//===--- Stmt.cpp - Statement AST Node Implementation ---------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file implements the Stmt class and statement subclasses. // //===----------------------------------------------------------------------===// #include "clang/AST/Stmt.h" #include "clang/AST/ExprCXX.h" #include "clang/AST/ExprObjC.h" using namespace clang; static struct StmtClassNameTable { const char *Name; unsigned Counter; unsigned Size; } StmtClassInfo[Stmt::lastExprConstant+1]; static StmtClassNameTable &getStmtInfoTableEntry(Stmt::StmtClass E) { static bool Initialized = false; if (Initialized) return StmtClassInfo[E]; // Intialize the table on the first use. Initialized = true; #define STMT(CLASS, PARENT) \ StmtClassInfo[(unsigned)Stmt::CLASS##Class].Name = #CLASS; \ StmtClassInfo[(unsigned)Stmt::CLASS##Class].Size = sizeof(CLASS); #include "clang/AST/StmtNodes.def" return StmtClassInfo[E]; } const char *Stmt::getStmtClassName() const { return getStmtInfoTableEntry(sClass).Name; } void Stmt::DestroyChildren(ASTContext& C) { for (child_iterator I = child_begin(), E = child_end(); I !=E; ++I) if (Stmt* Child = *I) Child->Destroy(C); } void Stmt::Destroy(ASTContext& C) { DestroyChildren(C); // FIXME: Eventually all Stmts should be allocated with the allocator // in ASTContext, just like with Decls. // this->~Stmt(); delete this; } void DeclStmt::Destroy(ASTContext& C) { DG.Destroy(C); delete this; } void Stmt::PrintStats() { // Ensure the table is primed. getStmtInfoTableEntry(Stmt::NullStmtClass); unsigned sum = 0; fprintf(stderr, "*** Stmt/Expr Stats:\n"); for (int i = 0; i != Stmt::lastExprConstant+1; i++) { if (StmtClassInfo[i].Name == 0) continue; sum += StmtClassInfo[i].Counter; } fprintf(stderr, " %d stmts/exprs total.\n", sum); sum = 0; for (int i = 0; i != Stmt::lastExprConstant+1; i++) { if (StmtClassInfo[i].Name == 0) continue; fprintf(stderr, " %d %s, %d each (%d bytes)\n", StmtClassInfo[i].Counter, StmtClassInfo[i].Name, StmtClassInfo[i].Size, StmtClassInfo[i].Counter*StmtClassInfo[i].Size); sum += StmtClassInfo[i].Counter*StmtClassInfo[i].Size; } fprintf(stderr, "Total bytes = %d\n", sum); } void Stmt::addStmtClass(StmtClass s) { ++getStmtInfoTableEntry(s).Counter; } static bool StatSwitch = false; bool Stmt::CollectingStats(bool enable) { if (enable) StatSwitch = true; return StatSwitch; } const char *LabelStmt::getName() const { return getID()->getName(); } // This is defined here to avoid polluting Stmt.h with importing Expr.h SourceRange ReturnStmt::getSourceRange() const { if (RetExpr) return SourceRange(RetLoc, RetExpr->getLocEnd()); else return SourceRange(RetLoc); } bool Stmt::hasImplicitControlFlow() const { switch (sClass) { default: return false; case CallExprClass: case ConditionalOperatorClass: case ChooseExprClass: case StmtExprClass: case DeclStmtClass: return true; case Stmt::BinaryOperatorClass: { const BinaryOperator* B = cast(this); if (B->isLogicalOp() || B->getOpcode() == BinaryOperator::Comma) return true; else return false; } } } const Expr* AsmStmt::getOutputExpr(unsigned i) const { return cast(Exprs[i]); } Expr* AsmStmt::getOutputExpr(unsigned i) { return cast(Exprs[i]); } Expr* AsmStmt::getInputExpr(unsigned i) { return cast(Exprs[i + NumOutputs]); } const Expr* AsmStmt::getInputExpr(unsigned i) const { return cast(Exprs[i + NumOutputs]); } //===----------------------------------------------------------------------===// // Constructors //===----------------------------------------------------------------------===// AsmStmt::AsmStmt(SourceLocation asmloc, bool issimple, bool isvolatile, unsigned numoutputs, unsigned numinputs, std::string *names, StringLiteral **constraints, Expr **exprs, StringLiteral *asmstr, unsigned numclobbers, StringLiteral **clobbers, SourceLocation rparenloc) : Stmt(AsmStmtClass), AsmLoc(asmloc), RParenLoc(rparenloc), AsmStr(asmstr) , IsSimple(issimple), IsVolatile(isvolatile) , NumOutputs(numoutputs), NumInputs(numinputs) { for (unsigned i = 0, e = numinputs + numoutputs; i != e; i++) { Names.push_back(names[i]); Exprs.push_back(exprs[i]); Constraints.push_back(constraints[i]); } for (unsigned i = 0; i != numclobbers; i++) Clobbers.push_back(clobbers[i]); } ObjCForCollectionStmt::ObjCForCollectionStmt(Stmt *Elem, Expr *Collect, Stmt *Body, SourceLocation FCL, SourceLocation RPL) : Stmt(ObjCForCollectionStmtClass) { SubExprs[ELEM] = Elem; SubExprs[COLLECTION] = reinterpret_cast(Collect); SubExprs[BODY] = Body; ForLoc = FCL; RParenLoc = RPL; } ObjCAtCatchStmt::ObjCAtCatchStmt(SourceLocation atCatchLoc, SourceLocation rparenloc, Stmt *catchVarStmtDecl, Stmt *atCatchStmt, Stmt *atCatchList) : Stmt(ObjCAtCatchStmtClass) { SubExprs[SELECTOR] = catchVarStmtDecl; SubExprs[BODY] = atCatchStmt; SubExprs[NEXT_CATCH] = NULL; if (atCatchList) { ObjCAtCatchStmt *AtCatchList = static_cast(atCatchList); while (ObjCAtCatchStmt* NextCatch = AtCatchList->getNextCatchStmt()) AtCatchList = NextCatch; AtCatchList->SubExprs[NEXT_CATCH] = this; } AtCatchLoc = atCatchLoc; RParenLoc = rparenloc; } //===----------------------------------------------------------------------===// // Child Iterators for iterating over subexpressions/substatements //===----------------------------------------------------------------------===// // DeclStmt Stmt::child_iterator DeclStmt::child_begin() { return StmtIterator(DG.begin(), DG.end()); } Stmt::child_iterator DeclStmt::child_end() { return StmtIterator(DG.end(), DG.end()); } // NullStmt Stmt::child_iterator NullStmt::child_begin() { return child_iterator(); } Stmt::child_iterator NullStmt::child_end() { return child_iterator(); } // CompoundStmt Stmt::child_iterator CompoundStmt::child_begin() { return &Body[0]; } Stmt::child_iterator CompoundStmt::child_end() { return &Body[0]+Body.size(); } // CaseStmt Stmt::child_iterator CaseStmt::child_begin() { return &SubExprs[0]; } Stmt::child_iterator CaseStmt::child_end() { return &SubExprs[END_EXPR]; } // DefaultStmt Stmt::child_iterator DefaultStmt::child_begin() { return &SubStmt; } Stmt::child_iterator DefaultStmt::child_end() { return &SubStmt+1; } // LabelStmt Stmt::child_iterator LabelStmt::child_begin() { return &SubStmt; } Stmt::child_iterator LabelStmt::child_end() { return &SubStmt+1; } // IfStmt Stmt::child_iterator IfStmt::child_begin() { return &SubExprs[0]; } Stmt::child_iterator IfStmt::child_end() { return &SubExprs[0]+END_EXPR; } // SwitchStmt Stmt::child_iterator SwitchStmt::child_begin() { return &SubExprs[0]; } Stmt::child_iterator SwitchStmt::child_end() { return &SubExprs[0]+END_EXPR; } // WhileStmt Stmt::child_iterator WhileStmt::child_begin() { return &SubExprs[0]; } Stmt::child_iterator WhileStmt::child_end() { return &SubExprs[0]+END_EXPR; } // DoStmt Stmt::child_iterator DoStmt::child_begin() { return &SubExprs[0]; } Stmt::child_iterator DoStmt::child_end() { return &SubExprs[0]+END_EXPR; } // ForStmt Stmt::child_iterator ForStmt::child_begin() { return &SubExprs[0]; } Stmt::child_iterator ForStmt::child_end() { return &SubExprs[0]+END_EXPR; } // ObjCForCollectionStmt Stmt::child_iterator ObjCForCollectionStmt::child_begin() { return &SubExprs[0]; } Stmt::child_iterator ObjCForCollectionStmt::child_end() { return &SubExprs[0]+END_EXPR; } // GotoStmt Stmt::child_iterator GotoStmt::child_begin() { return child_iterator(); } Stmt::child_iterator GotoStmt::child_end() { return child_iterator(); } // IndirectGotoStmt Expr* IndirectGotoStmt::getTarget() { return cast(Target); } const Expr* IndirectGotoStmt::getTarget() const { return cast(Target); } Stmt::child_iterator IndirectGotoStmt::child_begin() { return &Target; } Stmt::child_iterator IndirectGotoStmt::child_end() { return &Target+1; } // ContinueStmt Stmt::child_iterator ContinueStmt::child_begin() { return child_iterator(); } Stmt::child_iterator ContinueStmt::child_end() { return child_iterator(); } // BreakStmt Stmt::child_iterator BreakStmt::child_begin() { return child_iterator(); } Stmt::child_iterator BreakStmt::child_end() { return child_iterator(); } // ReturnStmt const Expr* ReturnStmt::getRetValue() const { return cast_or_null(RetExpr); } Expr* ReturnStmt::getRetValue() { return cast_or_null(RetExpr); } Stmt::child_iterator ReturnStmt::child_begin() { return &RetExpr; } Stmt::child_iterator ReturnStmt::child_end() { return RetExpr ? &RetExpr+1 : &RetExpr; } // AsmStmt Stmt::child_iterator AsmStmt::child_begin() { return Exprs.empty() ? 0 : &Exprs[0]; } Stmt::child_iterator AsmStmt::child_end() { return Exprs.empty() ? 0 : &Exprs[0] + Exprs.size(); } // ObjCAtCatchStmt Stmt::child_iterator ObjCAtCatchStmt::child_begin() { return &SubExprs[0]; } Stmt::child_iterator ObjCAtCatchStmt::child_end() { return &SubExprs[0]+END_EXPR; } // ObjCAtFinallyStmt Stmt::child_iterator ObjCAtFinallyStmt::child_begin() { return &AtFinallyStmt; } Stmt::child_iterator ObjCAtFinallyStmt::child_end() { return &AtFinallyStmt+1; } // ObjCAtTryStmt Stmt::child_iterator ObjCAtTryStmt::child_begin() { return &SubStmts[0]; } Stmt::child_iterator ObjCAtTryStmt::child_end() { return &SubStmts[0]+END_EXPR; } // ObjCAtThrowStmt Stmt::child_iterator ObjCAtThrowStmt::child_begin() { return &Throw; } Stmt::child_iterator ObjCAtThrowStmt::child_end() { return &Throw+1; } // ObjCAtSynchronizedStmt Stmt::child_iterator ObjCAtSynchronizedStmt::child_begin() { return &SubStmts[0]; } Stmt::child_iterator ObjCAtSynchronizedStmt::child_end() { return &SubStmts[0]+END_EXPR; }