1 //===- Initialization.h - Semantic Analysis for Initializers ----*- C++ -*-===// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 // 9 // This file provides supporting data types for initialization of objects. 10 // 11 //===----------------------------------------------------------------------===// 12 13 #ifndef LLVM_CLANG_SEMA_INITIALIZATION_H 14 #define LLVM_CLANG_SEMA_INITIALIZATION_H 15 16 #include "clang/AST/ASTContext.h" 17 #include "clang/AST/Attr.h" 18 #include "clang/AST/Decl.h" 19 #include "clang/AST/DeclAccessPair.h" 20 #include "clang/AST/DeclarationName.h" 21 #include "clang/AST/Expr.h" 22 #include "clang/AST/Type.h" 23 #include "clang/Basic/IdentifierTable.h" 24 #include "clang/Basic/LLVM.h" 25 #include "clang/Basic/LangOptions.h" 26 #include "clang/Basic/SourceLocation.h" 27 #include "clang/Basic/Specifiers.h" 28 #include "clang/Sema/Overload.h" 29 #include "clang/Sema/Ownership.h" 30 #include "llvm/ADT/ArrayRef.h" 31 #include "llvm/ADT/SmallVector.h" 32 #include "llvm/ADT/StringRef.h" 33 #include "llvm/ADT/iterator_range.h" 34 #include "llvm/Support/Casting.h" 35 #include <cassert> 36 #include <cstdint> 37 #include <string> 38 39 namespace clang { 40 41 class CXXBaseSpecifier; 42 class CXXConstructorDecl; 43 class ObjCMethodDecl; 44 class Sema; 45 46 /// Describes an entity that is being initialized. 47 class alignas(8) InitializedEntity { 48 public: 49 /// Specifies the kind of entity being initialized. 50 enum EntityKind { 51 /// The entity being initialized is a variable. 52 EK_Variable, 53 54 /// The entity being initialized is a function parameter. 55 EK_Parameter, 56 57 /// The entity being initialized is a non-type template parameter. 58 EK_TemplateParameter, 59 60 /// The entity being initialized is the result of a function call. 61 EK_Result, 62 63 /// The entity being initialized is the result of a statement expression. 64 EK_StmtExprResult, 65 66 /// The entity being initialized is an exception object that 67 /// is being thrown. 68 EK_Exception, 69 70 /// The entity being initialized is a non-static data member 71 /// subobject. 72 EK_Member, 73 74 /// The entity being initialized is an element of an array. 75 EK_ArrayElement, 76 77 /// The entity being initialized is an object (or array of 78 /// objects) allocated via new. 79 EK_New, 80 81 /// The entity being initialized is a temporary object. 82 EK_Temporary, 83 84 /// The entity being initialized is a base member subobject. 85 EK_Base, 86 87 /// The initialization is being done by a delegating constructor. 88 EK_Delegating, 89 90 /// The entity being initialized is an element of a vector. 91 /// or vector. 92 EK_VectorElement, 93 94 /// The entity being initialized is a field of block descriptor for 95 /// the copied-in c++ object. 96 EK_BlockElement, 97 98 /// The entity being initialized is a field of block descriptor for the 99 /// copied-in lambda object that's used in the lambda to block conversion. 100 EK_LambdaToBlockConversionBlockElement, 101 102 /// The entity being initialized is the real or imaginary part of a 103 /// complex number. 104 EK_ComplexElement, 105 106 /// The entity being initialized is the field that captures a 107 /// variable in a lambda. 108 EK_LambdaCapture, 109 110 /// The entity being initialized is the initializer for a compound 111 /// literal. 112 EK_CompoundLiteralInit, 113 114 /// The entity being implicitly initialized back to the formal 115 /// result type. 116 EK_RelatedResult, 117 118 /// The entity being initialized is a function parameter; function 119 /// is member of group of audited CF APIs. 120 EK_Parameter_CF_Audited, 121 122 /// The entity being initialized is a structured binding of a 123 /// decomposition declaration. 124 EK_Binding, 125 126 /// The entity being initialized is a non-static data member subobject of an 127 /// object initialized via parenthesized aggregate initialization. 128 EK_ParenAggInitMember, 129 130 // Note: err_init_conversion_failed in DiagnosticSemaKinds.td uses this 131 // enum as an index for its first %select. When modifying this list, 132 // that diagnostic text needs to be updated as well. 133 }; 134 135 private: 136 /// The kind of entity being initialized. 137 EntityKind Kind; 138 139 /// If non-NULL, the parent entity in which this 140 /// initialization occurs. 141 const InitializedEntity *Parent = nullptr; 142 143 /// The type of the object or reference being initialized. 144 QualType Type; 145 146 /// The mangling number for the next reference temporary to be created. 147 mutable unsigned ManglingNumber = 0; 148 149 struct LN { 150 /// When Kind == EK_Result, EK_Exception, EK_New, the 151 /// location of the 'return', 'throw', or 'new' keyword, 152 /// respectively. When Kind == EK_Temporary, the location where 153 /// the temporary is being created. 154 SourceLocation Location; 155 156 /// Whether the entity being initialized may end up using the 157 /// named return value optimization (NRVO). 158 bool NRVO; 159 }; 160 161 struct VD { 162 /// The VarDecl, FieldDecl, or BindingDecl being initialized. 163 ValueDecl *VariableOrMember; 164 165 /// When Kind == EK_Member, whether this is an implicit member 166 /// initialization in a copy or move constructor. These can perform array 167 /// copies. 168 bool IsImplicitFieldInit; 169 170 /// When Kind == EK_Member, whether this is the initial initialization 171 /// check for a default member initializer. 172 bool IsDefaultMemberInit; 173 }; 174 175 struct C { 176 /// The name of the variable being captured by an EK_LambdaCapture. 177 IdentifierInfo *VarID; 178 179 /// The source location at which the capture occurs. 180 SourceLocation Location; 181 }; 182 183 union { 184 /// When Kind == EK_Variable, EK_Member, EK_Binding, or 185 /// EK_TemplateParameter, the variable, binding, or template parameter. 186 VD Variable; 187 188 /// When Kind == EK_RelatedResult, the ObjectiveC method where 189 /// result type was implicitly changed to accommodate ARC semantics. 190 ObjCMethodDecl *MethodDecl; 191 192 /// When Kind == EK_Parameter, the ParmVarDecl, with the 193 /// integer indicating whether the parameter is "consumed". 194 llvm::PointerIntPair<ParmVarDecl *, 1> Parameter; 195 196 /// When Kind == EK_Temporary or EK_CompoundLiteralInit, the type 197 /// source information for the temporary. 198 TypeSourceInfo *TypeInfo; 199 200 struct LN LocAndNRVO; 201 202 /// When Kind == EK_Base, the base specifier that provides the 203 /// base class. The integer specifies whether the base is an inherited 204 /// virtual base. 205 llvm::PointerIntPair<const CXXBaseSpecifier *, 1> Base; 206 207 /// When Kind == EK_ArrayElement, EK_VectorElement, or 208 /// EK_ComplexElement, the index of the array or vector element being 209 /// initialized. 210 unsigned Index; 211 212 struct C Capture; 213 }; 214 InitializedEntity()215 InitializedEntity() {} 216 217 /// Create the initialization entity for a variable. 218 InitializedEntity(VarDecl *Var, EntityKind EK = EK_Variable) Kind(EK)219 : Kind(EK), Type(Var->getType()), Variable{Var, false, false} {} 220 221 /// Create the initialization entity for the result of a 222 /// function, throwing an object, performing an explicit cast, or 223 /// initializing a parameter for which there is no declaration. 224 InitializedEntity(EntityKind Kind, SourceLocation Loc, QualType Type, 225 bool NRVO = false) Kind(Kind)226 : Kind(Kind), Type(Type) { 227 new (&LocAndNRVO) LN; 228 LocAndNRVO.Location = Loc; 229 LocAndNRVO.NRVO = NRVO; 230 } 231 232 /// Create the initialization entity for a member subobject. 233 InitializedEntity(FieldDecl *Member, const InitializedEntity *Parent, 234 bool Implicit, bool DefaultMemberInit, 235 bool IsParenAggInit = false) 236 : Kind(IsParenAggInit ? EK_ParenAggInitMember : EK_Member), 237 Parent(Parent), Type(Member->getType()), 238 Variable{Member, Implicit, DefaultMemberInit} {} 239 240 /// Create the initialization entity for an array element. 241 InitializedEntity(ASTContext &Context, unsigned Index, 242 const InitializedEntity &Parent); 243 244 /// Create the initialization entity for a lambda capture. InitializedEntity(IdentifierInfo * VarID,QualType FieldType,SourceLocation Loc)245 InitializedEntity(IdentifierInfo *VarID, QualType FieldType, SourceLocation Loc) 246 : Kind(EK_LambdaCapture), Type(FieldType) { 247 new (&Capture) C; 248 Capture.VarID = VarID; 249 Capture.Location = Loc; 250 } 251 252 public: 253 /// Create the initialization entity for a variable. InitializeVariable(VarDecl * Var)254 static InitializedEntity InitializeVariable(VarDecl *Var) { 255 return InitializedEntity(Var); 256 } 257 258 /// Create the initialization entity for a parameter. InitializeParameter(ASTContext & Context,ParmVarDecl * Parm)259 static InitializedEntity InitializeParameter(ASTContext &Context, 260 ParmVarDecl *Parm) { 261 return InitializeParameter(Context, Parm, Parm->getType()); 262 } 263 264 /// Create the initialization entity for a parameter, but use 265 /// another type. 266 static InitializedEntity InitializeParameter(ASTContext & Context,ParmVarDecl * Parm,QualType Type)267 InitializeParameter(ASTContext &Context, ParmVarDecl *Parm, QualType Type) { 268 bool Consumed = (Context.getLangOpts().ObjCAutoRefCount && 269 Parm->hasAttr<NSConsumedAttr>()); 270 271 InitializedEntity Entity; 272 Entity.Kind = EK_Parameter; 273 Entity.Type = 274 Context.getVariableArrayDecayedType(Type.getUnqualifiedType()); 275 Entity.Parent = nullptr; 276 Entity.Parameter = {Parm, Consumed}; 277 return Entity; 278 } 279 280 /// Create the initialization entity for a parameter that is 281 /// only known by its type. InitializeParameter(ASTContext & Context,QualType Type,bool Consumed)282 static InitializedEntity InitializeParameter(ASTContext &Context, 283 QualType Type, 284 bool Consumed) { 285 InitializedEntity Entity; 286 Entity.Kind = EK_Parameter; 287 Entity.Type = Context.getVariableArrayDecayedType(Type); 288 Entity.Parent = nullptr; 289 Entity.Parameter = {nullptr, Consumed}; 290 return Entity; 291 } 292 293 /// Create the initialization entity for a template parameter. 294 static InitializedEntity InitializeTemplateParameter(QualType T,NonTypeTemplateParmDecl * Param)295 InitializeTemplateParameter(QualType T, NonTypeTemplateParmDecl *Param) { 296 InitializedEntity Entity; 297 Entity.Kind = EK_TemplateParameter; 298 Entity.Type = T; 299 Entity.Parent = nullptr; 300 Entity.Variable = {Param, false, false}; 301 return Entity; 302 } 303 304 /// Create the initialization entity for the result of a function. InitializeResult(SourceLocation ReturnLoc,QualType Type)305 static InitializedEntity InitializeResult(SourceLocation ReturnLoc, 306 QualType Type) { 307 return InitializedEntity(EK_Result, ReturnLoc, Type); 308 } 309 InitializeStmtExprResult(SourceLocation ReturnLoc,QualType Type)310 static InitializedEntity InitializeStmtExprResult(SourceLocation ReturnLoc, 311 QualType Type) { 312 return InitializedEntity(EK_StmtExprResult, ReturnLoc, Type); 313 } 314 InitializeBlock(SourceLocation BlockVarLoc,QualType Type)315 static InitializedEntity InitializeBlock(SourceLocation BlockVarLoc, 316 QualType Type) { 317 return InitializedEntity(EK_BlockElement, BlockVarLoc, Type); 318 } 319 InitializeLambdaToBlock(SourceLocation BlockVarLoc,QualType Type)320 static InitializedEntity InitializeLambdaToBlock(SourceLocation BlockVarLoc, 321 QualType Type) { 322 return InitializedEntity(EK_LambdaToBlockConversionBlockElement, 323 BlockVarLoc, Type); 324 } 325 326 /// Create the initialization entity for an exception object. InitializeException(SourceLocation ThrowLoc,QualType Type)327 static InitializedEntity InitializeException(SourceLocation ThrowLoc, 328 QualType Type) { 329 return InitializedEntity(EK_Exception, ThrowLoc, Type); 330 } 331 332 /// Create the initialization entity for an object allocated via new. InitializeNew(SourceLocation NewLoc,QualType Type)333 static InitializedEntity InitializeNew(SourceLocation NewLoc, QualType Type) { 334 return InitializedEntity(EK_New, NewLoc, Type); 335 } 336 337 /// Create the initialization entity for a temporary. InitializeTemporary(QualType Type)338 static InitializedEntity InitializeTemporary(QualType Type) { 339 return InitializeTemporary(nullptr, Type); 340 } 341 342 /// Create the initialization entity for a temporary. InitializeTemporary(ASTContext & Context,TypeSourceInfo * TypeInfo)343 static InitializedEntity InitializeTemporary(ASTContext &Context, 344 TypeSourceInfo *TypeInfo) { 345 QualType Type = TypeInfo->getType(); 346 if (Context.getLangOpts().OpenCLCPlusPlus) { 347 assert(!Type.hasAddressSpace() && "Temporary already has address space!"); 348 Type = Context.getAddrSpaceQualType(Type, LangAS::opencl_private); 349 } 350 351 return InitializeTemporary(TypeInfo, Type); 352 } 353 354 /// Create the initialization entity for a temporary. InitializeTemporary(TypeSourceInfo * TypeInfo,QualType Type)355 static InitializedEntity InitializeTemporary(TypeSourceInfo *TypeInfo, 356 QualType Type) { 357 InitializedEntity Result(EK_Temporary, SourceLocation(), Type); 358 Result.TypeInfo = TypeInfo; 359 return Result; 360 } 361 362 /// Create the initialization entity for a related result. InitializeRelatedResult(ObjCMethodDecl * MD,QualType Type)363 static InitializedEntity InitializeRelatedResult(ObjCMethodDecl *MD, 364 QualType Type) { 365 InitializedEntity Result(EK_RelatedResult, SourceLocation(), Type); 366 Result.MethodDecl = MD; 367 return Result; 368 } 369 370 /// Create the initialization entity for a base class subobject. 371 static InitializedEntity 372 InitializeBase(ASTContext &Context, const CXXBaseSpecifier *Base, 373 bool IsInheritedVirtualBase, 374 const InitializedEntity *Parent = nullptr); 375 376 /// Create the initialization entity for a delegated constructor. InitializeDelegation(QualType Type)377 static InitializedEntity InitializeDelegation(QualType Type) { 378 return InitializedEntity(EK_Delegating, SourceLocation(), Type); 379 } 380 381 /// Create the initialization entity for a member subobject. 382 static InitializedEntity 383 InitializeMember(FieldDecl *Member, 384 const InitializedEntity *Parent = nullptr, 385 bool Implicit = false) { 386 return InitializedEntity(Member, Parent, Implicit, false); 387 } 388 389 /// Create the initialization entity for a member subobject. 390 static InitializedEntity 391 InitializeMember(IndirectFieldDecl *Member, 392 const InitializedEntity *Parent = nullptr, 393 bool Implicit = false) { 394 return InitializedEntity(Member->getAnonField(), Parent, Implicit, false); 395 } 396 397 /// Create the initialization entity for a member subobject initialized via 398 /// parenthesized aggregate init. InitializeMemberFromParenAggInit(FieldDecl * Member)399 static InitializedEntity InitializeMemberFromParenAggInit(FieldDecl *Member) { 400 return InitializedEntity(Member, /*Parent=*/nullptr, /*Implicit=*/false, 401 /*DefaultMemberInit=*/false, 402 /*IsParenAggInit=*/true); 403 } 404 405 /// Create the initialization entity for a default member initializer. 406 static InitializedEntity InitializeMemberFromDefaultMemberInitializer(FieldDecl * Member)407 InitializeMemberFromDefaultMemberInitializer(FieldDecl *Member) { 408 return InitializedEntity(Member, nullptr, false, true); 409 } 410 411 /// Create the initialization entity for an array element. InitializeElement(ASTContext & Context,unsigned Index,const InitializedEntity & Parent)412 static InitializedEntity InitializeElement(ASTContext &Context, 413 unsigned Index, 414 const InitializedEntity &Parent) { 415 return InitializedEntity(Context, Index, Parent); 416 } 417 418 /// Create the initialization entity for a structured binding. InitializeBinding(VarDecl * Binding)419 static InitializedEntity InitializeBinding(VarDecl *Binding) { 420 return InitializedEntity(Binding, EK_Binding); 421 } 422 423 /// Create the initialization entity for a lambda capture. 424 /// 425 /// \p VarID The name of the entity being captured, or nullptr for 'this'. InitializeLambdaCapture(IdentifierInfo * VarID,QualType FieldType,SourceLocation Loc)426 static InitializedEntity InitializeLambdaCapture(IdentifierInfo *VarID, 427 QualType FieldType, 428 SourceLocation Loc) { 429 return InitializedEntity(VarID, FieldType, Loc); 430 } 431 432 /// Create the entity for a compound literal initializer. InitializeCompoundLiteralInit(TypeSourceInfo * TSI)433 static InitializedEntity InitializeCompoundLiteralInit(TypeSourceInfo *TSI) { 434 InitializedEntity Result(EK_CompoundLiteralInit, SourceLocation(), 435 TSI->getType()); 436 Result.TypeInfo = TSI; 437 return Result; 438 } 439 440 /// Determine the kind of initialization. getKind()441 EntityKind getKind() const { return Kind; } 442 443 /// Retrieve the parent of the entity being initialized, when 444 /// the initialization itself is occurring within the context of a 445 /// larger initialization. getParent()446 const InitializedEntity *getParent() const { return Parent; } 447 448 /// Retrieve type being initialized. getType()449 QualType getType() const { return Type; } 450 451 /// Retrieve complete type-source information for the object being 452 /// constructed, if known. getTypeSourceInfo()453 TypeSourceInfo *getTypeSourceInfo() const { 454 if (Kind == EK_Temporary || Kind == EK_CompoundLiteralInit) 455 return TypeInfo; 456 457 return nullptr; 458 } 459 460 /// Retrieve the name of the entity being initialized. 461 DeclarationName getName() const; 462 463 /// Retrieve the variable, parameter, or field being 464 /// initialized. 465 ValueDecl *getDecl() const; 466 467 /// Retrieve the ObjectiveC method being initialized. getMethodDecl()468 ObjCMethodDecl *getMethodDecl() const { return MethodDecl; } 469 470 /// Determine whether this initialization allows the named return 471 /// value optimization, which also applies to thrown objects. 472 bool allowsNRVO() const; 473 isParameterKind()474 bool isParameterKind() const { 475 return (getKind() == EK_Parameter || 476 getKind() == EK_Parameter_CF_Audited); 477 } 478 isParamOrTemplateParamKind()479 bool isParamOrTemplateParamKind() const { 480 return isParameterKind() || getKind() == EK_TemplateParameter; 481 } 482 483 /// Determine whether this initialization consumes the 484 /// parameter. isParameterConsumed()485 bool isParameterConsumed() const { 486 assert(isParameterKind() && "Not a parameter"); 487 return Parameter.getInt(); 488 } 489 490 /// Retrieve the base specifier. getBaseSpecifier()491 const CXXBaseSpecifier *getBaseSpecifier() const { 492 assert(getKind() == EK_Base && "Not a base specifier"); 493 return Base.getPointer(); 494 } 495 496 /// Return whether the base is an inherited virtual base. isInheritedVirtualBase()497 bool isInheritedVirtualBase() const { 498 assert(getKind() == EK_Base && "Not a base specifier"); 499 return Base.getInt(); 500 } 501 502 /// Determine whether this is an array new with an unknown bound. isVariableLengthArrayNew()503 bool isVariableLengthArrayNew() const { 504 return getKind() == EK_New && isa_and_nonnull<IncompleteArrayType>( 505 getType()->getAsArrayTypeUnsafe()); 506 } 507 508 /// Is this the implicit initialization of a member of a class from 509 /// a defaulted constructor? isImplicitMemberInitializer()510 bool isImplicitMemberInitializer() const { 511 return getKind() == EK_Member && Variable.IsImplicitFieldInit; 512 } 513 514 /// Is this the default member initializer of a member (specified inside 515 /// the class definition)? isDefaultMemberInitializer()516 bool isDefaultMemberInitializer() const { 517 return getKind() == EK_Member && Variable.IsDefaultMemberInit; 518 } 519 520 /// Determine the location of the 'return' keyword when initializing 521 /// the result of a function call. getReturnLoc()522 SourceLocation getReturnLoc() const { 523 assert(getKind() == EK_Result && "No 'return' location!"); 524 return LocAndNRVO.Location; 525 } 526 527 /// Determine the location of the 'throw' keyword when initializing 528 /// an exception object. getThrowLoc()529 SourceLocation getThrowLoc() const { 530 assert(getKind() == EK_Exception && "No 'throw' location!"); 531 return LocAndNRVO.Location; 532 } 533 534 /// If this is an array, vector, or complex number element, get the 535 /// element's index. getElementIndex()536 unsigned getElementIndex() const { 537 assert(getKind() == EK_ArrayElement || getKind() == EK_VectorElement || 538 getKind() == EK_ComplexElement); 539 return Index; 540 } 541 542 /// If this is already the initializer for an array or vector 543 /// element, sets the element index. setElementIndex(unsigned Index)544 void setElementIndex(unsigned Index) { 545 assert(getKind() == EK_ArrayElement || getKind() == EK_VectorElement || 546 getKind() == EK_ComplexElement); 547 this->Index = Index; 548 } 549 550 /// For a lambda capture, return the capture's name. getCapturedVarName()551 StringRef getCapturedVarName() const { 552 assert(getKind() == EK_LambdaCapture && "Not a lambda capture!"); 553 return Capture.VarID ? Capture.VarID->getName() : "this"; 554 } 555 556 /// Determine the location of the capture when initializing 557 /// field from a captured variable in a lambda. getCaptureLoc()558 SourceLocation getCaptureLoc() const { 559 assert(getKind() == EK_LambdaCapture && "Not a lambda capture!"); 560 return Capture.Location; 561 } 562 setParameterCFAudited()563 void setParameterCFAudited() { 564 Kind = EK_Parameter_CF_Audited; 565 } 566 allocateManglingNumber()567 unsigned allocateManglingNumber() const { return ++ManglingNumber; } 568 569 /// Dump a representation of the initialized entity to standard error, 570 /// for debugging purposes. 571 void dump() const; 572 573 private: 574 unsigned dumpImpl(raw_ostream &OS) const; 575 }; 576 577 /// Describes the kind of initialization being performed, along with 578 /// location information for tokens related to the initialization (equal sign, 579 /// parentheses). 580 class InitializationKind { 581 public: 582 /// The kind of initialization being performed. 583 enum InitKind { 584 /// Direct initialization 585 IK_Direct, 586 587 /// Direct list-initialization 588 IK_DirectList, 589 590 /// Copy initialization 591 IK_Copy, 592 593 /// Default initialization 594 IK_Default, 595 596 /// Value initialization 597 IK_Value 598 }; 599 600 private: 601 /// The context of the initialization. 602 enum InitContext { 603 /// Normal context 604 IC_Normal, 605 606 /// Normal context, but allows explicit conversion functions 607 IC_ExplicitConvs, 608 609 /// Implicit context (value initialization) 610 IC_Implicit, 611 612 /// Static cast context 613 IC_StaticCast, 614 615 /// C-style cast context 616 IC_CStyleCast, 617 618 /// Functional cast context 619 IC_FunctionalCast 620 }; 621 622 /// The kind of initialization being performed. 623 InitKind Kind : 8; 624 625 /// The context of the initialization. 626 InitContext Context : 8; 627 628 /// The source locations involved in the initialization. 629 SourceLocation Locations[3]; 630 InitializationKind(InitKind Kind,InitContext Context,SourceLocation Loc1,SourceLocation Loc2,SourceLocation Loc3)631 InitializationKind(InitKind Kind, InitContext Context, SourceLocation Loc1, 632 SourceLocation Loc2, SourceLocation Loc3) 633 : Kind(Kind), Context(Context) { 634 Locations[0] = Loc1; 635 Locations[1] = Loc2; 636 Locations[2] = Loc3; 637 } 638 639 public: 640 /// Create a direct initialization. CreateDirect(SourceLocation InitLoc,SourceLocation LParenLoc,SourceLocation RParenLoc)641 static InitializationKind CreateDirect(SourceLocation InitLoc, 642 SourceLocation LParenLoc, 643 SourceLocation RParenLoc) { 644 return InitializationKind(IK_Direct, IC_Normal, 645 InitLoc, LParenLoc, RParenLoc); 646 } 647 CreateDirectList(SourceLocation InitLoc)648 static InitializationKind CreateDirectList(SourceLocation InitLoc) { 649 return InitializationKind(IK_DirectList, IC_Normal, InitLoc, InitLoc, 650 InitLoc); 651 } 652 CreateDirectList(SourceLocation InitLoc,SourceLocation LBraceLoc,SourceLocation RBraceLoc)653 static InitializationKind CreateDirectList(SourceLocation InitLoc, 654 SourceLocation LBraceLoc, 655 SourceLocation RBraceLoc) { 656 return InitializationKind(IK_DirectList, IC_Normal, InitLoc, LBraceLoc, 657 RBraceLoc); 658 } 659 660 /// Create a direct initialization due to a cast that isn't a C-style 661 /// or functional cast. CreateCast(SourceRange TypeRange)662 static InitializationKind CreateCast(SourceRange TypeRange) { 663 return InitializationKind(IK_Direct, IC_StaticCast, TypeRange.getBegin(), 664 TypeRange.getBegin(), TypeRange.getEnd()); 665 } 666 667 /// Create a direct initialization for a C-style cast. CreateCStyleCast(SourceLocation StartLoc,SourceRange TypeRange,bool InitList)668 static InitializationKind CreateCStyleCast(SourceLocation StartLoc, 669 SourceRange TypeRange, 670 bool InitList) { 671 // C++ cast syntax doesn't permit init lists, but C compound literals are 672 // exactly that. 673 return InitializationKind(InitList ? IK_DirectList : IK_Direct, 674 IC_CStyleCast, StartLoc, TypeRange.getBegin(), 675 TypeRange.getEnd()); 676 } 677 678 /// Create a direct initialization for a functional cast. CreateFunctionalCast(SourceRange TypeRange,bool InitList)679 static InitializationKind CreateFunctionalCast(SourceRange TypeRange, 680 bool InitList) { 681 return InitializationKind(InitList ? IK_DirectList : IK_Direct, 682 IC_FunctionalCast, TypeRange.getBegin(), 683 TypeRange.getBegin(), TypeRange.getEnd()); 684 } 685 686 /// Create a copy initialization. 687 static InitializationKind CreateCopy(SourceLocation InitLoc, 688 SourceLocation EqualLoc, 689 bool AllowExplicitConvs = false) { 690 return InitializationKind(IK_Copy, 691 AllowExplicitConvs? IC_ExplicitConvs : IC_Normal, 692 InitLoc, EqualLoc, EqualLoc); 693 } 694 695 /// Create a default initialization. CreateDefault(SourceLocation InitLoc)696 static InitializationKind CreateDefault(SourceLocation InitLoc) { 697 return InitializationKind(IK_Default, IC_Normal, InitLoc, InitLoc, InitLoc); 698 } 699 700 /// Create a value initialization. 701 static InitializationKind CreateValue(SourceLocation InitLoc, 702 SourceLocation LParenLoc, 703 SourceLocation RParenLoc, 704 bool isImplicit = false) { 705 return InitializationKind(IK_Value, isImplicit ? IC_Implicit : IC_Normal, 706 InitLoc, LParenLoc, RParenLoc); 707 } 708 709 /// Create an initialization from an initializer (which, for direct 710 /// initialization from a parenthesized list, will be a ParenListExpr). CreateForInit(SourceLocation Loc,bool DirectInit,Expr * Init)711 static InitializationKind CreateForInit(SourceLocation Loc, bool DirectInit, 712 Expr *Init) { 713 if (!Init) return CreateDefault(Loc); 714 if (!DirectInit) 715 return CreateCopy(Loc, Init->getBeginLoc()); 716 if (isa<InitListExpr>(Init)) 717 return CreateDirectList(Loc, Init->getBeginLoc(), Init->getEndLoc()); 718 return CreateDirect(Loc, Init->getBeginLoc(), Init->getEndLoc()); 719 } 720 721 /// Determine the initialization kind. getKind()722 InitKind getKind() const { 723 return Kind; 724 } 725 726 /// Determine whether this initialization is an explicit cast. isExplicitCast()727 bool isExplicitCast() const { 728 return Context >= IC_StaticCast; 729 } 730 731 /// Determine whether this initialization is a static cast. isStaticCast()732 bool isStaticCast() const { return Context == IC_StaticCast; } 733 734 /// Determine whether this initialization is a C-style cast. isCStyleOrFunctionalCast()735 bool isCStyleOrFunctionalCast() const { 736 return Context >= IC_CStyleCast; 737 } 738 739 /// Determine whether this is a C-style cast. isCStyleCast()740 bool isCStyleCast() const { 741 return Context == IC_CStyleCast; 742 } 743 744 /// Determine whether this is a functional-style cast. isFunctionalCast()745 bool isFunctionalCast() const { 746 return Context == IC_FunctionalCast; 747 } 748 749 /// Determine whether this initialization is an implicit 750 /// value-initialization, e.g., as occurs during aggregate 751 /// initialization. isImplicitValueInit()752 bool isImplicitValueInit() const { return Context == IC_Implicit; } 753 754 /// Retrieve the location at which initialization is occurring. getLocation()755 SourceLocation getLocation() const { return Locations[0]; } 756 757 /// Retrieve the source range that covers the initialization. getRange()758 SourceRange getRange() const { 759 return SourceRange(Locations[0], Locations[2]); 760 } 761 762 /// Retrieve the location of the equal sign for copy initialization 763 /// (if present). getEqualLoc()764 SourceLocation getEqualLoc() const { 765 assert(Kind == IK_Copy && "Only copy initialization has an '='"); 766 return Locations[1]; 767 } 768 isCopyInit()769 bool isCopyInit() const { return Kind == IK_Copy; } 770 771 /// Retrieve whether this initialization allows the use of explicit 772 /// constructors. AllowExplicit()773 bool AllowExplicit() const { return !isCopyInit(); } 774 775 /// Retrieve whether this initialization allows the use of explicit 776 /// conversion functions when binding a reference. If the reference is the 777 /// first parameter in a copy or move constructor, such conversions are 778 /// permitted even though we are performing copy-initialization. allowExplicitConversionFunctionsInRefBinding()779 bool allowExplicitConversionFunctionsInRefBinding() const { 780 return !isCopyInit() || Context == IC_ExplicitConvs; 781 } 782 783 /// Determine whether this initialization has a source range containing the 784 /// locations of open and closing parentheses or braces. hasParenOrBraceRange()785 bool hasParenOrBraceRange() const { 786 return Kind == IK_Direct || Kind == IK_Value || Kind == IK_DirectList; 787 } 788 789 /// Retrieve the source range containing the locations of the open 790 /// and closing parentheses or braces for value, direct, and direct list 791 /// initializations. getParenOrBraceRange()792 SourceRange getParenOrBraceRange() const { 793 assert(hasParenOrBraceRange() && "Only direct, value, and direct-list " 794 "initialization have parentheses or " 795 "braces"); 796 return SourceRange(Locations[1], Locations[2]); 797 } 798 }; 799 800 /// Describes the sequence of initializations required to initialize 801 /// a given object or reference with a set of arguments. 802 class InitializationSequence { 803 public: 804 /// Describes the kind of initialization sequence computed. 805 enum SequenceKind { 806 /// A failed initialization sequence. The failure kind tells what 807 /// happened. 808 FailedSequence = 0, 809 810 /// A dependent initialization, which could not be 811 /// type-checked due to the presence of dependent types or 812 /// dependently-typed expressions. 813 DependentSequence, 814 815 /// A normal sequence. 816 NormalSequence 817 }; 818 819 /// Describes the kind of a particular step in an initialization 820 /// sequence. 821 enum StepKind { 822 /// Resolve the address of an overloaded function to a specific 823 /// function declaration. 824 SK_ResolveAddressOfOverloadedFunction, 825 826 /// Perform a derived-to-base cast, producing an rvalue. 827 SK_CastDerivedToBasePRValue, 828 829 /// Perform a derived-to-base cast, producing an xvalue. 830 SK_CastDerivedToBaseXValue, 831 832 /// Perform a derived-to-base cast, producing an lvalue. 833 SK_CastDerivedToBaseLValue, 834 835 /// Reference binding to an lvalue. 836 SK_BindReference, 837 838 /// Reference binding to a temporary. 839 SK_BindReferenceToTemporary, 840 841 /// An optional copy of a temporary object to another 842 /// temporary object, which is permitted (but not required) by 843 /// C++98/03 but not C++0x. 844 SK_ExtraneousCopyToTemporary, 845 846 /// Direct-initialization from a reference-related object in the 847 /// final stage of class copy-initialization. 848 SK_FinalCopy, 849 850 /// Perform a user-defined conversion, either via a conversion 851 /// function or via a constructor. 852 SK_UserConversion, 853 854 /// Perform a qualification conversion, producing a prvalue. 855 SK_QualificationConversionPRValue, 856 857 /// Perform a qualification conversion, producing an xvalue. 858 SK_QualificationConversionXValue, 859 860 /// Perform a qualification conversion, producing an lvalue. 861 SK_QualificationConversionLValue, 862 863 /// Perform a function reference conversion, see [dcl.init.ref]p4. 864 SK_FunctionReferenceConversion, 865 866 /// Perform a conversion adding _Atomic to a type. 867 SK_AtomicConversion, 868 869 /// Perform an implicit conversion sequence. 870 SK_ConversionSequence, 871 872 /// Perform an implicit conversion sequence without narrowing. 873 SK_ConversionSequenceNoNarrowing, 874 875 /// Perform list-initialization without a constructor. 876 SK_ListInitialization, 877 878 /// Unwrap the single-element initializer list for a reference. 879 SK_UnwrapInitList, 880 881 /// Rewrap the single-element initializer list for a reference. 882 SK_RewrapInitList, 883 884 /// Perform initialization via a constructor. 885 SK_ConstructorInitialization, 886 887 /// Perform initialization via a constructor, taking arguments from 888 /// a single InitListExpr. 889 SK_ConstructorInitializationFromList, 890 891 /// Zero-initialize the object 892 SK_ZeroInitialization, 893 894 /// C assignment 895 SK_CAssignment, 896 897 /// Initialization by string 898 SK_StringInit, 899 900 /// An initialization that "converts" an Objective-C object 901 /// (not a point to an object) to another Objective-C object type. 902 SK_ObjCObjectConversion, 903 904 /// Array indexing for initialization by elementwise copy. 905 SK_ArrayLoopIndex, 906 907 /// Array initialization by elementwise copy. 908 SK_ArrayLoopInit, 909 910 /// Array initialization (from an array rvalue). 911 SK_ArrayInit, 912 913 /// Array initialization (from an array rvalue) as a GNU extension. 914 SK_GNUArrayInit, 915 916 /// Array initialization from a parenthesized initializer list. 917 /// This is a GNU C++ extension. 918 SK_ParenthesizedArrayInit, 919 920 /// Pass an object by indirect copy-and-restore. 921 SK_PassByIndirectCopyRestore, 922 923 /// Pass an object by indirect restore. 924 SK_PassByIndirectRestore, 925 926 /// Produce an Objective-C object pointer. 927 SK_ProduceObjCObject, 928 929 /// Construct a std::initializer_list from an initializer list. 930 SK_StdInitializerList, 931 932 /// Perform initialization via a constructor taking a single 933 /// std::initializer_list argument. 934 SK_StdInitializerListConstructorCall, 935 936 /// Initialize an OpenCL sampler from an integer. 937 SK_OCLSamplerInit, 938 939 /// Initialize an opaque OpenCL type (event_t, queue_t, etc.) with zero 940 SK_OCLZeroOpaqueType, 941 942 /// Initialize an aggreagate with parenthesized list of values. 943 /// This is a C++20 feature. 944 SK_ParenthesizedListInit 945 }; 946 947 /// A single step in the initialization sequence. 948 class Step { 949 public: 950 /// The kind of conversion or initialization step we are taking. 951 StepKind Kind; 952 953 // The type that results from this initialization. 954 QualType Type; 955 956 struct F { 957 bool HadMultipleCandidates; 958 FunctionDecl *Function; 959 DeclAccessPair FoundDecl; 960 }; 961 962 union { 963 /// When Kind == SK_ResolvedOverloadedFunction or Kind == 964 /// SK_UserConversion, the function that the expression should be 965 /// resolved to or the conversion function to call, respectively. 966 /// When Kind == SK_ConstructorInitialization or SK_ListConstruction, 967 /// the constructor to be called. 968 /// 969 /// Always a FunctionDecl, plus a Boolean flag telling if it was 970 /// selected from an overloaded set having size greater than 1. 971 /// For conversion decls, the naming class is the source type. 972 /// For construct decls, the naming class is the target type. 973 struct F Function; 974 975 /// When Kind = SK_ConversionSequence, the implicit conversion 976 /// sequence. 977 ImplicitConversionSequence *ICS; 978 979 /// When Kind = SK_RewrapInitList, the syntactic form of the 980 /// wrapping list. 981 InitListExpr *WrappingSyntacticList; 982 }; 983 984 void Destroy(); 985 }; 986 987 private: 988 /// The kind of initialization sequence computed. 989 enum SequenceKind SequenceKind; 990 991 /// Steps taken by this initialization. 992 SmallVector<Step, 4> Steps; 993 994 public: 995 /// Describes why initialization failed. 996 enum FailureKind { 997 /// Too many initializers provided for a reference. 998 FK_TooManyInitsForReference, 999 1000 /// Reference initialized from a parenthesized initializer list. 1001 FK_ParenthesizedListInitForReference, 1002 1003 /// Array must be initialized with an initializer list. 1004 FK_ArrayNeedsInitList, 1005 1006 /// Array must be initialized with an initializer list or a 1007 /// string literal. 1008 FK_ArrayNeedsInitListOrStringLiteral, 1009 1010 /// Array must be initialized with an initializer list or a 1011 /// wide string literal. 1012 FK_ArrayNeedsInitListOrWideStringLiteral, 1013 1014 /// Initializing a wide char array with narrow string literal. 1015 FK_NarrowStringIntoWideCharArray, 1016 1017 /// Initializing char array with wide string literal. 1018 FK_WideStringIntoCharArray, 1019 1020 /// Initializing wide char array with incompatible wide string 1021 /// literal. 1022 FK_IncompatWideStringIntoWideChar, 1023 1024 /// Initializing char8_t array with plain string literal. 1025 FK_PlainStringIntoUTF8Char, 1026 1027 /// Initializing char array with UTF-8 string literal. 1028 FK_UTF8StringIntoPlainChar, 1029 1030 /// Array type mismatch. 1031 FK_ArrayTypeMismatch, 1032 1033 /// Non-constant array initializer 1034 FK_NonConstantArrayInit, 1035 1036 /// Cannot resolve the address of an overloaded function. 1037 FK_AddressOfOverloadFailed, 1038 1039 /// Overloading due to reference initialization failed. 1040 FK_ReferenceInitOverloadFailed, 1041 1042 /// Non-const lvalue reference binding to a temporary. 1043 FK_NonConstLValueReferenceBindingToTemporary, 1044 1045 /// Non-const lvalue reference binding to a bit-field. 1046 FK_NonConstLValueReferenceBindingToBitfield, 1047 1048 /// Non-const lvalue reference binding to a vector element. 1049 FK_NonConstLValueReferenceBindingToVectorElement, 1050 1051 /// Non-const lvalue reference binding to a matrix element. 1052 FK_NonConstLValueReferenceBindingToMatrixElement, 1053 1054 /// Non-const lvalue reference binding to an lvalue of unrelated 1055 /// type. 1056 FK_NonConstLValueReferenceBindingToUnrelated, 1057 1058 /// Rvalue reference binding to an lvalue. 1059 FK_RValueReferenceBindingToLValue, 1060 1061 /// Reference binding drops qualifiers. 1062 FK_ReferenceInitDropsQualifiers, 1063 1064 /// Reference with mismatching address space binding to temporary. 1065 FK_ReferenceAddrspaceMismatchTemporary, 1066 1067 /// Reference binding failed. 1068 FK_ReferenceInitFailed, 1069 1070 /// Implicit conversion failed. 1071 FK_ConversionFailed, 1072 1073 /// Implicit conversion failed. 1074 FK_ConversionFromPropertyFailed, 1075 1076 /// Too many initializers for scalar 1077 FK_TooManyInitsForScalar, 1078 1079 /// Scalar initialized from a parenthesized initializer list. 1080 FK_ParenthesizedListInitForScalar, 1081 1082 /// Reference initialization from an initializer list 1083 FK_ReferenceBindingToInitList, 1084 1085 /// Initialization of some unused destination type with an 1086 /// initializer list. 1087 FK_InitListBadDestinationType, 1088 1089 /// Overloading for a user-defined conversion failed. 1090 FK_UserConversionOverloadFailed, 1091 1092 /// Overloading for initialization by constructor failed. 1093 FK_ConstructorOverloadFailed, 1094 1095 /// Overloading for list-initialization by constructor failed. 1096 FK_ListConstructorOverloadFailed, 1097 1098 /// Default-initialization of a 'const' object. 1099 FK_DefaultInitOfConst, 1100 1101 /// Initialization of an incomplete type. 1102 FK_Incomplete, 1103 1104 /// Variable-length array must not have an initializer. 1105 FK_VariableLengthArrayHasInitializer, 1106 1107 /// List initialization failed at some point. 1108 FK_ListInitializationFailed, 1109 1110 /// Initializer has a placeholder type which cannot be 1111 /// resolved by initialization. 1112 FK_PlaceholderType, 1113 1114 /// Trying to take the address of a function that doesn't support 1115 /// having its address taken. 1116 FK_AddressOfUnaddressableFunction, 1117 1118 /// List-copy-initialization chose an explicit constructor. 1119 FK_ExplicitConstructor, 1120 1121 /// Parenthesized list initialization failed at some point. 1122 /// This is a C++20 feature. 1123 FK_ParenthesizedListInitFailed, 1124 1125 // A designated initializer was provided for a non-aggregate type. 1126 FK_DesignatedInitForNonAggregate, 1127 }; 1128 1129 private: 1130 /// The reason why initialization failed. 1131 FailureKind Failure; 1132 1133 /// The failed result of overload resolution. 1134 OverloadingResult FailedOverloadResult; 1135 1136 /// The candidate set created when initialization failed. 1137 OverloadCandidateSet FailedCandidateSet; 1138 1139 /// The incomplete type that caused a failure. 1140 QualType FailedIncompleteType; 1141 1142 /// The fixit that needs to be applied to make this initialization 1143 /// succeed. 1144 std::string ZeroInitializationFixit; 1145 SourceLocation ZeroInitializationFixitLoc; 1146 1147 public: 1148 /// Call for initializations are invalid but that would be valid 1149 /// zero initialzations if Fixit was applied. SetZeroInitializationFixit(const std::string & Fixit,SourceLocation L)1150 void SetZeroInitializationFixit(const std::string& Fixit, SourceLocation L) { 1151 ZeroInitializationFixit = Fixit; 1152 ZeroInitializationFixitLoc = L; 1153 } 1154 1155 private: 1156 /// Prints a follow-up note that highlights the location of 1157 /// the initialized entity, if it's remote. 1158 void PrintInitLocationNote(Sema &S, const InitializedEntity &Entity); 1159 1160 public: 1161 /// Try to perform initialization of the given entity, creating a 1162 /// record of the steps required to perform the initialization. 1163 /// 1164 /// The generated initialization sequence will either contain enough 1165 /// information to diagnose 1166 /// 1167 /// \param S the semantic analysis object. 1168 /// 1169 /// \param Entity the entity being initialized. 1170 /// 1171 /// \param Kind the kind of initialization being performed. 1172 /// 1173 /// \param Args the argument(s) provided for initialization. 1174 /// 1175 /// \param TopLevelOfInitList true if we are initializing from an expression 1176 /// at the top level inside an initializer list. This disallows 1177 /// narrowing conversions in C++11 onwards. 1178 /// \param TreatUnavailableAsInvalid true if we want to treat unavailable 1179 /// as invalid. 1180 InitializationSequence(Sema &S, 1181 const InitializedEntity &Entity, 1182 const InitializationKind &Kind, 1183 MultiExprArg Args, 1184 bool TopLevelOfInitList = false, 1185 bool TreatUnavailableAsInvalid = true); 1186 void InitializeFrom(Sema &S, const InitializedEntity &Entity, 1187 const InitializationKind &Kind, MultiExprArg Args, 1188 bool TopLevelOfInitList, bool TreatUnavailableAsInvalid); 1189 1190 ~InitializationSequence(); 1191 1192 /// Perform the actual initialization of the given entity based on 1193 /// the computed initialization sequence. 1194 /// 1195 /// \param S the semantic analysis object. 1196 /// 1197 /// \param Entity the entity being initialized. 1198 /// 1199 /// \param Kind the kind of initialization being performed. 1200 /// 1201 /// \param Args the argument(s) provided for initialization, ownership of 1202 /// which is transferred into the routine. 1203 /// 1204 /// \param ResultType if non-NULL, will be set to the type of the 1205 /// initialized object, which is the type of the declaration in most 1206 /// cases. However, when the initialized object is a variable of 1207 /// incomplete array type and the initializer is an initializer 1208 /// list, this type will be set to the completed array type. 1209 /// 1210 /// \returns an expression that performs the actual object initialization, if 1211 /// the initialization is well-formed. Otherwise, emits diagnostics 1212 /// and returns an invalid expression. 1213 ExprResult Perform(Sema &S, 1214 const InitializedEntity &Entity, 1215 const InitializationKind &Kind, 1216 MultiExprArg Args, 1217 QualType *ResultType = nullptr); 1218 1219 /// Diagnose an potentially-invalid initialization sequence. 1220 /// 1221 /// \returns true if the initialization sequence was ill-formed, 1222 /// false otherwise. 1223 bool Diagnose(Sema &S, 1224 const InitializedEntity &Entity, 1225 const InitializationKind &Kind, 1226 ArrayRef<Expr *> Args); 1227 1228 /// Determine the kind of initialization sequence computed. getKind()1229 enum SequenceKind getKind() const { return SequenceKind; } 1230 1231 /// Set the kind of sequence computed. setSequenceKind(enum SequenceKind SK)1232 void setSequenceKind(enum SequenceKind SK) { SequenceKind = SK; } 1233 1234 /// Determine whether the initialization sequence is valid. 1235 explicit operator bool() const { return !Failed(); } 1236 1237 /// Determine whether the initialization sequence is invalid. Failed()1238 bool Failed() const { return SequenceKind == FailedSequence; } 1239 1240 using step_iterator = SmallVectorImpl<Step>::const_iterator; 1241 step_begin()1242 step_iterator step_begin() const { return Steps.begin(); } step_end()1243 step_iterator step_end() const { return Steps.end(); } 1244 1245 using step_range = llvm::iterator_range<step_iterator>; 1246 steps()1247 step_range steps() const { return {step_begin(), step_end()}; } 1248 1249 /// Determine whether this initialization is a direct reference 1250 /// binding (C++ [dcl.init.ref]). 1251 bool isDirectReferenceBinding() const; 1252 1253 /// Determine whether this initialization failed due to an ambiguity. 1254 bool isAmbiguous() const; 1255 1256 /// Determine whether this initialization is direct call to a 1257 /// constructor. 1258 bool isConstructorInitialization() const; 1259 1260 /// Add a new step in the initialization that resolves the address 1261 /// of an overloaded function to a specific function declaration. 1262 /// 1263 /// \param Function the function to which the overloaded function reference 1264 /// resolves. 1265 void AddAddressOverloadResolutionStep(FunctionDecl *Function, 1266 DeclAccessPair Found, 1267 bool HadMultipleCandidates); 1268 1269 /// Add a new step in the initialization that performs a derived-to- 1270 /// base cast. 1271 /// 1272 /// \param BaseType the base type to which we will be casting. 1273 /// 1274 /// \param Category Indicates whether the result will be treated as an 1275 /// rvalue, an xvalue, or an lvalue. 1276 void AddDerivedToBaseCastStep(QualType BaseType, 1277 ExprValueKind Category); 1278 1279 /// Add a new step binding a reference to an object. 1280 /// 1281 /// \param BindingTemporary True if we are binding a reference to a temporary 1282 /// object (thereby extending its lifetime); false if we are binding to an 1283 /// lvalue or an lvalue treated as an rvalue. 1284 void AddReferenceBindingStep(QualType T, bool BindingTemporary); 1285 1286 /// Add a new step that makes an extraneous copy of the input 1287 /// to a temporary of the same class type. 1288 /// 1289 /// This extraneous copy only occurs during reference binding in 1290 /// C++98/03, where we are permitted (but not required) to introduce 1291 /// an extra copy. At a bare minimum, we must check that we could 1292 /// call the copy constructor, and produce a diagnostic if the copy 1293 /// constructor is inaccessible or no copy constructor matches. 1294 // 1295 /// \param T The type of the temporary being created. 1296 void AddExtraneousCopyToTemporary(QualType T); 1297 1298 /// Add a new step that makes a copy of the input to an object of 1299 /// the given type, as the final step in class copy-initialization. 1300 void AddFinalCopy(QualType T); 1301 1302 /// Add a new step invoking a conversion function, which is either 1303 /// a constructor or a conversion function. 1304 void AddUserConversionStep(FunctionDecl *Function, 1305 DeclAccessPair FoundDecl, 1306 QualType T, 1307 bool HadMultipleCandidates); 1308 1309 /// Add a new step that performs a qualification conversion to the 1310 /// given type. 1311 void AddQualificationConversionStep(QualType Ty, 1312 ExprValueKind Category); 1313 1314 /// Add a new step that performs a function reference conversion to the 1315 /// given type. 1316 void AddFunctionReferenceConversionStep(QualType Ty); 1317 1318 /// Add a new step that performs conversion from non-atomic to atomic 1319 /// type. 1320 void AddAtomicConversionStep(QualType Ty); 1321 1322 /// Add a new step that applies an implicit conversion sequence. 1323 void AddConversionSequenceStep(const ImplicitConversionSequence &ICS, 1324 QualType T, bool TopLevelOfInitList = false); 1325 1326 /// Add a list-initialization step. 1327 void AddListInitializationStep(QualType T); 1328 1329 /// Add a constructor-initialization step. 1330 /// 1331 /// \param FromInitList The constructor call is syntactically an initializer 1332 /// list. 1333 /// \param AsInitList The constructor is called as an init list constructor. 1334 void AddConstructorInitializationStep(DeclAccessPair FoundDecl, 1335 CXXConstructorDecl *Constructor, 1336 QualType T, 1337 bool HadMultipleCandidates, 1338 bool FromInitList, bool AsInitList); 1339 1340 /// Add a zero-initialization step. 1341 void AddZeroInitializationStep(QualType T); 1342 1343 /// Add a C assignment step. 1344 // 1345 // FIXME: It isn't clear whether this should ever be needed; 1346 // ideally, we would handle everything needed in C in the common 1347 // path. However, that isn't the case yet. 1348 void AddCAssignmentStep(QualType T); 1349 1350 /// Add a string init step. 1351 void AddStringInitStep(QualType T); 1352 1353 /// Add an Objective-C object conversion step, which is 1354 /// always a no-op. 1355 void AddObjCObjectConversionStep(QualType T); 1356 1357 /// Add an array initialization loop step. 1358 void AddArrayInitLoopStep(QualType T, QualType EltTy); 1359 1360 /// Add an array initialization step. 1361 void AddArrayInitStep(QualType T, bool IsGNUExtension); 1362 1363 /// Add a parenthesized array initialization step. 1364 void AddParenthesizedArrayInitStep(QualType T); 1365 1366 /// Add a step to pass an object by indirect copy-restore. 1367 void AddPassByIndirectCopyRestoreStep(QualType T, bool shouldCopy); 1368 1369 /// Add a step to "produce" an Objective-C object (by 1370 /// retaining it). 1371 void AddProduceObjCObjectStep(QualType T); 1372 1373 /// Add a step to construct a std::initializer_list object from an 1374 /// initializer list. 1375 void AddStdInitializerListConstructionStep(QualType T); 1376 1377 /// Add a step to initialize an OpenCL sampler from an integer 1378 /// constant. 1379 void AddOCLSamplerInitStep(QualType T); 1380 1381 /// Add a step to initialzie an OpenCL opaque type (event_t, queue_t, etc.) 1382 /// from a zero constant. 1383 void AddOCLZeroOpaqueTypeStep(QualType T); 1384 1385 void AddParenthesizedListInitStep(QualType T); 1386 1387 /// Add steps to unwrap a initializer list for a reference around a 1388 /// single element and rewrap it at the end. 1389 void RewrapReferenceInitList(QualType T, InitListExpr *Syntactic); 1390 1391 /// Note that this initialization sequence failed. SetFailed(FailureKind Failure)1392 void SetFailed(FailureKind Failure) { 1393 SequenceKind = FailedSequence; 1394 this->Failure = Failure; 1395 assert((Failure != FK_Incomplete || !FailedIncompleteType.isNull()) && 1396 "Incomplete type failure requires a type!"); 1397 } 1398 1399 /// Note that this initialization sequence failed due to failed 1400 /// overload resolution. 1401 void SetOverloadFailure(FailureKind Failure, OverloadingResult Result); 1402 1403 /// Retrieve a reference to the candidate set when overload 1404 /// resolution fails. getFailedCandidateSet()1405 OverloadCandidateSet &getFailedCandidateSet() { 1406 return FailedCandidateSet; 1407 } 1408 1409 /// Get the overloading result, for when the initialization 1410 /// sequence failed due to a bad overload. getFailedOverloadResult()1411 OverloadingResult getFailedOverloadResult() const { 1412 return FailedOverloadResult; 1413 } 1414 1415 /// Note that this initialization sequence failed due to an 1416 /// incomplete type. setIncompleteTypeFailure(QualType IncompleteType)1417 void setIncompleteTypeFailure(QualType IncompleteType) { 1418 FailedIncompleteType = IncompleteType; 1419 SetFailed(FK_Incomplete); 1420 } 1421 1422 /// Determine why initialization failed. getFailureKind()1423 FailureKind getFailureKind() const { 1424 assert(Failed() && "Not an initialization failure!"); 1425 return Failure; 1426 } 1427 1428 /// Dump a representation of this initialization sequence to 1429 /// the given stream, for debugging purposes. 1430 void dump(raw_ostream &OS) const; 1431 1432 /// Dump a representation of this initialization sequence to 1433 /// standard error, for debugging purposes. 1434 void dump() const; 1435 }; 1436 1437 } // namespace clang 1438 1439 #endif // LLVM_CLANG_SEMA_INITIALIZATION_H 1440