ASTContext.h revision 3cc4c0c3058a788689b8fc73c0ac139544435c97
1//===--- ASTContext.h - Context to hold long-lived AST nodes ----*- 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 ASTContext interface. 11// 12//===----------------------------------------------------------------------===// 13 14#ifndef LLVM_CLANG_AST_ASTCONTEXT_H 15#define LLVM_CLANG_AST_ASTCONTEXT_H 16 17#include "clang/AST/Builtins.h" 18#include "clang/AST/Expr.h" 19#include "clang/AST/RecordLayout.h" 20#include "clang/AST/Type.h" 21#include "llvm/ADT/DenseMap.h" 22#include "llvm/ADT/StringMap.h" 23#include "llvm/ADT/FoldingSet.h" 24#include "llvm/Bitcode/SerializationFwd.h" 25#include "llvm/Support/Allocator.h" 26#include <vector> 27 28namespace clang { 29 class TargetInfo; 30 class IdentifierTable; 31 32/// ASTContext - This class holds long-lived AST nodes (such as types and 33/// decls) that can be referred to throughout the semantic analysis of a file. 34class ASTContext { 35 std::vector<Type*> Types; 36 llvm::FoldingSet<ASQualType> ASQualTypes; 37 llvm::FoldingSet<ComplexType> ComplexTypes; 38 llvm::FoldingSet<PointerType> PointerTypes; 39 llvm::FoldingSet<ReferenceType> ReferenceTypes; 40 llvm::FoldingSet<ConstantArrayType> ConstantArrayTypes; 41 llvm::FoldingSet<IncompleteArrayType> IncompleteArrayTypes; 42 std::vector<VariableArrayType*> VariableArrayTypes; 43 llvm::FoldingSet<VectorType> VectorTypes; 44 llvm::FoldingSet<FunctionTypeNoProto> FunctionTypeNoProtos; 45 llvm::FoldingSet<FunctionTypeProto> FunctionTypeProtos; 46 llvm::FoldingSet<ObjCQualifiedInterfaceType> ObjCQualifiedInterfaceTypes; 47 llvm::FoldingSet<ObjCQualifiedIdType> ObjCQualifiedIdTypes; 48 /// ASTRecordLayouts - A cache mapping from RecordDecls to ASTRecordLayouts. 49 /// This is lazily created. This is intentionally not serialized. 50 llvm::DenseMap<const RecordDecl*, const ASTRecordLayout*> ASTRecordLayouts; 51 52 llvm::SmallVector<const RecordType *, 8> EncodingRecordTypes; 53 54 /// BuiltinVaListType - built-in va list type. 55 /// This is initially null and set by Sema::LazilyCreateBuiltin when 56 /// a builtin that takes a valist is encountered. 57 QualType BuiltinVaListType; 58 59 /// ObjCIdType - a pseudo built-in typedef type (set by Sema). 60 QualType ObjCIdType; 61 const RecordType *IdStructType; 62 63 /// ObjCSelType - another pseudo built-in typedef type (set by Sema). 64 QualType ObjCSelType; 65 const RecordType *SelStructType; 66 67 /// ObjCProtoType - another pseudo built-in typedef type (set by Sema). 68 QualType ObjCProtoType; 69 const RecordType *ProtoStructType; 70 71 /// ObjCClassType - another pseudo built-in typedef type (set by Sema). 72 QualType ObjCClassType; 73 const RecordType *ClassStructType; 74 75 QualType ObjCConstantStringType; 76 RecordDecl *CFConstantStringTypeDecl; 77 78 SourceManager &SourceMgr; 79 llvm::MallocAllocator Allocator; 80public: 81 TargetInfo &Target; 82 IdentifierTable &Idents; 83 SelectorTable &Selectors; 84 85 SourceManager& getSourceManager() { return SourceMgr; } 86 llvm::MallocAllocator &getAllocator() { return Allocator; } 87 88 FullSourceLoc getFullLoc(SourceLocation Loc) const { 89 return FullSourceLoc(Loc,SourceMgr); 90 } 91 92 /// This is intentionally not serialized. It is populated by the 93 /// ASTContext ctor, and there are no external pointers/references to 94 /// internal variables of BuiltinInfo. 95 Builtin::Context BuiltinInfo; 96 97 // Builtin Types. 98 QualType VoidTy; 99 QualType BoolTy; 100 QualType CharTy; 101 QualType SignedCharTy, ShortTy, IntTy, LongTy, LongLongTy; 102 QualType UnsignedCharTy, UnsignedShortTy, UnsignedIntTy, UnsignedLongTy; 103 QualType UnsignedLongLongTy; 104 QualType FloatTy, DoubleTy, LongDoubleTy; 105 QualType FloatComplexTy, DoubleComplexTy, LongDoubleComplexTy; 106 QualType VoidPtrTy; 107 108 ASTContext(SourceManager &SM, TargetInfo &t, IdentifierTable &idents, 109 SelectorTable &sels, unsigned size_reserve=0 ) : 110 CFConstantStringTypeDecl(0), SourceMgr(SM), Target(t), 111 Idents(idents), Selectors(sels) { 112 113 if (size_reserve > 0) Types.reserve(size_reserve); 114 InitBuiltinTypes(); 115 BuiltinInfo.InitializeBuiltins(idents, Target); 116 } 117 118 ~ASTContext(); 119 120 void PrintStats() const; 121 const std::vector<Type*>& getTypes() const { return Types; } 122 123 //===--------------------------------------------------------------------===// 124 // Type Constructors 125 //===--------------------------------------------------------------------===// 126 127 /// getASQualType - Return the uniqued reference to the type for an address 128 /// space qualified type with the specified type and address space. The 129 /// resulting type has a union of the qualifiers from T and the address space. 130 // If T already has an address space specifier, it is silently replaced. 131 QualType getASQualType(QualType T, unsigned AddressSpace); 132 133 /// getComplexType - Return the uniqued reference to the type for a complex 134 /// number with the specified element type. 135 QualType getComplexType(QualType T); 136 137 /// getPointerType - Return the uniqued reference to the type for a pointer to 138 /// the specified type. 139 QualType getPointerType(QualType T); 140 141 /// getReferenceType - Return the uniqued reference to the type for a 142 /// reference to the specified type. 143 QualType getReferenceType(QualType T); 144 145 /// getVariableArrayType - Returns a non-unique reference to the type for a 146 /// variable array of the specified element type. 147 QualType getVariableArrayType(QualType EltTy, Expr *NumElts, 148 ArrayType::ArraySizeModifier ASM, 149 unsigned EltTypeQuals); 150 151 /// getIncompleteArrayType - Returns a unique reference to the type for a 152 /// incomplete array of the specified element type. 153 QualType getIncompleteArrayType(QualType EltTy, 154 ArrayType::ArraySizeModifier ASM, 155 unsigned EltTypeQuals); 156 157 /// getConstantArrayType - Return the unique reference to the type for a 158 /// constant array of the specified element type. 159 QualType getConstantArrayType(QualType EltTy, const llvm::APInt &ArySize, 160 ArrayType::ArraySizeModifier ASM, 161 unsigned EltTypeQuals); 162 163 /// getVectorType - Return the unique reference to a vector type of 164 /// the specified element type and size. VectorType must be a built-in type. 165 QualType getVectorType(QualType VectorType, unsigned NumElts); 166 167 /// getOCUVectorType - Return the unique reference to an OCU vector type of 168 /// the specified element type and size. VectorType must be a built-in type. 169 QualType getOCUVectorType(QualType VectorType, unsigned NumElts); 170 171 /// getFunctionTypeNoProto - Return a K&R style C function type like 'int()'. 172 /// 173 QualType getFunctionTypeNoProto(QualType ResultTy); 174 175 /// getFunctionType - Return a normal function type with a typed argument 176 /// list. isVariadic indicates whether the argument list includes '...'. 177 QualType getFunctionType(QualType ResultTy, QualType *ArgArray, 178 unsigned NumArgs, bool isVariadic); 179 180 /// getTypedefType - Return the unique reference to the type for the 181 /// specified typename decl. 182 QualType getTypedefType(TypedefDecl *Decl); 183 QualType getObjCInterfaceType(ObjCInterfaceDecl *Decl); 184 185 /// getObjCQualifiedInterfaceType - Return a 186 /// ObjCQualifiedInterfaceType type for the given interface decl and 187 /// the conforming protocol list. 188 QualType getObjCQualifiedInterfaceType(ObjCInterfaceDecl *Decl, 189 ObjCProtocolDecl **ProtocolList, unsigned NumProtocols); 190 191 /// getObjCQualifiedIdType - Return an ObjCQualifiedIdType for a 192 /// given 'id' and conforming protocol list. 193 QualType getObjCQualifiedIdType(QualType idType, 194 ObjCProtocolDecl **ProtocolList, 195 unsigned NumProtocols); 196 197 198 /// getTypeOfType - GCC extension. 199 QualType getTypeOfExpr(Expr *e); 200 QualType getTypeOfType(QualType t); 201 202 /// getTagDeclType - Return the unique reference to the type for the 203 /// specified TagDecl (struct/union/class/enum) decl. 204 QualType getTagDeclType(TagDecl *Decl); 205 206 /// getSizeType - Return the unique type for "size_t" (C99 7.17), defined 207 /// in <stddef.h>. The sizeof operator requires this (C99 6.5.3.4p4). 208 QualType getSizeType() const; 209 210 /// getWcharType - Return the unique type for "wchar_t" (C99 7.17), defined 211 /// in <stddef.h>. Wide strings require this (C99 6.4.5p5). 212 QualType getWcharType() const; 213 214 /// getPointerDiffType - Return the unique type for "ptrdiff_t" (ref?) 215 /// defined in <stddef.h>. Pointer - pointer requires this (C99 6.5.6p9). 216 QualType getPointerDiffType() const; 217 218 // getCFConstantStringType - Return the C structure type used to represent 219 // constant CFStrings. 220 QualType getCFConstantStringType(); 221 222 // This setter/getter represents the ObjC type for an NSConstantString. 223 void setObjCConstantStringInterface(ObjCInterfaceDecl *Decl); 224 QualType getObjCConstantStringInterface() const { 225 return ObjCConstantStringType; 226 } 227 228 // Return the ObjC type encoding for a given type. 229 void getObjCEncodingForType(QualType t, std::string &S, 230 llvm::SmallVector<const RecordType *, 8> &RT) const; 231 232 // Put the string version of type qualifiers into S. 233 void getObjCEncodingForTypeQualifier(Decl::ObjCDeclQualifier QT, 234 std::string &S) const; 235 236 /// getObjCEncodingForMethodDecl - Return the encoded type for this method 237 /// declaration. 238 void getObjCEncodingForMethodDecl(ObjCMethodDecl *Decl, std::string &S); 239 240 /// getObjCEncodingTypeSize returns size of type for objective-c encoding 241 /// purpose. 242 int getObjCEncodingTypeSize(QualType t); 243 244 // This setter/getter repreents the ObjC 'id' type. It is setup lazily, by 245 // Sema. 246 void setObjCIdType(TypedefDecl *Decl); 247 QualType getObjCIdType() const { return ObjCIdType; } 248 249 void setObjCSelType(TypedefDecl *Decl); 250 QualType getObjCSelType() const { return ObjCSelType; } 251 252 void setObjCProtoType(QualType QT); 253 QualType getObjCProtoType() const { return ObjCProtoType; } 254 255 void setObjCClassType(TypedefDecl *Decl); 256 QualType getObjCClassType() const { return ObjCClassType; } 257 258 void setBuiltinVaListType(QualType T); 259 QualType getBuiltinVaListType() const { return BuiltinVaListType; } 260 261 //===--------------------------------------------------------------------===// 262 // Type Sizing and Analysis 263 //===--------------------------------------------------------------------===// 264 265 /// getTypeInfo - Get the size and alignment of the specified complete type in 266 /// bits. 267 std::pair<uint64_t, unsigned> getTypeInfo(QualType T); 268 269 /// getTypeSize - Return the size of the specified type, in bits. This method 270 /// does not work on incomplete types. 271 uint64_t getTypeSize(QualType T) { 272 return getTypeInfo(T).first; 273 } 274 275 /// getTypeAlign - Return the alignment of the specified type, in bits. This 276 /// method does not work on incomplete types. 277 unsigned getTypeAlign(QualType T) { 278 return getTypeInfo(T).second; 279 } 280 281 /// getASTRecordLayout - Get or compute information about the layout of the 282 /// specified record (struct/union/class), which indicates its size and field 283 /// position information. 284 const ASTRecordLayout &getASTRecordLayout(const RecordDecl *D); 285 286 //===--------------------------------------------------------------------===// 287 // Type Operators 288 //===--------------------------------------------------------------------===// 289 290 /// getCanonicalType - Return the canonical (structural) type corresponding to 291 /// the specified potentially non-canonical type. The non-canonical version 292 /// of a type may have many "decorated" versions of types. Decorators can 293 /// include typedefs, 'typeof' operators, etc. The returned type is guaranteed 294 /// to be free of any of these, allowing two canonical types to be compared 295 /// for exact equality with a simple pointer comparison. 296 QualType getCanonicalType(QualType T); 297 298 /// getArrayDecayedType - Return the properly qualified result of decaying the 299 /// specified array type to a pointer. This operation is non-trivial when 300 /// handling typedefs etc. The canonical type of "T" must be an array type, 301 /// this returns a pointer to a properly qualified element of the array. 302 /// 303 /// See C99 6.7.5.3p7 and C99 6.3.2.1p3. 304 QualType getArrayDecayedType(QualType T); 305 306 /// getIntegerTypeOrder - Returns the highest ranked integer type: 307 /// C99 6.3.1.8p1. If LHS > RHS, return 1. If LHS == RHS, return 0. If 308 /// LHS < RHS, return -1. 309 int getIntegerTypeOrder(QualType LHS, QualType RHS); 310 311 /// getFloatingTypeOrder - Compare the rank of the two specified floating 312 /// point types, ignoring the domain of the type (i.e. 'double' == 313 /// '_Complex double'). If LHS > RHS, return 1. If LHS == RHS, return 0. If 314 /// LHS < RHS, return -1. 315 int getFloatingTypeOrder(QualType LHS, QualType RHS); 316 317 /// getFloatingTypeOfSizeWithinDomain - Returns a real floating 318 /// point or a complex type (based on typeDomain/typeSize). 319 /// 'typeDomain' is a real floating point or complex type. 320 /// 'typeSize' is a real floating point or complex type. 321 QualType getFloatingTypeOfSizeWithinDomain(QualType typeSize, 322 QualType typeDomain) const; 323 324 //===--------------------------------------------------------------------===// 325 // Type Compatibility Predicates 326 //===--------------------------------------------------------------------===// 327 328 /// Compatibility predicates used to check assignment expressions. 329 bool typesAreCompatible(QualType, QualType); // C99 6.2.7p1 330 bool tagTypesAreCompatible(QualType, QualType); // C99 6.2.7p1 331 bool pointerTypesAreCompatible(QualType, QualType); // C99 6.7.5.1p2 332 bool referenceTypesAreCompatible(QualType, QualType); // C++ 5.17p6 333 bool functionTypesAreCompatible(QualType, QualType); // C99 6.7.5.3p15 334 bool arrayTypesAreCompatible(QualType, QualType); // C99 6.7.5.2p6 335 336 bool isObjCIdType(QualType T) const { 337 if (!IdStructType) // ObjC isn't enabled 338 return false; 339 return T->getAsStructureType() == IdStructType; 340 } 341 bool isObjCClassType(QualType T) const { 342 if (!ClassStructType) // ObjC isn't enabled 343 return false; 344 return T->getAsStructureType() == ClassStructType; 345 } 346 bool isObjCSelType(QualType T) const { 347 assert(SelStructType && "isObjCSelType used before 'SEL' type is built"); 348 return T->getAsStructureType() == SelStructType; 349 } 350 351 //===--------------------------------------------------------------------===// 352 // Serialization 353 //===--------------------------------------------------------------------===// 354 355 void Emit(llvm::Serializer& S) const; 356 static ASTContext* Create(llvm::Deserializer& D); 357 358private: 359 ASTContext(const ASTContext&); // DO NOT IMPLEMENT 360 void operator=(const ASTContext&); // DO NOT IMPLEMENT 361 362 void InitBuiltinTypes(); 363 void InitBuiltinType(QualType &R, BuiltinType::Kind K); 364}; 365 366} // end namespace clang 367 368#endif 369