//===--- StmtVisitor.h - Visitor for Stmt subclasses ------------*- 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 StmtVisitor interface. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_AST_STMTVISITOR_H #define LLVM_CLANG_AST_STMTVISITOR_H #include "clang/AST/ExprCXX.h" #include "clang/AST/ExprObjC.h" #include "clang/AST/StmtCXX.h" #include "clang/AST/StmtObjC.h" namespace clang { #define DISPATCH(NAME, CLASS) \ return static_cast(this)->Visit ## NAME(static_cast(S)) /// StmtVisitor - This class implements a simple visitor for Stmt subclasses. /// Since Expr derives from Stmt, this also includes support for visiting Exprs. template class StmtVisitor { public: RetTy Visit(Stmt *S) { // If we have a binary expr, dispatch to the subcode of the binop. A smart // optimizer (e.g. LLVM) will fold this comparison into the switch stmt // below. if (BinaryOperator *BinOp = dyn_cast(S)) { switch (BinOp->getOpcode()) { default: assert(0 && "Unknown binary operator!"); case BinaryOperator::PtrMemD: DISPATCH(BinPtrMemD, BinaryOperator); case BinaryOperator::PtrMemI: DISPATCH(BinPtrMemI, BinaryOperator); case BinaryOperator::Mul: DISPATCH(BinMul, BinaryOperator); case BinaryOperator::Div: DISPATCH(BinDiv, BinaryOperator); case BinaryOperator::Rem: DISPATCH(BinRem, BinaryOperator); case BinaryOperator::Add: DISPATCH(BinAdd, BinaryOperator); case BinaryOperator::Sub: DISPATCH(BinSub, BinaryOperator); case BinaryOperator::Shl: DISPATCH(BinShl, BinaryOperator); case BinaryOperator::Shr: DISPATCH(BinShr, BinaryOperator); case BinaryOperator::LT: DISPATCH(BinLT, BinaryOperator); case BinaryOperator::GT: DISPATCH(BinGT, BinaryOperator); case BinaryOperator::LE: DISPATCH(BinLE, BinaryOperator); case BinaryOperator::GE: DISPATCH(BinGE, BinaryOperator); case BinaryOperator::EQ: DISPATCH(BinEQ, BinaryOperator); case BinaryOperator::NE: DISPATCH(BinNE, BinaryOperator); case BinaryOperator::And: DISPATCH(BinAnd, BinaryOperator); case BinaryOperator::Xor: DISPATCH(BinXor, BinaryOperator); case BinaryOperator::Or : DISPATCH(BinOr, BinaryOperator); case BinaryOperator::LAnd: DISPATCH(BinLAnd, BinaryOperator); case BinaryOperator::LOr : DISPATCH(BinLOr, BinaryOperator); case BinaryOperator::Assign: DISPATCH(BinAssign, BinaryOperator); case BinaryOperator::MulAssign: DISPATCH(BinMulAssign, CompoundAssignOperator); case BinaryOperator::DivAssign: DISPATCH(BinDivAssign, CompoundAssignOperator); case BinaryOperator::RemAssign: DISPATCH(BinRemAssign, CompoundAssignOperator); case BinaryOperator::AddAssign: DISPATCH(BinAddAssign, CompoundAssignOperator); case BinaryOperator::SubAssign: DISPATCH(BinSubAssign, CompoundAssignOperator); case BinaryOperator::ShlAssign: DISPATCH(BinShlAssign, CompoundAssignOperator); case BinaryOperator::ShrAssign: DISPATCH(BinShrAssign, CompoundAssignOperator); case BinaryOperator::AndAssign: DISPATCH(BinAndAssign, CompoundAssignOperator); case BinaryOperator::OrAssign: DISPATCH(BinOrAssign, CompoundAssignOperator); case BinaryOperator::XorAssign: DISPATCH(BinXorAssign, CompoundAssignOperator); case BinaryOperator::Comma: DISPATCH(BinComma, BinaryOperator); } } else if (UnaryOperator *UnOp = dyn_cast(S)) { switch (UnOp->getOpcode()) { default: assert(0 && "Unknown unary operator!"); case UnaryOperator::PostInc: DISPATCH(UnaryPostInc, UnaryOperator); case UnaryOperator::PostDec: DISPATCH(UnaryPostDec, UnaryOperator); case UnaryOperator::PreInc: DISPATCH(UnaryPreInc, UnaryOperator); case UnaryOperator::PreDec: DISPATCH(UnaryPreDec, UnaryOperator); case UnaryOperator::AddrOf: DISPATCH(UnaryAddrOf, UnaryOperator); case UnaryOperator::Deref: DISPATCH(UnaryDeref, UnaryOperator); case UnaryOperator::Plus: DISPATCH(UnaryPlus, UnaryOperator); case UnaryOperator::Minus: DISPATCH(UnaryMinus, UnaryOperator); case UnaryOperator::Not: DISPATCH(UnaryNot, UnaryOperator); case UnaryOperator::LNot: DISPATCH(UnaryLNot, UnaryOperator); case UnaryOperator::Real: DISPATCH(UnaryReal, UnaryOperator); case UnaryOperator::Imag: DISPATCH(UnaryImag, UnaryOperator); case UnaryOperator::Extension: DISPATCH(UnaryExtension, UnaryOperator); case UnaryOperator::OffsetOf: DISPATCH(UnaryOffsetOf, UnaryOperator); } } // Top switch stmt: dispatch to VisitFooStmt for each FooStmt. switch (S->getStmtClass()) { default: assert(0 && "Unknown stmt kind!"); #define ABSTRACT_EXPR(CLASS, PARENT) #define STMT(CLASS, PARENT) \ case Stmt::CLASS ## Class: DISPATCH(CLASS, CLASS); #include "clang/AST/StmtNodes.def" } } // If the implementation chooses not to implement a certain visit method, fall // back on VisitExpr or whatever else is the superclass. #define STMT(CLASS, PARENT) \ RetTy Visit ## CLASS(CLASS *S) { DISPATCH(PARENT, PARENT); } #include "clang/AST/StmtNodes.def" // If the implementation doesn't implement binary operator methods, fall back // on VisitBinaryOperator. #define BINOP_FALLBACK(NAME) \ RetTy VisitBin ## NAME(BinaryOperator *S) { \ DISPATCH(BinaryOperator, BinaryOperator); \ } BINOP_FALLBACK(PtrMemD) BINOP_FALLBACK(PtrMemI) BINOP_FALLBACK(Mul) BINOP_FALLBACK(Div) BINOP_FALLBACK(Rem) BINOP_FALLBACK(Add) BINOP_FALLBACK(Sub) BINOP_FALLBACK(Shl) BINOP_FALLBACK(Shr) BINOP_FALLBACK(LT) BINOP_FALLBACK(GT) BINOP_FALLBACK(LE) BINOP_FALLBACK(GE) BINOP_FALLBACK(EQ) BINOP_FALLBACK(NE) BINOP_FALLBACK(And) BINOP_FALLBACK(Xor) BINOP_FALLBACK(Or) BINOP_FALLBACK(LAnd) BINOP_FALLBACK(LOr) BINOP_FALLBACK(Assign) BINOP_FALLBACK(Comma) #undef BINOP_FALLBACK // If the implementation doesn't implement compound assignment operator // methods, fall back on VisitCompoundAssignOperator. #define CAO_FALLBACK(NAME) \ RetTy VisitBin ## NAME(CompoundAssignOperator *S) { \ DISPATCH(CompoundAssignOperator, CompoundAssignOperator); \ } CAO_FALLBACK(MulAssign) CAO_FALLBACK(DivAssign) CAO_FALLBACK(RemAssign) CAO_FALLBACK(AddAssign) CAO_FALLBACK(SubAssign) CAO_FALLBACK(ShlAssign) CAO_FALLBACK(ShrAssign) CAO_FALLBACK(AndAssign) CAO_FALLBACK(OrAssign) CAO_FALLBACK(XorAssign) #undef CAO_FALLBACK // If the implementation doesn't implement unary operator methods, fall back // on VisitUnaryOperator. #define UNARYOP_FALLBACK(NAME) \ RetTy VisitUnary ## NAME(UnaryOperator *S) { \ DISPATCH(UnaryOperator, UnaryOperator); \ } UNARYOP_FALLBACK(PostInc) UNARYOP_FALLBACK(PostDec) UNARYOP_FALLBACK(PreInc) UNARYOP_FALLBACK(PreDec) UNARYOP_FALLBACK(AddrOf) UNARYOP_FALLBACK(Deref) UNARYOP_FALLBACK(Plus) UNARYOP_FALLBACK(Minus) UNARYOP_FALLBACK(Not) UNARYOP_FALLBACK(LNot) UNARYOP_FALLBACK(Real) UNARYOP_FALLBACK(Imag) UNARYOP_FALLBACK(Extension) UNARYOP_FALLBACK(OffsetOf) #undef UNARYOP_FALLBACK // Base case, ignore it. :) RetTy VisitStmt(Stmt *Node) { return RetTy(); } }; #undef DISPATCH } // end namespace clang #endif