1 //===--- ParentMap.cpp - Mappings from Stmts to their Parents ---*- C++ -*-===// 2 // 3 // The LLVM Compiler Infrastructure 4 // 5 // This file is distributed under the University of Illinois Open Source 6 // License. See LICENSE.TXT for details. 7 // 8 //===----------------------------------------------------------------------===// 9 // 10 // This file defines the ParentMap class. 11 // 12 //===----------------------------------------------------------------------===// 13 14 #include "clang/AST/ParentMap.h" 15 #include "clang/AST/Decl.h" 16 #include "clang/AST/Expr.h" 17 #include "clang/AST/ExprCXX.h" 18 #include "llvm/ADT/DenseMap.h" 19 20 using namespace clang; 21 22 typedef llvm::DenseMap<Stmt*, Stmt*> MapTy; 23 24 enum OpaqueValueMode { 25 OV_Transparent, 26 OV_Opaque 27 }; 28 29 static void BuildParentMap(MapTy& M, Stmt* S, 30 OpaqueValueMode OVMode = OV_Transparent) { 31 if (!S) 32 return; 33 34 switch (S->getStmtClass()) { 35 case Stmt::PseudoObjectExprClass: { 36 assert(OVMode == OV_Transparent && "Should not appear alongside OVEs"); 37 PseudoObjectExpr *POE = cast<PseudoObjectExpr>(S); 38 39 // If we are rebuilding the map, clear out any existing state. 40 if (M[POE->getSyntacticForm()]) 41 for (Stmt *SubStmt : S->children()) 42 M[SubStmt] = nullptr; 43 44 M[POE->getSyntacticForm()] = S; 45 BuildParentMap(M, POE->getSyntacticForm(), OV_Transparent); 46 47 for (PseudoObjectExpr::semantics_iterator I = POE->semantics_begin(), 48 E = POE->semantics_end(); 49 I != E; ++I) { 50 M[*I] = S; 51 BuildParentMap(M, *I, OV_Opaque); 52 } 53 break; 54 } 55 case Stmt::BinaryConditionalOperatorClass: { 56 assert(OVMode == OV_Transparent && "Should not appear alongside OVEs"); 57 BinaryConditionalOperator *BCO = cast<BinaryConditionalOperator>(S); 58 59 M[BCO->getCommon()] = S; 60 BuildParentMap(M, BCO->getCommon(), OV_Transparent); 61 62 M[BCO->getCond()] = S; 63 BuildParentMap(M, BCO->getCond(), OV_Opaque); 64 65 M[BCO->getTrueExpr()] = S; 66 BuildParentMap(M, BCO->getTrueExpr(), OV_Opaque); 67 68 M[BCO->getFalseExpr()] = S; 69 BuildParentMap(M, BCO->getFalseExpr(), OV_Transparent); 70 71 break; 72 } 73 case Stmt::OpaqueValueExprClass: { 74 // FIXME: This isn't correct; it assumes that multiple OpaqueValueExprs 75 // share a single source expression, but in the AST a single 76 // OpaqueValueExpr is shared among multiple parent expressions. 77 // The right thing to do is to give the OpaqueValueExpr its syntactic 78 // parent, then not reassign that when traversing the semantic expressions. 79 OpaqueValueExpr *OVE = cast<OpaqueValueExpr>(S); 80 if (OVMode == OV_Transparent || !M[OVE->getSourceExpr()]) { 81 M[OVE->getSourceExpr()] = S; 82 BuildParentMap(M, OVE->getSourceExpr(), OV_Transparent); 83 } 84 break; 85 } 86 default: 87 for (Stmt *SubStmt : S->children()) { 88 if (SubStmt) { 89 M[SubStmt] = S; 90 BuildParentMap(M, SubStmt, OVMode); 91 } 92 } 93 break; 94 } 95 } 96 97 ParentMap::ParentMap(Stmt *S) : Impl(nullptr) { 98 if (S) { 99 MapTy *M = new MapTy(); 100 BuildParentMap(*M, S); 101 Impl = M; 102 } 103 } 104 105 ParentMap::~ParentMap() { 106 delete (MapTy*) Impl; 107 } 108 109 void ParentMap::addStmt(Stmt* S) { 110 if (S) { 111 BuildParentMap(*(MapTy*) Impl, S); 112 } 113 } 114 115 void ParentMap::setParent(const Stmt *S, const Stmt *Parent) { 116 assert(S); 117 assert(Parent); 118 MapTy *M = reinterpret_cast<MapTy *>(Impl); 119 M->insert(std::make_pair(const_cast<Stmt *>(S), const_cast<Stmt *>(Parent))); 120 } 121 122 Stmt* ParentMap::getParent(Stmt* S) const { 123 MapTy* M = (MapTy*) Impl; 124 MapTy::iterator I = M->find(S); 125 return I == M->end() ? nullptr : I->second; 126 } 127 128 Stmt *ParentMap::getParentIgnoreParens(Stmt *S) const { 129 do { S = getParent(S); } while (S && isa<ParenExpr>(S)); 130 return S; 131 } 132 133 Stmt *ParentMap::getParentIgnoreParenCasts(Stmt *S) const { 134 do { 135 S = getParent(S); 136 } 137 while (S && (isa<ParenExpr>(S) || isa<CastExpr>(S))); 138 139 return S; 140 } 141 142 Stmt *ParentMap::getParentIgnoreParenImpCasts(Stmt *S) const { 143 do { 144 S = getParent(S); 145 } while (S && isa<Expr>(S) && cast<Expr>(S)->IgnoreParenImpCasts() != S); 146 147 return S; 148 } 149 150 Stmt *ParentMap::getOuterParenParent(Stmt *S) const { 151 Stmt *Paren = nullptr; 152 while (isa<ParenExpr>(S)) { 153 Paren = S; 154 S = getParent(S); 155 }; 156 return Paren; 157 } 158 159 bool ParentMap::isConsumedExpr(Expr* E) const { 160 Stmt *P = getParent(E); 161 Stmt *DirectChild = E; 162 163 // Ignore parents that don't guarantee consumption. 164 while (P && (isa<ParenExpr>(P) || isa<CastExpr>(P) || 165 isa<ExprWithCleanups>(P))) { 166 DirectChild = P; 167 P = getParent(P); 168 } 169 170 if (!P) 171 return false; 172 173 switch (P->getStmtClass()) { 174 default: 175 return isa<Expr>(P); 176 case Stmt::DeclStmtClass: 177 return true; 178 case Stmt::BinaryOperatorClass: { 179 BinaryOperator *BE = cast<BinaryOperator>(P); 180 // If it is a comma, only the right side is consumed. 181 // If it isn't a comma, both sides are consumed. 182 return BE->getOpcode()!=BO_Comma ||DirectChild==BE->getRHS(); 183 } 184 case Stmt::ForStmtClass: 185 return DirectChild == cast<ForStmt>(P)->getCond(); 186 case Stmt::WhileStmtClass: 187 return DirectChild == cast<WhileStmt>(P)->getCond(); 188 case Stmt::DoStmtClass: 189 return DirectChild == cast<DoStmt>(P)->getCond(); 190 case Stmt::IfStmtClass: 191 return DirectChild == cast<IfStmt>(P)->getCond(); 192 case Stmt::IndirectGotoStmtClass: 193 return DirectChild == cast<IndirectGotoStmt>(P)->getTarget(); 194 case Stmt::SwitchStmtClass: 195 return DirectChild == cast<SwitchStmt>(P)->getCond(); 196 case Stmt::ReturnStmtClass: 197 return true; 198 } 199 } 200 201
