//===--- StmtCXX.h - Classes for representing C++ statements ----*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file defines the C++ statement AST node classes. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_AST_STMTCXX_H #define LLVM_CLANG_AST_STMTCXX_H #include "clang/AST/Stmt.h" namespace clang { class VarDecl; /// CXXCatchStmt - This represents a C++ catch block. /// class CXXCatchStmt : public Stmt { SourceLocation CatchLoc; /// The exception-declaration of the type. VarDecl *ExceptionDecl; /// The handler block. Stmt *HandlerBlock; public: CXXCatchStmt(SourceLocation catchLoc, VarDecl *exDecl, Stmt *handlerBlock) : Stmt(CXXCatchStmtClass), CatchLoc(catchLoc), ExceptionDecl(exDecl), HandlerBlock(handlerBlock) {} CXXCatchStmt(EmptyShell Empty) : Stmt(CXXCatchStmtClass), ExceptionDecl(0), HandlerBlock(0) {} SourceRange getSourceRange() const { return SourceRange(CatchLoc, HandlerBlock->getLocEnd()); } SourceLocation getCatchLoc() const { return CatchLoc; } VarDecl *getExceptionDecl() const { return ExceptionDecl; } QualType getCaughtType() const; Stmt *getHandlerBlock() const { return HandlerBlock; } static bool classof(const Stmt *T) { return T->getStmtClass() == CXXCatchStmtClass; } static bool classof(const CXXCatchStmt *) { return true; } child_range children() { return child_range(&HandlerBlock, &HandlerBlock+1); } friend class ASTStmtReader; }; /// CXXTryStmt - A C++ try block, including all handlers. /// class CXXTryStmt : public Stmt { SourceLocation TryLoc; unsigned NumHandlers; CXXTryStmt(SourceLocation tryLoc, Stmt *tryBlock, Stmt **handlers, unsigned numHandlers); CXXTryStmt(EmptyShell Empty, unsigned numHandlers) : Stmt(CXXTryStmtClass), NumHandlers(numHandlers) { } Stmt const * const *getStmts() const { return reinterpret_cast(this + 1); } Stmt **getStmts() { return reinterpret_cast(this + 1); } public: static CXXTryStmt *Create(ASTContext &C, SourceLocation tryLoc, Stmt *tryBlock, Stmt **handlers, unsigned numHandlers); static CXXTryStmt *Create(ASTContext &C, EmptyShell Empty, unsigned numHandlers); SourceRange getSourceRange() const { return SourceRange(getTryLoc(), getEndLoc()); } SourceLocation getTryLoc() const { return TryLoc; } SourceLocation getEndLoc() const { return getStmts()[NumHandlers]->getLocEnd(); } CompoundStmt *getTryBlock() { return llvm::cast(getStmts()[0]); } const CompoundStmt *getTryBlock() const { return llvm::cast(getStmts()[0]); } unsigned getNumHandlers() const { return NumHandlers; } CXXCatchStmt *getHandler(unsigned i) { return llvm::cast(getStmts()[i + 1]); } const CXXCatchStmt *getHandler(unsigned i) const { return llvm::cast(getStmts()[i + 1]); } static bool classof(const Stmt *T) { return T->getStmtClass() == CXXTryStmtClass; } static bool classof(const CXXTryStmt *) { return true; } child_range children() { return child_range(getStmts(), getStmts() + getNumHandlers() + 1); } friend class ASTStmtReader; }; /// CXXForRangeStmt - This represents C++0x [stmt.ranged]'s ranged for /// statement, represented as 'for (range-declarator : range-expression)'. /// /// This is stored in a partially-desugared form to allow full semantic /// analysis of the constituent components. The original syntactic components /// can be extracted using getLoopVariable and getRangeInit. class CXXForRangeStmt : public Stmt { enum { RANGE, BEGINEND, COND, INC, LOOPVAR, BODY, END }; // SubExprs[RANGE] is an expression or declstmt. // SubExprs[COND] and SubExprs[INC] are expressions. Stmt *SubExprs[END]; SourceLocation ForLoc; SourceLocation ColonLoc; SourceLocation RParenLoc; public: CXXForRangeStmt(DeclStmt *Range, DeclStmt *BeginEnd, Expr *Cond, Expr *Inc, DeclStmt *LoopVar, Stmt *Body, SourceLocation FL, SourceLocation CL, SourceLocation RPL); CXXForRangeStmt(EmptyShell Empty) : Stmt(CXXForRangeStmtClass, Empty) { } VarDecl *getLoopVariable(); Expr *getRangeInit(); const VarDecl *getLoopVariable() const; const Expr *getRangeInit() const; DeclStmt *getRangeStmt() { return cast(SubExprs[RANGE]); } DeclStmt *getBeginEndStmt() { return cast_or_null(SubExprs[BEGINEND]); } Expr *getCond() { return cast_or_null(SubExprs[COND]); } Expr *getInc() { return cast_or_null(SubExprs[INC]); } DeclStmt *getLoopVarStmt() { return cast(SubExprs[LOOPVAR]); } Stmt *getBody() { return SubExprs[BODY]; } const DeclStmt *getRangeStmt() const { return cast(SubExprs[RANGE]); } const DeclStmt *getBeginEndStmt() const { return cast_or_null(SubExprs[BEGINEND]); } const Expr *getCond() const { return cast_or_null(SubExprs[COND]); } const Expr *getInc() const { return cast_or_null(SubExprs[INC]); } const DeclStmt *getLoopVarStmt() const { return cast(SubExprs[LOOPVAR]); } const Stmt *getBody() const { return SubExprs[BODY]; } void setRangeInit(Expr *E) { SubExprs[RANGE] = reinterpret_cast(E); } void setRangeStmt(Stmt *S) { SubExprs[RANGE] = S; } void setBeginEndStmt(Stmt *S) { SubExprs[BEGINEND] = S; } void setCond(Expr *E) { SubExprs[COND] = reinterpret_cast(E); } void setInc(Expr *E) { SubExprs[INC] = reinterpret_cast(E); } void setLoopVarStmt(Stmt *S) { SubExprs[LOOPVAR] = S; } void setBody(Stmt *S) { SubExprs[BODY] = S; } SourceLocation getForLoc() const { return ForLoc; } void setForLoc(SourceLocation Loc) { ForLoc = Loc; } SourceLocation getColonLoc() const { return ColonLoc; } void setColonLoc(SourceLocation Loc) { ColonLoc = Loc; } SourceLocation getRParenLoc() const { return RParenLoc; } void setRParenLoc(SourceLocation Loc) { RParenLoc = Loc; } SourceRange getSourceRange() const { return SourceRange(ForLoc, SubExprs[BODY]->getLocEnd()); } static bool classof(const Stmt *T) { return T->getStmtClass() == CXXForRangeStmtClass; } static bool classof(const CXXForRangeStmt *) { return true; } // Iterators child_range children() { return child_range(&SubExprs[0], &SubExprs[END]); } }; } // end namespace clang #endif