpenMPScheduleClauseModifier M2, SourceLocation M2Loc) : OMPClause(OMPC_schedule, StartLoc, EndLoc), OMPClauseWithPreInit(this), LParenLoc(LParenLoc), Kind(Kind), KindLoc(KLoc), CommaLoc(CommaLoc), ChunkSize(ChunkSize) { setPreInitStmt(HelperChunkSize); Modifiers[FIRST] = M1; Modifiers[SECOND] = M2; ModifiersLoc[FIRST] = M1Loc; ModifiersLoc[SECOND] = M2Loc; } /// Build an empty clause. explicit OMPScheduleClause() : OMPClause(OMPC_schedule, SourceLocation(), SourceLocation()), OMPClauseWithPreInit(this) { Modifiers[FIRST] = OMPC_SCHEDULE_MODIFIER_unknown; Modifiers[SECOND] = OMPC_SCHEDULE_MODIFIER_unknown; } /// Get kind of the clause. OpenMPScheduleClauseKind getScheduleKind() const { return Kind; } /// Get the first modifier of the clause. OpenMPScheduleClauseModifier getFirstScheduleModifier() const { return Modifiers[FIRST]; } /// Get the second modifier of the clause. OpenMPScheduleClauseModifier getSecondScheduleModifier() const { return Modifiers[SECOND]; } /// Get location of '('. SourceLocation getLParenLoc() { return LParenLoc; } /// Get kind location. SourceLocation getScheduleKindLoc() { return KindLoc; } /// Get the first modifier location. SourceLocation getFirstScheduleModifierLoc() const { return ModifiersLoc[FIRST]; } /// Get the second modifier location. SourceLocation getSecondScheduleModifierLoc() const { return ModifiersLoc[SECOND]; } /// Get location of ','. SourceLocation getCommaLoc() { return CommaLoc; } /// Get chunk size. Expr *getChunkSize() { return ChunkSize; } /// Get chunk size. const Expr *getChunkSize() const { return ChunkSize; } child_range children() { return child_range(reinterpret_cast(&ChunkSize), reinterpret_cast(&ChunkSize) + 1); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_schedule; } }; /// This represents 'ordered' clause in the '#pragma omp ...' directive. /// /// \code /// #pragma omp for ordered (2) /// \endcode /// In this example directive '#pragma omp for' has 'ordered' clause with /// parameter 2. class OMPOrderedClause final : public OMPClause, private llvm::TrailingObjects { friend class OMPClauseReader; friend TrailingObjects; /// Location of '('. SourceLocation LParenLoc; /// Number of for-loops. Stmt *NumForLoops = nullptr; /// Real number of loops. unsigned NumberOfLoops = 0; /// Build 'ordered' clause. /// /// \param Num Expression, possibly associated with this clause. /// \param NumLoops Number of loops, associated with this clause. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. OMPOrderedClause(Expr *Num, unsigned NumLoops, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_ordered, StartLoc, EndLoc), LParenLoc(LParenLoc), NumForLoops(Num), NumberOfLoops(NumLoops) {} /// Build an empty clause. explicit OMPOrderedClause(unsigned NumLoops) : OMPClause(OMPC_ordered, SourceLocation(), SourceLocation()), NumberOfLoops(NumLoops) {} /// Set the number of associated for-loops. void setNumForLoops(Expr *Num) { NumForLoops = Num; } public: /// Build 'ordered' clause. /// /// \param Num Expression, possibly associated with this clause. /// \param NumLoops Number of loops, associated with this clause. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. static OMPOrderedClause *Create(const ASTContext &C, Expr *Num, unsigned NumLoops, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc); /// Build an empty clause. static OMPOrderedClause* CreateEmpty(const ASTContext &C, unsigned NumLoops); /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Return the number of associated for-loops. Expr *getNumForLoops() const { return cast_or_null(NumForLoops); } /// Set number of iterations for the specified loop. void setLoopNumIterations(unsigned NumLoop, Expr *NumIterations); /// Get number of iterations for all the loops. ArrayRef getLoopNumIterations() const; /// Set loop counter for the specified loop. void setLoopCounter(unsigned NumLoop, Expr *Counter); /// Get loops counter for the specified loop. Expr *getLoopCounter(unsigned NumLoop); const Expr *getLoopCounter(unsigned NumLoop) const; child_range children() { return child_range(&NumForLoops, &NumForLoops + 1); } const_child_range children() const { return const_child_range(&NumForLoops, &NumForLoops + 1); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_ordered; } }; /// This represents 'nowait' clause in the '#pragma omp ...' directive. /// /// \code /// #pragma omp for nowait /// \endcode /// In this example directive '#pragma omp for' has 'nowait' clause. class OMPNowaitClause : public OMPClause { public: /// Build 'nowait' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPNowaitClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_nowait, StartLoc, EndLoc) {} /// Build an empty clause. OMPNowaitClause() : OMPClause(OMPC_nowait, SourceLocation(), SourceLocation()) {} child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_nowait; } }; /// This represents 'untied' clause in the '#pragma omp ...' directive. /// /// \code /// #pragma omp task untied /// \endcode /// In this example directive '#pragma omp task' has 'untied' clause. class OMPUntiedClause : public OMPClause { public: /// Build 'untied' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPUntiedClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_untied, StartLoc, EndLoc) {} /// Build an empty clause. OMPUntiedClause() : OMPClause(OMPC_untied, SourceLocation(), SourceLocation()) {} child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_untied; } }; /// This represents 'mergeable' clause in the '#pragma omp ...' /// directive. /// /// \code /// #pragma omp task mergeable /// \endcode /// In this example directive '#pragma omp task' has 'mergeable' clause. class OMPMergeableClause : public OMPClause { public: /// Build 'mergeable' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPMergeableClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_mergeable, StartLoc, EndLoc) {} /// Build an empty clause. OMPMergeableClause() : OMPClause(OMPC_mergeable, SourceLocation(), SourceLocation()) {} child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_mergeable; } }; /// This represents 'read' clause in the '#pragma omp atomic' directive. /// /// \code /// #pragma omp atomic read /// \endcode /// In this example directive '#pragma omp atomic' has 'read' clause. class OMPReadClause : public OMPClause { public: /// Build 'read' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPReadClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_read, StartLoc, EndLoc) {} /// Build an empty clause. OMPReadClause() : OMPClause(OMPC_read, SourceLocation(), SourceLocation()) {} child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_read; } }; /// This represents 'write' clause in the '#pragma omp atomic' directive. /// /// \code /// #pragma omp atomic write /// \endcode /// In this example directive '#pragma omp atomic' has 'write' clause. class OMPWriteClause : public OMPClause { public: /// Build 'write' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPWriteClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_write, StartLoc, EndLoc) {} /// Build an empty clause. OMPWriteClause() : OMPClause(OMPC_write, SourceLocation(), SourceLocation()) {} child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_write; } }; /// This represents 'update' clause in the '#pragma omp atomic' /// directive. /// /// \code /// #pragma omp atomic update /// \endcode /// In this example directive '#pragma omp atomic' has 'update' clause. class OMPUpdateClause : public OMPClause { public: /// Build 'update' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPUpdateClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_update, StartLoc, EndLoc) {} /// Build an empty clause. OMPUpdateClause() : OMPClause(OMPC_update, SourceLocation(), SourceLocation()) {} child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_update; } }; /// This represents 'capture' clause in the '#pragma omp atomic' /// directive. /// /// \code /// #pragma omp atomic capture /// \endcode /// In this example directive '#pragma omp atomic' has 'capture' clause. class OMPCaptureClause : public OMPClause { public: /// Build 'capture' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPCaptureClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_capture, StartLoc, EndLoc) {} /// Build an empty clause. OMPCaptureClause() : OMPClause(OMPC_capture, SourceLocation(), SourceLocation()) {} child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_capture; } }; /// This represents 'seq_cst' clause in the '#pragma omp atomic' /// directive. /// /// \code /// #pragma omp atomic seq_cst /// \endcode /// In this example directive '#pragma omp atomic' has 'seq_cst' clause. class OMPSeqCstClause : public OMPClause { public: /// Build 'seq_cst' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPSeqCstClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_seq_cst, StartLoc, EndLoc) {} /// Build an empty clause. OMPSeqCstClause() : OMPClause(OMPC_seq_cst, SourceLocation(), SourceLocation()) {} child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_seq_cst; } }; /// This represents clause 'private' in the '#pragma omp ...' directives. /// /// \code /// #pragma omp parallel private(a,b) /// \endcode /// In this example directive '#pragma omp parallel' has clause 'private' /// with the variables 'a' and 'b'. class OMPPrivateClause final : public OMPVarListClause, private llvm::TrailingObjects { friend class OMPClauseReader; friend OMPVarListClause; friend TrailingObjects; /// Build clause with number of variables \a N. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param N Number of the variables in the clause. OMPPrivateClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, unsigned N) : OMPVarListClause(OMPC_private, StartLoc, LParenLoc, EndLoc, N) {} /// Build an empty clause. /// /// \param N Number of variables. explicit OMPPrivateClause(unsigned N) : OMPVarListClause(OMPC_private, SourceLocation(), SourceLocation(), SourceLocation(), N) {} /// Sets the list of references to private copies with initializers for /// new private variables. /// \param VL List of references. void setPrivateCopies(ArrayRef VL); /// Gets the list of references to private copies with initializers for /// new private variables. MutableArrayRef getPrivateCopies() { return MutableArrayRef(varlist_end(), varlist_size()); } ArrayRef getPrivateCopies() const { return llvm::makeArrayRef(varlist_end(), varlist_size()); } public: /// Creates clause with a list of variables \a VL. /// /// \param C AST context. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param VL List of references to the variables. /// \param PrivateVL List of references to private copies with initializers. static OMPPrivateClause *Create(const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, ArrayRef VL, ArrayRef PrivateVL); /// Creates an empty clause with the place for \a N variables. /// /// \param C AST context. /// \param N The number of variables. static OMPPrivateClause *CreateEmpty(const ASTContext &C, unsigned N); using private_copies_iterator = MutableArrayRef::iterator; using private_copies_const_iterator = ArrayRef::iterator; using private_copies_range = llvm::iterator_range; using private_copies_const_range = llvm::iterator_range; private_copies_range private_copies() { return private_copies_range(getPrivateCopies().begin(), getPrivateCopies().end()); } private_copies_const_range private_copies() const { return private_copies_const_range(getPrivateCopies().begin(), getPrivateCopies().end()); } child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_private; } }; /// This represents clause 'firstprivate' in the '#pragma omp ...' /// directives. /// /// \code /// #pragma omp parallel firstprivate(a,b) /// \endcode /// In this example directive '#pragma omp parallel' has clause 'firstprivate' /// with the variables 'a' and 'b'. class OMPFirstprivateClause final : public OMPVarListClause, public OMPClauseWithPreInit, private llvm::TrailingObjects { friend class OMPClauseReader; friend OMPVarListClause; friend TrailingObjects; /// Build clause with number of variables \a N. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param N Number of the variables in the clause. OMPFirstprivateClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, unsigned N) : OMPVarListClause(OMPC_firstprivate, StartLoc, LParenLoc, EndLoc, N), OMPClauseWithPreInit(this) {} /// Build an empty clause. /// /// \param N Number of variables. explicit OMPFirstprivateClause(unsigned N) : OMPVarListClause( OMPC_firstprivate, SourceLocation(), SourceLocation(), SourceLocation(), N), OMPClauseWithPreInit(this) {} /// Sets the list of references to private copies with initializers for /// new private variables. /// \param VL List of references. void setPrivateCopies(ArrayRef VL); /// Gets the list of references to private copies with initializers for /// new private variables. MutableArrayRef getPrivateCopies() { return MutableArrayRef(varlist_end(), varlist_size()); } ArrayRef getPrivateCopies() const { return llvm::makeArrayRef(varlist_end(), varlist_size()); } /// Sets the list of references to initializer variables for new /// private variables. /// \param VL List of references. void setInits(ArrayRef VL); /// Gets the list of references to initializer variables for new /// private variables. MutableArrayRef getInits() { return MutableArrayRef(getPrivateCopies().end(), varlist_size()); } ArrayRef getInits() const { return llvm::makeArrayRef(getPrivateCopies().end(), varlist_size()); } public: /// Creates clause with a list of variables \a VL. /// /// \param C AST context. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param VL List of references to the original variables. /// \param PrivateVL List of references to private copies with initializers. /// \param InitVL List of references to auto generated variables used for /// initialization of a single array element. Used if firstprivate variable is /// of array type. /// \param PreInit Statement that must be executed before entering the OpenMP /// region with this clause. static OMPFirstprivateClause * Create(const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, ArrayRef VL, ArrayRef PrivateVL, ArrayRef InitVL, Stmt *PreInit); /// Creates an empty clause with the place for \a N variables. /// /// \param C AST context. /// \param N The number of variables. static OMPFirstprivateClause *CreateEmpty(const ASTContext &C, unsigned N); using private_copies_iterator = MutableArrayRef::iterator; using private_copies_const_iterator = ArrayRef::iterator; using private_copies_range = llvm::iterator_range; using private_copies_const_range = llvm::iterator_range; private_copies_range private_copies() { return private_copies_range(getPrivateCopies().begin(), getPrivateCopies().end()); } private_copies_const_range private_copies() const { return private_copies_const_range(getPrivateCopies().begin(), getPrivateCopies().end()); } using inits_iterator = MutableArrayRef::iterator; using inits_const_iterator = ArrayRef::iterator; using inits_range = llvm::iterator_range; using inits_const_range = llvm::iterator_range; inits_range inits() { return inits_range(getInits().begin(), getInits().end()); } inits_const_range inits() const { return inits_const_range(getInits().begin(), getInits().end()); } child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range used_children() const { auto Children = const_cast(this)->used_children(); return const_child_range(Children.begin(), Children.end()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_firstprivate; } }; /// This represents clause 'lastprivate' in the '#pragma omp ...' /// directives. /// /// \code /// #pragma omp simd lastprivate(a,b) /// \endcode /// In this example directive '#pragma omp simd' has clause 'lastprivate' /// with the variables 'a' and 'b'. class OMPLastprivateClause final : public OMPVarListClause, public OMPClauseWithPostUpdate, private llvm::TrailingObjects { // There are 4 additional tail-allocated arrays at the end of the class: // 1. Contains list of pseudo variables with the default initialization for // each non-firstprivate variables. Used in codegen for initialization of // lastprivate copies. // 2. List of helper expressions for proper generation of assignment operation // required for lastprivate clause. This list represents private variables // (for arrays, single array element). // 3. List of helper expressions for proper generation of assignment operation // required for lastprivate clause. This list represents original variables // (for arrays, single array element). // 4. List of helper expressions that represents assignment operation: // \code // DstExprs = SrcExprs; // \endcode // Required for proper codegen of final assignment performed by the // lastprivate clause. friend class OMPClauseReader; friend OMPVarListClause; friend TrailingObjects; /// Build clause with number of variables \a N. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param N Number of the variables in the clause. OMPLastprivateClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, unsigned N) : OMPVarListClause(OMPC_lastprivate, StartLoc, LParenLoc, EndLoc, N), OMPClauseWithPostUpdate(this) {} /// Build an empty clause. /// /// \param N Number of variables. explicit OMPLastprivateClause(unsigned N) : OMPVarListClause( OMPC_lastprivate, SourceLocation(), SourceLocation(), SourceLocation(), N), OMPClauseWithPostUpdate(this) {} /// Get the list of helper expressions for initialization of private /// copies for lastprivate variables. MutableArrayRef getPrivateCopies() { return MutableArrayRef(varlist_end(), varlist_size()); } ArrayRef getPrivateCopies() const { return llvm::makeArrayRef(varlist_end(), varlist_size()); } /// Set list of helper expressions, required for proper codegen of the /// clause. These expressions represent private variables (for arrays, single /// array element) in the final assignment statement performed by the /// lastprivate clause. void setSourceExprs(ArrayRef SrcExprs); /// Get the list of helper source expressions. MutableArrayRef getSourceExprs() { return MutableArrayRef(getPrivateCopies().end(), varlist_size()); } ArrayRef getSourceExprs() const { return llvm::makeArrayRef(getPrivateCopies().end(), varlist_size()); } /// Set list of helper expressions, required for proper codegen of the /// clause. These expressions represent original variables (for arrays, single /// array element) in the final assignment statement performed by the /// lastprivate clause. void setDestinationExprs(ArrayRef DstExprs); /// Get the list of helper destination expressions. MutableArrayRef getDestinationExprs() { return MutableArrayRef(getSourceExprs().end(), varlist_size()); } ArrayRef getDestinationExprs() const { return llvm::makeArrayRef(getSourceExprs().end(), varlist_size()); } /// Set list of helper assignment expressions, required for proper /// codegen of the clause. These expressions are assignment expressions that /// assign private copy of the variable to original variable. void setAssignmentOps(ArrayRef AssignmentOps); /// Get the list of helper assignment expressions. MutableArrayRef getAssignmentOps() { return MutableArrayRef(getDestinationExprs().end(), varlist_size()); } ArrayRef getAssignmentOps() const { return llvm::makeArrayRef(getDestinationExprs().end(), varlist_size()); } public: /// Creates clause with a list of variables \a VL. /// /// \param C AST context. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param VL List of references to the variables. /// \param SrcExprs List of helper expressions for proper generation of /// assignment operation required for lastprivate clause. This list represents /// private variables (for arrays, single array element). /// \param DstExprs List of helper expressions for proper generation of /// assignment operation required for lastprivate clause. This list represents /// original variables (for arrays, single array element). /// \param AssignmentOps List of helper expressions that represents assignment /// operation: /// \code /// DstExprs = SrcExprs; /// \endcode /// Required for proper codegen of final assignment performed by the /// lastprivate clause. /// \param PreInit Statement that must be executed before entering the OpenMP /// region with this clause. /// \param PostUpdate Expression that must be executed after exit from the /// OpenMP region with this clause. static OMPLastprivateClause * Create(const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, ArrayRef VL, ArrayRef SrcExprs, ArrayRef DstExprs, ArrayRef AssignmentOps, Stmt *PreInit, Expr *PostUpdate); /// Creates an empty clause with the place for \a N variables. /// /// \param C AST context. /// \param N The number of variables. static OMPLastprivateClause *CreateEmpty(const ASTContext &C, unsigned N); using helper_expr_iterator = MutableArrayRef::iterator; using helper_expr_const_iterator = ArrayRef::iterator; using helper_expr_range = llvm::iterator_range; using helper_expr_const_range = llvm::iterator_range; /// Set list of helper expressions, required for generation of private /// copies of original lastprivate variables. void setPrivateCopies(ArrayRef PrivateCopies); helper_expr_const_range private_copies() const { return helper_expr_const_range(getPrivateCopies().begin(), getPrivateCopies().end()); } helper_expr_range private_copies() { return helper_expr_range(getPrivateCopies().begin(), getPrivateCopies().end()); } helper_expr_const_range source_exprs() const { return helper_expr_const_range(getSourceExprs().begin(), getSourceExprs().end()); } helper_expr_range source_exprs() { return helper_expr_range(getSourceExprs().begin(), getSourceExprs().end()); } helper_expr_const_range destination_exprs() const { return helper_expr_const_range(getDestinationExprs().begin(), getDestinationExprs().end()); } helper_expr_range destination_exprs() { return helper_expr_range(getDestinationExprs().begin(), getDestinationExprs().end()); } helper_expr_const_range assignment_ops() const { return helper_expr_const_range(getAssignmentOps().begin(), getAssignmentOps().end()); } helper_expr_range assignment_ops() { return helper_expr_range(getAssignmentOps().begin(), getAssignmentOps().end()); } child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_lastprivate; } }; /// This represents clause 'shared' in the '#pragma omp ...' directives. /// /// \code /// #pragma omp parallel shared(a,b) /// \endcode /// In this example directive '#pragma omp parallel' has clause 'shared' /// with the variables 'a' and 'b'. class OMPSharedClause final : public OMPVarListClause, private llvm::TrailingObjects { friend OMPVarListClause; friend TrailingObjects; /// Build clause with number of variables \a N. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param N Number of the variables in the clause. OMPSharedClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, unsigned N) : OMPVarListClause(OMPC_shared, StartLoc, LParenLoc, EndLoc, N) {} /// Build an empty clause. /// /// \param N Number of variables. explicit OMPSharedClause(unsigned N) : OMPVarListClause(OMPC_shared, SourceLocation(), SourceLocation(), SourceLocation(), N) {} public: /// Creates clause with a list of variables \a VL. /// /// \param C AST context. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param VL List of references to the variables. static OMPSharedClause *Create(const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, ArrayRef VL); /// Creates an empty clause with \a N variables. /// /// \param C AST context. /// \param N The number of variables. static OMPSharedClause *CreateEmpty(const ASTContext &C, unsigned N); child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_shared; } }; /// This represents clause 'reduction' in the '#pragma omp ...' /// directives. /// /// \code /// #pragma omp parallel reduction(+:a,b) /// \endcode /// In this example directive '#pragma omp parallel' has clause 'reduction' /// with operator '+' and the variables 'a' and 'b'. class OMPReductionClause final : public OMPVarListClause, public OMPClauseWithPostUpdate, private llvm::TrailingObjects { friend class OMPClauseReader; friend OMPVarListClause; friend TrailingObjects; /// Location of ':'. SourceLocation ColonLoc; /// Nested name specifier for C++. NestedNameSpecifierLoc QualifierLoc; /// Name of custom operator. DeclarationNameInfo NameInfo; /// Build clause with number of variables \a N. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param ColonLoc Location of ':'. /// \param N Number of the variables in the clause. /// \param QualifierLoc The nested-name qualifier with location information /// \param NameInfo The full name info for reduction identifier. OMPReductionClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation ColonLoc, SourceLocation EndLoc, unsigned N, NestedNameSpecifierLoc QualifierLoc, const DeclarationNameInfo &NameInfo) : OMPVarListClause(OMPC_reduction, StartLoc, LParenLoc, EndLoc, N), OMPClauseWithPostUpdate(this), ColonLoc(ColonLoc), QualifierLoc(QualifierLoc), NameInfo(NameInfo) {} /// Build an empty clause. /// /// \param N Number of variables. explicit OMPReductionClause(unsigned N) : OMPVarListClause(OMPC_reduction, SourceLocation(), SourceLocation(), SourceLocation(), N), OMPClauseWithPostUpdate(this) {} /// Sets location of ':' symbol in clause. void setColonLoc(SourceLocation CL) { ColonLoc = CL; } /// Sets the name info for specified reduction identifier. void setNameInfo(DeclarationNameInfo DNI) { NameInfo = DNI; } /// Sets the nested name specifier. void setQualifierLoc(NestedNameSpecifierLoc NSL) { QualifierLoc = NSL; } /// Set list of helper expressions, required for proper codegen of the /// clause. These expressions represent private copy of the reduction /// variable. void setPrivates(ArrayRef Privates); /// Get the list of helper privates. MutableArrayRef getPrivates() { return MutableArrayRef(varlist_end(), varlist_size()); } ArrayRef getPrivates() const { return llvm::makeArrayRef(varlist_end(), varlist_size()); } /// Set list of helper expressions, required for proper codegen of the /// clause. These expressions represent LHS expression in the final /// reduction expression performed by the reduction clause. void setLHSExprs(ArrayRef LHSExprs); /// Get the list of helper LHS expressions. MutableArrayRef getLHSExprs() { return MutableArrayRef(getPrivates().end(), varlist_size()); } ArrayRef getLHSExprs() const { return llvm::makeArrayRef(getPrivates().end(), varlist_size()); } /// Set list of helper expressions, required for proper codegen of the /// clause. These expressions represent RHS expression in the final /// reduction expression performed by the reduction clause. /// Also, variables in these expressions are used for proper initialization of /// reduction copies. void setRHSExprs(ArrayRef RHSExprs); /// Get the list of helper destination expressions. MutableArrayRef getRHSExprs() { return MutableArrayRef(getLHSExprs().end(), varlist_size()); } ArrayRef getRHSExprs() const { return llvm::makeArrayRef(getLHSExprs().end(), varlist_size()); } /// Set list of helper reduction expressions, required for proper /// codegen of the clause. These expressions are binary expressions or /// operator/custom reduction call that calculates new value from source /// helper expressions to destination helper expressions. void setReductionOps(ArrayRef ReductionOps); /// Get the list of helper reduction expressions. MutableArrayRef getReductionOps() { return MutableArrayRef(getRHSExprs().end(), varlist_size()); } ArrayRef getReductionOps() const { return llvm::makeArrayRef(getRHSExprs().end(), varlist_size()); } public: /// Creates clause with a list of variables \a VL. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param ColonLoc Location of ':'. /// \param EndLoc Ending location of the clause. /// \param VL The variables in the clause. /// \param QualifierLoc The nested-name qualifier with location information /// \param NameInfo The full name info for reduction identifier. /// \param Privates List of helper expressions for proper generation of /// private copies. /// \param LHSExprs List of helper expressions for proper generation of /// assignment operation required for copyprivate clause. This list represents /// LHSs of the reduction expressions. /// \param RHSExprs List of helper expressions for proper generation of /// assignment operation required for copyprivate clause. This list represents /// RHSs of the reduction expressions. /// Also, variables in these expressions are used for proper initialization of /// reduction copies. /// \param ReductionOps List of helper expressions that represents reduction /// expressions: /// \code /// LHSExprs binop RHSExprs; /// operator binop(LHSExpr, RHSExpr); /// (LHSExpr, RHSExpr); /// \endcode /// Required for proper codegen of final reduction operation performed by the /// reduction clause. /// \param PreInit Statement that must be executed before entering the OpenMP /// region with this clause. /// \param PostUpdate Expression that must be executed after exit from the /// OpenMP region with this clause. static OMPReductionClause * Create(const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation ColonLoc, SourceLocation EndLoc, ArrayRef VL, NestedNameSpecifierLoc QualifierLoc, const DeclarationNameInfo &NameInfo, ArrayRef Privates, ArrayRef LHSExprs, ArrayRef RHSExprs, ArrayRef ReductionOps, Stmt *PreInit, Expr *PostUpdate); /// Creates an empty clause with the place for \a N variables. /// /// \param C AST context. /// \param N The number of variables. static OMPReductionClause *CreateEmpty(const ASTContext &C, unsigned N); /// Gets location of ':' symbol in clause. SourceLocation getColonLoc() const { return ColonLoc; } /// Gets the name info for specified reduction identifier. const DeclarationNameInfo &getNameInfo() const { return NameInfo; } /// Gets the nested name specifier. NestedNameSpecifierLoc getQualifierLoc() const { return QualifierLoc; } using helper_expr_iterator = MutableArrayRef::iterator; using helper_expr_const_iterator = ArrayRef::iterator; using helper_expr_range = llvm::iterator_range; using helper_expr_const_range = llvm::iterator_range; helper_expr_const_range privates() const { return helper_expr_const_range(getPrivates().begin(), getPrivates().end()); } helper_expr_range privates() { return helper_expr_range(getPrivates().begin(), getPrivates().end()); } helper_expr_const_range lhs_exprs() const { return helper_expr_const_range(getLHSExprs().begin(), getLHSExprs().end()); } helper_expr_range lhs_exprs() { return helper_expr_range(getLHSExprs().begin(), getLHSExprs().end()); } helper_expr_const_range rhs_exprs() const { return helper_expr_const_range(getRHSExprs().begin(), getRHSExprs().end()); } helper_expr_range rhs_exprs() { return helper_expr_range(getRHSExprs().begin(), getRHSExprs().end()); } helper_expr_const_range reduction_ops() const { return helper_expr_const_range(getReductionOps().begin(), getReductionOps().end()); } helper_expr_range reduction_ops() { return helper_expr_range(getReductionOps().begin(), getReductionOps().end()); } child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range used_children() const { auto Children = const_cast(this)->used_children(); return const_child_range(Children.begin(), Children.end()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_reduction; } }; /// This represents clause 'task_reduction' in the '#pragma omp taskgroup' /// directives. /// /// \code /// #pragma omp taskgroup task_reduction(+:a,b) /// \endcode /// In this example directive '#pragma omp taskgroup' has clause /// 'task_reduction' with operator '+' and the variables 'a' and 'b'. class OMPTaskReductionClause final : public OMPVarListClause, public OMPClauseWithPostUpdate, private llvm::TrailingObjects { friend class OMPClauseReader; friend OMPVarListClause; friend TrailingObjects; /// Location of ':'. SourceLocation ColonLoc; /// Nested name specifier for C++. NestedNameSpecifierLoc QualifierLoc; /// Name of custom operator. DeclarationNameInfo NameInfo; /// Build clause with number of variables \a N. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param ColonLoc Location of ':'. /// \param N Number of the variables in the clause. /// \param QualifierLoc The nested-name qualifier with location information /// \param NameInfo The full name info for reduction identifier. OMPTaskReductionClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation ColonLoc, SourceLocation EndLoc, unsigned N, NestedNameSpecifierLoc QualifierLoc, const DeclarationNameInfo &NameInfo) : OMPVarListClause(OMPC_task_reduction, StartLoc, LParenLoc, EndLoc, N), OMPClauseWithPostUpdate(this), ColonLoc(ColonLoc), QualifierLoc(QualifierLoc), NameInfo(NameInfo) {} /// Build an empty clause. /// /// \param N Number of variables. explicit OMPTaskReductionClause(unsigned N) : OMPVarListClause( OMPC_task_reduction, SourceLocation(), SourceLocation(), SourceLocation(), N), OMPClauseWithPostUpdate(this) {} /// Sets location of ':' symbol in clause. void setColonLoc(SourceLocation CL) { ColonLoc = CL; } /// Sets the name info for specified reduction identifier. void setNameInfo(DeclarationNameInfo DNI) { NameInfo = DNI; } /// Sets the nested name specifier. void setQualifierLoc(NestedNameSpecifierLoc NSL) { QualifierLoc = NSL; } /// Set list of helper expressions, required for proper codegen of the clause. /// These expressions represent private copy of the reduction variable. void setPrivates(ArrayRef Privates); /// Get the list of helper privates. MutableArrayRef getPrivates() { return MutableArrayRef(varlist_end(), varlist_size()); } ArrayRef getPrivates() const { return llvm::makeArrayRef(varlist_end(), varlist_size()); } /// Set list of helper expressions, required for proper codegen of the clause. /// These expressions represent LHS expression in the final reduction /// expression performed by the reduction clause. void setLHSExprs(ArrayRef LHSExprs); /// Get the list of helper LHS expressions. MutableArrayRef getLHSExprs() { return MutableArrayRef(getPrivates().end(), varlist_size()); } ArrayRef getLHSExprs() const { return llvm::makeArrayRef(getPrivates().end(), varlist_size()); } /// Set list of helper expressions, required for proper codegen of the clause. /// These expressions represent RHS expression in the final reduction /// expression performed by the reduction clause. Also, variables in these /// expressions are used for proper initialization of reduction copies. void setRHSExprs(ArrayRef RHSExprs); /// Get the list of helper destination expressions. MutableArrayRef getRHSExprs() { return MutableArrayRef(getLHSExprs().end(), varlist_size()); } ArrayRef getRHSExprs() const { return llvm::makeArrayRef(getLHSExprs().end(), varlist_size()); } /// Set list of helper reduction expressions, required for proper /// codegen of the clause. These expressions are binary expressions or /// operator/custom reduction call that calculates new value from source /// helper expressions to destination helper expressions. void setReductionOps(ArrayRef ReductionOps); /// Get the list of helper reduction expressions. MutableArrayRef getReductionOps() { return MutableArrayRef(getRHSExprs().end(), varlist_size()); } ArrayRef getReductionOps() const { return llvm::makeArrayRef(getRHSExprs().end(), varlist_size()); } public: /// Creates clause with a list of variables \a VL. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param ColonLoc Location of ':'. /// \param EndLoc Ending location of the clause. /// \param VL The variables in the clause. /// \param QualifierLoc The nested-name qualifier with location information /// \param NameInfo The full name info for reduction identifier. /// \param Privates List of helper expressions for proper generation of /// private copies. /// \param LHSExprs List of helper expressions for proper generation of /// assignment operation required for copyprivate clause. This list represents /// LHSs of the reduction expressions. /// \param RHSExprs List of helper expressions for proper generation of /// assignment operation required for copyprivate clause. This list represents /// RHSs of the reduction expressions. /// Also, variables in these expressions are used for proper initialization of /// reduction copies. /// \param ReductionOps List of helper expressions that represents reduction /// expressions: /// \code /// LHSExprs binop RHSExprs; /// operator binop(LHSExpr, RHSExpr); /// (LHSExpr, RHSExpr); /// \endcode /// Required for proper codegen of final reduction operation performed by the /// reduction clause. /// \param PreInit Statement that must be executed before entering the OpenMP /// region with this clause. /// \param PostUpdate Expression that must be executed after exit from the /// OpenMP region with this clause. static OMPTaskReductionClause * Create(const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation ColonLoc, SourceLocation EndLoc, ArrayRef VL, NestedNameSpecifierLoc QualifierLoc, const DeclarationNameInfo &NameInfo, ArrayRef Privates, ArrayRef LHSExprs, ArrayRef RHSExprs, ArrayRef ReductionOps, Stmt *PreInit, Expr *PostUpdate); /// Creates an empty clause with the place for \a N variables. /// /// \param C AST context. /// \param N The number of variables. static OMPTaskReductionClause *CreateEmpty(const ASTContext &C, unsigned N); /// Gets location of ':' symbol in clause. SourceLocation getColonLoc() const { return ColonLoc; } /// Gets the name info for specified reduction identifier. const DeclarationNameInfo &getNameInfo() const { return NameInfo; } /// Gets the nested name specifier. NestedNameSpecifierLoc getQualifierLoc() const { return QualifierLoc; } using helper_expr_iterator = MutableArrayRef::iterator; using helper_expr_const_iterator = ArrayRef::iterator; using helper_expr_range = llvm::iterator_range; using helper_expr_const_range = llvm::iterator_range; helper_expr_const_range privates() const { return helper_expr_const_range(getPrivates().begin(), getPrivates().end()); } helper_expr_range privates() { return helper_expr_range(getPrivates().begin(), getPrivates().end()); } helper_expr_const_range lhs_exprs() const { return helper_expr_const_range(getLHSExprs().begin(), getLHSExprs().end()); } helper_expr_range lhs_exprs() { return helper_expr_range(getLHSExprs().begin(), getLHSExprs().end()); } helper_expr_const_range rhs_exprs() const { return helper_expr_const_range(getRHSExprs().begin(), getRHSExprs().end()); } helper_expr_range rhs_exprs() { return helper_expr_range(getRHSExprs().begin(), getRHSExprs().end()); } helper_expr_const_range reduction_ops() const { return helper_expr_const_range(getReductionOps().begin(), getReductionOps().end()); } helper_expr_range reduction_ops() { return helper_expr_range(getReductionOps().begin(), getReductionOps().end()); } child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_task_reduction; } }; /// This represents clause 'in_reduction' in the '#pragma omp task' directives. /// /// \code /// #pragma omp task in_reduction(+:a,b) /// \endcode /// In this example directive '#pragma omp task' has clause 'in_reduction' with /// operator '+' and the variables 'a' and 'b'. class OMPInReductionClause final : public OMPVarListClause, public OMPClauseWithPostUpdate, private llvm::TrailingObjects { friend class OMPClauseReader; friend OMPVarListClause; friend TrailingObjects; /// Location of ':'. SourceLocation ColonLoc; /// Nested name specifier for C++. NestedNameSpecifierLoc QualifierLoc; /// Name of custom operator. DeclarationNameInfo NameInfo; /// Build clause with number of variables \a N. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param ColonLoc Location of ':'. /// \param N Number of the variables in the clause. /// \param QualifierLoc The nested-name qualifier with location information /// \param NameInfo The full name info for reduction identifier. OMPInReductionClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation ColonLoc, SourceLocation EndLoc, unsigned N, NestedNameSpecifierLoc QualifierLoc, const DeclarationNameInfo &NameInfo) : OMPVarListClause(OMPC_in_reduction, StartLoc, LParenLoc, EndLoc, N), OMPClauseWithPostUpdate(this), ColonLoc(ColonLoc), QualifierLoc(QualifierLoc), NameInfo(NameInfo) {} /// Build an empty clause. /// /// \param N Number of variables. explicit OMPInReductionClause(unsigned N) : OMPVarListClause( OMPC_in_reduction, SourceLocation(), SourceLocation(), SourceLocation(), N), OMPClauseWithPostUpdate(this) {} /// Sets location of ':' symbol in clause. void setColonLoc(SourceLocation CL) { ColonLoc = CL; } /// Sets the name info for specified reduction identifier. void setNameInfo(DeclarationNameInfo DNI) { NameInfo = DNI; } /// Sets the nested name specifier. void setQualifierLoc(NestedNameSpecifierLoc NSL) { QualifierLoc = NSL; } /// Set list of helper expressions, required for proper codegen of the clause. /// These expressions represent private copy of the reduction variable. void setPrivates(ArrayRef Privates); /// Get the list of helper privates. MutableArrayRef getPrivates() { return MutableArrayRef(varlist_end(), varlist_size()); } ArrayRef getPrivates() const { return llvm::makeArrayRef(varlist_end(), varlist_size()); } /// Set list of helper expressions, required for proper codegen of the clause. /// These expressions represent LHS expression in the final reduction /// expression performed by the reduction clause. void setLHSExprs(ArrayRef LHSExprs); /// Get the list of helper LHS expressions. MutableArrayRef getLHSExprs() { return MutableArrayRef(getPrivates().end(), varlist_size()); } ArrayRef getLHSExprs() const { return llvm::makeArrayRef(getPrivates().end(), varlist_size()); } /// Set list of helper expressions, required for proper codegen of the clause. /// These expressions represent RHS expression in the final reduction /// expression performed by the reduction clause. Also, variables in these /// expressions are used for proper initialization of reduction copies. void setRHSExprs(ArrayRef RHSExprs); /// Get the list of helper destination expressions. MutableArrayRef getRHSExprs() { return MutableArrayRef(getLHSExprs().end(), varlist_size()); } ArrayRef getRHSExprs() const { return llvm::makeArrayRef(getLHSExprs().end(), varlist_size()); } /// Set list of helper reduction expressions, required for proper /// codegen of the clause. These expressions are binary expressions or /// operator/custom reduction call that calculates new value from source /// helper expressions to destination helper expressions. void setReductionOps(ArrayRef ReductionOps); /// Get the list of helper reduction expressions. MutableArrayRef getReductionOps() { return MutableArrayRef(getRHSExprs().end(), varlist_size()); } ArrayRef getReductionOps() const { return llvm::makeArrayRef(getRHSExprs().end(), varlist_size()); } /// Set list of helper reduction taskgroup descriptors. void setTaskgroupDescriptors(ArrayRef ReductionOps); /// Get the list of helper reduction taskgroup descriptors. MutableArrayRef getTaskgroupDescriptors() { return MutableArrayRef(getReductionOps().end(), varlist_size()); } ArrayRef getTaskgroupDescriptors() const { return llvm::makeArrayRef(getReductionOps().end(), varlist_size()); } public: /// Creates clause with a list of variables \a VL. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param ColonLoc Location of ':'. /// \param EndLoc Ending location of the clause. /// \param VL The variables in the clause. /// \param QualifierLoc The nested-name qualifier with location information /// \param NameInfo The full name info for reduction identifier. /// \param Privates List of helper expressions for proper generation of /// private copies. /// \param LHSExprs List of helper expressions for proper generation of /// assignment operation required for copyprivate clause. This list represents /// LHSs of the reduction expressions. /// \param RHSExprs List of helper expressions for proper generation of /// assignment operation required for copyprivate clause. This list represents /// RHSs of the reduction expressions. /// Also, variables in these expressions are used for proper initialization of /// reduction copies. /// \param ReductionOps List of helper expressions that represents reduction /// expressions: /// \code /// LHSExprs binop RHSExprs; /// operator binop(LHSExpr, RHSExpr); /// (LHSExpr, RHSExpr); /// \endcode /// Required for proper codegen of final reduction operation performed by the /// reduction clause. /// \param TaskgroupDescriptors List of helper taskgroup descriptors for /// corresponding items in parent taskgroup task_reduction clause. /// \param PreInit Statement that must be executed before entering the OpenMP /// region with this clause. /// \param PostUpdate Expression that must be executed after exit from the /// OpenMP region with this clause. static OMPInReductionClause * Create(const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation ColonLoc, SourceLocation EndLoc, ArrayRef VL, NestedNameSpecifierLoc QualifierLoc, const DeclarationNameInfo &NameInfo, ArrayRef Privates, ArrayRef LHSExprs, ArrayRef RHSExprs, ArrayRef ReductionOps, ArrayRef TaskgroupDescriptors, Stmt *PreInit, Expr *PostUpdate); /// Creates an empty clause with the place for \a N variables. /// /// \param C AST context. /// \param N The number of variables. static OMPInReductionClause *CreateEmpty(const ASTContext &C, unsigned N); /// Gets location of ':' symbol in clause. SourceLocation getColonLoc() const { return ColonLoc; } /// Gets the name info for specified reduction identifier. const DeclarationNameInfo &getNameInfo() const { return NameInfo; } /// Gets the nested name specifier. NestedNameSpecifierLoc getQualifierLoc() const { return QualifierLoc; } using helper_expr_iterator = MutableArrayRef::iterator; using helper_expr_const_iterator = ArrayRef::iterator; using helper_expr_range = llvm::iterator_range; using helper_expr_const_range = llvm::iterator_range; helper_expr_const_range privates() const { return helper_expr_const_range(getPrivates().begin(), getPrivates().end()); } helper_expr_range privates() { return helper_expr_range(getPrivates().begin(), getPrivates().end()); } helper_expr_const_range lhs_exprs() const { return helper_expr_const_range(getLHSExprs().begin(), getLHSExprs().end()); } helper_expr_range lhs_exprs() { return helper_expr_range(getLHSExprs().begin(), getLHSExprs().end()); } helper_expr_const_range rhs_exprs() const { return helper_expr_const_range(getRHSExprs().begin(), getRHSExprs().end()); } helper_expr_range rhs_exprs() { return helper_expr_range(getRHSExprs().begin(), getRHSExprs().end()); } helper_expr_const_range reduction_ops() const { return helper_expr_const_range(getReductionOps().begin(), getReductionOps().end()); } helper_expr_range reduction_ops() { return helper_expr_range(getReductionOps().begin(), getReductionOps().end()); } helper_expr_const_range taskgroup_descriptors() const { return helper_expr_const_range(getTaskgroupDescriptors().begin(), getTaskgroupDescriptors().end()); } helper_expr_range taskgroup_descriptors() { return helper_expr_range(getTaskgroupDescriptors().begin(), getTaskgroupDescriptors().end()); } child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_in_reduction; } }; /// This represents clause 'linear' in the '#pragma omp ...' /// directives. /// /// \code /// #pragma omp simd linear(a,b : 2) /// \endcode /// In this example directive '#pragma omp simd' has clause 'linear' /// with variables 'a', 'b' and linear step '2'. class OMPLinearClause final : public OMPVarListClause, public OMPClauseWithPostUpdate, private llvm::TrailingObjects { friend class OMPClauseReader; friend OMPVarListClause; friend TrailingObjects; /// Modifier of 'linear' clause. OpenMPLinearClauseKind Modifier = OMPC_LINEAR_val; /// Location of linear modifier if any. SourceLocation ModifierLoc; /// Location of ':'. SourceLocation ColonLoc; /// Sets the linear step for clause. void setStep(Expr *Step) { *(getFinals().end()) = Step; } /// Sets the expression to calculate linear step for clause. void setCalcStep(Expr *CalcStep) { *(getFinals().end() + 1) = CalcStep; } /// Build 'linear' clause with given number of variables \a NumVars. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param ColonLoc Location of ':'. /// \param EndLoc Ending location of the clause. /// \param NumVars Number of variables. OMPLinearClause(SourceLocation StartLoc, SourceLocation LParenLoc, OpenMPLinearClauseKind Modifier, SourceLocation ModifierLoc, SourceLocation ColonLoc, SourceLocation EndLoc, unsigned NumVars) : OMPVarListClause(OMPC_linear, StartLoc, LParenLoc, EndLoc, NumVars), OMPClauseWithPostUpdate(this), Modifier(Modifier), ModifierLoc(ModifierLoc), ColonLoc(ColonLoc) {} /// Build an empty clause. /// /// \param NumVars Number of variables. explicit OMPLinearClause(unsigned NumVars) : OMPVarListClause(OMPC_linear, SourceLocation(), SourceLocation(), SourceLocation(), NumVars), OMPClauseWithPostUpdate(this) {} /// Gets the list of initial values for linear variables. /// /// There are NumVars expressions with initial values allocated after the /// varlist, they are followed by NumVars update expressions (used to update /// the linear variable's value on current iteration) and they are followed by /// NumVars final expressions (used to calculate the linear variable's /// value after the loop body). After these lists, there are 2 helper /// expressions - linear step and a helper to calculate it before the /// loop body (used when the linear step is not constant): /// /// { Vars[] /* in OMPVarListClause */; Privates[]; Inits[]; Updates[]; /// Finals[]; Step; CalcStep; } MutableArrayRef getPrivates() { return MutableArrayRef(varlist_end(), varlist_size()); } ArrayRef getPrivates() const { return llvm::makeArrayRef(varlist_end(), varlist_size()); } MutableArrayRef getInits() { return MutableArrayRef(getPrivates().end(), varlist_size()); } ArrayRef getInits() const { return llvm::makeArrayRef(getPrivates().end(), varlist_size()); } /// Sets the list of update expressions for linear variables. MutableArrayRef getUpdates() { return MutableArrayRef(getInits().end(), varlist_size()); } ArrayRef getUpdates() const { return llvm::makeArrayRef(getInits().end(), varlist_size()); } /// Sets the list of final update expressions for linear variables. MutableArrayRef getFinals() { return MutableArrayRef(getUpdates().end(), varlist_size()); } ArrayRef getFinals() const { return llvm::makeArrayRef(getUpdates().end(), varlist_size()); } /// Gets the list of used expressions for linear variables. MutableArrayRef getUsedExprs() { return MutableArrayRef(getFinals().end() + 2, varlist_size() + 1); } ArrayRef getUsedExprs() const { return llvm::makeArrayRef(getFinals().end() + 2, varlist_size() + 1); } /// Sets the list of the copies of original linear variables. /// \param PL List of expressions. void setPrivates(ArrayRef PL); /// Sets the list of the initial values for linear variables. /// \param IL List of expressions. void setInits(ArrayRef IL); public: /// Creates clause with a list of variables \a VL and a linear step /// \a Step. /// /// \param C AST Context. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param Modifier Modifier of 'linear' clause. /// \param ModifierLoc Modifier location. /// \param ColonLoc Location of ':'. /// \param EndLoc Ending location of the clause. /// \param VL List of references to the variables. /// \param PL List of private copies of original variables. /// \param IL List of initial values for the variables. /// \param Step Linear step. /// \param CalcStep Calculation of the linear step. /// \param PreInit Statement that must be executed before entering the OpenMP /// region with this clause. /// \param PostUpdate Expression that must be executed after exit from the /// OpenMP region with this clause. static OMPLinearClause * Create(const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc, OpenMPLinearClauseKind Modifier, SourceLocation ModifierLoc, SourceLocation ColonLoc, SourceLocation EndLoc, ArrayRef VL, ArrayRef PL, ArrayRef IL, Expr *Step, Expr *CalcStep, Stmt *PreInit, Expr *PostUpdate); /// Creates an empty clause with the place for \a NumVars variables. /// /// \param C AST context. /// \param NumVars Number of variables. static OMPLinearClause *CreateEmpty(const ASTContext &C, unsigned NumVars); /// Set modifier. void setModifier(OpenMPLinearClauseKind Kind) { Modifier = Kind; } /// Return modifier. OpenMPLinearClauseKind getModifier() const { return Modifier; } /// Set modifier location. void setModifierLoc(SourceLocation Loc) { ModifierLoc = Loc; } /// Return modifier location. SourceLocation getModifierLoc() const { return ModifierLoc; } /// Sets the location of ':'. void setColonLoc(SourceLocation Loc) { ColonLoc = Loc; } /// Returns the location of ':'. SourceLocation getColonLoc() const { return ColonLoc; } /// Returns linear step. Expr *getStep() { return *(getFinals().end()); } /// Returns linear step. const Expr *getStep() const { return *(getFinals().end()); } /// Returns expression to calculate linear step. Expr *getCalcStep() { return *(getFinals().end() + 1); } /// Returns expression to calculate linear step. const Expr *getCalcStep() const { return *(getFinals().end() + 1); } /// Sets the list of update expressions for linear variables. /// \param UL List of expressions. void setUpdates(ArrayRef UL); /// Sets the list of final update expressions for linear variables. /// \param FL List of expressions. void setFinals(ArrayRef FL); /// Sets the list of used expressions for the linear clause. void setUsedExprs(ArrayRef UE); using privates_iterator = MutableArrayRef::iterator; using privates_const_iterator = ArrayRef::iterator; using privates_range = llvm::iterator_range; using privates_const_range = llvm::iterator_range; privates_range privates() { return privates_range(getPrivates().begin(), getPrivates().end()); } privates_const_range privates() const { return privates_const_range(getPrivates().begin(), getPrivates().end()); } using inits_iterator = MutableArrayRef::iterator; using inits_const_iterator = ArrayRef::iterator; using inits_range = llvm::iterator_range; using inits_const_range = llvm::iterator_range; inits_range inits() { return inits_range(getInits().begin(), getInits().end()); } inits_const_range inits() const { return inits_const_range(getInits().begin(), getInits().end()); } using updates_iterator = MutableArrayRef::iterator; using updates_const_iterator = ArrayRef::iterator; using updates_range = llvm::iterator_range; using updates_const_range = llvm::iterator_range; updates_range updates() { return updates_range(getUpdates().begin(), getUpdates().end()); } updates_const_range updates() const { return updates_const_range(getUpdates().begin(), getUpdates().end()); } using finals_iterator = MutableArrayRef::iterator; using finals_const_iterator = ArrayRef::iterator; using finals_range = llvm::iterator_range; using finals_const_range = llvm::iterator_range; finals_range finals() { return finals_range(getFinals().begin(), getFinals().end()); } finals_const_range finals() const { return finals_const_range(getFinals().begin(), getFinals().end()); } using used_expressions_iterator = MutableArrayRef::iterator; using used_expressions_const_iterator = ArrayRef::iterator; using used_expressions_range = llvm::iterator_range; using used_expressions_const_range = llvm::iterator_range; used_expressions_range used_expressions() { return finals_range(getUsedExprs().begin(), getUsedExprs().end()); } used_expressions_const_range used_expressions() const { return finals_const_range(getUsedExprs().begin(), getUsedExprs().end()); } child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children(); const_child_range used_children() const { auto Children = const_cast(this)->used_children(); return const_child_range(Children.begin(), Children.end()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_linear; } }; /// This represents clause 'aligned' in the '#pragma omp ...' /// directives. /// /// \code /// #pragma omp simd aligned(a,b : 8) /// \endcode /// In this example directive '#pragma omp simd' has clause 'aligned' /// with variables 'a', 'b' and alignment '8'. class OMPAlignedClause final : public OMPVarListClause, private llvm::TrailingObjects { friend class OMPClauseReader; friend OMPVarListClause; friend TrailingObjects; /// Location of ':'. SourceLocation ColonLoc; /// Sets the alignment for clause. void setAlignment(Expr *A) { *varlist_end() = A; } /// Build 'aligned' clause with given number of variables \a NumVars. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param ColonLoc Location of ':'. /// \param EndLoc Ending location of the clause. /// \param NumVars Number of variables. OMPAlignedClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation ColonLoc, SourceLocation EndLoc, unsigned NumVars) : OMPVarListClause(OMPC_aligned, StartLoc, LParenLoc, EndLoc, NumVars), ColonLoc(ColonLoc) {} /// Build an empty clause. /// /// \param NumVars Number of variables. explicit OMPAlignedClause(unsigned NumVars) : OMPVarListClause(OMPC_aligned, SourceLocation(), SourceLocation(), SourceLocation(), NumVars) {} public: /// Creates clause with a list of variables \a VL and alignment \a A. /// /// \param C AST Context. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param ColonLoc Location of ':'. /// \param EndLoc Ending location of the clause. /// \param VL List of references to the variables. /// \param A Alignment. static OMPAlignedClause *Create(const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation ColonLoc, SourceLocation EndLoc, ArrayRef VL, Expr *A); /// Creates an empty clause with the place for \a NumVars variables. /// /// \param C AST context. /// \param NumVars Number of variables. static OMPAlignedClause *CreateEmpty(const ASTContext &C, unsigned NumVars); /// Sets the location of ':'. void setColonLoc(SourceLocation Loc) { ColonLoc = Loc; } /// Returns the location of ':'. SourceLocation getColonLoc() const { return ColonLoc; } /// Returns alignment. Expr *getAlignment() { return *varlist_end(); } /// Returns alignment. const Expr *getAlignment() const { return *varlist_end(); } child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_aligned; } }; /// This represents clause 'copyin' in the '#pragma omp ...' directives. /// /// \code /// #pragma omp parallel copyin(a,b) /// \endcode /// In this example directive '#pragma omp parallel' has clause 'copyin' /// with the variables 'a' and 'b'. class OMPCopyinClause final : public OMPVarListClause, private llvm::TrailingObjects { // Class has 3 additional tail allocated arrays: // 1. List of helper expressions for proper generation of assignment operation // required for copyin clause. This list represents sources. // 2. List of helper expressions for proper generation of assignment operation // required for copyin clause. This list represents destinations. // 3. List of helper expressions that represents assignment operation: // \code // DstExprs = SrcExprs; // \endcode // Required for proper codegen of propagation of master's thread values of // threadprivate variables to local instances of that variables in other // implicit threads. friend class OMPClauseReader; friend OMPVarListClause; friend TrailingObjects; /// Build clause with number of variables \a N. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param N Number of the variables in the clause. OMPCopyinClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, unsigned N) : OMPVarListClause(OMPC_copyin, StartLoc, LParenLoc, EndLoc, N) {} /// Build an empty clause. /// /// \param N Number of variables. explicit OMPCopyinClause(unsigned N) : OMPVarListClause(OMPC_copyin, SourceLocation(), SourceLocation(), SourceLocation(), N) {} /// Set list of helper expressions, required for proper codegen of the /// clause. These expressions represent source expression in the final /// assignment statement performed by the copyin clause. void setSourceExprs(ArrayRef SrcExprs); /// Get the list of helper source expressions. MutableArrayRef getSourceExprs() { return MutableArrayRef(varlist_end(), varlist_size()); } ArrayRef getSourceExprs() const { return llvm::makeArrayRef(varlist_end(), varlist_size()); } /// Set list of helper expressions, required for proper codegen of the /// clause. These expressions represent destination expression in the final /// assignment statement performed by the copyin clause. void setDestinationExprs(ArrayRef DstExprs); /// Get the list of helper destination expressions. MutableArrayRef getDestinationExprs() { return MutableArrayRef(getSourceExprs().end(), varlist_size()); } ArrayRef getDestinationExprs() const { return llvm::makeArrayRef(getSourceExprs().end(), varlist_size()); } /// Set list of helper assignment expressions, required for proper /// codegen of the clause. These expressions are assignment expressions that /// assign source helper expressions to destination helper expressions /// correspondingly. void setAssignmentOps(ArrayRef AssignmentOps); /// Get the list of helper assignment expressions. MutableArrayRef getAssignmentOps() { return MutableArrayRef(getDestinationExprs().end(), varlist_size()); } ArrayRef getAssignmentOps() const { return llvm::makeArrayRef(getDestinationExprs().end(), varlist_size()); } public: /// Creates clause with a list of variables \a VL. /// /// \param C AST context. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param VL List of references to the variables. /// \param SrcExprs List of helper expressions for proper generation of /// assignment operation required for copyin clause. This list represents /// sources. /// \param DstExprs List of helper expressions for proper generation of /// assignment operation required for copyin clause. This list represents /// destinations. /// \param AssignmentOps List of helper expressions that represents assignment /// operation: /// \code /// DstExprs = SrcExprs; /// \endcode /// Required for proper codegen of propagation of master's thread values of /// threadprivate variables to local instances of that variables in other /// implicit threads. static OMPCopyinClause * Create(const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, ArrayRef VL, ArrayRef SrcExprs, ArrayRef DstExprs, ArrayRef AssignmentOps); /// Creates an empty clause with \a N variables. /// /// \param C AST context. /// \param N The number of variables. static OMPCopyinClause *CreateEmpty(const ASTContext &C, unsigned N); using helper_expr_iterator = MutableArrayRef::iterator; using helper_expr_const_iterator = ArrayRef::iterator; using helper_expr_range = llvm::iterator_range; using helper_expr_const_range = llvm::iterator_range; helper_expr_const_range source_exprs() const { return helper_expr_const_range(getSourceExprs().begin(), getSourceExprs().end()); } helper_expr_range source_exprs() { return helper_expr_range(getSourceExprs().begin(), getSourceExprs().end()); } helper_expr_const_range destination_exprs() const { return helper_expr_const_range(getDestinationExprs().begin(), getDestinationExprs().end()); } helper_expr_range destination_exprs() { return helper_expr_range(getDestinationExprs().begin(), getDestinationExprs().end()); } helper_expr_const_range assignment_ops() const { return helper_expr_const_range(getAssignmentOps().begin(), getAssignmentOps().end()); } helper_expr_range assignment_ops() { return helper_expr_range(getAssignmentOps().begin(), getAssignmentOps().end()); } child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_copyin; } }; /// This represents clause 'copyprivate' in the '#pragma omp ...' /// directives. /// /// \code /// #pragma omp single copyprivate(a,b) /// \endcode /// In this example directive '#pragma omp single' has clause 'copyprivate' /// with the variables 'a' and 'b'. class OMPCopyprivateClause final : public OMPVarListClause, private llvm::TrailingObjects { friend class OMPClauseReader; friend OMPVarListClause; friend TrailingObjects; /// Build clause with number of variables \a N. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param N Number of the variables in the clause. OMPCopyprivateClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, unsigned N) : OMPVarListClause(OMPC_copyprivate, StartLoc, LParenLoc, EndLoc, N) {} /// Build an empty clause. /// /// \param N Number of variables. explicit OMPCopyprivateClause(unsigned N) : OMPVarListClause( OMPC_copyprivate, SourceLocation(), SourceLocation(), SourceLocation(), N) {} /// Set list of helper expressions, required for proper codegen of the /// clause. These expressions represent source expression in the final /// assignment statement performed by the copyprivate clause. void setSourceExprs(ArrayRef SrcExprs); /// Get the list of helper source expressions. MutableArrayRef getSourceExprs() { return MutableArrayRef(varlist_end(), varlist_size()); } ArrayRef getSourceExprs() const { return llvm::makeArrayRef(varlist_end(), varlist_size()); } /// Set list of helper expressions, required for proper codegen of the /// clause. These expressions represent destination expression in the final /// assignment statement performed by the copyprivate clause. void setDestinationExprs(ArrayRef DstExprs); /// Get the list of helper destination expressions. MutableArrayRef getDestinationExprs() { return MutableArrayRef(getSourceExprs().end(), varlist_size()); } ArrayRef getDestinationExprs() const { return llvm::makeArrayRef(getSourceExprs().end(), varlist_size()); } /// Set list of helper assignment expressions, required for proper /// codegen of the clause. These expressions are assignment expressions that /// assign source helper expressions to destination helper expressions /// correspondingly. void setAssignmentOps(ArrayRef AssignmentOps); /// Get the list of helper assignment expressions. MutableArrayRef getAssignmentOps() { return MutableArrayRef(getDestinationExprs().end(), varlist_size()); } ArrayRef getAssignmentOps() const { return llvm::makeArrayRef(getDestinationExprs().end(), varlist_size()); } public: /// Creates clause with a list of variables \a VL. /// /// \param C AST context. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param VL List of references to the variables. /// \param SrcExprs List of helper expressions for proper generation of /// assignment operation required for copyprivate clause. This list represents /// sources. /// \param DstExprs List of helper expressions for proper generation of /// assignment operation required for copyprivate clause. This list represents /// destinations. /// \param AssignmentOps List of helper expressions that represents assignment /// operation: /// \code /// DstExprs = SrcExprs; /// \endcode /// Required for proper codegen of final assignment performed by the /// copyprivate clause. static OMPCopyprivateClause * Create(const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, ArrayRef VL, ArrayRef SrcExprs, ArrayRef DstExprs, ArrayRef AssignmentOps); /// Creates an empty clause with \a N variables. /// /// \param C AST context. /// \param N The number of variables. static OMPCopyprivateClause *CreateEmpty(const ASTContext &C, unsigned N); using helper_expr_iterator = MutableArrayRef::iterator; using helper_expr_const_iterator = ArrayRef::iterator; using helper_expr_range = llvm::iterator_range; using helper_expr_const_range = llvm::iterator_range; helper_expr_const_range source_exprs() const { return helper_expr_const_range(getSourceExprs().begin(), getSourceExprs().end()); } helper_expr_range source_exprs() { return helper_expr_range(getSourceExprs().begin(), getSourceExprs().end()); } helper_expr_const_range destination_exprs() const { return helper_expr_const_range(getDestinationExprs().begin(), getDestinationExprs().end()); } helper_expr_range destination_exprs() { return helper_expr_range(getDestinationExprs().begin(), getDestinationExprs().end()); } helper_expr_const_range assignment_ops() const { return helper_expr_const_range(getAssignmentOps().begin(), getAssignmentOps().end()); } helper_expr_range assignment_ops() { return helper_expr_range(getAssignmentOps().begin(), getAssignmentOps().end()); } child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_copyprivate; } }; /// This represents implicit clause 'flush' for the '#pragma omp flush' /// directive. /// This clause does not exist by itself, it can be only as a part of 'omp /// flush' directive. This clause is introduced to keep the original structure /// of \a OMPExecutableDirective class and its derivatives and to use the /// existing infrastructure of clauses with the list of variables. /// /// \code /// #pragma omp flush(a,b) /// \endcode /// In this example directive '#pragma omp flush' has implicit clause 'flush' /// with the variables 'a' and 'b'. class OMPFlushClause final : public OMPVarListClause, private llvm::TrailingObjects { friend OMPVarListClause; friend TrailingObjects; /// Build clause with number of variables \a N. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param N Number of the variables in the clause. OMPFlushClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, unsigned N) : OMPVarListClause(OMPC_flush, StartLoc, LParenLoc, EndLoc, N) {} /// Build an empty clause. /// /// \param N Number of variables. explicit OMPFlushClause(unsigned N) : OMPVarListClause(OMPC_flush, SourceLocation(), SourceLocation(), SourceLocation(), N) {} public: /// Creates clause with a list of variables \a VL. /// /// \param C AST context. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param VL List of references to the variables. static OMPFlushClause *Create(const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, ArrayRef VL); /// Creates an empty clause with \a N variables. /// /// \param C AST context. /// \param N The number of variables. static OMPFlushClause *CreateEmpty(const ASTContext &C, unsigned N); child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_flush; } }; /// This represents implicit clause 'depend' for the '#pragma omp task' /// directive. /// /// \code /// #pragma omp task depend(in:a,b) /// \endcode /// In this example directive '#pragma omp task' with clause 'depend' with the /// variables 'a' and 'b' with dependency 'in'. class OMPDependClause final : public OMPVarListClause, private llvm::TrailingObjects { friend class OMPClauseReader; friend OMPVarListClause; friend TrailingObjects; /// Dependency type (one of in, out, inout). OpenMPDependClauseKind DepKind = OMPC_DEPEND_unknown; /// Dependency type location. SourceLocation DepLoc; /// Colon location. SourceLocation ColonLoc; /// Number of loops, associated with the depend clause. unsigned NumLoops = 0; /// Build clause with number of variables \a N. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param N Number of the variables in the clause. /// \param NumLoops Number of loops that is associated with this depend /// clause. OMPDependClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, unsigned N, unsigned NumLoops) : OMPVarListClause(OMPC_depend, StartLoc, LParenLoc, EndLoc, N), NumLoops(NumLoops) {} /// Build an empty clause. /// /// \param N Number of variables. /// \param NumLoops Number of loops that is associated with this depend /// clause. explicit OMPDependClause(unsigned N, unsigned NumLoops) : OMPVarListClause(OMPC_depend, SourceLocation(), SourceLocation(), SourceLocation(), N), NumLoops(NumLoops) {} /// Set dependency kind. void setDependencyKind(OpenMPDependClauseKind K) { DepKind = K; } /// Set dependency kind and its location. void setDependencyLoc(SourceLocation Loc) { DepLoc = Loc; } /// Set colon location. void setColonLoc(SourceLocation Loc) { ColonLoc = Loc; } public: /// Creates clause with a list of variables \a VL. /// /// \param C AST context. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. /// \param DepKind Dependency type. /// \param DepLoc Location of the dependency type. /// \param ColonLoc Colon location. /// \param VL List of references to the variables. /// \param NumLoops Number of loops that is associated with this depend /// clause. static OMPDependClause *Create(const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc, OpenMPDependClauseKind DepKind, SourceLocation DepLoc, SourceLocation ColonLoc, ArrayRef VL, unsigned NumLoops); /// Creates an empty clause with \a N variables. /// /// \param C AST context. /// \param N The number of variables. /// \param NumLoops Number of loops that is associated with this depend /// clause. static OMPDependClause *CreateEmpty(const ASTContext &C, unsigned N, unsigned NumLoops); /// Get dependency type. OpenMPDependClauseKind getDependencyKind() const { return DepKind; } /// Get dependency type location. SourceLocation getDependencyLoc() const { return DepLoc; } /// Get colon location. SourceLocation getColonLoc() const { return ColonLoc; } /// Get number of loops associated with the clause. unsigned getNumLoops() const { return NumLoops; } /// Set the loop data for the depend clauses with 'sink|source' kind of /// dependency. void setLoopData(unsigned NumLoop, Expr *Cnt); /// Get the loop data. Expr *getLoopData(unsigned NumLoop); const Expr *getLoopData(unsigned NumLoop) const; child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_depend; } }; /// This represents 'device' clause in the '#pragma omp ...' /// directive. /// /// \code /// #pragma omp target device(a) /// \endcode /// In this example directive '#pragma omp target' has clause 'device' /// with single expression 'a'. class OMPDeviceClause : public OMPClause, public OMPClauseWithPreInit { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// Device number. Stmt *Device = nullptr; /// Set the device number. /// /// \param E Device number. void setDevice(Expr *E) { Device = E; } public: /// Build 'device' clause. /// /// \param E Expression associated with this clause. /// \param CaptureRegion Innermost OpenMP region where expressions in this /// clause must be captured. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. OMPDeviceClause(Expr *E, Stmt *HelperE, OpenMPDirectiveKind CaptureRegion, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_device, StartLoc, EndLoc), OMPClauseWithPreInit(this), LParenLoc(LParenLoc), Device(E) { setPreInitStmt(HelperE, CaptureRegion); } /// Build an empty clause. OMPDeviceClause() : OMPClause(OMPC_device, SourceLocation(), SourceLocation()), OMPClauseWithPreInit(this) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Return device number. Expr *getDevice() { return cast(Device); } /// Return device number. Expr *getDevice() const { return cast(Device); } child_range children() { return child_range(&Device, &Device + 1); } const_child_range children() const { return const_child_range(&Device, &Device + 1); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_device; } }; /// This represents 'threads' clause in the '#pragma omp ...' directive. /// /// \code /// #pragma omp ordered threads /// \endcode /// In this example directive '#pragma omp ordered' has simple 'threads' clause. class OMPThreadsClause : public OMPClause { public: /// Build 'threads' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPThreadsClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_threads, StartLoc, EndLoc) {} /// Build an empty clause. OMPThreadsClause() : OMPClause(OMPC_threads, SourceLocation(), SourceLocation()) {} child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_threads; } }; /// This represents 'simd' clause in the '#pragma omp ...' directive. /// /// \code /// #pragma omp ordered simd /// \endcode /// In this example directive '#pragma omp ordered' has simple 'simd' clause. class OMPSIMDClause : public OMPClause { public: /// Build 'simd' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPSIMDClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_simd, StartLoc, EndLoc) {} /// Build an empty clause. OMPSIMDClause() : OMPClause(OMPC_simd, SourceLocation(), SourceLocation()) {} child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_simd; } }; /// Struct that defines common infrastructure to handle mappable /// expressions used in OpenMP clauses. class OMPClauseMappableExprCommon { public: /// Class that represents a component of a mappable expression. E.g. /// for an expression S.a, the first component is a declaration reference /// expression associated with 'S' and the second is a member expression /// associated with the field declaration 'a'. If the expression is an array /// subscript it may not have any associated declaration. In that case the /// associated declaration is set to nullptr. class MappableComponent { /// Expression associated with the component. Expr *AssociatedExpression = nullptr; /// Declaration associated with the declaration. If the component does /// not have a declaration (e.g. array subscripts or section), this is set /// to nullptr. ValueDecl *AssociatedDeclaration = nullptr; public: explicit MappableComponent() = default; explicit MappableComponent(Expr *AssociatedExpression, ValueDecl *AssociatedDeclaration) : AssociatedExpression(AssociatedExpression), AssociatedDeclaration( AssociatedDeclaration ? cast(AssociatedDeclaration->getCanonicalDecl()) : nullptr) {} Expr *getAssociatedExpression() const { return AssociatedExpression; } ValueDecl *getAssociatedDeclaration() const { return AssociatedDeclaration; } }; // List of components of an expression. This first one is the whole // expression and the last one is the base expression. using MappableExprComponentList = SmallVector; using MappableExprComponentListRef = ArrayRef; // List of all component lists associated to the same base declaration. // E.g. if both 'S.a' and 'S.b' are a mappable expressions, each will have // their component list but the same base declaration 'S'. using MappableExprComponentLists = SmallVector; using MappableExprComponentListsRef = ArrayRef; protected: // Return the total number of elements in a list of component lists. static unsigned getComponentsTotalNumber(MappableExprComponentListsRef ComponentLists); // Return the total number of elements in a list of declarations. All // declarations are expected to be canonical. static unsigned getUniqueDeclarationsTotalNumber(ArrayRef Declarations); }; /// This structure contains all sizes needed for by an /// OMPMappableExprListClause. struct OMPMappableExprListSizeTy { /// Number of expressions listed. unsigned NumVars; /// Number of unique base declarations. unsigned NumUniqueDeclarations; /// Number of component lists. unsigned NumComponentLists; /// Total number of expression components. unsigned NumComponents; OMPMappableExprListSizeTy() = default; OMPMappableExprListSizeTy(unsigned NumVars, unsigned NumUniqueDeclarations, unsigned NumComponentLists, unsigned NumComponents) : NumVars(NumVars), NumUniqueDeclarations(NumUniqueDeclarations), NumComponentLists(NumComponentLists), NumComponents(NumComponents) {} }; /// This represents clauses with a list of expressions that are mappable. /// Examples of these clauses are 'map' in /// '#pragma omp target [enter|exit] [data]...' directives, and 'to' and 'from /// in '#pragma omp target update...' directives. template class OMPMappableExprListClause : public OMPVarListClause, public OMPClauseMappableExprCommon { friend class OMPClauseReader; /// Number of unique declarations in this clause. unsigned NumUniqueDeclarations; /// Number of component lists in this clause. unsigned NumComponentLists; /// Total number of components in this clause. unsigned NumComponents; /// C++ nested name specifier for the associated user-defined mapper. NestedNameSpecifierLoc MapperQualifierLoc; /// The associated user-defined mapper identifier information. DeclarationNameInfo MapperIdInfo; protected: /// Build a clause for \a NumUniqueDeclarations declarations, \a /// NumComponentLists total component lists, and \a NumComponents total /// components. /// /// \param K Kind of the clause. /// \param Locs Locations needed to build a mappable clause. It includes 1) /// StartLoc: starting location of the clause (the clause keyword); 2) /// LParenLoc: location of '('; 3) EndLoc: ending location of the clause. /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. /// \param MapperQualifierLocPtr C++ nested name specifier for the associated /// user-defined mapper. /// \param MapperIdInfoPtr The identifier of associated user-defined mapper. OMPMappableExprListClause( OpenMPClauseKind K, const OMPVarListLocTy &Locs, const OMPMappableExprListSizeTy &Sizes, NestedNameSpecifierLoc *MapperQualifierLocPtr = nullptr, DeclarationNameInfo *MapperIdInfoPtr = nullptr) : OMPVarListClause(K, Locs.StartLoc, Locs.LParenLoc, Locs.EndLoc, Sizes.NumVars), NumUniqueDeclarations(Sizes.NumUniqueDeclarations), NumComponentLists(Sizes.NumComponentLists), NumComponents(Sizes.NumComponents) { if (MapperQualifierLocPtr) MapperQualifierLoc = *MapperQualifierLocPtr; if (MapperIdInfoPtr) MapperIdInfo = *MapperIdInfoPtr; } /// Get the unique declarations that are in the trailing objects of the /// class. MutableArrayRef getUniqueDeclsRef() { return MutableArrayRef( static_cast(this)->template getTrailingObjects(), NumUniqueDeclarations); } /// Get the unique declarations that are in the trailing objects of the /// class. ArrayRef getUniqueDeclsRef() const { return ArrayRef( static_cast(this) ->template getTrailingObjects(), NumUniqueDeclarations); } /// Set the unique declarations that are in the trailing objects of the /// class. void setUniqueDecls(ArrayRef UDs) { assert(UDs.size() == NumUniqueDeclarations && "Unexpected amount of unique declarations."); std::copy(UDs.begin(), UDs.end(), getUniqueDeclsRef().begin()); } /// Get the number of lists per declaration that are in the trailing /// objects of the class. MutableArrayRef getDeclNumListsRef() { return MutableArrayRef( static_cast(this)->template getTrailingObjects(), NumUniqueDeclarations); } /// Get the number of lists per declaration that are in the trailing /// objects of the class. ArrayRef getDeclNumListsRef() const { return ArrayRef( static_cast(this)->template getTrailingObjects(), NumUniqueDeclarations); } /// Set the number of lists per declaration that are in the trailing /// objects of the class. void setDeclNumLists(ArrayRef DNLs) { assert(DNLs.size() == NumUniqueDeclarations && "Unexpected amount of list numbers."); std::copy(DNLs.begin(), DNLs.end(), getDeclNumListsRef().begin()); } /// Get the cumulative component lists sizes that are in the trailing /// objects of the class. They are appended after the number of lists. MutableArrayRef getComponentListSizesRef() { return MutableArrayRef( static_cast(this)->template getTrailingObjects() + NumUniqueDeclarations, NumComponentLists); } /// Get the cumulative component lists sizes that are in the trailing /// objects of the class. They are appended after the number of lists. ArrayRef getComponentListSizesRef() const { return ArrayRef( static_cast(this)->template getTrailingObjects() + NumUniqueDeclarations, NumComponentLists); } /// Set the cumulative component lists sizes that are in the trailing /// objects of the class. void setComponentListSizes(ArrayRef CLSs) { assert(CLSs.size() == NumComponentLists && "Unexpected amount of component lists."); std::copy(CLSs.begin(), CLSs.end(), getComponentListSizesRef().begin()); } /// Get the components that are in the trailing objects of the class. MutableArrayRef getComponentsRef() { return MutableArrayRef( static_cast(this) ->template getTrailingObjects(), NumComponents); } /// Get the components that are in the trailing objects of the class. ArrayRef getComponentsRef() const { return ArrayRef( static_cast(this) ->template getTrailingObjects(), NumComponents); } /// Set the components that are in the trailing objects of the class. /// This requires the list sizes so that it can also fill the original /// expressions, which are the first component of each list. void setComponents(ArrayRef Components, ArrayRef CLSs) { assert(Components.size() == NumComponents && "Unexpected amount of component lists."); assert(CLSs.size() == NumComponentLists && "Unexpected amount of list sizes."); std::copy(Components.begin(), Components.end(), getComponentsRef().begin()); } /// Fill the clause information from the list of declarations and /// associated component lists. void setClauseInfo(ArrayRef Declarations, MappableExprComponentListsRef ComponentLists) { // Perform some checks to make sure the data sizes are consistent with the // information available when the clause was created. assert(getUniqueDeclarationsTotalNumber(Declarations) == NumUniqueDeclarations && "Unexpected number of mappable expression info entries!"); assert(getComponentsTotalNumber(ComponentLists) == NumComponents && "Unexpected total number of components!"); assert(Declarations.size() == ComponentLists.size() && "Declaration and component lists size is not consistent!"); assert(Declarations.size() == NumComponentLists && "Unexpected declaration and component lists size!"); // Organize the components by declaration and retrieve the original // expression. Original expressions are always the first component of the // mappable component list. llvm::MapVector> ComponentListMap; { auto CI = ComponentLists.begin(); for (auto DI = Declarations.begin(), DE = Declarations.end(); DI != DE; ++DI, ++CI) { assert(!CI->empty() && "Invalid component list!"); ComponentListMap[*DI].push_back(*CI); } } // Iterators of the target storage. auto UniqueDeclarations = getUniqueDeclsRef(); auto UDI = UniqueDeclarations.begin(); auto DeclNumLists = getDeclNumListsRef(); auto DNLI = DeclNumLists.begin(); auto ComponentListSizes = getComponentListSizesRef(); auto CLSI = ComponentListSizes.begin(); auto Components = getComponentsRef(); auto CI = Components.begin(); // Variable to compute the accumulation of the number of components. unsigned PrevSize = 0u; // Scan all the declarations and associated component lists. for (auto &M : ComponentListMap) { // The declaration. auto *D = M.first; // The component lists. auto CL = M.second; // Initialize the entry. *UDI = D; ++UDI; *DNLI = CL.size(); ++DNLI; // Obtain the cumulative sizes and concatenate all the components in the // reserved storage. for (auto C : CL) { // Accumulate with the previous size. PrevSize += C.size(); // Save the size. *CLSI = PrevSize; ++CLSI; // Append components after the current components iterator. CI = std::copy(C.begin(), C.end(), CI); } } } /// Set the nested name specifier of associated user-defined mapper. void setMapperQualifierLoc(NestedNameSpecifierLoc NNSL) { MapperQualifierLoc = NNSL; } /// Set the name of associated user-defined mapper. void setMapperIdInfo(DeclarationNameInfo MapperId) { MapperIdInfo = MapperId; } /// Get the user-defined mapper references that are in the trailing objects of /// the class. MutableArrayRef getUDMapperRefs() { return llvm::makeMutableArrayRef( static_cast(this)->template getTrailingObjects() + OMPVarListClause::varlist_size(), OMPVarListClause::varlist_size()); } /// Get the user-defined mappers references that are in the trailing objects /// of the class. ArrayRef getUDMapperRefs() const { return llvm::makeArrayRef( static_cast(this)->template getTrailingObjects() + OMPVarListClause::varlist_size(), OMPVarListClause::varlist_size()); } /// Set the user-defined mappers that are in the trailing objects of the /// class. void setUDMapperRefs(ArrayRef DMDs) { assert(DMDs.size() == OMPVarListClause::varlist_size() && "Unexpected number of user-defined mappers."); std::copy(DMDs.begin(), DMDs.end(), getUDMapperRefs().begin()); } public: /// Return the number of unique base declarations in this clause. unsigned getUniqueDeclarationsNum() const { return NumUniqueDeclarations; } /// Return the number of lists derived from the clause expressions. unsigned getTotalComponentListNum() const { return NumComponentLists; } /// Return the total number of components in all lists derived from the /// clause. unsigned getTotalComponentsNum() const { return NumComponents; } /// Gets the nested name specifier for associated user-defined mapper. NestedNameSpecifierLoc getMapperQualifierLoc() const { return MapperQualifierLoc; } /// Gets the name info for associated user-defined mapper. const DeclarationNameInfo &getMapperIdInfo() const { return MapperIdInfo; } /// Iterator that browse the components by lists. It also allows /// browsing components of a single declaration. class const_component_lists_iterator : public llvm::iterator_adaptor_base< const_component_lists_iterator, MappableExprComponentListRef::const_iterator, std::forward_iterator_tag, MappableComponent, ptrdiff_t, MappableComponent, MappableComponent> { // The declaration the iterator currently refers to. ArrayRef::iterator DeclCur; // The list number associated with the current declaration. ArrayRef::iterator NumListsCur; // Remaining lists for the current declaration. unsigned RemainingLists = 0; // The cumulative size of the previous list, or zero if there is no previous // list. unsigned PrevListSize = 0; // The cumulative sizes of the current list - it will delimit the remaining // range of interest. ArrayRef::const_iterator ListSizeCur; ArrayRef::const_iterator ListSizeEnd; // Iterator to the end of the components storage. MappableExprComponentListRef::const_iterator End; public: /// Construct an iterator that scans all lists. explicit const_component_lists_iterator( ArrayRef UniqueDecls, ArrayRef DeclsListNum, ArrayRef CumulativeListSizes, MappableExprComponentListRef Components) : const_component_lists_iterator::iterator_adaptor_base( Components.begin()), DeclCur(UniqueDecls.begin()), NumListsCur(DeclsListNum.begin()), ListSizeCur(CumulativeListSizes.begin()), ListSizeEnd(CumulativeListSizes.end()), End(Components.end()) { assert(UniqueDecls.size() == DeclsListNum.size() && "Inconsistent number of declarations and list sizes!"); if (!DeclsListNum.empty()) RemainingLists = *NumListsCur; } /// Construct an iterator that scan lists for a given declaration \a /// Declaration. explicit const_component_lists_iterator( const ValueDecl *Declaration, ArrayRef UniqueDecls, ArrayRef DeclsListNum, ArrayRef CumulativeListSizes, MappableExprComponentListRef Components) : const_component_lists_iterator(UniqueDecls, DeclsListNum, CumulativeListSizes, Components) { // Look for the desired declaration. While we are looking for it, we // update the state so that we know the component where a given list // starts. for (; DeclCur != UniqueDecls.end(); ++DeclCur, ++NumListsCur) { if (*DeclCur == Declaration) break; assert(*NumListsCur > 0 && "No lists associated with declaration??"); // Skip the lists associated with the current declaration, but save the // last list size that was skipped. std::advance(ListSizeCur, *NumListsCur - 1); PrevListSize = *ListSizeCur; ++ListSizeCur; } // If we didn't find any declaration, advance the iterator to after the // last component and set remaining lists to zero. if (ListSizeCur == CumulativeListSizes.end()) { this->I = End; RemainingLists = 0u; return; } // Set the remaining lists with the total number of lists of the current // declaration. RemainingLists = *NumListsCur; // Adjust the list size end iterator to the end of the relevant range. ListSizeEnd = ListSizeCur; std::advance(ListSizeEnd, RemainingLists); // Given that the list sizes are cumulative, the index of the component // that start the list is the size of the previous list. std::advance(this->I, PrevListSize); } // Return the array with the current list. The sizes are cumulative, so the // array size is the difference between the current size and previous one. std::pair operator*() const { assert(ListSizeCur != ListSizeEnd && "Invalid iterator!"); return std::make_pair( *DeclCur, MappableExprComponentListRef(&*this->I, *ListSizeCur - PrevListSize)); } std::pair operator->() const { return **this; } // Skip the components of the current list. const_component_lists_iterator &operator++() { assert(ListSizeCur != ListSizeEnd && RemainingLists && "Invalid iterator!"); // If we don't have more lists just skip all the components. Otherwise, // advance the iterator by the number of components in the current list. if (std::next(ListSizeCur) == ListSizeEnd) { this->I = End; RemainingLists = 0; } else { std::advance(this->I, *ListSizeCur - PrevListSize); PrevListSize = *ListSizeCur; // We are done with a declaration, move to the next one. if (!(--RemainingLists)) { ++DeclCur; ++NumListsCur; RemainingLists = *NumListsCur; assert(RemainingLists && "No lists in the following declaration??"); } } ++ListSizeCur; return *this; } }; using const_component_lists_range = llvm::iterator_range; /// Iterators for all component lists. const_component_lists_iterator component_lists_begin() const { return const_component_lists_iterator( getUniqueDeclsRef(), getDeclNumListsRef(), getComponentListSizesRef(), getComponentsRef()); } const_component_lists_iterator component_lists_end() const { return const_component_lists_iterator( ArrayRef(), ArrayRef(), ArrayRef(), MappableExprComponentListRef(getComponentsRef().end(), getComponentsRef().end())); } const_component_lists_range component_lists() const { return {component_lists_begin(), component_lists_end()}; } /// Iterators for component lists associated with the provided /// declaration. const_component_lists_iterator decl_component_lists_begin(const ValueDecl *VD) const { return const_component_lists_iterator( VD, getUniqueDeclsRef(), getDeclNumListsRef(), getComponentListSizesRef(), getComponentsRef()); } const_component_lists_iterator decl_component_lists_end() const { return component_lists_end(); } const_component_lists_range decl_component_lists(const ValueDecl *VD) const { return {decl_component_lists_begin(VD), decl_component_lists_end()}; } /// Iterators to access all the declarations, number of lists, list sizes, and /// components. using const_all_decls_iterator = ArrayRef::iterator; using const_all_decls_range = llvm::iterator_range; const_all_decls_range all_decls() const { auto A = getUniqueDeclsRef(); return const_all_decls_range(A.begin(), A.end()); } using const_all_num_lists_iterator = ArrayRef::iterator; using const_all_num_lists_range = llvm::iterator_range; const_all_num_lists_range all_num_lists() const { auto A = getDeclNumListsRef(); return const_all_num_lists_range(A.begin(), A.end()); } using const_all_lists_sizes_iterator = ArrayRef::iterator; using const_all_lists_sizes_range = llvm::iterator_range; const_all_lists_sizes_range all_lists_sizes() const { auto A = getComponentListSizesRef(); return const_all_lists_sizes_range(A.begin(), A.end()); } using const_all_components_iterator = ArrayRef::iterator; using const_all_components_range = llvm::iterator_range; const_all_components_range all_components() const { auto A = getComponentsRef(); return const_all_components_range(A.begin(), A.end()); } using mapperlist_iterator = MutableArrayRef::iterator; using mapperlist_const_iterator = ArrayRef::iterator; using mapperlist_range = llvm::iterator_range; using mapperlist_const_range = llvm::iterator_range; mapperlist_iterator mapperlist_begin() { return getUDMapperRefs().begin(); } mapperlist_iterator mapperlist_end() { return getUDMapperRefs().end(); } mapperlist_const_iterator mapperlist_begin() const { return getUDMapperRefs().begin(); } mapperlist_const_iterator mapperlist_end() const { return getUDMapperRefs().end(); } mapperlist_range mapperlists() { return mapperlist_range(mapperlist_begin(), mapperlist_end()); } mapperlist_const_range mapperlists() const { return mapperlist_const_range(mapperlist_begin(), mapperlist_end()); } }; /// This represents clause 'map' in the '#pragma omp ...' /// directives. /// /// \code /// #pragma omp target map(a,b) /// \endcode /// In this example directive '#pragma omp target' has clause 'map' /// with the variables 'a' and 'b'. class OMPMapClause final : public OMPMappableExprListClause, private llvm::TrailingObjects< OMPMapClause, Expr *, ValueDecl *, unsigned, OMPClauseMappableExprCommon::MappableComponent> { friend class OMPClauseReader; friend OMPMappableExprListClause; friend OMPVarListClause; friend TrailingObjects; /// Define the sizes of each trailing object array except the last one. This /// is required for TrailingObjects to work properly. size_t numTrailingObjects(OverloadToken) const { // There are varlist_size() of expressions, and varlist_size() of // user-defined mappers. return 2 * varlist_size(); } size_t numTrailingObjects(OverloadToken) const { return getUniqueDeclarationsNum(); } size_t numTrailingObjects(OverloadToken) const { return getUniqueDeclarationsNum() + getTotalComponentListNum(); } public: /// Number of allowed map-type-modifiers. static constexpr unsigned NumberOfModifiers = OMPC_MAP_MODIFIER_last - OMPC_MAP_MODIFIER_unknown - 1; private: /// Map-type-modifiers for the 'map' clause. OpenMPMapModifierKind MapTypeModifiers[NumberOfModifiers] = { OMPC_MAP_MODIFIER_unknown, OMPC_MAP_MODIFIER_unknown, OMPC_MAP_MODIFIER_unknown}; /// Location of map-type-modifiers for the 'map' clause. SourceLocation MapTypeModifiersLoc[NumberOfModifiers]; /// Map type for the 'map' clause. OpenMPMapClauseKind MapType = OMPC_MAP_unknown; /// Is this an implicit map type or not. bool MapTypeIsImplicit = false; /// Location of the map type. SourceLocation MapLoc; /// Colon location. SourceLocation ColonLoc; /// Build a clause for \a NumVars listed expressions, \a /// NumUniqueDeclarations declarations, \a NumComponentLists total component /// lists, and \a NumComponents total expression components. /// /// \param MapModifiers Map-type-modifiers. /// \param MapModifiersLoc Locations of map-type-modifiers. /// \param MapperQualifierLoc C++ nested name specifier for the associated /// user-defined mapper. /// \param MapperIdInfo The identifier of associated user-defined mapper. /// \param MapType Map type. /// \param MapTypeIsImplicit Map type is inferred implicitly. /// \param MapLoc Location of the map type. /// \param Locs Locations needed to build a mappable clause. It includes 1) /// StartLoc: starting location of the clause (the clause keyword); 2) /// LParenLoc: location of '('; 3) EndLoc: ending location of the clause. /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. explicit OMPMapClause(ArrayRef MapModifiers, ArrayRef MapModifiersLoc, NestedNameSpecifierLoc MapperQualifierLoc, DeclarationNameInfo MapperIdInfo, OpenMPMapClauseKind MapType, bool MapTypeIsImplicit, SourceLocation MapLoc, const OMPVarListLocTy &Locs, const OMPMappableExprListSizeTy &Sizes) : OMPMappableExprListClause(OMPC_map, Locs, Sizes, &MapperQualifierLoc, &MapperIdInfo), MapType(MapType), MapTypeIsImplicit(MapTypeIsImplicit), MapLoc(MapLoc) { assert(llvm::array_lengthof(MapTypeModifiers) == MapModifiers.size() && "Unexpected number of map type modifiers."); llvm::copy(MapModifiers, std::begin(MapTypeModifiers)); assert(llvm::array_lengthof(MapTypeModifiersLoc) == MapModifiersLoc.size() && "Unexpected number of map type modifier locations."); llvm::copy(MapModifiersLoc, std::begin(MapTypeModifiersLoc)); } /// Build an empty clause. /// /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. explicit OMPMapClause(const OMPMappableExprListSizeTy &Sizes) : OMPMappableExprListClause(OMPC_map, OMPVarListLocTy(), Sizes) {} /// Set map-type-modifier for the clause. /// /// \param I index for map-type-modifier. /// \param T map-type-modifier for the clause. void setMapTypeModifier(unsigned I, OpenMPMapModifierKind T) { assert(I < NumberOfModifiers && "Unexpected index to store map type modifier, exceeds array size."); MapTypeModifiers[I] = T; } /// Set location for the map-type-modifier. /// /// \param I index for map-type-modifier location. /// \param TLoc map-type-modifier location. void setMapTypeModifierLoc(unsigned I, SourceLocation TLoc) { assert(I < NumberOfModifiers && "Index to store map type modifier location exceeds array size."); MapTypeModifiersLoc[I] = TLoc; } /// Set type for the clause. /// /// \param T Type for the clause. void setMapType(OpenMPMapClauseKind T) { MapType = T; } /// Set type location. /// /// \param TLoc Type location. void setMapLoc(SourceLocation TLoc) { MapLoc = TLoc; } /// Set colon location. void setColonLoc(SourceLocation Loc) { ColonLoc = Loc; } public: /// Creates clause with a list of variables \a VL. /// /// \param C AST context. /// \param Locs Locations needed to build a mappable clause. It includes 1) /// StartLoc: starting location of the clause (the clause keyword); 2) /// LParenLoc: location of '('; 3) EndLoc: ending location of the clause. /// \param Vars The original expression used in the clause. /// \param Declarations Declarations used in the clause. /// \param ComponentLists Component lists used in the clause. /// \param UDMapperRefs References to user-defined mappers associated with /// expressions used in the clause. /// \param MapModifiers Map-type-modifiers. /// \param MapModifiersLoc Location of map-type-modifiers. /// \param UDMQualifierLoc C++ nested name specifier for the associated /// user-defined mapper. /// \param MapperId The identifier of associated user-defined mapper. /// \param Type Map type. /// \param TypeIsImplicit Map type is inferred implicitly. /// \param TypeLoc Location of the map type. static OMPMapClause * Create(const ASTContext &C, const OMPVarListLocTy &Locs, ArrayRef Vars, ArrayRef Declarations, MappableExprComponentListsRef ComponentLists, ArrayRef UDMapperRefs, ArrayRef MapModifiers, ArrayRef MapModifiersLoc, NestedNameSpecifierLoc UDMQualifierLoc, DeclarationNameInfo MapperId, OpenMPMapClauseKind Type, bool TypeIsImplicit, SourceLocation TypeLoc); /// Creates an empty clause with the place for \a NumVars original /// expressions, \a NumUniqueDeclarations declarations, \NumComponentLists /// lists, and \a NumComponents expression components. /// /// \param C AST context. /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. static OMPMapClause *CreateEmpty(const ASTContext &C, const OMPMappableExprListSizeTy &Sizes); /// Fetches mapping kind for the clause. OpenMPMapClauseKind getMapType() const LLVM_READONLY { return MapType; } /// Is this an implicit map type? /// We have to capture 'IsMapTypeImplicit' from the parser for more /// informative error messages. It helps distinguish map(r) from /// map(tofrom: r), which is important to print more helpful error /// messages for some target directives. bool isImplicitMapType() const LLVM_READONLY { return MapTypeIsImplicit; } /// Fetches the map-type-modifier at 'Cnt' index of array of modifiers. /// /// \param Cnt index for map-type-modifier. OpenMPMapModifierKind getMapTypeModifier(unsigned Cnt) const LLVM_READONLY { assert(Cnt < NumberOfModifiers && "Requested modifier exceeds the total number of modifiers."); return MapTypeModifiers[Cnt]; } /// Fetches the map-type-modifier location at 'Cnt' index of array of /// modifiers' locations. /// /// \param Cnt index for map-type-modifier location. SourceLocation getMapTypeModifierLoc(unsigned Cnt) const LLVM_READONLY { assert(Cnt < NumberOfModifiers && "Requested modifier location exceeds total number of modifiers."); return MapTypeModifiersLoc[Cnt]; } /// Fetches ArrayRef of map-type-modifiers. ArrayRef getMapTypeModifiers() const LLVM_READONLY { return llvm::makeArrayRef(MapTypeModifiers); } /// Fetches ArrayRef of location of map-type-modifiers. ArrayRef getMapTypeModifiersLoc() const LLVM_READONLY { return llvm::makeArrayRef(MapTypeModifiersLoc); } /// Fetches location of clause mapping kind. SourceLocation getMapLoc() const LLVM_READONLY { return MapLoc; } /// Get colon location. SourceLocation getColonLoc() const { return ColonLoc; } child_range children() { return child_range( reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { if (MapType == OMPC_MAP_to || MapType == OMPC_MAP_tofrom) return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { auto Children = const_cast(this)->used_children(); return const_child_range(Children.begin(), Children.end()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_map; } }; /// This represents 'num_teams' clause in the '#pragma omp ...' /// directive. /// /// \code /// #pragma omp teams num_teams(n) /// \endcode /// In this example directive '#pragma omp teams' has clause 'num_teams' /// with single expression 'n'. class OMPNumTeamsClause : public OMPClause, public OMPClauseWithPreInit { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// NumTeams number. Stmt *NumTeams = nullptr; /// Set the NumTeams number. /// /// \param E NumTeams number. void setNumTeams(Expr *E) { NumTeams = E; } public: /// Build 'num_teams' clause. /// /// \param E Expression associated with this clause. /// \param HelperE Helper Expression associated with this clause. /// \param CaptureRegion Innermost OpenMP region where expressions in this /// clause must be captured. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. OMPNumTeamsClause(Expr *E, Stmt *HelperE, OpenMPDirectiveKind CaptureRegion, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_num_teams, StartLoc, EndLoc), OMPClauseWithPreInit(this), LParenLoc(LParenLoc), NumTeams(E) { setPreInitStmt(HelperE, CaptureRegion); } /// Build an empty clause. OMPNumTeamsClause() : OMPClause(OMPC_num_teams, SourceLocation(), SourceLocation()), OMPClauseWithPreInit(this) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Return NumTeams number. Expr *getNumTeams() { return cast(NumTeams); } /// Return NumTeams number. Expr *getNumTeams() const { return cast(NumTeams); } child_range children() { return child_range(&NumTeams, &NumTeams + 1); } const_child_range children() const { return const_child_range(&NumTeams, &NumTeams + 1); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_num_teams; } }; /// This represents 'thread_limit' clause in the '#pragma omp ...' /// directive. /// /// \code /// #pragma omp teams thread_limit(n) /// \endcode /// In this example directive '#pragma omp teams' has clause 'thread_limit' /// with single expression 'n'. class OMPThreadLimitClause : public OMPClause, public OMPClauseWithPreInit { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// ThreadLimit number. Stmt *ThreadLimit = nullptr; /// Set the ThreadLimit number. /// /// \param E ThreadLimit number. void setThreadLimit(Expr *E) { ThreadLimit = E; } public: /// Build 'thread_limit' clause. /// /// \param E Expression associated with this clause. /// \param HelperE Helper Expression associated with this clause. /// \param CaptureRegion Innermost OpenMP region where expressions in this /// clause must be captured. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. OMPThreadLimitClause(Expr *E, Stmt *HelperE, OpenMPDirectiveKind CaptureRegion, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_thread_limit, StartLoc, EndLoc), OMPClauseWithPreInit(this), LParenLoc(LParenLoc), ThreadLimit(E) { setPreInitStmt(HelperE, CaptureRegion); } /// Build an empty clause. OMPThreadLimitClause() : OMPClause(OMPC_thread_limit, SourceLocation(), SourceLocation()), OMPClauseWithPreInit(this) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Return ThreadLimit number. Expr *getThreadLimit() { return cast(ThreadLimit); } /// Return ThreadLimit number. Expr *getThreadLimit() const { return cast(ThreadLimit); } child_range children() { return child_range(&ThreadLimit, &ThreadLimit + 1); } const_child_range children() const { return const_child_range(&ThreadLimit, &ThreadLimit + 1); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_thread_limit; } }; /// This represents 'priority' clause in the '#pragma omp ...' /// directive. /// /// \code /// #pragma omp task priority(n) /// \endcode /// In this example directive '#pragma omp teams' has clause 'priority' with /// single expression 'n'. class OMPPriorityClause : public OMPClause, public OMPClauseWithPreInit { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// Priority number. Stmt *Priority = nullptr; /// Set the Priority number. /// /// \param E Priority number. void setPriority(Expr *E) { Priority = E; } public: /// Build 'priority' clause. /// /// \param Priority Expression associated with this clause. /// \param HelperPriority Helper priority for the construct. /// \param CaptureRegion Innermost OpenMP region where expressions in this /// clause must be captured. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. OMPPriorityClause(Expr *Priority, Stmt *HelperPriority, OpenMPDirectiveKind CaptureRegion, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_priority, StartLoc, EndLoc), OMPClauseWithPreInit(this), LParenLoc(LParenLoc), Priority(Priority) { setPreInitStmt(HelperPriority, CaptureRegion); } /// Build an empty clause. OMPPriorityClause() : OMPClause(OMPC_priority, SourceLocation(), SourceLocation()), OMPClauseWithPreInit(this) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Return Priority number. Expr *getPriority() { return cast(Priority); } /// Return Priority number. Expr *getPriority() const { return cast(Priority); } child_range children() { return child_range(&Priority, &Priority + 1); } const_child_range children() const { return const_child_range(&Priority, &Priority + 1); } child_range used_children(); const_child_range used_children() const { auto Children = const_cast(this)->used_children(); return const_child_range(Children.begin(), Children.end()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_priority; } }; /// This represents 'grainsize' clause in the '#pragma omp ...' /// directive. /// /// \code /// #pragma omp taskloop grainsize(4) /// \endcode /// In this example directive '#pragma omp taskloop' has clause 'grainsize' /// with single expression '4'. class OMPGrainsizeClause : public OMPClause, public OMPClauseWithPreInit { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// Safe iteration space distance. Stmt *Grainsize = nullptr; /// Set safelen. void setGrainsize(Expr *Size) { Grainsize = Size; } public: /// Build 'grainsize' clause. /// /// \param Size Expression associated with this clause. /// \param HelperSize Helper grainsize for the construct. /// \param CaptureRegion Innermost OpenMP region where expressions in this /// clause must be captured. /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPGrainsizeClause(Expr *Size, Stmt *HelperSize, OpenMPDirectiveKind CaptureRegion, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_grainsize, StartLoc, EndLoc), OMPClauseWithPreInit(this), LParenLoc(LParenLoc), Grainsize(Size) { setPreInitStmt(HelperSize, CaptureRegion); } /// Build an empty clause. explicit OMPGrainsizeClause() : OMPClause(OMPC_grainsize, SourceLocation(), SourceLocation()), OMPClauseWithPreInit(this) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Return safe iteration space distance. Expr *getGrainsize() const { return cast_or_null(Grainsize); } child_range children() { return child_range(&Grainsize, &Grainsize + 1); } const_child_range children() const { return const_child_range(&Grainsize, &Grainsize + 1); } child_range used_children(); const_child_range used_children() const { auto Children = const_cast(this)->used_children(); return const_child_range(Children.begin(), Children.end()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_grainsize; } }; /// This represents 'nogroup' clause in the '#pragma omp ...' directive. /// /// \code /// #pragma omp taskloop nogroup /// \endcode /// In this example directive '#pragma omp taskloop' has 'nogroup' clause. class OMPNogroupClause : public OMPClause { public: /// Build 'nogroup' clause. /// /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPNogroupClause(SourceLocation StartLoc, SourceLocation EndLoc) : OMPClause(OMPC_nogroup, StartLoc, EndLoc) {} /// Build an empty clause. OMPNogroupClause() : OMPClause(OMPC_nogroup, SourceLocation(), SourceLocation()) {} child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_nogroup; } }; /// This represents 'num_tasks' clause in the '#pragma omp ...' /// directive. /// /// \code /// #pragma omp taskloop num_tasks(4) /// \endcode /// In this example directive '#pragma omp taskloop' has clause 'num_tasks' /// with single expression '4'. class OMPNumTasksClause : public OMPClause, public OMPClauseWithPreInit { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// Safe iteration space distance. Stmt *NumTasks = nullptr; /// Set safelen. void setNumTasks(Expr *Size) { NumTasks = Size; } public: /// Build 'num_tasks' clause. /// /// \param Size Expression associated with this clause. /// \param HelperSize Helper grainsize for the construct. /// \param CaptureRegion Innermost OpenMP region where expressions in this /// clause must be captured. /// \param StartLoc Starting location of the clause. /// \param EndLoc Ending location of the clause. OMPNumTasksClause(Expr *Size, Stmt *HelperSize, OpenMPDirectiveKind CaptureRegion, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_num_tasks, StartLoc, EndLoc), OMPClauseWithPreInit(this), LParenLoc(LParenLoc), NumTasks(Size) { setPreInitStmt(HelperSize, CaptureRegion); } /// Build an empty clause. explicit OMPNumTasksClause() : OMPClause(OMPC_num_tasks, SourceLocation(), SourceLocation()), OMPClauseWithPreInit(this) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Return safe iteration space distance. Expr *getNumTasks() const { return cast_or_null(NumTasks); } child_range children() { return child_range(&NumTasks, &NumTasks + 1); } const_child_range children() const { return const_child_range(&NumTasks, &NumTasks + 1); } child_range used_children(); const_child_range used_children() const { auto Children = const_cast(this)->used_children(); return const_child_range(Children.begin(), Children.end()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_num_tasks; } }; /// This represents 'hint' clause in the '#pragma omp ...' directive. /// /// \code /// #pragma omp critical (name) hint(6) /// \endcode /// In this example directive '#pragma omp critical' has name 'name' and clause /// 'hint' with argument '6'. class OMPHintClause : public OMPClause { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// Hint expression of the 'hint' clause. Stmt *Hint = nullptr; /// Set hint expression. void setHint(Expr *H) { Hint = H; } public: /// Build 'hint' clause with expression \a Hint. /// /// \param Hint Hint expression. /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param EndLoc Ending location of the clause. OMPHintClause(Expr *Hint, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc) : OMPClause(OMPC_hint, StartLoc, EndLoc), LParenLoc(LParenLoc), Hint(Hint) {} /// Build an empty clause. OMPHintClause() : OMPClause(OMPC_hint, SourceLocation(), SourceLocation()) {} /// Sets the location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Returns the location of '('. SourceLocation getLParenLoc() const { return LParenLoc; } /// Returns number of threads. Expr *getHint() const { return cast_or_null(Hint); } child_range children() { return child_range(&Hint, &Hint + 1); } const_child_range children() const { return const_child_range(&Hint, &Hint + 1); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_hint; } }; /// This represents 'dist_schedule' clause in the '#pragma omp ...' /// directive. /// /// \code /// #pragma omp distribute dist_schedule(static, 3) /// \endcode /// In this example directive '#pragma omp distribute' has 'dist_schedule' /// clause with arguments 'static' and '3'. class OMPDistScheduleClause : public OMPClause, public OMPClauseWithPreInit { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// A kind of the 'schedule' clause. OpenMPDistScheduleClauseKind Kind = OMPC_DIST_SCHEDULE_unknown; /// Start location of the schedule kind in source code. SourceLocation KindLoc; /// Location of ',' (if any). SourceLocation CommaLoc; /// Chunk size. Expr *ChunkSize = nullptr; /// Set schedule kind. /// /// \param K Schedule kind. void setDistScheduleKind(OpenMPDistScheduleClauseKind K) { Kind = K; } /// Sets the location of '('. /// /// \param Loc Location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Set schedule kind start location. /// /// \param KLoc Schedule kind location. void setDistScheduleKindLoc(SourceLocation KLoc) { KindLoc = KLoc; } /// Set location of ','. /// /// \param Loc Location of ','. void setCommaLoc(SourceLocation Loc) { CommaLoc = Loc; } /// Set chunk size. /// /// \param E Chunk size. void setChunkSize(Expr *E) { ChunkSize = E; } public: /// Build 'dist_schedule' clause with schedule kind \a Kind and chunk /// size expression \a ChunkSize. /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param KLoc Starting location of the argument. /// \param CommaLoc Location of ','. /// \param EndLoc Ending location of the clause. /// \param Kind DistSchedule kind. /// \param ChunkSize Chunk size. /// \param HelperChunkSize Helper chunk size for combined directives. OMPDistScheduleClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation KLoc, SourceLocation CommaLoc, SourceLocation EndLoc, OpenMPDistScheduleClauseKind Kind, Expr *ChunkSize, Stmt *HelperChunkSize) : OMPClause(OMPC_dist_schedule, StartLoc, EndLoc), OMPClauseWithPreInit(this), LParenLoc(LParenLoc), Kind(Kind), KindLoc(KLoc), CommaLoc(CommaLoc), ChunkSize(ChunkSize) { setPreInitStmt(HelperChunkSize); } /// Build an empty clause. explicit OMPDistScheduleClause() : OMPClause(OMPC_dist_schedule, SourceLocation(), SourceLocation()), OMPClauseWithPreInit(this) {} /// Get kind of the clause. OpenMPDistScheduleClauseKind getDistScheduleKind() const { return Kind; } /// Get location of '('. SourceLocation getLParenLoc() { return LParenLoc; } /// Get kind location. SourceLocation getDistScheduleKindLoc() { return KindLoc; } /// Get location of ','. SourceLocation getCommaLoc() { return CommaLoc; } /// Get chunk size. Expr *getChunkSize() { return ChunkSize; } /// Get chunk size. const Expr *getChunkSize() const { return ChunkSize; } child_range children() { return child_range(reinterpret_cast(&ChunkSize), reinterpret_cast(&ChunkSize) + 1); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_dist_schedule; } }; /// This represents 'defaultmap' clause in the '#pragma omp ...' directive. /// /// \code /// #pragma omp target defaultmap(tofrom: scalar) /// \endcode /// In this example directive '#pragma omp target' has 'defaultmap' clause of kind /// 'scalar' with modifier 'tofrom'. class OMPDefaultmapClause : public OMPClause { friend class OMPClauseReader; /// Location of '('. SourceLocation LParenLoc; /// Modifiers for 'defaultmap' clause. OpenMPDefaultmapClauseModifier Modifier = OMPC_DEFAULTMAP_MODIFIER_unknown; /// Locations of modifiers. SourceLocation ModifierLoc; /// A kind of the 'defaultmap' clause. OpenMPDefaultmapClauseKind Kind = OMPC_DEFAULTMAP_unknown; /// Start location of the defaultmap kind in source code. SourceLocation KindLoc; /// Set defaultmap kind. /// /// \param K Defaultmap kind. void setDefaultmapKind(OpenMPDefaultmapClauseKind K) { Kind = K; } /// Set the defaultmap modifier. /// /// \param M Defaultmap modifier. void setDefaultmapModifier(OpenMPDefaultmapClauseModifier M) { Modifier = M; } /// Set location of the defaultmap modifier. void setDefaultmapModifierLoc(SourceLocation Loc) { ModifierLoc = Loc; } /// Sets the location of '('. /// /// \param Loc Location of '('. void setLParenLoc(SourceLocation Loc) { LParenLoc = Loc; } /// Set defaultmap kind start location. /// /// \param KLoc Defaultmap kind location. void setDefaultmapKindLoc(SourceLocation KLoc) { KindLoc = KLoc; } public: /// Build 'defaultmap' clause with defaultmap kind \a Kind /// /// \param StartLoc Starting location of the clause. /// \param LParenLoc Location of '('. /// \param KLoc Starting location of the argument. /// \param EndLoc Ending location of the clause. /// \param Kind Defaultmap kind. /// \param M The modifier applied to 'defaultmap' clause. /// \param MLoc Location of the modifier OMPDefaultmapClause(SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation MLoc, SourceLocation KLoc, SourceLocation EndLoc, OpenMPDefaultmapClauseKind Kind, OpenMPDefaultmapClauseModifier M) : OMPClause(OMPC_defaultmap, StartLoc, EndLoc), LParenLoc(LParenLoc), Modifier(M), ModifierLoc(MLoc), Kind(Kind), KindLoc(KLoc) {} /// Build an empty clause. explicit OMPDefaultmapClause() : OMPClause(OMPC_defaultmap, SourceLocation(), SourceLocation()) {} /// Get kind of the clause. OpenMPDefaultmapClauseKind getDefaultmapKind() const { return Kind; } /// Get the modifier of the clause. OpenMPDefaultmapClauseModifier getDefaultmapModifier() const { return Modifier; } /// Get location of '('. SourceLocation getLParenLoc() { return LParenLoc; } /// Get kind location. SourceLocation getDefaultmapKindLoc() { return KindLoc; } /// Get the modifier location. SourceLocation getDefaultmapModifierLoc() const { return ModifierLoc; } child_range children() { return child_range(child_iterator(), child_iterator()); } const_child_range children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_defaultmap; } }; /// This represents clause 'to' in the '#pragma omp ...' /// directives. /// /// \code /// #pragma omp target update to(a,b) /// \endcode /// In this example directive '#pragma omp target update' has clause 'to' /// with the variables 'a' and 'b'. class OMPToClause final : public OMPMappableExprListClause, private llvm::TrailingObjects< OMPToClause, Expr *, ValueDecl *, unsigned, OMPClauseMappableExprCommon::MappableComponent> { friend class OMPClauseReader; friend OMPMappableExprListClause; friend OMPVarListClause; friend TrailingObjects; /// Build clause with number of variables \a NumVars. /// /// \param MapperQualifierLoc C++ nested name specifier for the associated /// user-defined mapper. /// \param MapperIdInfo The identifier of associated user-defined mapper. /// \param Locs Locations needed to build a mappable clause. It includes 1) /// StartLoc: starting location of the clause (the clause keyword); 2) /// LParenLoc: location of '('; 3) EndLoc: ending location of the clause. /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. explicit OMPToClause(NestedNameSpecifierLoc MapperQualifierLoc, DeclarationNameInfo MapperIdInfo, const OMPVarListLocTy &Locs, const OMPMappableExprListSizeTy &Sizes) : OMPMappableExprListClause(OMPC_to, Locs, Sizes, &MapperQualifierLoc, &MapperIdInfo) {} /// Build an empty clause. /// /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. explicit OMPToClause(const OMPMappableExprListSizeTy &Sizes) : OMPMappableExprListClause(OMPC_to, OMPVarListLocTy(), Sizes) {} /// Define the sizes of each trailing object array except the last one. This /// is required for TrailingObjects to work properly. size_t numTrailingObjects(OverloadToken) const { // There are varlist_size() of expressions, and varlist_size() of // user-defined mappers. return 2 * varlist_size(); } size_t numTrailingObjects(OverloadToken) const { return getUniqueDeclarationsNum(); } size_t numTrailingObjects(OverloadToken) const { return getUniqueDeclarationsNum() + getTotalComponentListNum(); } public: /// Creates clause with a list of variables \a Vars. /// /// \param C AST context. /// \param Locs Locations needed to build a mappable clause. It includes 1) /// StartLoc: starting location of the clause (the clause keyword); 2) /// LParenLoc: location of '('; 3) EndLoc: ending location of the clause. /// \param Vars The original expression used in the clause. /// \param Declarations Declarations used in the clause. /// \param ComponentLists Component lists used in the clause. /// \param UDMapperRefs References to user-defined mappers associated with /// expressions used in the clause. /// \param UDMQualifierLoc C++ nested name specifier for the associated /// user-defined mapper. /// \param MapperId The identifier of associated user-defined mapper. static OMPToClause *Create(const ASTContext &C, const OMPVarListLocTy &Locs, ArrayRef Vars, ArrayRef Declarations, MappableExprComponentListsRef ComponentLists, ArrayRef UDMapperRefs, NestedNameSpecifierLoc UDMQualifierLoc, DeclarationNameInfo MapperId); /// Creates an empty clause with the place for \a NumVars variables. /// /// \param C AST context. /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. static OMPToClause *CreateEmpty(const ASTContext &C, const OMPMappableExprListSizeTy &Sizes); child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_to; } }; /// This represents clause 'from' in the '#pragma omp ...' /// directives. /// /// \code /// #pragma omp target update from(a,b) /// \endcode /// In this example directive '#pragma omp target update' has clause 'from' /// with the variables 'a' and 'b'. class OMPFromClause final : public OMPMappableExprListClause, private llvm::TrailingObjects< OMPFromClause, Expr *, ValueDecl *, unsigned, OMPClauseMappableExprCommon::MappableComponent> { friend class OMPClauseReader; friend OMPMappableExprListClause; friend OMPVarListClause; friend TrailingObjects; /// Build clause with number of variables \a NumVars. /// /// \param MapperQualifierLoc C++ nested name specifier for the associated /// user-defined mapper. /// \param MapperIdInfo The identifier of associated user-defined mapper. /// \param Locs Locations needed to build a mappable clause. It includes 1) /// StartLoc: starting location of the clause (the clause keyword); 2) /// LParenLoc: location of '('; 3) EndLoc: ending location of the clause. /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. explicit OMPFromClause(NestedNameSpecifierLoc MapperQualifierLoc, DeclarationNameInfo MapperIdInfo, const OMPVarListLocTy &Locs, const OMPMappableExprListSizeTy &Sizes) : OMPMappableExprListClause(OMPC_from, Locs, Sizes, &MapperQualifierLoc, &MapperIdInfo) {} /// Build an empty clause. /// /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. explicit OMPFromClause(const OMPMappableExprListSizeTy &Sizes) : OMPMappableExprListClause(OMPC_from, OMPVarListLocTy(), Sizes) {} /// Define the sizes of each trailing object array except the last one. This /// is required for TrailingObjects to work properly. size_t numTrailingObjects(OverloadToken) const { // There are varlist_size() of expressions, and varlist_size() of // user-defined mappers. return 2 * varlist_size(); } size_t numTrailingObjects(OverloadToken) const { return getUniqueDeclarationsNum(); } size_t numTrailingObjects(OverloadToken) const { return getUniqueDeclarationsNum() + getTotalComponentListNum(); } public: /// Creates clause with a list of variables \a Vars. /// /// \param C AST context. /// \param Locs Locations needed to build a mappable clause. It includes 1) /// StartLoc: starting location of the clause (the clause keyword); 2) /// LParenLoc: location of '('; 3) EndLoc: ending location of the clause. /// \param Vars The original expression used in the clause. /// \param Declarations Declarations used in the clause. /// \param ComponentLists Component lists used in the clause. /// \param UDMapperRefs References to user-defined mappers associated with /// expressions used in the clause. /// \param UDMQualifierLoc C++ nested name specifier for the associated /// user-defined mapper. /// \param MapperId The identifier of associated user-defined mapper. static OMPFromClause *Create(const ASTContext &C, const OMPVarListLocTy &Locs, ArrayRef Vars, ArrayRef Declarations, MappableExprComponentListsRef ComponentLists, ArrayRef UDMapperRefs, NestedNameSpecifierLoc UDMQualifierLoc, DeclarationNameInfo MapperId); /// Creates an empty clause with the place for \a NumVars variables. /// /// \param C AST context. /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. static OMPFromClause *CreateEmpty(const ASTContext &C, const OMPMappableExprListSizeTy &Sizes); child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_from; } }; /// This represents clause 'use_device_ptr' in the '#pragma omp ...' /// directives. /// /// \code /// #pragma omp target data use_device_ptr(a,b) /// \endcode /// In this example directive '#pragma omp target data' has clause /// 'use_device_ptr' with the variables 'a' and 'b'. class OMPUseDevicePtrClause final : public OMPMappableExprListClause, private llvm::TrailingObjects< OMPUseDevicePtrClause, Expr *, ValueDecl *, unsigned, OMPClauseMappableExprCommon::MappableComponent> { friend class OMPClauseReader; friend OMPMappableExprListClause; friend OMPVarListClause; friend TrailingObjects; /// Build clause with number of variables \a NumVars. /// /// \param Locs Locations needed to build a mappable clause. It includes 1) /// StartLoc: starting location of the clause (the clause keyword); 2) /// LParenLoc: location of '('; 3) EndLoc: ending location of the clause. /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. explicit OMPUseDevicePtrClause(const OMPVarListLocTy &Locs, const OMPMappableExprListSizeTy &Sizes) : OMPMappableExprListClause(OMPC_use_device_ptr, Locs, Sizes) {} /// Build an empty clause. /// /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. explicit OMPUseDevicePtrClause(const OMPMappableExprListSizeTy &Sizes) : OMPMappableExprListClause(OMPC_use_device_ptr, OMPVarListLocTy(), Sizes) {} /// Define the sizes of each trailing object array except the last one. This /// is required for TrailingObjects to work properly. size_t numTrailingObjects(OverloadToken) const { return 3 * varlist_size(); } size_t numTrailingObjects(OverloadToken) const { return getUniqueDeclarationsNum(); } size_t numTrailingObjects(OverloadToken) const { return getUniqueDeclarationsNum() + getTotalComponentListNum(); } /// Sets the list of references to private copies with initializers for new /// private variables. /// \param VL List of references. void setPrivateCopies(ArrayRef VL); /// Gets the list of references to private copies with initializers for new /// private variables. MutableArrayRef getPrivateCopies() { return MutableArrayRef(varlist_end(), varlist_size()); } ArrayRef getPrivateCopies() const { return llvm::makeArrayRef(varlist_end(), varlist_size()); } /// Sets the list of references to initializer variables for new private /// variables. /// \param VL List of references. void setInits(ArrayRef VL); /// Gets the list of references to initializer variables for new private /// variables. MutableArrayRef getInits() { return MutableArrayRef(getPrivateCopies().end(), varlist_size()); } ArrayRef getInits() const { return llvm::makeArrayRef(getPrivateCopies().end(), varlist_size()); } public: /// Creates clause with a list of variables \a Vars. /// /// \param C AST context. /// \param Locs Locations needed to build a mappable clause. It includes 1) /// StartLoc: starting location of the clause (the clause keyword); 2) /// LParenLoc: location of '('; 3) EndLoc: ending location of the clause. /// \param Vars The original expression used in the clause. /// \param PrivateVars Expressions referring to private copies. /// \param Inits Expressions referring to private copy initializers. /// \param Declarations Declarations used in the clause. /// \param ComponentLists Component lists used in the clause. static OMPUseDevicePtrClause * Create(const ASTContext &C, const OMPVarListLocTy &Locs, ArrayRef Vars, ArrayRef PrivateVars, ArrayRef Inits, ArrayRef Declarations, MappableExprComponentListsRef ComponentLists); /// Creates an empty clause with the place for \a NumVars variables. /// /// \param C AST context. /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. static OMPUseDevicePtrClause * CreateEmpty(const ASTContext &C, const OMPMappableExprListSizeTy &Sizes); using private_copies_iterator = MutableArrayRef::iterator; using private_copies_const_iterator = ArrayRef::iterator; using private_copies_range = llvm::iterator_range; using private_copies_const_range = llvm::iterator_range; private_copies_range private_copies() { return private_copies_range(getPrivateCopies().begin(), getPrivateCopies().end()); } private_copies_const_range private_copies() const { return private_copies_const_range(getPrivateCopies().begin(), getPrivateCopies().end()); } using inits_iterator = MutableArrayRef::iterator; using inits_const_iterator = ArrayRef::iterator; using inits_range = llvm::iterator_range; using inits_const_range = llvm::iterator_range; inits_range inits() { return inits_range(getInits().begin(), getInits().end()); } inits_const_range inits() const { return inits_const_range(getInits().begin(), getInits().end()); } child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_use_device_ptr; } }; /// This represents clause 'is_device_ptr' in the '#pragma omp ...' /// directives. /// /// \code /// #pragma omp target is_device_ptr(a,b) /// \endcode /// In this example directive '#pragma omp target' has clause /// 'is_device_ptr' with the variables 'a' and 'b'. class OMPIsDevicePtrClause final : public OMPMappableExprListClause, private llvm::TrailingObjects< OMPIsDevicePtrClause, Expr *, ValueDecl *, unsigned, OMPClauseMappableExprCommon::MappableComponent> { friend class OMPClauseReader; friend OMPMappableExprListClause; friend OMPVarListClause; friend TrailingObjects; /// Build clause with number of variables \a NumVars. /// /// \param Locs Locations needed to build a mappable clause. It includes 1) /// StartLoc: starting location of the clause (the clause keyword); 2) /// LParenLoc: location of '('; 3) EndLoc: ending location of the clause. /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. explicit OMPIsDevicePtrClause(const OMPVarListLocTy &Locs, const OMPMappableExprListSizeTy &Sizes) : OMPMappableExprListClause(OMPC_is_device_ptr, Locs, Sizes) {} /// Build an empty clause. /// /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. explicit OMPIsDevicePtrClause(const OMPMappableExprListSizeTy &Sizes) : OMPMappableExprListClause(OMPC_is_device_ptr, OMPVarListLocTy(), Sizes) {} /// Define the sizes of each trailing object array except the last one. This /// is required for TrailingObjects to work properly. size_t numTrailingObjects(OverloadToken) const { return varlist_size(); } size_t numTrailingObjects(OverloadToken) const { return getUniqueDeclarationsNum(); } size_t numTrailingObjects(OverloadToken) const { return getUniqueDeclarationsNum() + getTotalComponentListNum(); } public: /// Creates clause with a list of variables \a Vars. /// /// \param C AST context. /// \param Locs Locations needed to build a mappable clause. It includes 1) /// StartLoc: starting location of the clause (the clause keyword); 2) /// LParenLoc: location of '('; 3) EndLoc: ending location of the clause. /// \param Vars The original expression used in the clause. /// \param Declarations Declarations used in the clause. /// \param ComponentLists Component lists used in the clause. static OMPIsDevicePtrClause * Create(const ASTContext &C, const OMPVarListLocTy &Locs, ArrayRef Vars, ArrayRef Declarations, MappableExprComponentListsRef ComponentLists); /// Creates an empty clause with the place for \a NumVars variables. /// /// \param C AST context. /// \param Sizes All required sizes to build a mappable clause. It includes 1) /// NumVars: number of expressions listed in this clause; 2) /// NumUniqueDeclarations: number of unique base declarations in this clause; /// 3) NumComponentLists: number of component lists in this clause; and 4) /// NumComponents: total number of expression components in the clause. static OMPIsDevicePtrClause * CreateEmpty(const ASTContext &C, const OMPMappableExprListSizeTy &Sizes); child_range children() { return child_range(reinterpret_cast(varlist_begin()), reinterpret_cast(varlist_end())); } const_child_range children() const { auto Children = const_cast(this)->children(); return const_child_range(Children.begin(), Children.end()); } child_range used_children() { return child_range(child_iterator(), child_iterator()); } const_child_range used_children() const { return const_child_range(const_child_iterator(), const_child_iterator()); } static bool classof(const OMPClause *T) { return T->getClauseKind() == OMPC_is_device_ptr; } }; /// This class implements a simple visitor for OMPClause /// subclasses. template class Ptr, typename RetTy> class OMPClauseVisitorBase { public: #define PTR(CLASS) typename Ptr::type #define DISPATCH(CLASS) \ return static_cast(this)->Visit##CLASS(static_cast(S)) #define OPENMP_CLAUSE(Name, Class) \ RetTy Visit ## Class (PTR(Class) S) { DISPATCH(Class); } #include "clang/Basic/OpenMPKinds.def" RetTy Visit(PTR(OMPClause) S) { // Top switch clause: visit each OMPClause. switch (S->getClauseKind()) { default: llvm_unreachable("Unknown clause kind!"); #define OPENMP_CLAUSE(Name, Class) \ case OMPC_ ## Name : return Visit ## Class(static_cast(S)); #include "clang/Basic/OpenMPKinds.def" } } // Base case, ignore it. :) RetTy VisitOMPClause(PTR(OMPClause) Node) { return RetTy(); } #undef PTR #undef DISPATCH }; template using const_ptr = typename std::add_pointer::type>; template class OMPClauseVisitor : public OMPClauseVisitorBase {}; template class ConstOMPClauseVisitor : public OMPClauseVisitorBase {}; class OMPClausePrinter final : public OMPClauseVisitor { raw_ostream &OS; const PrintingPolicy &Policy; /// Process clauses with list of variables. template void VisitOMPClauseList(T *Node, char StartSym); public: OMPClausePrinter(raw_ostream &OS, const PrintingPolicy &Policy) : OS(OS), Policy(Policy) {} #define OPENMP_CLAUSE(Name, Class) void Visit##Class(Class *S); #include "clang/Basic/OpenMPKinds.def" }; } // namespace clang #endif // LLVM_CLANG_AST_OPENMPCLAUSE_H