1//===--- SemaObjCProperty.cpp - Semantic Analysis for ObjC @property ------===// 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 implements semantic analysis for Objective C @property and 10// @synthesize declarations. 11// 12//===----------------------------------------------------------------------===// 13 14#include "clang/Sema/SemaInternal.h" 15#include "clang/AST/ASTMutationListener.h" 16#include "clang/AST/DeclObjC.h" 17#include "clang/AST/ExprCXX.h" 18#include "clang/AST/ExprObjC.h" 19#include "clang/Basic/SourceManager.h" 20#include "clang/Lex/Lexer.h" 21#include "clang/Lex/Preprocessor.h" 22#include "clang/Sema/Initialization.h" 23#include "llvm/ADT/DenseSet.h" 24#include "llvm/ADT/SmallString.h" 25 26using namespace clang; 27 28//===----------------------------------------------------------------------===// 29// Grammar actions. 30//===----------------------------------------------------------------------===// 31 32/// getImpliedARCOwnership - Given a set of property attributes and a 33/// type, infer an expected lifetime. The type's ownership qualification 34/// is not considered. 35/// 36/// Returns OCL_None if the attributes as stated do not imply an ownership. 37/// Never returns OCL_Autoreleasing. 38static Qualifiers::ObjCLifetime 39getImpliedARCOwnership(ObjCPropertyAttribute::Kind attrs, QualType type) { 40 // retain, strong, copy, weak, and unsafe_unretained are only legal 41 // on properties of retainable pointer type. 42 if (attrs & 43 (ObjCPropertyAttribute::kind_retain | ObjCPropertyAttribute::kind_strong | 44 ObjCPropertyAttribute::kind_copy)) { 45 return Qualifiers::OCL_Strong; 46 } else if (attrs & ObjCPropertyAttribute::kind_weak) { 47 return Qualifiers::OCL_Weak; 48 } else if (attrs & ObjCPropertyAttribute::kind_unsafe_unretained) { 49 return Qualifiers::OCL_ExplicitNone; 50 } 51 52 // assign can appear on other types, so we have to check the 53 // property type. 54 if (attrs & ObjCPropertyAttribute::kind_assign && 55 type->isObjCRetainableType()) { 56 return Qualifiers::OCL_ExplicitNone; 57 } 58 59 return Qualifiers::OCL_None; 60} 61 62/// Check the internal consistency of a property declaration with 63/// an explicit ownership qualifier. 64static void checkPropertyDeclWithOwnership(Sema &S, 65 ObjCPropertyDecl *property) { 66 if (property->isInvalidDecl()) return; 67 68 ObjCPropertyAttribute::Kind propertyKind = property->getPropertyAttributes(); 69 Qualifiers::ObjCLifetime propertyLifetime 70 = property->getType().getObjCLifetime(); 71 72 assert(propertyLifetime != Qualifiers::OCL_None); 73 74 Qualifiers::ObjCLifetime expectedLifetime 75 = getImpliedARCOwnership(propertyKind, property->getType()); 76 if (!expectedLifetime) { 77 // We have a lifetime qualifier but no dominating property 78 // attribute. That's okay, but restore reasonable invariants by 79 // setting the property attribute according to the lifetime 80 // qualifier. 81 ObjCPropertyAttribute::Kind attr; 82 if (propertyLifetime == Qualifiers::OCL_Strong) { 83 attr = ObjCPropertyAttribute::kind_strong; 84 } else if (propertyLifetime == Qualifiers::OCL_Weak) { 85 attr = ObjCPropertyAttribute::kind_weak; 86 } else { 87 assert(propertyLifetime == Qualifiers::OCL_ExplicitNone); 88 attr = ObjCPropertyAttribute::kind_unsafe_unretained; 89 } 90 property->setPropertyAttributes(attr); 91 return; 92 } 93 94 if (propertyLifetime == expectedLifetime) return; 95 96 property->setInvalidDecl(); 97 S.Diag(property->getLocation(), 98 diag::err_arc_inconsistent_property_ownership) 99 << property->getDeclName() 100 << expectedLifetime 101 << propertyLifetime; 102} 103 104/// Check this Objective-C property against a property declared in the 105/// given protocol. 106static void 107CheckPropertyAgainstProtocol(Sema &S, ObjCPropertyDecl *Prop, 108 ObjCProtocolDecl *Proto, 109 llvm::SmallPtrSetImpl<ObjCProtocolDecl *> &Known) { 110 // Have we seen this protocol before? 111 if (!Known.insert(Proto).second) 112 return; 113 114 // Look for a property with the same name. 115 if (ObjCPropertyDecl *ProtoProp = Proto->getProperty( 116 Prop->getIdentifier(), Prop->isInstanceProperty())) { 117 S.DiagnosePropertyMismatch(Prop, ProtoProp, Proto->getIdentifier(), true); 118 return; 119 } 120 121 // Check this property against any protocols we inherit. 122 for (auto *P : Proto->protocols()) 123 CheckPropertyAgainstProtocol(S, Prop, P, Known); 124} 125 126static unsigned deducePropertyOwnershipFromType(Sema &S, QualType T) { 127 // In GC mode, just look for the __weak qualifier. 128 if (S.getLangOpts().getGC() != LangOptions::NonGC) { 129 if (T.isObjCGCWeak()) 130 return ObjCPropertyAttribute::kind_weak; 131 132 // In ARC/MRC, look for an explicit ownership qualifier. 133 // For some reason, this only applies to __weak. 134 } else if (auto ownership = T.getObjCLifetime()) { 135 switch (ownership) { 136 case Qualifiers::OCL_Weak: 137 return ObjCPropertyAttribute::kind_weak; 138 case Qualifiers::OCL_Strong: 139 return ObjCPropertyAttribute::kind_strong; 140 case Qualifiers::OCL_ExplicitNone: 141 return ObjCPropertyAttribute::kind_unsafe_unretained; 142 case Qualifiers::OCL_Autoreleasing: 143 case Qualifiers::OCL_None: 144 return 0; 145 } 146 llvm_unreachable("bad qualifier"); 147 } 148 149 return 0; 150} 151 152static const unsigned OwnershipMask = 153 (ObjCPropertyAttribute::kind_assign | ObjCPropertyAttribute::kind_retain | 154 ObjCPropertyAttribute::kind_copy | ObjCPropertyAttribute::kind_weak | 155 ObjCPropertyAttribute::kind_strong | 156 ObjCPropertyAttribute::kind_unsafe_unretained); 157 158static unsigned getOwnershipRule(unsigned attr) { 159 unsigned result = attr & OwnershipMask; 160 161 // From an ownership perspective, assign and unsafe_unretained are 162 // identical; make sure one also implies the other. 163 if (result & (ObjCPropertyAttribute::kind_assign | 164 ObjCPropertyAttribute::kind_unsafe_unretained)) { 165 result |= ObjCPropertyAttribute::kind_assign | 166 ObjCPropertyAttribute::kind_unsafe_unretained; 167 } 168 169 return result; 170} 171 172Decl *Sema::ActOnProperty(Scope *S, SourceLocation AtLoc, 173 SourceLocation LParenLoc, 174 FieldDeclarator &FD, 175 ObjCDeclSpec &ODS, 176 Selector GetterSel, 177 Selector SetterSel, 178 tok::ObjCKeywordKind MethodImplKind, 179 DeclContext *lexicalDC) { 180 unsigned Attributes = ODS.getPropertyAttributes(); 181 FD.D.setObjCWeakProperty((Attributes & ObjCPropertyAttribute::kind_weak) != 182 0); 183 TypeSourceInfo *TSI = GetTypeForDeclarator(FD.D); 184 QualType T = TSI->getType(); 185 if (!getOwnershipRule(Attributes)) { 186 Attributes |= deducePropertyOwnershipFromType(*this, T); 187 } 188 bool isReadWrite = ((Attributes & ObjCPropertyAttribute::kind_readwrite) || 189 // default is readwrite! 190 !(Attributes & ObjCPropertyAttribute::kind_readonly)); 191 192 // Proceed with constructing the ObjCPropertyDecls. 193 ObjCContainerDecl *ClassDecl = cast<ObjCContainerDecl>(CurContext); 194 ObjCPropertyDecl *Res = nullptr; 195 if (ObjCCategoryDecl *CDecl = dyn_cast<ObjCCategoryDecl>(ClassDecl)) { 196 if (CDecl->IsClassExtension()) { 197 Res = HandlePropertyInClassExtension(S, AtLoc, LParenLoc, 198 FD, 199 GetterSel, ODS.getGetterNameLoc(), 200 SetterSel, ODS.getSetterNameLoc(), 201 isReadWrite, Attributes, 202 ODS.getPropertyAttributes(), 203 T, TSI, MethodImplKind); 204 if (!Res) 205 return nullptr; 206 } 207 } 208 209 if (!Res) { 210 Res = CreatePropertyDecl(S, ClassDecl, AtLoc, LParenLoc, FD, 211 GetterSel, ODS.getGetterNameLoc(), SetterSel, 212 ODS.getSetterNameLoc(), isReadWrite, Attributes, 213 ODS.getPropertyAttributes(), T, TSI, 214 MethodImplKind); 215 if (lexicalDC) 216 Res->setLexicalDeclContext(lexicalDC); 217 } 218 219 // Validate the attributes on the @property. 220 CheckObjCPropertyAttributes(Res, AtLoc, Attributes, 221 (isa<ObjCInterfaceDecl>(ClassDecl) || 222 isa<ObjCProtocolDecl>(ClassDecl))); 223 224 // Check consistency if the type has explicit ownership qualification. 225 if (Res->getType().getObjCLifetime()) 226 checkPropertyDeclWithOwnership(*this, Res); 227 228 llvm::SmallPtrSet<ObjCProtocolDecl *, 16> KnownProtos; 229 if (ObjCInterfaceDecl *IFace = dyn_cast<ObjCInterfaceDecl>(ClassDecl)) { 230 // For a class, compare the property against a property in our superclass. 231 bool FoundInSuper = false; 232 ObjCInterfaceDecl *CurrentInterfaceDecl = IFace; 233 while (ObjCInterfaceDecl *Super = CurrentInterfaceDecl->getSuperClass()) { 234 if (ObjCPropertyDecl *SuperProp = Super->getProperty( 235 Res->getIdentifier(), Res->isInstanceProperty())) { 236 DiagnosePropertyMismatch(Res, SuperProp, Super->getIdentifier(), false); 237 FoundInSuper = true; 238 break; 239 } 240 CurrentInterfaceDecl = Super; 241 } 242 243 if (FoundInSuper) { 244 // Also compare the property against a property in our protocols. 245 for (auto *P : CurrentInterfaceDecl->protocols()) { 246 CheckPropertyAgainstProtocol(*this, Res, P, KnownProtos); 247 } 248 } else { 249 // Slower path: look in all protocols we referenced. 250 for (auto *P : IFace->all_referenced_protocols()) { 251 CheckPropertyAgainstProtocol(*this, Res, P, KnownProtos); 252 } 253 } 254 } else if (ObjCCategoryDecl *Cat = dyn_cast<ObjCCategoryDecl>(ClassDecl)) { 255 // We don't check if class extension. Because properties in class extension 256 // are meant to override some of the attributes and checking has already done 257 // when property in class extension is constructed. 258 if (!Cat->IsClassExtension()) 259 for (auto *P : Cat->protocols()) 260 CheckPropertyAgainstProtocol(*this, Res, P, KnownProtos); 261 } else { 262 ObjCProtocolDecl *Proto = cast<ObjCProtocolDecl>(ClassDecl); 263 for (auto *P : Proto->protocols()) 264 CheckPropertyAgainstProtocol(*this, Res, P, KnownProtos); 265 } 266 267 ActOnDocumentableDecl(Res); 268 return Res; 269} 270 271static ObjCPropertyAttribute::Kind 272makePropertyAttributesAsWritten(unsigned Attributes) { 273 unsigned attributesAsWritten = 0; 274 if (Attributes & ObjCPropertyAttribute::kind_readonly) 275 attributesAsWritten |= ObjCPropertyAttribute::kind_readonly; 276 if (Attributes & ObjCPropertyAttribute::kind_readwrite) 277 attributesAsWritten |= ObjCPropertyAttribute::kind_readwrite; 278 if (Attributes & ObjCPropertyAttribute::kind_getter) 279 attributesAsWritten |= ObjCPropertyAttribute::kind_getter; 280 if (Attributes & ObjCPropertyAttribute::kind_setter) 281 attributesAsWritten |= ObjCPropertyAttribute::kind_setter; 282 if (Attributes & ObjCPropertyAttribute::kind_assign) 283 attributesAsWritten |= ObjCPropertyAttribute::kind_assign; 284 if (Attributes & ObjCPropertyAttribute::kind_retain) 285 attributesAsWritten |= ObjCPropertyAttribute::kind_retain; 286 if (Attributes & ObjCPropertyAttribute::kind_strong) 287 attributesAsWritten |= ObjCPropertyAttribute::kind_strong; 288 if (Attributes & ObjCPropertyAttribute::kind_weak) 289 attributesAsWritten |= ObjCPropertyAttribute::kind_weak; 290 if (Attributes & ObjCPropertyAttribute::kind_copy) 291 attributesAsWritten |= ObjCPropertyAttribute::kind_copy; 292 if (Attributes & ObjCPropertyAttribute::kind_unsafe_unretained) 293 attributesAsWritten |= ObjCPropertyAttribute::kind_unsafe_unretained; 294 if (Attributes & ObjCPropertyAttribute::kind_nonatomic) 295 attributesAsWritten |= ObjCPropertyAttribute::kind_nonatomic; 296 if (Attributes & ObjCPropertyAttribute::kind_atomic) 297 attributesAsWritten |= ObjCPropertyAttribute::kind_atomic; 298 if (Attributes & ObjCPropertyAttribute::kind_class) 299 attributesAsWritten |= ObjCPropertyAttribute::kind_class; 300 if (Attributes & ObjCPropertyAttribute::kind_direct) 301 attributesAsWritten |= ObjCPropertyAttribute::kind_direct; 302 303 return (ObjCPropertyAttribute::Kind)attributesAsWritten; 304} 305 306static bool LocPropertyAttribute( ASTContext &Context, const char *attrName, 307 SourceLocation LParenLoc, SourceLocation &Loc) { 308 if (LParenLoc.isMacroID()) 309 return false; 310 311 SourceManager &SM = Context.getSourceManager(); 312 std::pair<FileID, unsigned> locInfo = SM.getDecomposedLoc(LParenLoc); 313 // Try to load the file buffer. 314 bool invalidTemp = false; 315 StringRef file = SM.getBufferData(locInfo.first, &invalidTemp); 316 if (invalidTemp) 317 return false; 318 const char *tokenBegin = file.data() + locInfo.second; 319 320 // Lex from the start of the given location. 321 Lexer lexer(SM.getLocForStartOfFile(locInfo.first), 322 Context.getLangOpts(), 323 file.begin(), tokenBegin, file.end()); 324 Token Tok; 325 do { 326 lexer.LexFromRawLexer(Tok); 327 if (Tok.is(tok::raw_identifier) && Tok.getRawIdentifier() == attrName) { 328 Loc = Tok.getLocation(); 329 return true; 330 } 331 } while (Tok.isNot(tok::r_paren)); 332 return false; 333} 334 335/// Check for a mismatch in the atomicity of the given properties. 336static void checkAtomicPropertyMismatch(Sema &S, 337 ObjCPropertyDecl *OldProperty, 338 ObjCPropertyDecl *NewProperty, 339 bool PropagateAtomicity) { 340 // If the atomicity of both matches, we're done. 341 bool OldIsAtomic = (OldProperty->getPropertyAttributes() & 342 ObjCPropertyAttribute::kind_nonatomic) == 0; 343 bool NewIsAtomic = (NewProperty->getPropertyAttributes() & 344 ObjCPropertyAttribute::kind_nonatomic) == 0; 345 if (OldIsAtomic == NewIsAtomic) return; 346 347 // Determine whether the given property is readonly and implicitly 348 // atomic. 349 auto isImplicitlyReadonlyAtomic = [](ObjCPropertyDecl *Property) -> bool { 350 // Is it readonly? 351 auto Attrs = Property->getPropertyAttributes(); 352 if ((Attrs & ObjCPropertyAttribute::kind_readonly) == 0) 353 return false; 354 355 // Is it nonatomic? 356 if (Attrs & ObjCPropertyAttribute::kind_nonatomic) 357 return false; 358 359 // Was 'atomic' specified directly? 360 if (Property->getPropertyAttributesAsWritten() & 361 ObjCPropertyAttribute::kind_atomic) 362 return false; 363 364 return true; 365 }; 366 367 // If we're allowed to propagate atomicity, and the new property did 368 // not specify atomicity at all, propagate. 369 const unsigned AtomicityMask = (ObjCPropertyAttribute::kind_atomic | 370 ObjCPropertyAttribute::kind_nonatomic); 371 if (PropagateAtomicity && 372 ((NewProperty->getPropertyAttributesAsWritten() & AtomicityMask) == 0)) { 373 unsigned Attrs = NewProperty->getPropertyAttributes(); 374 Attrs = Attrs & ~AtomicityMask; 375 if (OldIsAtomic) 376 Attrs |= ObjCPropertyAttribute::kind_atomic; 377 else 378 Attrs |= ObjCPropertyAttribute::kind_nonatomic; 379 380 NewProperty->overwritePropertyAttributes(Attrs); 381 return; 382 } 383 384 // One of the properties is atomic; if it's a readonly property, and 385 // 'atomic' wasn't explicitly specified, we're okay. 386 if ((OldIsAtomic && isImplicitlyReadonlyAtomic(OldProperty)) || 387 (NewIsAtomic && isImplicitlyReadonlyAtomic(NewProperty))) 388 return; 389 390 // Diagnose the conflict. 391 const IdentifierInfo *OldContextName; 392 auto *OldDC = OldProperty->getDeclContext(); 393 if (auto Category = dyn_cast<ObjCCategoryDecl>(OldDC)) 394 OldContextName = Category->getClassInterface()->getIdentifier(); 395 else 396 OldContextName = cast<ObjCContainerDecl>(OldDC)->getIdentifier(); 397 398 S.Diag(NewProperty->getLocation(), diag::warn_property_attribute) 399 << NewProperty->getDeclName() << "atomic" 400 << OldContextName; 401 S.Diag(OldProperty->getLocation(), diag::note_property_declare); 402} 403 404ObjCPropertyDecl * 405Sema::HandlePropertyInClassExtension(Scope *S, 406 SourceLocation AtLoc, 407 SourceLocation LParenLoc, 408 FieldDeclarator &FD, 409 Selector GetterSel, 410 SourceLocation GetterNameLoc, 411 Selector SetterSel, 412 SourceLocation SetterNameLoc, 413 const bool isReadWrite, 414 unsigned &Attributes, 415 const unsigned AttributesAsWritten, 416 QualType T, 417 TypeSourceInfo *TSI, 418 tok::ObjCKeywordKind MethodImplKind) { 419 ObjCCategoryDecl *CDecl = cast<ObjCCategoryDecl>(CurContext); 420 // Diagnose if this property is already in continuation class. 421 DeclContext *DC = CurContext; 422 IdentifierInfo *PropertyId = FD.D.getIdentifier(); 423 ObjCInterfaceDecl *CCPrimary = CDecl->getClassInterface(); 424 425 // We need to look in the @interface to see if the @property was 426 // already declared. 427 if (!CCPrimary) { 428 Diag(CDecl->getLocation(), diag::err_continuation_class); 429 return nullptr; 430 } 431 432 bool isClassProperty = 433 (AttributesAsWritten & ObjCPropertyAttribute::kind_class) || 434 (Attributes & ObjCPropertyAttribute::kind_class); 435 436 // Find the property in the extended class's primary class or 437 // extensions. 438 ObjCPropertyDecl *PIDecl = CCPrimary->FindPropertyVisibleInPrimaryClass( 439 PropertyId, ObjCPropertyDecl::getQueryKind(isClassProperty)); 440 441 // If we found a property in an extension, complain. 442 if (PIDecl && isa<ObjCCategoryDecl>(PIDecl->getDeclContext())) { 443 Diag(AtLoc, diag::err_duplicate_property); 444 Diag(PIDecl->getLocation(), diag::note_property_declare); 445 return nullptr; 446 } 447 448 // Check for consistency with the previous declaration, if there is one. 449 if (PIDecl) { 450 // A readonly property declared in the primary class can be refined 451 // by adding a readwrite property within an extension. 452 // Anything else is an error. 453 if (!(PIDecl->isReadOnly() && isReadWrite)) { 454 // Tailor the diagnostics for the common case where a readwrite 455 // property is declared both in the @interface and the continuation. 456 // This is a common error where the user often intended the original 457 // declaration to be readonly. 458 unsigned diag = 459 (Attributes & ObjCPropertyAttribute::kind_readwrite) && 460 (PIDecl->getPropertyAttributesAsWritten() & 461 ObjCPropertyAttribute::kind_readwrite) 462 ? diag::err_use_continuation_class_redeclaration_readwrite 463 : diag::err_use_continuation_class; 464 Diag(AtLoc, diag) 465 << CCPrimary->getDeclName(); 466 Diag(PIDecl->getLocation(), diag::note_property_declare); 467 return nullptr; 468 } 469 470 // Check for consistency of getters. 471 if (PIDecl->getGetterName() != GetterSel) { 472 // If the getter was written explicitly, complain. 473 if (AttributesAsWritten & ObjCPropertyAttribute::kind_getter) { 474 Diag(AtLoc, diag::warn_property_redecl_getter_mismatch) 475 << PIDecl->getGetterName() << GetterSel; 476 Diag(PIDecl->getLocation(), diag::note_property_declare); 477 } 478 479 // Always adopt the getter from the original declaration. 480 GetterSel = PIDecl->getGetterName(); 481 Attributes |= ObjCPropertyAttribute::kind_getter; 482 } 483 484 // Check consistency of ownership. 485 unsigned ExistingOwnership 486 = getOwnershipRule(PIDecl->getPropertyAttributes()); 487 unsigned NewOwnership = getOwnershipRule(Attributes); 488 if (ExistingOwnership && NewOwnership != ExistingOwnership) { 489 // If the ownership was written explicitly, complain. 490 if (getOwnershipRule(AttributesAsWritten)) { 491 Diag(AtLoc, diag::warn_property_attr_mismatch); 492 Diag(PIDecl->getLocation(), diag::note_property_declare); 493 } 494 495 // Take the ownership from the original property. 496 Attributes = (Attributes & ~OwnershipMask) | ExistingOwnership; 497 } 498 499 // If the redeclaration is 'weak' but the original property is not, 500 if ((Attributes & ObjCPropertyAttribute::kind_weak) && 501 !(PIDecl->getPropertyAttributesAsWritten() & 502 ObjCPropertyAttribute::kind_weak) && 503 PIDecl->getType()->getAs<ObjCObjectPointerType>() && 504 PIDecl->getType().getObjCLifetime() == Qualifiers::OCL_None) { 505 Diag(AtLoc, diag::warn_property_implicitly_mismatched); 506 Diag(PIDecl->getLocation(), diag::note_property_declare); 507 } 508 } 509 510 // Create a new ObjCPropertyDecl with the DeclContext being 511 // the class extension. 512 ObjCPropertyDecl *PDecl = CreatePropertyDecl(S, CDecl, AtLoc, LParenLoc, 513 FD, GetterSel, GetterNameLoc, 514 SetterSel, SetterNameLoc, 515 isReadWrite, 516 Attributes, AttributesAsWritten, 517 T, TSI, MethodImplKind, DC); 518 519 // If there was no declaration of a property with the same name in 520 // the primary class, we're done. 521 if (!PIDecl) { 522 ProcessPropertyDecl(PDecl); 523 return PDecl; 524 } 525 526 if (!Context.hasSameType(PIDecl->getType(), PDecl->getType())) { 527 bool IncompatibleObjC = false; 528 QualType ConvertedType; 529 // Relax the strict type matching for property type in continuation class. 530 // Allow property object type of continuation class to be different as long 531 // as it narrows the object type in its primary class property. Note that 532 // this conversion is safe only because the wider type is for a 'readonly' 533 // property in primary class and 'narrowed' type for a 'readwrite' property 534 // in continuation class. 535 QualType PrimaryClassPropertyT = Context.getCanonicalType(PIDecl->getType()); 536 QualType ClassExtPropertyT = Context.getCanonicalType(PDecl->getType()); 537 if (!isa<ObjCObjectPointerType>(PrimaryClassPropertyT) || 538 !isa<ObjCObjectPointerType>(ClassExtPropertyT) || 539 (!isObjCPointerConversion(ClassExtPropertyT, PrimaryClassPropertyT, 540 ConvertedType, IncompatibleObjC)) 541 || IncompatibleObjC) { 542 Diag(AtLoc, 543 diag::err_type_mismatch_continuation_class) << PDecl->getType(); 544 Diag(PIDecl->getLocation(), diag::note_property_declare); 545 return nullptr; 546 } 547 } 548 549 // Check that atomicity of property in class extension matches the previous 550 // declaration. 551 checkAtomicPropertyMismatch(*this, PIDecl, PDecl, true); 552 553 // Make sure getter/setter are appropriately synthesized. 554 ProcessPropertyDecl(PDecl); 555 return PDecl; 556} 557 558ObjCPropertyDecl *Sema::CreatePropertyDecl(Scope *S, 559 ObjCContainerDecl *CDecl, 560 SourceLocation AtLoc, 561 SourceLocation LParenLoc, 562 FieldDeclarator &FD, 563 Selector GetterSel, 564 SourceLocation GetterNameLoc, 565 Selector SetterSel, 566 SourceLocation SetterNameLoc, 567 const bool isReadWrite, 568 const unsigned Attributes, 569 const unsigned AttributesAsWritten, 570 QualType T, 571 TypeSourceInfo *TInfo, 572 tok::ObjCKeywordKind MethodImplKind, 573 DeclContext *lexicalDC){ 574 IdentifierInfo *PropertyId = FD.D.getIdentifier(); 575 576 // Property defaults to 'assign' if it is readwrite, unless this is ARC 577 // and the type is retainable. 578 bool isAssign; 579 if (Attributes & (ObjCPropertyAttribute::kind_assign | 580 ObjCPropertyAttribute::kind_unsafe_unretained)) { 581 isAssign = true; 582 } else if (getOwnershipRule(Attributes) || !isReadWrite) { 583 isAssign = false; 584 } else { 585 isAssign = (!getLangOpts().ObjCAutoRefCount || 586 !T->isObjCRetainableType()); 587 } 588 589 // Issue a warning if property is 'assign' as default and its 590 // object, which is gc'able conforms to NSCopying protocol 591 if (getLangOpts().getGC() != LangOptions::NonGC && isAssign && 592 !(Attributes & ObjCPropertyAttribute::kind_assign)) { 593 if (const ObjCObjectPointerType *ObjPtrTy = 594 T->getAs<ObjCObjectPointerType>()) { 595 ObjCInterfaceDecl *IDecl = ObjPtrTy->getObjectType()->getInterface(); 596 if (IDecl) 597 if (ObjCProtocolDecl* PNSCopying = 598 LookupProtocol(&Context.Idents.get("NSCopying"), AtLoc)) 599 if (IDecl->ClassImplementsProtocol(PNSCopying, true)) 600 Diag(AtLoc, diag::warn_implements_nscopying) << PropertyId; 601 } 602 } 603 604 if (T->isObjCObjectType()) { 605 SourceLocation StarLoc = TInfo->getTypeLoc().getEndLoc(); 606 StarLoc = getLocForEndOfToken(StarLoc); 607 Diag(FD.D.getIdentifierLoc(), diag::err_statically_allocated_object) 608 << FixItHint::CreateInsertion(StarLoc, "*"); 609 T = Context.getObjCObjectPointerType(T); 610 SourceLocation TLoc = TInfo->getTypeLoc().getBeginLoc(); 611 TInfo = Context.getTrivialTypeSourceInfo(T, TLoc); 612 } 613 614 DeclContext *DC = CDecl; 615 ObjCPropertyDecl *PDecl = ObjCPropertyDecl::Create(Context, DC, 616 FD.D.getIdentifierLoc(), 617 PropertyId, AtLoc, 618 LParenLoc, T, TInfo); 619 620 bool isClassProperty = 621 (AttributesAsWritten & ObjCPropertyAttribute::kind_class) || 622 (Attributes & ObjCPropertyAttribute::kind_class); 623 // Class property and instance property can have the same name. 624 if (ObjCPropertyDecl *prevDecl = ObjCPropertyDecl::findPropertyDecl( 625 DC, PropertyId, ObjCPropertyDecl::getQueryKind(isClassProperty))) { 626 Diag(PDecl->getLocation(), diag::err_duplicate_property); 627 Diag(prevDecl->getLocation(), diag::note_property_declare); 628 PDecl->setInvalidDecl(); 629 } 630 else { 631 DC->addDecl(PDecl); 632 if (lexicalDC) 633 PDecl->setLexicalDeclContext(lexicalDC); 634 } 635 636 if (T->isArrayType() || T->isFunctionType()) { 637 Diag(AtLoc, diag::err_property_type) << T; 638 PDecl->setInvalidDecl(); 639 } 640 641 ProcessDeclAttributes(S, PDecl, FD.D); 642 643 // Regardless of setter/getter attribute, we save the default getter/setter 644 // selector names in anticipation of declaration of setter/getter methods. 645 PDecl->setGetterName(GetterSel, GetterNameLoc); 646 PDecl->setSetterName(SetterSel, SetterNameLoc); 647 PDecl->setPropertyAttributesAsWritten( 648 makePropertyAttributesAsWritten(AttributesAsWritten)); 649 650 if (Attributes & ObjCPropertyAttribute::kind_readonly) 651 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_readonly); 652 653 if (Attributes & ObjCPropertyAttribute::kind_getter) 654 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_getter); 655 656 if (Attributes & ObjCPropertyAttribute::kind_setter) 657 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_setter); 658 659 if (isReadWrite) 660 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_readwrite); 661 662 if (Attributes & ObjCPropertyAttribute::kind_retain) 663 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_retain); 664 665 if (Attributes & ObjCPropertyAttribute::kind_strong) 666 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_strong); 667 668 if (Attributes & ObjCPropertyAttribute::kind_weak) 669 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_weak); 670 671 if (Attributes & ObjCPropertyAttribute::kind_copy) 672 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_copy); 673 674 if (Attributes & ObjCPropertyAttribute::kind_unsafe_unretained) 675 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_unsafe_unretained); 676 677 if (isAssign) 678 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_assign); 679 680 // In the semantic attributes, one of nonatomic or atomic is always set. 681 if (Attributes & ObjCPropertyAttribute::kind_nonatomic) 682 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_nonatomic); 683 else 684 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_atomic); 685 686 // 'unsafe_unretained' is alias for 'assign'. 687 if (Attributes & ObjCPropertyAttribute::kind_unsafe_unretained) 688 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_assign); 689 if (isAssign) 690 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_unsafe_unretained); 691 692 if (MethodImplKind == tok::objc_required) 693 PDecl->setPropertyImplementation(ObjCPropertyDecl::Required); 694 else if (MethodImplKind == tok::objc_optional) 695 PDecl->setPropertyImplementation(ObjCPropertyDecl::Optional); 696 697 if (Attributes & ObjCPropertyAttribute::kind_nullability) 698 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_nullability); 699 700 if (Attributes & ObjCPropertyAttribute::kind_null_resettable) 701 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_null_resettable); 702 703 if (Attributes & ObjCPropertyAttribute::kind_class) 704 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_class); 705 706 if ((Attributes & ObjCPropertyAttribute::kind_direct) || 707 CDecl->hasAttr<ObjCDirectMembersAttr>()) { 708 if (isa<ObjCProtocolDecl>(CDecl)) { 709 Diag(PDecl->getLocation(), diag::err_objc_direct_on_protocol) << true; 710 } else if (getLangOpts().ObjCRuntime.allowsDirectDispatch()) { 711 PDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_direct); 712 } else { 713 Diag(PDecl->getLocation(), diag::warn_objc_direct_property_ignored) 714 << PDecl->getDeclName(); 715 } 716 } 717 718 return PDecl; 719} 720 721static void checkARCPropertyImpl(Sema &S, SourceLocation propertyImplLoc, 722 ObjCPropertyDecl *property, 723 ObjCIvarDecl *ivar) { 724 if (property->isInvalidDecl() || ivar->isInvalidDecl()) return; 725 726 QualType ivarType = ivar->getType(); 727 Qualifiers::ObjCLifetime ivarLifetime = ivarType.getObjCLifetime(); 728 729 // The lifetime implied by the property's attributes. 730 Qualifiers::ObjCLifetime propertyLifetime = 731 getImpliedARCOwnership(property->getPropertyAttributes(), 732 property->getType()); 733 734 // We're fine if they match. 735 if (propertyLifetime == ivarLifetime) return; 736 737 // None isn't a valid lifetime for an object ivar in ARC, and 738 // __autoreleasing is never valid; don't diagnose twice. 739 if ((ivarLifetime == Qualifiers::OCL_None && 740 S.getLangOpts().ObjCAutoRefCount) || 741 ivarLifetime == Qualifiers::OCL_Autoreleasing) 742 return; 743 744 // If the ivar is private, and it's implicitly __unsafe_unretained 745 // because of its type, then pretend it was actually implicitly 746 // __strong. This is only sound because we're processing the 747 // property implementation before parsing any method bodies. 748 if (ivarLifetime == Qualifiers::OCL_ExplicitNone && 749 propertyLifetime == Qualifiers::OCL_Strong && 750 ivar->getAccessControl() == ObjCIvarDecl::Private) { 751 SplitQualType split = ivarType.split(); 752 if (split.Quals.hasObjCLifetime()) { 753 assert(ivarType->isObjCARCImplicitlyUnretainedType()); 754 split.Quals.setObjCLifetime(Qualifiers::OCL_Strong); 755 ivarType = S.Context.getQualifiedType(split); 756 ivar->setType(ivarType); 757 return; 758 } 759 } 760 761 switch (propertyLifetime) { 762 case Qualifiers::OCL_Strong: 763 S.Diag(ivar->getLocation(), diag::err_arc_strong_property_ownership) 764 << property->getDeclName() 765 << ivar->getDeclName() 766 << ivarLifetime; 767 break; 768 769 case Qualifiers::OCL_Weak: 770 S.Diag(ivar->getLocation(), diag::err_weak_property) 771 << property->getDeclName() 772 << ivar->getDeclName(); 773 break; 774 775 case Qualifiers::OCL_ExplicitNone: 776 S.Diag(ivar->getLocation(), diag::err_arc_assign_property_ownership) 777 << property->getDeclName() << ivar->getDeclName() 778 << ((property->getPropertyAttributesAsWritten() & 779 ObjCPropertyAttribute::kind_assign) != 0); 780 break; 781 782 case Qualifiers::OCL_Autoreleasing: 783 llvm_unreachable("properties cannot be autoreleasing"); 784 785 case Qualifiers::OCL_None: 786 // Any other property should be ignored. 787 return; 788 } 789 790 S.Diag(property->getLocation(), diag::note_property_declare); 791 if (propertyImplLoc.isValid()) 792 S.Diag(propertyImplLoc, diag::note_property_synthesize); 793} 794 795/// setImpliedPropertyAttributeForReadOnlyProperty - 796/// This routine evaludates life-time attributes for a 'readonly' 797/// property with no known lifetime of its own, using backing 798/// 'ivar's attribute, if any. If no backing 'ivar', property's 799/// life-time is assumed 'strong'. 800static void setImpliedPropertyAttributeForReadOnlyProperty( 801 ObjCPropertyDecl *property, ObjCIvarDecl *ivar) { 802 Qualifiers::ObjCLifetime propertyLifetime = 803 getImpliedARCOwnership(property->getPropertyAttributes(), 804 property->getType()); 805 if (propertyLifetime != Qualifiers::OCL_None) 806 return; 807 808 if (!ivar) { 809 // if no backing ivar, make property 'strong'. 810 property->setPropertyAttributes(ObjCPropertyAttribute::kind_strong); 811 return; 812 } 813 // property assumes owenership of backing ivar. 814 QualType ivarType = ivar->getType(); 815 Qualifiers::ObjCLifetime ivarLifetime = ivarType.getObjCLifetime(); 816 if (ivarLifetime == Qualifiers::OCL_Strong) 817 property->setPropertyAttributes(ObjCPropertyAttribute::kind_strong); 818 else if (ivarLifetime == Qualifiers::OCL_Weak) 819 property->setPropertyAttributes(ObjCPropertyAttribute::kind_weak); 820} 821 822static bool isIncompatiblePropertyAttribute(unsigned Attr1, unsigned Attr2, 823 ObjCPropertyAttribute::Kind Kind) { 824 return (Attr1 & Kind) != (Attr2 & Kind); 825} 826 827static bool areIncompatiblePropertyAttributes(unsigned Attr1, unsigned Attr2, 828 unsigned Kinds) { 829 return ((Attr1 & Kinds) != 0) != ((Attr2 & Kinds) != 0); 830} 831 832/// SelectPropertyForSynthesisFromProtocols - Finds the most appropriate 833/// property declaration that should be synthesised in all of the inherited 834/// protocols. It also diagnoses properties declared in inherited protocols with 835/// mismatched types or attributes, since any of them can be candidate for 836/// synthesis. 837static ObjCPropertyDecl * 838SelectPropertyForSynthesisFromProtocols(Sema &S, SourceLocation AtLoc, 839 ObjCInterfaceDecl *ClassDecl, 840 ObjCPropertyDecl *Property) { 841 assert(isa<ObjCProtocolDecl>(Property->getDeclContext()) && 842 "Expected a property from a protocol"); 843 ObjCInterfaceDecl::ProtocolPropertySet ProtocolSet; 844 ObjCInterfaceDecl::PropertyDeclOrder Properties; 845 for (const auto *PI : ClassDecl->all_referenced_protocols()) { 846 if (const ObjCProtocolDecl *PDecl = PI->getDefinition()) 847 PDecl->collectInheritedProtocolProperties(Property, ProtocolSet, 848 Properties); 849 } 850 if (ObjCInterfaceDecl *SDecl = ClassDecl->getSuperClass()) { 851 while (SDecl) { 852 for (const auto *PI : SDecl->all_referenced_protocols()) { 853 if (const ObjCProtocolDecl *PDecl = PI->getDefinition()) 854 PDecl->collectInheritedProtocolProperties(Property, ProtocolSet, 855 Properties); 856 } 857 SDecl = SDecl->getSuperClass(); 858 } 859 } 860 861 if (Properties.empty()) 862 return Property; 863 864 ObjCPropertyDecl *OriginalProperty = Property; 865 size_t SelectedIndex = 0; 866 for (const auto &Prop : llvm::enumerate(Properties)) { 867 // Select the 'readwrite' property if such property exists. 868 if (Property->isReadOnly() && !Prop.value()->isReadOnly()) { 869 Property = Prop.value(); 870 SelectedIndex = Prop.index(); 871 } 872 } 873 if (Property != OriginalProperty) { 874 // Check that the old property is compatible with the new one. 875 Properties[SelectedIndex] = OriginalProperty; 876 } 877 878 QualType RHSType = S.Context.getCanonicalType(Property->getType()); 879 unsigned OriginalAttributes = Property->getPropertyAttributesAsWritten(); 880 enum MismatchKind { 881 IncompatibleType = 0, 882 HasNoExpectedAttribute, 883 HasUnexpectedAttribute, 884 DifferentGetter, 885 DifferentSetter 886 }; 887 // Represents a property from another protocol that conflicts with the 888 // selected declaration. 889 struct MismatchingProperty { 890 const ObjCPropertyDecl *Prop; 891 MismatchKind Kind; 892 StringRef AttributeName; 893 }; 894 SmallVector<MismatchingProperty, 4> Mismatches; 895 for (ObjCPropertyDecl *Prop : Properties) { 896 // Verify the property attributes. 897 unsigned Attr = Prop->getPropertyAttributesAsWritten(); 898 if (Attr != OriginalAttributes) { 899 auto Diag = [&](bool OriginalHasAttribute, StringRef AttributeName) { 900 MismatchKind Kind = OriginalHasAttribute ? HasNoExpectedAttribute 901 : HasUnexpectedAttribute; 902 Mismatches.push_back({Prop, Kind, AttributeName}); 903 }; 904 // The ownership might be incompatible unless the property has no explicit 905 // ownership. 906 bool HasOwnership = 907 (Attr & (ObjCPropertyAttribute::kind_retain | 908 ObjCPropertyAttribute::kind_strong | 909 ObjCPropertyAttribute::kind_copy | 910 ObjCPropertyAttribute::kind_assign | 911 ObjCPropertyAttribute::kind_unsafe_unretained | 912 ObjCPropertyAttribute::kind_weak)) != 0; 913 if (HasOwnership && 914 isIncompatiblePropertyAttribute(OriginalAttributes, Attr, 915 ObjCPropertyAttribute::kind_copy)) { 916 Diag(OriginalAttributes & ObjCPropertyAttribute::kind_copy, "copy"); 917 continue; 918 } 919 if (HasOwnership && areIncompatiblePropertyAttributes( 920 OriginalAttributes, Attr, 921 ObjCPropertyAttribute::kind_retain | 922 ObjCPropertyAttribute::kind_strong)) { 923 Diag(OriginalAttributes & (ObjCPropertyAttribute::kind_retain | 924 ObjCPropertyAttribute::kind_strong), 925 "retain (or strong)"); 926 continue; 927 } 928 if (isIncompatiblePropertyAttribute(OriginalAttributes, Attr, 929 ObjCPropertyAttribute::kind_atomic)) { 930 Diag(OriginalAttributes & ObjCPropertyAttribute::kind_atomic, "atomic"); 931 continue; 932 } 933 } 934 if (Property->getGetterName() != Prop->getGetterName()) { 935 Mismatches.push_back({Prop, DifferentGetter, ""}); 936 continue; 937 } 938 if (!Property->isReadOnly() && !Prop->isReadOnly() && 939 Property->getSetterName() != Prop->getSetterName()) { 940 Mismatches.push_back({Prop, DifferentSetter, ""}); 941 continue; 942 } 943 QualType LHSType = S.Context.getCanonicalType(Prop->getType()); 944 if (!S.Context.propertyTypesAreCompatible(LHSType, RHSType)) { 945 bool IncompatibleObjC = false; 946 QualType ConvertedType; 947 if (!S.isObjCPointerConversion(RHSType, LHSType, ConvertedType, IncompatibleObjC) 948 || IncompatibleObjC) { 949 Mismatches.push_back({Prop, IncompatibleType, ""}); 950 continue; 951 } 952 } 953 } 954 955 if (Mismatches.empty()) 956 return Property; 957 958 // Diagnose incompability. 959 { 960 bool HasIncompatibleAttributes = false; 961 for (const auto &Note : Mismatches) 962 HasIncompatibleAttributes = 963 Note.Kind != IncompatibleType ? true : HasIncompatibleAttributes; 964 // Promote the warning to an error if there are incompatible attributes or 965 // incompatible types together with readwrite/readonly incompatibility. 966 auto Diag = S.Diag(Property->getLocation(), 967 Property != OriginalProperty || HasIncompatibleAttributes 968 ? diag::err_protocol_property_mismatch 969 : diag::warn_protocol_property_mismatch); 970 Diag << Mismatches[0].Kind; 971 switch (Mismatches[0].Kind) { 972 case IncompatibleType: 973 Diag << Property->getType(); 974 break; 975 case HasNoExpectedAttribute: 976 case HasUnexpectedAttribute: 977 Diag << Mismatches[0].AttributeName; 978 break; 979 case DifferentGetter: 980 Diag << Property->getGetterName(); 981 break; 982 case DifferentSetter: 983 Diag << Property->getSetterName(); 984 break; 985 } 986 } 987 for (const auto &Note : Mismatches) { 988 auto Diag = 989 S.Diag(Note.Prop->getLocation(), diag::note_protocol_property_declare) 990 << Note.Kind; 991 switch (Note.Kind) { 992 case IncompatibleType: 993 Diag << Note.Prop->getType(); 994 break; 995 case HasNoExpectedAttribute: 996 case HasUnexpectedAttribute: 997 Diag << Note.AttributeName; 998 break; 999 case DifferentGetter: 1000 Diag << Note.Prop->getGetterName(); 1001 break; 1002 case DifferentSetter: 1003 Diag << Note.Prop->getSetterName(); 1004 break; 1005 } 1006 } 1007 if (AtLoc.isValid()) 1008 S.Diag(AtLoc, diag::note_property_synthesize); 1009 1010 return Property; 1011} 1012 1013/// Determine whether any storage attributes were written on the property. 1014static bool hasWrittenStorageAttribute(ObjCPropertyDecl *Prop, 1015 ObjCPropertyQueryKind QueryKind) { 1016 if (Prop->getPropertyAttributesAsWritten() & OwnershipMask) return true; 1017 1018 // If this is a readwrite property in a class extension that refines 1019 // a readonly property in the original class definition, check it as 1020 // well. 1021 1022 // If it's a readonly property, we're not interested. 1023 if (Prop->isReadOnly()) return false; 1024 1025 // Is it declared in an extension? 1026 auto Category = dyn_cast<ObjCCategoryDecl>(Prop->getDeclContext()); 1027 if (!Category || !Category->IsClassExtension()) return false; 1028 1029 // Find the corresponding property in the primary class definition. 1030 auto OrigClass = Category->getClassInterface(); 1031 for (auto *Found : OrigClass->lookup(Prop->getDeclName())) { 1032 if (ObjCPropertyDecl *OrigProp = dyn_cast<ObjCPropertyDecl>(Found)) 1033 return OrigProp->getPropertyAttributesAsWritten() & OwnershipMask; 1034 } 1035 1036 // Look through all of the protocols. 1037 for (const auto *Proto : OrigClass->all_referenced_protocols()) { 1038 if (ObjCPropertyDecl *OrigProp = Proto->FindPropertyDeclaration( 1039 Prop->getIdentifier(), QueryKind)) 1040 return OrigProp->getPropertyAttributesAsWritten() & OwnershipMask; 1041 } 1042 1043 return false; 1044} 1045 1046/// Create a synthesized property accessor stub inside the \@implementation. 1047static ObjCMethodDecl * 1048RedeclarePropertyAccessor(ASTContext &Context, ObjCImplementationDecl *Impl, 1049 ObjCMethodDecl *AccessorDecl, SourceLocation AtLoc, 1050 SourceLocation PropertyLoc) { 1051 ObjCMethodDecl *Decl = AccessorDecl; 1052 ObjCMethodDecl *ImplDecl = ObjCMethodDecl::Create( 1053 Context, AtLoc.isValid() ? AtLoc : Decl->getBeginLoc(), 1054 PropertyLoc.isValid() ? PropertyLoc : Decl->getEndLoc(), 1055 Decl->getSelector(), Decl->getReturnType(), 1056 Decl->getReturnTypeSourceInfo(), Impl, Decl->isInstanceMethod(), 1057 Decl->isVariadic(), Decl->isPropertyAccessor(), 1058 /* isSynthesized*/ true, Decl->isImplicit(), Decl->isDefined(), 1059 Decl->getImplementationControl(), Decl->hasRelatedResultType()); 1060 ImplDecl->getMethodFamily(); 1061 if (Decl->hasAttrs()) 1062 ImplDecl->setAttrs(Decl->getAttrs()); 1063 ImplDecl->setSelfDecl(Decl->getSelfDecl()); 1064 ImplDecl->setCmdDecl(Decl->getCmdDecl()); 1065 SmallVector<SourceLocation, 1> SelLocs; 1066 Decl->getSelectorLocs(SelLocs); 1067 ImplDecl->setMethodParams(Context, Decl->parameters(), SelLocs); 1068 ImplDecl->setLexicalDeclContext(Impl); 1069 ImplDecl->setDefined(false); 1070 return ImplDecl; 1071} 1072 1073/// ActOnPropertyImplDecl - This routine performs semantic checks and 1074/// builds the AST node for a property implementation declaration; declared 1075/// as \@synthesize or \@dynamic. 1076/// 1077Decl *Sema::ActOnPropertyImplDecl(Scope *S, 1078 SourceLocation AtLoc, 1079 SourceLocation PropertyLoc, 1080 bool Synthesize, 1081 IdentifierInfo *PropertyId, 1082 IdentifierInfo *PropertyIvar, 1083 SourceLocation PropertyIvarLoc, 1084 ObjCPropertyQueryKind QueryKind) { 1085 ObjCContainerDecl *ClassImpDecl = 1086 dyn_cast<ObjCContainerDecl>(CurContext); 1087 // Make sure we have a context for the property implementation declaration. 1088 if (!ClassImpDecl) { 1089 Diag(AtLoc, diag::err_missing_property_context); 1090 return nullptr; 1091 } 1092 if (PropertyIvarLoc.isInvalid()) 1093 PropertyIvarLoc = PropertyLoc; 1094 SourceLocation PropertyDiagLoc = PropertyLoc; 1095 if (PropertyDiagLoc.isInvalid()) 1096 PropertyDiagLoc = ClassImpDecl->getBeginLoc(); 1097 ObjCPropertyDecl *property = nullptr; 1098 ObjCInterfaceDecl *IDecl = nullptr; 1099 // Find the class or category class where this property must have 1100 // a declaration. 1101 ObjCImplementationDecl *IC = nullptr; 1102 ObjCCategoryImplDecl *CatImplClass = nullptr; 1103 if ((IC = dyn_cast<ObjCImplementationDecl>(ClassImpDecl))) { 1104 IDecl = IC->getClassInterface(); 1105 // We always synthesize an interface for an implementation 1106 // without an interface decl. So, IDecl is always non-zero. 1107 assert(IDecl && 1108 "ActOnPropertyImplDecl - @implementation without @interface"); 1109 1110 // Look for this property declaration in the @implementation's @interface 1111 property = IDecl->FindPropertyDeclaration(PropertyId, QueryKind); 1112 if (!property) { 1113 Diag(PropertyLoc, diag::err_bad_property_decl) << IDecl->getDeclName(); 1114 return nullptr; 1115 } 1116 if (property->isClassProperty() && Synthesize) { 1117 Diag(PropertyLoc, diag::err_synthesize_on_class_property) << PropertyId; 1118 return nullptr; 1119 } 1120 unsigned PIkind = property->getPropertyAttributesAsWritten(); 1121 if ((PIkind & (ObjCPropertyAttribute::kind_atomic | 1122 ObjCPropertyAttribute::kind_nonatomic)) == 0) { 1123 if (AtLoc.isValid()) 1124 Diag(AtLoc, diag::warn_implicit_atomic_property); 1125 else 1126 Diag(IC->getLocation(), diag::warn_auto_implicit_atomic_property); 1127 Diag(property->getLocation(), diag::note_property_declare); 1128 } 1129 1130 if (const ObjCCategoryDecl *CD = 1131 dyn_cast<ObjCCategoryDecl>(property->getDeclContext())) { 1132 if (!CD->IsClassExtension()) { 1133 Diag(PropertyLoc, diag::err_category_property) << CD->getDeclName(); 1134 Diag(property->getLocation(), diag::note_property_declare); 1135 return nullptr; 1136 } 1137 } 1138 if (Synthesize && (PIkind & ObjCPropertyAttribute::kind_readonly) && 1139 property->hasAttr<IBOutletAttr>() && !AtLoc.isValid()) { 1140 bool ReadWriteProperty = false; 1141 // Search into the class extensions and see if 'readonly property is 1142 // redeclared 'readwrite', then no warning is to be issued. 1143 for (auto *Ext : IDecl->known_extensions()) { 1144 DeclContext::lookup_result R = Ext->lookup(property->getDeclName()); 1145 if (auto *ExtProp = R.find_first<ObjCPropertyDecl>()) { 1146 PIkind = ExtProp->getPropertyAttributesAsWritten(); 1147 if (PIkind & ObjCPropertyAttribute::kind_readwrite) { 1148 ReadWriteProperty = true; 1149 break; 1150 } 1151 } 1152 } 1153 1154 if (!ReadWriteProperty) { 1155 Diag(property->getLocation(), diag::warn_auto_readonly_iboutlet_property) 1156 << property; 1157 SourceLocation readonlyLoc; 1158 if (LocPropertyAttribute(Context, "readonly", 1159 property->getLParenLoc(), readonlyLoc)) { 1160 SourceLocation endLoc = 1161 readonlyLoc.getLocWithOffset(strlen("readonly")-1); 1162 SourceRange ReadonlySourceRange(readonlyLoc, endLoc); 1163 Diag(property->getLocation(), 1164 diag::note_auto_readonly_iboutlet_fixup_suggest) << 1165 FixItHint::CreateReplacement(ReadonlySourceRange, "readwrite"); 1166 } 1167 } 1168 } 1169 if (Synthesize && isa<ObjCProtocolDecl>(property->getDeclContext())) 1170 property = SelectPropertyForSynthesisFromProtocols(*this, AtLoc, IDecl, 1171 property); 1172 1173 } else if ((CatImplClass = dyn_cast<ObjCCategoryImplDecl>(ClassImpDecl))) { 1174 if (Synthesize) { 1175 Diag(AtLoc, diag::err_synthesize_category_decl); 1176 return nullptr; 1177 } 1178 IDecl = CatImplClass->getClassInterface(); 1179 if (!IDecl) { 1180 Diag(AtLoc, diag::err_missing_property_interface); 1181 return nullptr; 1182 } 1183 ObjCCategoryDecl *Category = 1184 IDecl->FindCategoryDeclaration(CatImplClass->getIdentifier()); 1185 1186 // If category for this implementation not found, it is an error which 1187 // has already been reported eralier. 1188 if (!Category) 1189 return nullptr; 1190 // Look for this property declaration in @implementation's category 1191 property = Category->FindPropertyDeclaration(PropertyId, QueryKind); 1192 if (!property) { 1193 Diag(PropertyLoc, diag::err_bad_category_property_decl) 1194 << Category->getDeclName(); 1195 return nullptr; 1196 } 1197 } else { 1198 Diag(AtLoc, diag::err_bad_property_context); 1199 return nullptr; 1200 } 1201 ObjCIvarDecl *Ivar = nullptr; 1202 bool CompleteTypeErr = false; 1203 bool compat = true; 1204 // Check that we have a valid, previously declared ivar for @synthesize 1205 if (Synthesize) { 1206 // @synthesize 1207 if (!PropertyIvar) 1208 PropertyIvar = PropertyId; 1209 // Check that this is a previously declared 'ivar' in 'IDecl' interface 1210 ObjCInterfaceDecl *ClassDeclared; 1211 Ivar = IDecl->lookupInstanceVariable(PropertyIvar, ClassDeclared); 1212 QualType PropType = property->getType(); 1213 QualType PropertyIvarType = PropType.getNonReferenceType(); 1214 1215 if (RequireCompleteType(PropertyDiagLoc, PropertyIvarType, 1216 diag::err_incomplete_synthesized_property, 1217 property->getDeclName())) { 1218 Diag(property->getLocation(), diag::note_property_declare); 1219 CompleteTypeErr = true; 1220 } 1221 1222 if (getLangOpts().ObjCAutoRefCount && 1223 (property->getPropertyAttributesAsWritten() & 1224 ObjCPropertyAttribute::kind_readonly) && 1225 PropertyIvarType->isObjCRetainableType()) { 1226 setImpliedPropertyAttributeForReadOnlyProperty(property, Ivar); 1227 } 1228 1229 ObjCPropertyAttribute::Kind kind = property->getPropertyAttributes(); 1230 1231 bool isARCWeak = false; 1232 if (kind & ObjCPropertyAttribute::kind_weak) { 1233 // Add GC __weak to the ivar type if the property is weak. 1234 if (getLangOpts().getGC() != LangOptions::NonGC) { 1235 assert(!getLangOpts().ObjCAutoRefCount); 1236 if (PropertyIvarType.isObjCGCStrong()) { 1237 Diag(PropertyDiagLoc, diag::err_gc_weak_property_strong_type); 1238 Diag(property->getLocation(), diag::note_property_declare); 1239 } else { 1240 PropertyIvarType = 1241 Context.getObjCGCQualType(PropertyIvarType, Qualifiers::Weak); 1242 } 1243 1244 // Otherwise, check whether ARC __weak is enabled and works with 1245 // the property type. 1246 } else { 1247 if (!getLangOpts().ObjCWeak) { 1248 // Only complain here when synthesizing an ivar. 1249 if (!Ivar) { 1250 Diag(PropertyDiagLoc, 1251 getLangOpts().ObjCWeakRuntime 1252 ? diag::err_synthesizing_arc_weak_property_disabled 1253 : diag::err_synthesizing_arc_weak_property_no_runtime); 1254 Diag(property->getLocation(), diag::note_property_declare); 1255 } 1256 CompleteTypeErr = true; // suppress later diagnostics about the ivar 1257 } else { 1258 isARCWeak = true; 1259 if (const ObjCObjectPointerType *ObjT = 1260 PropertyIvarType->getAs<ObjCObjectPointerType>()) { 1261 const ObjCInterfaceDecl *ObjI = ObjT->getInterfaceDecl(); 1262 if (ObjI && ObjI->isArcWeakrefUnavailable()) { 1263 Diag(property->getLocation(), 1264 diag::err_arc_weak_unavailable_property) 1265 << PropertyIvarType; 1266 Diag(ClassImpDecl->getLocation(), diag::note_implemented_by_class) 1267 << ClassImpDecl->getName(); 1268 } 1269 } 1270 } 1271 } 1272 } 1273 1274 if (AtLoc.isInvalid()) { 1275 // Check when default synthesizing a property that there is 1276 // an ivar matching property name and issue warning; since this 1277 // is the most common case of not using an ivar used for backing 1278 // property in non-default synthesis case. 1279 ObjCInterfaceDecl *ClassDeclared=nullptr; 1280 ObjCIvarDecl *originalIvar = 1281 IDecl->lookupInstanceVariable(property->getIdentifier(), 1282 ClassDeclared); 1283 if (originalIvar) { 1284 Diag(PropertyDiagLoc, 1285 diag::warn_autosynthesis_property_ivar_match) 1286 << PropertyId << (Ivar == nullptr) << PropertyIvar 1287 << originalIvar->getIdentifier(); 1288 Diag(property->getLocation(), diag::note_property_declare); 1289 Diag(originalIvar->getLocation(), diag::note_ivar_decl); 1290 } 1291 } 1292 1293 if (!Ivar) { 1294 // In ARC, give the ivar a lifetime qualifier based on the 1295 // property attributes. 1296 if ((getLangOpts().ObjCAutoRefCount || isARCWeak) && 1297 !PropertyIvarType.getObjCLifetime() && 1298 PropertyIvarType->isObjCRetainableType()) { 1299 1300 // It's an error if we have to do this and the user didn't 1301 // explicitly write an ownership attribute on the property. 1302 if (!hasWrittenStorageAttribute(property, QueryKind) && 1303 !(kind & ObjCPropertyAttribute::kind_strong)) { 1304 Diag(PropertyDiagLoc, 1305 diag::err_arc_objc_property_default_assign_on_object); 1306 Diag(property->getLocation(), diag::note_property_declare); 1307 } else { 1308 Qualifiers::ObjCLifetime lifetime = 1309 getImpliedARCOwnership(kind, PropertyIvarType); 1310 assert(lifetime && "no lifetime for property?"); 1311 1312 Qualifiers qs; 1313 qs.addObjCLifetime(lifetime); 1314 PropertyIvarType = Context.getQualifiedType(PropertyIvarType, qs); 1315 } 1316 } 1317 1318 Ivar = ObjCIvarDecl::Create(Context, ClassImpDecl, 1319 PropertyIvarLoc,PropertyIvarLoc, PropertyIvar, 1320 PropertyIvarType, /*TInfo=*/nullptr, 1321 ObjCIvarDecl::Private, 1322 (Expr *)nullptr, true); 1323 if (RequireNonAbstractType(PropertyIvarLoc, 1324 PropertyIvarType, 1325 diag::err_abstract_type_in_decl, 1326 AbstractSynthesizedIvarType)) { 1327 Diag(property->getLocation(), diag::note_property_declare); 1328 // An abstract type is as bad as an incomplete type. 1329 CompleteTypeErr = true; 1330 } 1331 if (!CompleteTypeErr) { 1332 const RecordType *RecordTy = PropertyIvarType->getAs<RecordType>(); 1333 if (RecordTy && RecordTy->getDecl()->hasFlexibleArrayMember()) { 1334 Diag(PropertyIvarLoc, diag::err_synthesize_variable_sized_ivar) 1335 << PropertyIvarType; 1336 CompleteTypeErr = true; // suppress later diagnostics about the ivar 1337 } 1338 } 1339 if (CompleteTypeErr) 1340 Ivar->setInvalidDecl(); 1341 ClassImpDecl->addDecl(Ivar); 1342 IDecl->makeDeclVisibleInContext(Ivar); 1343 1344 if (getLangOpts().ObjCRuntime.isFragile()) 1345 Diag(PropertyDiagLoc, diag::err_missing_property_ivar_decl) 1346 << PropertyId; 1347 // Note! I deliberately want it to fall thru so, we have a 1348 // a property implementation and to avoid future warnings. 1349 } else if (getLangOpts().ObjCRuntime.isNonFragile() && 1350 !declaresSameEntity(ClassDeclared, IDecl)) { 1351 Diag(PropertyDiagLoc, diag::err_ivar_in_superclass_use) 1352 << property->getDeclName() << Ivar->getDeclName() 1353 << ClassDeclared->getDeclName(); 1354 Diag(Ivar->getLocation(), diag::note_previous_access_declaration) 1355 << Ivar << Ivar->getName(); 1356 // Note! I deliberately want it to fall thru so more errors are caught. 1357 } 1358 property->setPropertyIvarDecl(Ivar); 1359 1360 QualType IvarType = Context.getCanonicalType(Ivar->getType()); 1361 1362 // Check that type of property and its ivar are type compatible. 1363 if (!Context.hasSameType(PropertyIvarType, IvarType)) { 1364 if (isa<ObjCObjectPointerType>(PropertyIvarType) 1365 && isa<ObjCObjectPointerType>(IvarType)) 1366 compat = Context.canAssignObjCInterfaces( 1367 PropertyIvarType->castAs<ObjCObjectPointerType>(), 1368 IvarType->castAs<ObjCObjectPointerType>()); 1369 else { 1370 compat = (CheckAssignmentConstraints(PropertyIvarLoc, PropertyIvarType, 1371 IvarType) 1372 == Compatible); 1373 } 1374 if (!compat) { 1375 Diag(PropertyDiagLoc, diag::err_property_ivar_type) 1376 << property->getDeclName() << PropType 1377 << Ivar->getDeclName() << IvarType; 1378 Diag(Ivar->getLocation(), diag::note_ivar_decl); 1379 // Note! I deliberately want it to fall thru so, we have a 1380 // a property implementation and to avoid future warnings. 1381 } 1382 else { 1383 // FIXME! Rules for properties are somewhat different that those 1384 // for assignments. Use a new routine to consolidate all cases; 1385 // specifically for property redeclarations as well as for ivars. 1386 QualType lhsType =Context.getCanonicalType(PropertyIvarType).getUnqualifiedType(); 1387 QualType rhsType =Context.getCanonicalType(IvarType).getUnqualifiedType(); 1388 if (lhsType != rhsType && 1389 lhsType->isArithmeticType()) { 1390 Diag(PropertyDiagLoc, diag::err_property_ivar_type) 1391 << property->getDeclName() << PropType 1392 << Ivar->getDeclName() << IvarType; 1393 Diag(Ivar->getLocation(), diag::note_ivar_decl); 1394 // Fall thru - see previous comment 1395 } 1396 } 1397 // __weak is explicit. So it works on Canonical type. 1398 if ((PropType.isObjCGCWeak() && !IvarType.isObjCGCWeak() && 1399 getLangOpts().getGC() != LangOptions::NonGC)) { 1400 Diag(PropertyDiagLoc, diag::err_weak_property) 1401 << property->getDeclName() << Ivar->getDeclName(); 1402 Diag(Ivar->getLocation(), diag::note_ivar_decl); 1403 // Fall thru - see previous comment 1404 } 1405 // Fall thru - see previous comment 1406 if ((property->getType()->isObjCObjectPointerType() || 1407 PropType.isObjCGCStrong()) && IvarType.isObjCGCWeak() && 1408 getLangOpts().getGC() != LangOptions::NonGC) { 1409 Diag(PropertyDiagLoc, diag::err_strong_property) 1410 << property->getDeclName() << Ivar->getDeclName(); 1411 // Fall thru - see previous comment 1412 } 1413 } 1414 if (getLangOpts().ObjCAutoRefCount || isARCWeak || 1415 Ivar->getType().getObjCLifetime()) 1416 checkARCPropertyImpl(*this, PropertyLoc, property, Ivar); 1417 } else if (PropertyIvar) 1418 // @dynamic 1419 Diag(PropertyDiagLoc, diag::err_dynamic_property_ivar_decl); 1420 1421 assert (property && "ActOnPropertyImplDecl - property declaration missing"); 1422 ObjCPropertyImplDecl *PIDecl = 1423 ObjCPropertyImplDecl::Create(Context, CurContext, AtLoc, PropertyLoc, 1424 property, 1425 (Synthesize ? 1426 ObjCPropertyImplDecl::Synthesize 1427 : ObjCPropertyImplDecl::Dynamic), 1428 Ivar, PropertyIvarLoc); 1429 1430 if (CompleteTypeErr || !compat) 1431 PIDecl->setInvalidDecl(); 1432 1433 if (ObjCMethodDecl *getterMethod = property->getGetterMethodDecl()) { 1434 getterMethod->createImplicitParams(Context, IDecl); 1435 1436 // Redeclare the getter within the implementation as DeclContext. 1437 if (Synthesize) { 1438 // If the method hasn't been overridden, create a synthesized implementation. 1439 ObjCMethodDecl *OMD = ClassImpDecl->getMethod( 1440 getterMethod->getSelector(), getterMethod->isInstanceMethod()); 1441 if (!OMD) 1442 OMD = RedeclarePropertyAccessor(Context, IC, getterMethod, AtLoc, 1443 PropertyLoc); 1444 PIDecl->setGetterMethodDecl(OMD); 1445 } 1446 1447 if (getLangOpts().CPlusPlus && Synthesize && !CompleteTypeErr && 1448 Ivar->getType()->isRecordType()) { 1449 // For Objective-C++, need to synthesize the AST for the IVAR object to be 1450 // returned by the getter as it must conform to C++'s copy-return rules. 1451 // FIXME. Eventually we want to do this for Objective-C as well. 1452 SynthesizedFunctionScope Scope(*this, getterMethod); 1453 ImplicitParamDecl *SelfDecl = getterMethod->getSelfDecl(); 1454 DeclRefExpr *SelfExpr = new (Context) 1455 DeclRefExpr(Context, SelfDecl, false, SelfDecl->getType(), VK_LValue, 1456 PropertyDiagLoc); 1457 MarkDeclRefReferenced(SelfExpr); 1458 Expr *LoadSelfExpr = ImplicitCastExpr::Create( 1459 Context, SelfDecl->getType(), CK_LValueToRValue, SelfExpr, nullptr, 1460 VK_PRValue, FPOptionsOverride()); 1461 Expr *IvarRefExpr = 1462 new (Context) ObjCIvarRefExpr(Ivar, 1463 Ivar->getUsageType(SelfDecl->getType()), 1464 PropertyDiagLoc, 1465 Ivar->getLocation(), 1466 LoadSelfExpr, true, true); 1467 ExprResult Res = PerformCopyInitialization( 1468 InitializedEntity::InitializeResult(PropertyDiagLoc, 1469 getterMethod->getReturnType()), 1470 PropertyDiagLoc, IvarRefExpr); 1471 if (!Res.isInvalid()) { 1472 Expr *ResExpr = Res.getAs<Expr>(); 1473 if (ResExpr) 1474 ResExpr = MaybeCreateExprWithCleanups(ResExpr); 1475 PIDecl->setGetterCXXConstructor(ResExpr); 1476 } 1477 } 1478 if (property->hasAttr<NSReturnsNotRetainedAttr>() && 1479 !getterMethod->hasAttr<NSReturnsNotRetainedAttr>()) { 1480 Diag(getterMethod->getLocation(), 1481 diag::warn_property_getter_owning_mismatch); 1482 Diag(property->getLocation(), diag::note_property_declare); 1483 } 1484 if (getLangOpts().ObjCAutoRefCount && Synthesize) 1485 switch (getterMethod->getMethodFamily()) { 1486 case OMF_retain: 1487 case OMF_retainCount: 1488 case OMF_release: 1489 case OMF_autorelease: 1490 Diag(getterMethod->getLocation(), diag::err_arc_illegal_method_def) 1491 << 1 << getterMethod->getSelector(); 1492 break; 1493 default: 1494 break; 1495 } 1496 } 1497 1498 if (ObjCMethodDecl *setterMethod = property->getSetterMethodDecl()) { 1499 setterMethod->createImplicitParams(Context, IDecl); 1500 1501 // Redeclare the setter within the implementation as DeclContext. 1502 if (Synthesize) { 1503 ObjCMethodDecl *OMD = ClassImpDecl->getMethod( 1504 setterMethod->getSelector(), setterMethod->isInstanceMethod()); 1505 if (!OMD) 1506 OMD = RedeclarePropertyAccessor(Context, IC, setterMethod, 1507 AtLoc, PropertyLoc); 1508 PIDecl->setSetterMethodDecl(OMD); 1509 } 1510 1511 if (getLangOpts().CPlusPlus && Synthesize && !CompleteTypeErr && 1512 Ivar->getType()->isRecordType()) { 1513 // FIXME. Eventually we want to do this for Objective-C as well. 1514 SynthesizedFunctionScope Scope(*this, setterMethod); 1515 ImplicitParamDecl *SelfDecl = setterMethod->getSelfDecl(); 1516 DeclRefExpr *SelfExpr = new (Context) 1517 DeclRefExpr(Context, SelfDecl, false, SelfDecl->getType(), VK_LValue, 1518 PropertyDiagLoc); 1519 MarkDeclRefReferenced(SelfExpr); 1520 Expr *LoadSelfExpr = ImplicitCastExpr::Create( 1521 Context, SelfDecl->getType(), CK_LValueToRValue, SelfExpr, nullptr, 1522 VK_PRValue, FPOptionsOverride()); 1523 Expr *lhs = 1524 new (Context) ObjCIvarRefExpr(Ivar, 1525 Ivar->getUsageType(SelfDecl->getType()), 1526 PropertyDiagLoc, 1527 Ivar->getLocation(), 1528 LoadSelfExpr, true, true); 1529 ObjCMethodDecl::param_iterator P = setterMethod->param_begin(); 1530 ParmVarDecl *Param = (*P); 1531 QualType T = Param->getType().getNonReferenceType(); 1532 DeclRefExpr *rhs = new (Context) 1533 DeclRefExpr(Context, Param, false, T, VK_LValue, PropertyDiagLoc); 1534 MarkDeclRefReferenced(rhs); 1535 ExprResult Res = BuildBinOp(S, PropertyDiagLoc, 1536 BO_Assign, lhs, rhs); 1537 if (property->getPropertyAttributes() & 1538 ObjCPropertyAttribute::kind_atomic) { 1539 Expr *callExpr = Res.getAs<Expr>(); 1540 if (const CXXOperatorCallExpr *CXXCE = 1541 dyn_cast_or_null<CXXOperatorCallExpr>(callExpr)) 1542 if (const FunctionDecl *FuncDecl = CXXCE->getDirectCallee()) 1543 if (!FuncDecl->isTrivial()) 1544 if (property->getType()->isReferenceType()) { 1545 Diag(PropertyDiagLoc, 1546 diag::err_atomic_property_nontrivial_assign_op) 1547 << property->getType(); 1548 Diag(FuncDecl->getBeginLoc(), diag::note_callee_decl) 1549 << FuncDecl; 1550 } 1551 } 1552 PIDecl->setSetterCXXAssignment(Res.getAs<Expr>()); 1553 } 1554 } 1555 1556 if (IC) { 1557 if (Synthesize) 1558 if (ObjCPropertyImplDecl *PPIDecl = 1559 IC->FindPropertyImplIvarDecl(PropertyIvar)) { 1560 Diag(PropertyLoc, diag::err_duplicate_ivar_use) 1561 << PropertyId << PPIDecl->getPropertyDecl()->getIdentifier() 1562 << PropertyIvar; 1563 Diag(PPIDecl->getLocation(), diag::note_previous_use); 1564 } 1565 1566 if (ObjCPropertyImplDecl *PPIDecl 1567 = IC->FindPropertyImplDecl(PropertyId, QueryKind)) { 1568 Diag(PropertyLoc, diag::err_property_implemented) << PropertyId; 1569 Diag(PPIDecl->getLocation(), diag::note_previous_declaration); 1570 return nullptr; 1571 } 1572 IC->addPropertyImplementation(PIDecl); 1573 if (getLangOpts().ObjCDefaultSynthProperties && 1574 getLangOpts().ObjCRuntime.isNonFragile() && 1575 !IDecl->isObjCRequiresPropertyDefs()) { 1576 // Diagnose if an ivar was lazily synthesdized due to a previous 1577 // use and if 1) property is @dynamic or 2) property is synthesized 1578 // but it requires an ivar of different name. 1579 ObjCInterfaceDecl *ClassDeclared=nullptr; 1580 ObjCIvarDecl *Ivar = nullptr; 1581 if (!Synthesize) 1582 Ivar = IDecl->lookupInstanceVariable(PropertyId, ClassDeclared); 1583 else { 1584 if (PropertyIvar && PropertyIvar != PropertyId) 1585 Ivar = IDecl->lookupInstanceVariable(PropertyId, ClassDeclared); 1586 } 1587 // Issue diagnostics only if Ivar belongs to current class. 1588 if (Ivar && Ivar->getSynthesize() && 1589 declaresSameEntity(IC->getClassInterface(), ClassDeclared)) { 1590 Diag(Ivar->getLocation(), diag::err_undeclared_var_use) 1591 << PropertyId; 1592 Ivar->setInvalidDecl(); 1593 } 1594 } 1595 } else { 1596 if (Synthesize) 1597 if (ObjCPropertyImplDecl *PPIDecl = 1598 CatImplClass->FindPropertyImplIvarDecl(PropertyIvar)) { 1599 Diag(PropertyDiagLoc, diag::err_duplicate_ivar_use) 1600 << PropertyId << PPIDecl->getPropertyDecl()->getIdentifier() 1601 << PropertyIvar; 1602 Diag(PPIDecl->getLocation(), diag::note_previous_use); 1603 } 1604 1605 if (ObjCPropertyImplDecl *PPIDecl = 1606 CatImplClass->FindPropertyImplDecl(PropertyId, QueryKind)) { 1607 Diag(PropertyDiagLoc, diag::err_property_implemented) << PropertyId; 1608 Diag(PPIDecl->getLocation(), diag::note_previous_declaration); 1609 return nullptr; 1610 } 1611 CatImplClass->addPropertyImplementation(PIDecl); 1612 } 1613 1614 if (PIDecl->getPropertyImplementation() == ObjCPropertyImplDecl::Dynamic && 1615 PIDecl->getPropertyDecl() && 1616 PIDecl->getPropertyDecl()->isDirectProperty()) { 1617 Diag(PropertyLoc, diag::err_objc_direct_dynamic_property); 1618 Diag(PIDecl->getPropertyDecl()->getLocation(), 1619 diag::note_previous_declaration); 1620 return nullptr; 1621 } 1622 1623 return PIDecl; 1624} 1625 1626//===----------------------------------------------------------------------===// 1627// Helper methods. 1628//===----------------------------------------------------------------------===// 1629 1630/// DiagnosePropertyMismatch - Compares two properties for their 1631/// attributes and types and warns on a variety of inconsistencies. 1632/// 1633void 1634Sema::DiagnosePropertyMismatch(ObjCPropertyDecl *Property, 1635 ObjCPropertyDecl *SuperProperty, 1636 const IdentifierInfo *inheritedName, 1637 bool OverridingProtocolProperty) { 1638 ObjCPropertyAttribute::Kind CAttr = Property->getPropertyAttributes(); 1639 ObjCPropertyAttribute::Kind SAttr = SuperProperty->getPropertyAttributes(); 1640 1641 // We allow readonly properties without an explicit ownership 1642 // (assign/unsafe_unretained/weak/retain/strong/copy) in super class 1643 // to be overridden by a property with any explicit ownership in the subclass. 1644 if (!OverridingProtocolProperty && 1645 !getOwnershipRule(SAttr) && getOwnershipRule(CAttr)) 1646 ; 1647 else { 1648 if ((CAttr & ObjCPropertyAttribute::kind_readonly) && 1649 (SAttr & ObjCPropertyAttribute::kind_readwrite)) 1650 Diag(Property->getLocation(), diag::warn_readonly_property) 1651 << Property->getDeclName() << inheritedName; 1652 if ((CAttr & ObjCPropertyAttribute::kind_copy) != 1653 (SAttr & ObjCPropertyAttribute::kind_copy)) 1654 Diag(Property->getLocation(), diag::warn_property_attribute) 1655 << Property->getDeclName() << "copy" << inheritedName; 1656 else if (!(SAttr & ObjCPropertyAttribute::kind_readonly)) { 1657 unsigned CAttrRetain = (CAttr & (ObjCPropertyAttribute::kind_retain | 1658 ObjCPropertyAttribute::kind_strong)); 1659 unsigned SAttrRetain = (SAttr & (ObjCPropertyAttribute::kind_retain | 1660 ObjCPropertyAttribute::kind_strong)); 1661 bool CStrong = (CAttrRetain != 0); 1662 bool SStrong = (SAttrRetain != 0); 1663 if (CStrong != SStrong) 1664 Diag(Property->getLocation(), diag::warn_property_attribute) 1665 << Property->getDeclName() << "retain (or strong)" << inheritedName; 1666 } 1667 } 1668 1669 // Check for nonatomic; note that nonatomic is effectively 1670 // meaningless for readonly properties, so don't diagnose if the 1671 // atomic property is 'readonly'. 1672 checkAtomicPropertyMismatch(*this, SuperProperty, Property, false); 1673 // Readonly properties from protocols can be implemented as "readwrite" 1674 // with a custom setter name. 1675 if (Property->getSetterName() != SuperProperty->getSetterName() && 1676 !(SuperProperty->isReadOnly() && 1677 isa<ObjCProtocolDecl>(SuperProperty->getDeclContext()))) { 1678 Diag(Property->getLocation(), diag::warn_property_attribute) 1679 << Property->getDeclName() << "setter" << inheritedName; 1680 Diag(SuperProperty->getLocation(), diag::note_property_declare); 1681 } 1682 if (Property->getGetterName() != SuperProperty->getGetterName()) { 1683 Diag(Property->getLocation(), diag::warn_property_attribute) 1684 << Property->getDeclName() << "getter" << inheritedName; 1685 Diag(SuperProperty->getLocation(), diag::note_property_declare); 1686 } 1687 1688 QualType LHSType = 1689 Context.getCanonicalType(SuperProperty->getType()); 1690 QualType RHSType = 1691 Context.getCanonicalType(Property->getType()); 1692 1693 if (!Context.propertyTypesAreCompatible(LHSType, RHSType)) { 1694 // Do cases not handled in above. 1695 // FIXME. For future support of covariant property types, revisit this. 1696 bool IncompatibleObjC = false; 1697 QualType ConvertedType; 1698 if (!isObjCPointerConversion(RHSType, LHSType, 1699 ConvertedType, IncompatibleObjC) || 1700 IncompatibleObjC) { 1701 Diag(Property->getLocation(), diag::warn_property_types_are_incompatible) 1702 << Property->getType() << SuperProperty->getType() << inheritedName; 1703 Diag(SuperProperty->getLocation(), diag::note_property_declare); 1704 } 1705 } 1706} 1707 1708bool Sema::DiagnosePropertyAccessorMismatch(ObjCPropertyDecl *property, 1709 ObjCMethodDecl *GetterMethod, 1710 SourceLocation Loc) { 1711 if (!GetterMethod) 1712 return false; 1713 QualType GetterType = GetterMethod->getReturnType().getNonReferenceType(); 1714 QualType PropertyRValueType = 1715 property->getType().getNonReferenceType().getAtomicUnqualifiedType(); 1716 bool compat = Context.hasSameType(PropertyRValueType, GetterType); 1717 if (!compat) { 1718 const ObjCObjectPointerType *propertyObjCPtr = nullptr; 1719 const ObjCObjectPointerType *getterObjCPtr = nullptr; 1720 if ((propertyObjCPtr = 1721 PropertyRValueType->getAs<ObjCObjectPointerType>()) && 1722 (getterObjCPtr = GetterType->getAs<ObjCObjectPointerType>())) 1723 compat = Context.canAssignObjCInterfaces(getterObjCPtr, propertyObjCPtr); 1724 else if (CheckAssignmentConstraints(Loc, GetterType, PropertyRValueType) 1725 != Compatible) { 1726 Diag(Loc, diag::err_property_accessor_type) 1727 << property->getDeclName() << PropertyRValueType 1728 << GetterMethod->getSelector() << GetterType; 1729 Diag(GetterMethod->getLocation(), diag::note_declared_at); 1730 return true; 1731 } else { 1732 compat = true; 1733 QualType lhsType = Context.getCanonicalType(PropertyRValueType); 1734 QualType rhsType =Context.getCanonicalType(GetterType).getUnqualifiedType(); 1735 if (lhsType != rhsType && lhsType->isArithmeticType()) 1736 compat = false; 1737 } 1738 } 1739 1740 if (!compat) { 1741 Diag(Loc, diag::warn_accessor_property_type_mismatch) 1742 << property->getDeclName() 1743 << GetterMethod->getSelector(); 1744 Diag(GetterMethod->getLocation(), diag::note_declared_at); 1745 return true; 1746 } 1747 1748 return false; 1749} 1750 1751/// CollectImmediateProperties - This routine collects all properties in 1752/// the class and its conforming protocols; but not those in its super class. 1753static void 1754CollectImmediateProperties(ObjCContainerDecl *CDecl, 1755 ObjCContainerDecl::PropertyMap &PropMap, 1756 ObjCContainerDecl::PropertyMap &SuperPropMap, 1757 bool CollectClassPropsOnly = false, 1758 bool IncludeProtocols = true) { 1759 if (ObjCInterfaceDecl *IDecl = dyn_cast<ObjCInterfaceDecl>(CDecl)) { 1760 for (auto *Prop : IDecl->properties()) { 1761 if (CollectClassPropsOnly && !Prop->isClassProperty()) 1762 continue; 1763 PropMap[std::make_pair(Prop->getIdentifier(), Prop->isClassProperty())] = 1764 Prop; 1765 } 1766 1767 // Collect the properties from visible extensions. 1768 for (auto *Ext : IDecl->visible_extensions()) 1769 CollectImmediateProperties(Ext, PropMap, SuperPropMap, 1770 CollectClassPropsOnly, IncludeProtocols); 1771 1772 if (IncludeProtocols) { 1773 // Scan through class's protocols. 1774 for (auto *PI : IDecl->all_referenced_protocols()) 1775 CollectImmediateProperties(PI, PropMap, SuperPropMap, 1776 CollectClassPropsOnly); 1777 } 1778 } 1779 if (ObjCCategoryDecl *CATDecl = dyn_cast<ObjCCategoryDecl>(CDecl)) { 1780 for (auto *Prop : CATDecl->properties()) { 1781 if (CollectClassPropsOnly && !Prop->isClassProperty()) 1782 continue; 1783 PropMap[std::make_pair(Prop->getIdentifier(), Prop->isClassProperty())] = 1784 Prop; 1785 } 1786 if (IncludeProtocols) { 1787 // Scan through class's protocols. 1788 for (auto *PI : CATDecl->protocols()) 1789 CollectImmediateProperties(PI, PropMap, SuperPropMap, 1790 CollectClassPropsOnly); 1791 } 1792 } 1793 else if (ObjCProtocolDecl *PDecl = dyn_cast<ObjCProtocolDecl>(CDecl)) { 1794 for (auto *Prop : PDecl->properties()) { 1795 if (CollectClassPropsOnly && !Prop->isClassProperty()) 1796 continue; 1797 ObjCPropertyDecl *PropertyFromSuper = 1798 SuperPropMap[std::make_pair(Prop->getIdentifier(), 1799 Prop->isClassProperty())]; 1800 // Exclude property for protocols which conform to class's super-class, 1801 // as super-class has to implement the property. 1802 if (!PropertyFromSuper || 1803 PropertyFromSuper->getIdentifier() != Prop->getIdentifier()) { 1804 ObjCPropertyDecl *&PropEntry = 1805 PropMap[std::make_pair(Prop->getIdentifier(), 1806 Prop->isClassProperty())]; 1807 if (!PropEntry) 1808 PropEntry = Prop; 1809 } 1810 } 1811 // Scan through protocol's protocols. 1812 for (auto *PI : PDecl->protocols()) 1813 CollectImmediateProperties(PI, PropMap, SuperPropMap, 1814 CollectClassPropsOnly); 1815 } 1816} 1817 1818/// CollectSuperClassPropertyImplementations - This routine collects list of 1819/// properties to be implemented in super class(s) and also coming from their 1820/// conforming protocols. 1821static void CollectSuperClassPropertyImplementations(ObjCInterfaceDecl *CDecl, 1822 ObjCInterfaceDecl::PropertyMap &PropMap) { 1823 if (ObjCInterfaceDecl *SDecl = CDecl->getSuperClass()) { 1824 while (SDecl) { 1825 SDecl->collectPropertiesToImplement(PropMap); 1826 SDecl = SDecl->getSuperClass(); 1827 } 1828 } 1829} 1830 1831/// IvarBacksCurrentMethodAccessor - This routine returns 'true' if 'IV' is 1832/// an ivar synthesized for 'Method' and 'Method' is a property accessor 1833/// declared in class 'IFace'. 1834bool 1835Sema::IvarBacksCurrentMethodAccessor(ObjCInterfaceDecl *IFace, 1836 ObjCMethodDecl *Method, ObjCIvarDecl *IV) { 1837 if (!IV->getSynthesize()) 1838 return false; 1839 ObjCMethodDecl *IMD = IFace->lookupMethod(Method->getSelector(), 1840 Method->isInstanceMethod()); 1841 if (!IMD || !IMD->isPropertyAccessor()) 1842 return false; 1843 1844 // look up a property declaration whose one of its accessors is implemented 1845 // by this method. 1846 for (const auto *Property : IFace->instance_properties()) { 1847 if ((Property->getGetterName() == IMD->getSelector() || 1848 Property->getSetterName() == IMD->getSelector()) && 1849 (Property->getPropertyIvarDecl() == IV)) 1850 return true; 1851 } 1852 // Also look up property declaration in class extension whose one of its 1853 // accessors is implemented by this method. 1854 for (const auto *Ext : IFace->known_extensions()) 1855 for (const auto *Property : Ext->instance_properties()) 1856 if ((Property->getGetterName() == IMD->getSelector() || 1857 Property->getSetterName() == IMD->getSelector()) && 1858 (Property->getPropertyIvarDecl() == IV)) 1859 return true; 1860 return false; 1861} 1862 1863static bool SuperClassImplementsProperty(ObjCInterfaceDecl *IDecl, 1864 ObjCPropertyDecl *Prop) { 1865 bool SuperClassImplementsGetter = false; 1866 bool SuperClassImplementsSetter = false; 1867 if (Prop->getPropertyAttributes() & ObjCPropertyAttribute::kind_readonly) 1868 SuperClassImplementsSetter = true; 1869 1870 while (IDecl->getSuperClass()) { 1871 ObjCInterfaceDecl *SDecl = IDecl->getSuperClass(); 1872 if (!SuperClassImplementsGetter && SDecl->getInstanceMethod(Prop->getGetterName())) 1873 SuperClassImplementsGetter = true; 1874 1875 if (!SuperClassImplementsSetter && SDecl->getInstanceMethod(Prop->getSetterName())) 1876 SuperClassImplementsSetter = true; 1877 if (SuperClassImplementsGetter && SuperClassImplementsSetter) 1878 return true; 1879 IDecl = IDecl->getSuperClass(); 1880 } 1881 return false; 1882} 1883 1884/// Default synthesizes all properties which must be synthesized 1885/// in class's \@implementation. 1886void Sema::DefaultSynthesizeProperties(Scope *S, ObjCImplDecl *IMPDecl, 1887 ObjCInterfaceDecl *IDecl, 1888 SourceLocation AtEnd) { 1889 ObjCInterfaceDecl::PropertyMap PropMap; 1890 IDecl->collectPropertiesToImplement(PropMap); 1891 if (PropMap.empty()) 1892 return; 1893 ObjCInterfaceDecl::PropertyMap SuperPropMap; 1894 CollectSuperClassPropertyImplementations(IDecl, SuperPropMap); 1895 1896 for (const auto &PropEntry : PropMap) { 1897 ObjCPropertyDecl *Prop = PropEntry.second; 1898 // Is there a matching property synthesize/dynamic? 1899 if (Prop->isInvalidDecl() || 1900 Prop->isClassProperty() || 1901 Prop->getPropertyImplementation() == ObjCPropertyDecl::Optional) 1902 continue; 1903 // Property may have been synthesized by user. 1904 if (IMPDecl->FindPropertyImplDecl( 1905 Prop->getIdentifier(), Prop->getQueryKind())) 1906 continue; 1907 ObjCMethodDecl *ImpMethod = IMPDecl->getInstanceMethod(Prop->getGetterName()); 1908 if (ImpMethod && !ImpMethod->getBody()) { 1909 if (Prop->getPropertyAttributes() & ObjCPropertyAttribute::kind_readonly) 1910 continue; 1911 ImpMethod = IMPDecl->getInstanceMethod(Prop->getSetterName()); 1912 if (ImpMethod && !ImpMethod->getBody()) 1913 continue; 1914 } 1915 if (ObjCPropertyImplDecl *PID = 1916 IMPDecl->FindPropertyImplIvarDecl(Prop->getIdentifier())) { 1917 Diag(Prop->getLocation(), diag::warn_no_autosynthesis_shared_ivar_property) 1918 << Prop->getIdentifier(); 1919 if (PID->getLocation().isValid()) 1920 Diag(PID->getLocation(), diag::note_property_synthesize); 1921 continue; 1922 } 1923 ObjCPropertyDecl *PropInSuperClass = 1924 SuperPropMap[std::make_pair(Prop->getIdentifier(), 1925 Prop->isClassProperty())]; 1926 if (ObjCProtocolDecl *Proto = 1927 dyn_cast<ObjCProtocolDecl>(Prop->getDeclContext())) { 1928 // We won't auto-synthesize properties declared in protocols. 1929 // Suppress the warning if class's superclass implements property's 1930 // getter and implements property's setter (if readwrite property). 1931 // Or, if property is going to be implemented in its super class. 1932 if (!SuperClassImplementsProperty(IDecl, Prop) && !PropInSuperClass) { 1933 Diag(IMPDecl->getLocation(), 1934 diag::warn_auto_synthesizing_protocol_property) 1935 << Prop << Proto; 1936 Diag(Prop->getLocation(), diag::note_property_declare); 1937 std::string FixIt = 1938 (Twine("@synthesize ") + Prop->getName() + ";\n\n").str(); 1939 Diag(AtEnd, diag::note_add_synthesize_directive) 1940 << FixItHint::CreateInsertion(AtEnd, FixIt); 1941 } 1942 continue; 1943 } 1944 // If property to be implemented in the super class, ignore. 1945 if (PropInSuperClass) { 1946 if ((Prop->getPropertyAttributes() & 1947 ObjCPropertyAttribute::kind_readwrite) && 1948 (PropInSuperClass->getPropertyAttributes() & 1949 ObjCPropertyAttribute::kind_readonly) && 1950 !IMPDecl->getInstanceMethod(Prop->getSetterName()) && 1951 !IDecl->HasUserDeclaredSetterMethod(Prop)) { 1952 Diag(Prop->getLocation(), diag::warn_no_autosynthesis_property) 1953 << Prop->getIdentifier(); 1954 Diag(PropInSuperClass->getLocation(), diag::note_property_declare); 1955 } else { 1956 Diag(Prop->getLocation(), diag::warn_autosynthesis_property_in_superclass) 1957 << Prop->getIdentifier(); 1958 Diag(PropInSuperClass->getLocation(), diag::note_property_declare); 1959 Diag(IMPDecl->getLocation(), diag::note_while_in_implementation); 1960 } 1961 continue; 1962 } 1963 // We use invalid SourceLocations for the synthesized ivars since they 1964 // aren't really synthesized at a particular location; they just exist. 1965 // Saying that they are located at the @implementation isn't really going 1966 // to help users. 1967 ObjCPropertyImplDecl *PIDecl = dyn_cast_or_null<ObjCPropertyImplDecl>( 1968 ActOnPropertyImplDecl(S, SourceLocation(), SourceLocation(), 1969 true, 1970 /* property = */ Prop->getIdentifier(), 1971 /* ivar = */ Prop->getDefaultSynthIvarName(Context), 1972 Prop->getLocation(), Prop->getQueryKind())); 1973 if (PIDecl && !Prop->isUnavailable()) { 1974 Diag(Prop->getLocation(), diag::warn_missing_explicit_synthesis); 1975 Diag(IMPDecl->getLocation(), diag::note_while_in_implementation); 1976 } 1977 } 1978} 1979 1980void Sema::DefaultSynthesizeProperties(Scope *S, Decl *D, 1981 SourceLocation AtEnd) { 1982 if (!LangOpts.ObjCDefaultSynthProperties || LangOpts.ObjCRuntime.isFragile()) 1983 return; 1984 ObjCImplementationDecl *IC=dyn_cast_or_null<ObjCImplementationDecl>(D); 1985 if (!IC) 1986 return; 1987 if (ObjCInterfaceDecl* IDecl = IC->getClassInterface()) 1988 if (!IDecl->isObjCRequiresPropertyDefs()) 1989 DefaultSynthesizeProperties(S, IC, IDecl, AtEnd); 1990} 1991 1992static void DiagnoseUnimplementedAccessor( 1993 Sema &S, ObjCInterfaceDecl *PrimaryClass, Selector Method, 1994 ObjCImplDecl *IMPDecl, ObjCContainerDecl *CDecl, ObjCCategoryDecl *C, 1995 ObjCPropertyDecl *Prop, 1996 llvm::SmallPtrSet<const ObjCMethodDecl *, 8> &SMap) { 1997 // Check to see if we have a corresponding selector in SMap and with the 1998 // right method type. 1999 auto I = llvm::find_if(SMap, [&](const ObjCMethodDecl *x) { 2000 return x->getSelector() == Method && 2001 x->isClassMethod() == Prop->isClassProperty(); 2002 }); 2003 // When reporting on missing property setter/getter implementation in 2004 // categories, do not report when they are declared in primary class, 2005 // class's protocol, or one of it super classes. This is because, 2006 // the class is going to implement them. 2007 if (I == SMap.end() && 2008 (PrimaryClass == nullptr || 2009 !PrimaryClass->lookupPropertyAccessor(Method, C, 2010 Prop->isClassProperty()))) { 2011 unsigned diag = 2012 isa<ObjCCategoryDecl>(CDecl) 2013 ? (Prop->isClassProperty() 2014 ? diag::warn_impl_required_in_category_for_class_property 2015 : diag::warn_setter_getter_impl_required_in_category) 2016 : (Prop->isClassProperty() 2017 ? diag::warn_impl_required_for_class_property 2018 : diag::warn_setter_getter_impl_required); 2019 S.Diag(IMPDecl->getLocation(), diag) << Prop->getDeclName() << Method; 2020 S.Diag(Prop->getLocation(), diag::note_property_declare); 2021 if (S.LangOpts.ObjCDefaultSynthProperties && 2022 S.LangOpts.ObjCRuntime.isNonFragile()) 2023 if (ObjCInterfaceDecl *ID = dyn_cast<ObjCInterfaceDecl>(CDecl)) 2024 if (const ObjCInterfaceDecl *RID = ID->isObjCRequiresPropertyDefs()) 2025 S.Diag(RID->getLocation(), diag::note_suppressed_class_declare); 2026 } 2027} 2028 2029void Sema::DiagnoseUnimplementedProperties(Scope *S, ObjCImplDecl* IMPDecl, 2030 ObjCContainerDecl *CDecl, 2031 bool SynthesizeProperties) { 2032 ObjCContainerDecl::PropertyMap PropMap; 2033 ObjCInterfaceDecl *IDecl = dyn_cast<ObjCInterfaceDecl>(CDecl); 2034 2035 // Since we don't synthesize class properties, we should emit diagnose even 2036 // if SynthesizeProperties is true. 2037 ObjCContainerDecl::PropertyMap NoNeedToImplPropMap; 2038 // Gather properties which need not be implemented in this class 2039 // or category. 2040 if (!IDecl) 2041 if (ObjCCategoryDecl *C = dyn_cast<ObjCCategoryDecl>(CDecl)) { 2042 // For categories, no need to implement properties declared in 2043 // its primary class (and its super classes) if property is 2044 // declared in one of those containers. 2045 if ((IDecl = C->getClassInterface())) { 2046 IDecl->collectPropertiesToImplement(NoNeedToImplPropMap); 2047 } 2048 } 2049 if (IDecl) 2050 CollectSuperClassPropertyImplementations(IDecl, NoNeedToImplPropMap); 2051 2052 // When SynthesizeProperties is true, we only check class properties. 2053 CollectImmediateProperties(CDecl, PropMap, NoNeedToImplPropMap, 2054 SynthesizeProperties/*CollectClassPropsOnly*/); 2055 2056 // Scan the @interface to see if any of the protocols it adopts 2057 // require an explicit implementation, via attribute 2058 // 'objc_protocol_requires_explicit_implementation'. 2059 if (IDecl) { 2060 std::unique_ptr<ObjCContainerDecl::PropertyMap> LazyMap; 2061 2062 for (auto *PDecl : IDecl->all_referenced_protocols()) { 2063 if (!PDecl->hasAttr<ObjCExplicitProtocolImplAttr>()) 2064 continue; 2065 // Lazily construct a set of all the properties in the @interface 2066 // of the class, without looking at the superclass. We cannot 2067 // use the call to CollectImmediateProperties() above as that 2068 // utilizes information from the super class's properties as well 2069 // as scans the adopted protocols. This work only triggers for protocols 2070 // with the attribute, which is very rare, and only occurs when 2071 // analyzing the @implementation. 2072 if (!LazyMap) { 2073 ObjCContainerDecl::PropertyMap NoNeedToImplPropMap; 2074 LazyMap.reset(new ObjCContainerDecl::PropertyMap()); 2075 CollectImmediateProperties(CDecl, *LazyMap, NoNeedToImplPropMap, 2076 /* CollectClassPropsOnly */ false, 2077 /* IncludeProtocols */ false); 2078 } 2079 // Add the properties of 'PDecl' to the list of properties that 2080 // need to be implemented. 2081 for (auto *PropDecl : PDecl->properties()) { 2082 if ((*LazyMap)[std::make_pair(PropDecl->getIdentifier(), 2083 PropDecl->isClassProperty())]) 2084 continue; 2085 PropMap[std::make_pair(PropDecl->getIdentifier(), 2086 PropDecl->isClassProperty())] = PropDecl; 2087 } 2088 } 2089 } 2090 2091 if (PropMap.empty()) 2092 return; 2093 2094 llvm::DenseSet<ObjCPropertyDecl *> PropImplMap; 2095 for (const auto *I : IMPDecl->property_impls()) 2096 PropImplMap.insert(I->getPropertyDecl()); 2097 2098 llvm::SmallPtrSet<const ObjCMethodDecl *, 8> InsMap; 2099 // Collect property accessors implemented in current implementation. 2100 for (const auto *I : IMPDecl->methods()) 2101 InsMap.insert(I); 2102 2103 ObjCCategoryDecl *C = dyn_cast<ObjCCategoryDecl>(CDecl); 2104 ObjCInterfaceDecl *PrimaryClass = nullptr; 2105 if (C && !C->IsClassExtension()) 2106 if ((PrimaryClass = C->getClassInterface())) 2107 // Report unimplemented properties in the category as well. 2108 if (ObjCImplDecl *IMP = PrimaryClass->getImplementation()) { 2109 // When reporting on missing setter/getters, do not report when 2110 // setter/getter is implemented in category's primary class 2111 // implementation. 2112 for (const auto *I : IMP->methods()) 2113 InsMap.insert(I); 2114 } 2115 2116 for (ObjCContainerDecl::PropertyMap::iterator 2117 P = PropMap.begin(), E = PropMap.end(); P != E; ++P) { 2118 ObjCPropertyDecl *Prop = P->second; 2119 // Is there a matching property synthesize/dynamic? 2120 if (Prop->isInvalidDecl() || 2121 Prop->getPropertyImplementation() == ObjCPropertyDecl::Optional || 2122 PropImplMap.count(Prop) || 2123 Prop->getAvailability() == AR_Unavailable) 2124 continue; 2125 2126 // Diagnose unimplemented getters and setters. 2127 DiagnoseUnimplementedAccessor(*this, 2128 PrimaryClass, Prop->getGetterName(), IMPDecl, CDecl, C, Prop, InsMap); 2129 if (!Prop->isReadOnly()) 2130 DiagnoseUnimplementedAccessor(*this, 2131 PrimaryClass, Prop->getSetterName(), 2132 IMPDecl, CDecl, C, Prop, InsMap); 2133 } 2134} 2135 2136void Sema::diagnoseNullResettableSynthesizedSetters(const ObjCImplDecl *impDecl) { 2137 for (const auto *propertyImpl : impDecl->property_impls()) { 2138 const auto *property = propertyImpl->getPropertyDecl(); 2139 // Warn about null_resettable properties with synthesized setters, 2140 // because the setter won't properly handle nil. 2141 if (propertyImpl->getPropertyImplementation() == 2142 ObjCPropertyImplDecl::Synthesize && 2143 (property->getPropertyAttributes() & 2144 ObjCPropertyAttribute::kind_null_resettable) && 2145 property->getGetterMethodDecl() && property->getSetterMethodDecl()) { 2146 auto *getterImpl = propertyImpl->getGetterMethodDecl(); 2147 auto *setterImpl = propertyImpl->getSetterMethodDecl(); 2148 if ((!getterImpl || getterImpl->isSynthesizedAccessorStub()) && 2149 (!setterImpl || setterImpl->isSynthesizedAccessorStub())) { 2150 SourceLocation loc = propertyImpl->getLocation(); 2151 if (loc.isInvalid()) 2152 loc = impDecl->getBeginLoc(); 2153 2154 Diag(loc, diag::warn_null_resettable_setter) 2155 << setterImpl->getSelector() << property->getDeclName(); 2156 } 2157 } 2158 } 2159} 2160 2161void 2162Sema::AtomicPropertySetterGetterRules (ObjCImplDecl* IMPDecl, 2163 ObjCInterfaceDecl* IDecl) { 2164 // Rules apply in non-GC mode only 2165 if (getLangOpts().getGC() != LangOptions::NonGC) 2166 return; 2167 ObjCContainerDecl::PropertyMap PM; 2168 for (auto *Prop : IDecl->properties()) 2169 PM[std::make_pair(Prop->getIdentifier(), Prop->isClassProperty())] = Prop; 2170 for (const auto *Ext : IDecl->known_extensions()) 2171 for (auto *Prop : Ext->properties()) 2172 PM[std::make_pair(Prop->getIdentifier(), Prop->isClassProperty())] = Prop; 2173 2174 for (ObjCContainerDecl::PropertyMap::iterator I = PM.begin(), E = PM.end(); 2175 I != E; ++I) { 2176 const ObjCPropertyDecl *Property = I->second; 2177 ObjCMethodDecl *GetterMethod = nullptr; 2178 ObjCMethodDecl *SetterMethod = nullptr; 2179 2180 unsigned Attributes = Property->getPropertyAttributes(); 2181 unsigned AttributesAsWritten = Property->getPropertyAttributesAsWritten(); 2182 2183 if (!(AttributesAsWritten & ObjCPropertyAttribute::kind_atomic) && 2184 !(AttributesAsWritten & ObjCPropertyAttribute::kind_nonatomic)) { 2185 GetterMethod = Property->isClassProperty() ? 2186 IMPDecl->getClassMethod(Property->getGetterName()) : 2187 IMPDecl->getInstanceMethod(Property->getGetterName()); 2188 SetterMethod = Property->isClassProperty() ? 2189 IMPDecl->getClassMethod(Property->getSetterName()) : 2190 IMPDecl->getInstanceMethod(Property->getSetterName()); 2191 if (GetterMethod && GetterMethod->isSynthesizedAccessorStub()) 2192 GetterMethod = nullptr; 2193 if (SetterMethod && SetterMethod->isSynthesizedAccessorStub()) 2194 SetterMethod = nullptr; 2195 if (GetterMethod) { 2196 Diag(GetterMethod->getLocation(), 2197 diag::warn_default_atomic_custom_getter_setter) 2198 << Property->getIdentifier() << 0; 2199 Diag(Property->getLocation(), diag::note_property_declare); 2200 } 2201 if (SetterMethod) { 2202 Diag(SetterMethod->getLocation(), 2203 diag::warn_default_atomic_custom_getter_setter) 2204 << Property->getIdentifier() << 1; 2205 Diag(Property->getLocation(), diag::note_property_declare); 2206 } 2207 } 2208 2209 // We only care about readwrite atomic property. 2210 if ((Attributes & ObjCPropertyAttribute::kind_nonatomic) || 2211 !(Attributes & ObjCPropertyAttribute::kind_readwrite)) 2212 continue; 2213 if (const ObjCPropertyImplDecl *PIDecl = IMPDecl->FindPropertyImplDecl( 2214 Property->getIdentifier(), Property->getQueryKind())) { 2215 if (PIDecl->getPropertyImplementation() == ObjCPropertyImplDecl::Dynamic) 2216 continue; 2217 GetterMethod = PIDecl->getGetterMethodDecl(); 2218 SetterMethod = PIDecl->getSetterMethodDecl(); 2219 if (GetterMethod && GetterMethod->isSynthesizedAccessorStub()) 2220 GetterMethod = nullptr; 2221 if (SetterMethod && SetterMethod->isSynthesizedAccessorStub()) 2222 SetterMethod = nullptr; 2223 if ((bool)GetterMethod ^ (bool)SetterMethod) { 2224 SourceLocation MethodLoc = 2225 (GetterMethod ? GetterMethod->getLocation() 2226 : SetterMethod->getLocation()); 2227 Diag(MethodLoc, diag::warn_atomic_property_rule) 2228 << Property->getIdentifier() << (GetterMethod != nullptr) 2229 << (SetterMethod != nullptr); 2230 // fixit stuff. 2231 if (Property->getLParenLoc().isValid() && 2232 !(AttributesAsWritten & ObjCPropertyAttribute::kind_atomic)) { 2233 // @property () ... case. 2234 SourceLocation AfterLParen = 2235 getLocForEndOfToken(Property->getLParenLoc()); 2236 StringRef NonatomicStr = AttributesAsWritten? "nonatomic, " 2237 : "nonatomic"; 2238 Diag(Property->getLocation(), 2239 diag::note_atomic_property_fixup_suggest) 2240 << FixItHint::CreateInsertion(AfterLParen, NonatomicStr); 2241 } else if (Property->getLParenLoc().isInvalid()) { 2242 //@property id etc. 2243 SourceLocation startLoc = 2244 Property->getTypeSourceInfo()->getTypeLoc().getBeginLoc(); 2245 Diag(Property->getLocation(), 2246 diag::note_atomic_property_fixup_suggest) 2247 << FixItHint::CreateInsertion(startLoc, "(nonatomic) "); 2248 } else 2249 Diag(MethodLoc, diag::note_atomic_property_fixup_suggest); 2250 Diag(Property->getLocation(), diag::note_property_declare); 2251 } 2252 } 2253 } 2254} 2255 2256void Sema::DiagnoseOwningPropertyGetterSynthesis(const ObjCImplementationDecl *D) { 2257 if (getLangOpts().getGC() == LangOptions::GCOnly) 2258 return; 2259 2260 for (const auto *PID : D->property_impls()) { 2261 const ObjCPropertyDecl *PD = PID->getPropertyDecl(); 2262 if (PD && !PD->hasAttr<NSReturnsNotRetainedAttr>() && 2263 !PD->isClassProperty()) { 2264 ObjCMethodDecl *IM = PID->getGetterMethodDecl(); 2265 if (IM && !IM->isSynthesizedAccessorStub()) 2266 continue; 2267 ObjCMethodDecl *method = PD->getGetterMethodDecl(); 2268 if (!method) 2269 continue; 2270 ObjCMethodFamily family = method->getMethodFamily(); 2271 if (family == OMF_alloc || family == OMF_copy || 2272 family == OMF_mutableCopy || family == OMF_new) { 2273 if (getLangOpts().ObjCAutoRefCount) 2274 Diag(PD->getLocation(), diag::err_cocoa_naming_owned_rule); 2275 else 2276 Diag(PD->getLocation(), diag::warn_cocoa_naming_owned_rule); 2277 2278 // Look for a getter explicitly declared alongside the property. 2279 // If we find one, use its location for the note. 2280 SourceLocation noteLoc = PD->getLocation(); 2281 SourceLocation fixItLoc; 2282 for (auto *getterRedecl : method->redecls()) { 2283 if (getterRedecl->isImplicit()) 2284 continue; 2285 if (getterRedecl->getDeclContext() != PD->getDeclContext()) 2286 continue; 2287 noteLoc = getterRedecl->getLocation(); 2288 fixItLoc = getterRedecl->getEndLoc(); 2289 } 2290 2291 Preprocessor &PP = getPreprocessor(); 2292 TokenValue tokens[] = { 2293 tok::kw___attribute, tok::l_paren, tok::l_paren, 2294 PP.getIdentifierInfo("objc_method_family"), tok::l_paren, 2295 PP.getIdentifierInfo("none"), tok::r_paren, 2296 tok::r_paren, tok::r_paren 2297 }; 2298 StringRef spelling = "__attribute__((objc_method_family(none)))"; 2299 StringRef macroName = PP.getLastMacroWithSpelling(noteLoc, tokens); 2300 if (!macroName.empty()) 2301 spelling = macroName; 2302 2303 auto noteDiag = Diag(noteLoc, diag::note_cocoa_naming_declare_family) 2304 << method->getDeclName() << spelling; 2305 if (fixItLoc.isValid()) { 2306 SmallString<64> fixItText(" "); 2307 fixItText += spelling; 2308 noteDiag << FixItHint::CreateInsertion(fixItLoc, fixItText); 2309 } 2310 } 2311 } 2312 } 2313} 2314 2315void Sema::DiagnoseMissingDesignatedInitOverrides( 2316 const ObjCImplementationDecl *ImplD, 2317 const ObjCInterfaceDecl *IFD) { 2318 assert(IFD->hasDesignatedInitializers()); 2319 const ObjCInterfaceDecl *SuperD = IFD->getSuperClass(); 2320 if (!SuperD) 2321 return; 2322 2323 SelectorSet InitSelSet; 2324 for (const auto *I : ImplD->instance_methods()) 2325 if (I->getMethodFamily() == OMF_init) 2326 InitSelSet.insert(I->getSelector()); 2327 2328 SmallVector<const ObjCMethodDecl *, 8> DesignatedInits; 2329 SuperD->getDesignatedInitializers(DesignatedInits); 2330 for (SmallVector<const ObjCMethodDecl *, 8>::iterator 2331 I = DesignatedInits.begin(), E = DesignatedInits.end(); I != E; ++I) { 2332 const ObjCMethodDecl *MD = *I; 2333 if (!InitSelSet.count(MD->getSelector())) { 2334 // Don't emit a diagnostic if the overriding method in the subclass is 2335 // marked as unavailable. 2336 bool Ignore = false; 2337 if (auto *IMD = IFD->getInstanceMethod(MD->getSelector())) { 2338 Ignore = IMD->isUnavailable(); 2339 } else { 2340 // Check the methods declared in the class extensions too. 2341 for (auto *Ext : IFD->visible_extensions()) 2342 if (auto *IMD = Ext->getInstanceMethod(MD->getSelector())) { 2343 Ignore = IMD->isUnavailable(); 2344 break; 2345 } 2346 } 2347 if (!Ignore) { 2348 Diag(ImplD->getLocation(), 2349 diag::warn_objc_implementation_missing_designated_init_override) 2350 << MD->getSelector(); 2351 Diag(MD->getLocation(), diag::note_objc_designated_init_marked_here); 2352 } 2353 } 2354 } 2355} 2356 2357/// AddPropertyAttrs - Propagates attributes from a property to the 2358/// implicitly-declared getter or setter for that property. 2359static void AddPropertyAttrs(Sema &S, ObjCMethodDecl *PropertyMethod, 2360 ObjCPropertyDecl *Property) { 2361 // Should we just clone all attributes over? 2362 for (const auto *A : Property->attrs()) { 2363 if (isa<DeprecatedAttr>(A) || 2364 isa<UnavailableAttr>(A) || 2365 isa<AvailabilityAttr>(A)) 2366 PropertyMethod->addAttr(A->clone(S.Context)); 2367 } 2368} 2369 2370/// ProcessPropertyDecl - Make sure that any user-defined setter/getter methods 2371/// have the property type and issue diagnostics if they don't. 2372/// Also synthesize a getter/setter method if none exist (and update the 2373/// appropriate lookup tables. 2374void Sema::ProcessPropertyDecl(ObjCPropertyDecl *property) { 2375 ObjCMethodDecl *GetterMethod, *SetterMethod; 2376 ObjCContainerDecl *CD = cast<ObjCContainerDecl>(property->getDeclContext()); 2377 if (CD->isInvalidDecl()) 2378 return; 2379 2380 bool IsClassProperty = property->isClassProperty(); 2381 GetterMethod = IsClassProperty ? 2382 CD->getClassMethod(property->getGetterName()) : 2383 CD->getInstanceMethod(property->getGetterName()); 2384 2385 // if setter or getter is not found in class extension, it might be 2386 // in the primary class. 2387 if (!GetterMethod) 2388 if (const ObjCCategoryDecl *CatDecl = dyn_cast<ObjCCategoryDecl>(CD)) 2389 if (CatDecl->IsClassExtension()) 2390 GetterMethod = IsClassProperty ? CatDecl->getClassInterface()-> 2391 getClassMethod(property->getGetterName()) : 2392 CatDecl->getClassInterface()-> 2393 getInstanceMethod(property->getGetterName()); 2394 2395 SetterMethod = IsClassProperty ? 2396 CD->getClassMethod(property->getSetterName()) : 2397 CD->getInstanceMethod(property->getSetterName()); 2398 if (!SetterMethod) 2399 if (const ObjCCategoryDecl *CatDecl = dyn_cast<ObjCCategoryDecl>(CD)) 2400 if (CatDecl->IsClassExtension()) 2401 SetterMethod = IsClassProperty ? CatDecl->getClassInterface()-> 2402 getClassMethod(property->getSetterName()) : 2403 CatDecl->getClassInterface()-> 2404 getInstanceMethod(property->getSetterName()); 2405 DiagnosePropertyAccessorMismatch(property, GetterMethod, 2406 property->getLocation()); 2407 2408 // synthesizing accessors must not result in a direct method that is not 2409 // monomorphic 2410 if (!GetterMethod) { 2411 if (const ObjCCategoryDecl *CatDecl = dyn_cast<ObjCCategoryDecl>(CD)) { 2412 auto *ExistingGetter = CatDecl->getClassInterface()->lookupMethod( 2413 property->getGetterName(), !IsClassProperty, true, false, CatDecl); 2414 if (ExistingGetter) { 2415 if (ExistingGetter->isDirectMethod() || property->isDirectProperty()) { 2416 Diag(property->getLocation(), diag::err_objc_direct_duplicate_decl) 2417 << property->isDirectProperty() << 1 /* property */ 2418 << ExistingGetter->isDirectMethod() 2419 << ExistingGetter->getDeclName(); 2420 Diag(ExistingGetter->getLocation(), diag::note_previous_declaration); 2421 } 2422 } 2423 } 2424 } 2425 2426 if (!property->isReadOnly() && !SetterMethod) { 2427 if (const ObjCCategoryDecl *CatDecl = dyn_cast<ObjCCategoryDecl>(CD)) { 2428 auto *ExistingSetter = CatDecl->getClassInterface()->lookupMethod( 2429 property->getSetterName(), !IsClassProperty, true, false, CatDecl); 2430 if (ExistingSetter) { 2431 if (ExistingSetter->isDirectMethod() || property->isDirectProperty()) { 2432 Diag(property->getLocation(), diag::err_objc_direct_duplicate_decl) 2433 << property->isDirectProperty() << 1 /* property */ 2434 << ExistingSetter->isDirectMethod() 2435 << ExistingSetter->getDeclName(); 2436 Diag(ExistingSetter->getLocation(), diag::note_previous_declaration); 2437 } 2438 } 2439 } 2440 } 2441 2442 if (!property->isReadOnly() && SetterMethod) { 2443 if (Context.getCanonicalType(SetterMethod->getReturnType()) != 2444 Context.VoidTy) 2445 Diag(SetterMethod->getLocation(), diag::err_setter_type_void); 2446 if (SetterMethod->param_size() != 1 || 2447 !Context.hasSameUnqualifiedType( 2448 (*SetterMethod->param_begin())->getType().getNonReferenceType(), 2449 property->getType().getNonReferenceType())) { 2450 Diag(property->getLocation(), 2451 diag::warn_accessor_property_type_mismatch) 2452 << property->getDeclName() 2453 << SetterMethod->getSelector(); 2454 Diag(SetterMethod->getLocation(), diag::note_declared_at); 2455 } 2456 } 2457 2458 // Synthesize getter/setter methods if none exist. 2459 // Find the default getter and if one not found, add one. 2460 // FIXME: The synthesized property we set here is misleading. We almost always 2461 // synthesize these methods unless the user explicitly provided prototypes 2462 // (which is odd, but allowed). Sema should be typechecking that the 2463 // declarations jive in that situation (which it is not currently). 2464 if (!GetterMethod) { 2465 // No instance/class method of same name as property getter name was found. 2466 // Declare a getter method and add it to the list of methods 2467 // for this class. 2468 SourceLocation Loc = property->getLocation(); 2469 2470 // The getter returns the declared property type with all qualifiers 2471 // removed. 2472 QualType resultTy = property->getType().getAtomicUnqualifiedType(); 2473 2474 // If the property is null_resettable, the getter returns nonnull. 2475 if (property->getPropertyAttributes() & 2476 ObjCPropertyAttribute::kind_null_resettable) { 2477 QualType modifiedTy = resultTy; 2478 if (auto nullability = AttributedType::stripOuterNullability(modifiedTy)) { 2479 if (*nullability == NullabilityKind::Unspecified) 2480 resultTy = Context.getAttributedType(attr::TypeNonNull, 2481 modifiedTy, modifiedTy); 2482 } 2483 } 2484 2485 GetterMethod = ObjCMethodDecl::Create( 2486 Context, Loc, Loc, property->getGetterName(), resultTy, nullptr, CD, 2487 !IsClassProperty, /*isVariadic=*/false, 2488 /*isPropertyAccessor=*/true, /*isSynthesizedAccessorStub=*/false, 2489 /*isImplicitlyDeclared=*/true, /*isDefined=*/false, 2490 (property->getPropertyImplementation() == ObjCPropertyDecl::Optional) 2491 ? ObjCImplementationControl::Optional 2492 : ObjCImplementationControl::Required); 2493 CD->addDecl(GetterMethod); 2494 2495 AddPropertyAttrs(*this, GetterMethod, property); 2496 2497 if (property->isDirectProperty()) 2498 GetterMethod->addAttr(ObjCDirectAttr::CreateImplicit(Context, Loc)); 2499 2500 if (property->hasAttr<NSReturnsNotRetainedAttr>()) 2501 GetterMethod->addAttr(NSReturnsNotRetainedAttr::CreateImplicit(Context, 2502 Loc)); 2503 2504 if (property->hasAttr<ObjCReturnsInnerPointerAttr>()) 2505 GetterMethod->addAttr( 2506 ObjCReturnsInnerPointerAttr::CreateImplicit(Context, Loc)); 2507 2508 if (const SectionAttr *SA = property->getAttr<SectionAttr>()) 2509 GetterMethod->addAttr(SectionAttr::CreateImplicit( 2510 Context, SA->getName(), Loc, SectionAttr::GNU_section)); 2511 2512 if (getLangOpts().ObjCAutoRefCount) 2513 CheckARCMethodDecl(GetterMethod); 2514 } else 2515 // A user declared getter will be synthesize when @synthesize of 2516 // the property with the same name is seen in the @implementation 2517 GetterMethod->setPropertyAccessor(true); 2518 2519 GetterMethod->createImplicitParams(Context, 2520 GetterMethod->getClassInterface()); 2521 property->setGetterMethodDecl(GetterMethod); 2522 2523 // Skip setter if property is read-only. 2524 if (!property->isReadOnly()) { 2525 // Find the default setter and if one not found, add one. 2526 if (!SetterMethod) { 2527 // No instance/class method of same name as property setter name was 2528 // found. 2529 // Declare a setter method and add it to the list of methods 2530 // for this class. 2531 SourceLocation Loc = property->getLocation(); 2532 2533 SetterMethod = ObjCMethodDecl::Create( 2534 Context, Loc, Loc, property->getSetterName(), Context.VoidTy, nullptr, 2535 CD, !IsClassProperty, 2536 /*isVariadic=*/false, 2537 /*isPropertyAccessor=*/true, 2538 /*isSynthesizedAccessorStub=*/false, 2539 /*isImplicitlyDeclared=*/true, 2540 /*isDefined=*/false, 2541 (property->getPropertyImplementation() == ObjCPropertyDecl::Optional) 2542 ? ObjCImplementationControl::Optional 2543 : ObjCImplementationControl::Required); 2544 2545 // Remove all qualifiers from the setter's parameter type. 2546 QualType paramTy = 2547 property->getType().getUnqualifiedType().getAtomicUnqualifiedType(); 2548 2549 // If the property is null_resettable, the setter accepts a 2550 // nullable value. 2551 if (property->getPropertyAttributes() & 2552 ObjCPropertyAttribute::kind_null_resettable) { 2553 QualType modifiedTy = paramTy; 2554 if (auto nullability = AttributedType::stripOuterNullability(modifiedTy)){ 2555 if (*nullability == NullabilityKind::Unspecified) 2556 paramTy = Context.getAttributedType(attr::TypeNullable, 2557 modifiedTy, modifiedTy); 2558 } 2559 } 2560 2561 // Invent the arguments for the setter. We don't bother making a 2562 // nice name for the argument. 2563 ParmVarDecl *Argument = ParmVarDecl::Create(Context, SetterMethod, 2564 Loc, Loc, 2565 property->getIdentifier(), 2566 paramTy, 2567 /*TInfo=*/nullptr, 2568 SC_None, 2569 nullptr); 2570 SetterMethod->setMethodParams(Context, Argument, std::nullopt); 2571 2572 AddPropertyAttrs(*this, SetterMethod, property); 2573 2574 if (property->isDirectProperty()) 2575 SetterMethod->addAttr(ObjCDirectAttr::CreateImplicit(Context, Loc)); 2576 2577 CD->addDecl(SetterMethod); 2578 if (const SectionAttr *SA = property->getAttr<SectionAttr>()) 2579 SetterMethod->addAttr(SectionAttr::CreateImplicit( 2580 Context, SA->getName(), Loc, SectionAttr::GNU_section)); 2581 // It's possible for the user to have set a very odd custom 2582 // setter selector that causes it to have a method family. 2583 if (getLangOpts().ObjCAutoRefCount) 2584 CheckARCMethodDecl(SetterMethod); 2585 } else 2586 // A user declared setter will be synthesize when @synthesize of 2587 // the property with the same name is seen in the @implementation 2588 SetterMethod->setPropertyAccessor(true); 2589 2590 SetterMethod->createImplicitParams(Context, 2591 SetterMethod->getClassInterface()); 2592 property->setSetterMethodDecl(SetterMethod); 2593 } 2594 // Add any synthesized methods to the global pool. This allows us to 2595 // handle the following, which is supported by GCC (and part of the design). 2596 // 2597 // @interface Foo 2598 // @property double bar; 2599 // @end 2600 // 2601 // void thisIsUnfortunate() { 2602 // id foo; 2603 // double bar = [foo bar]; 2604 // } 2605 // 2606 if (!IsClassProperty) { 2607 if (GetterMethod) 2608 AddInstanceMethodToGlobalPool(GetterMethod); 2609 if (SetterMethod) 2610 AddInstanceMethodToGlobalPool(SetterMethod); 2611 } else { 2612 if (GetterMethod) 2613 AddFactoryMethodToGlobalPool(GetterMethod); 2614 if (SetterMethod) 2615 AddFactoryMethodToGlobalPool(SetterMethod); 2616 } 2617 2618 ObjCInterfaceDecl *CurrentClass = dyn_cast<ObjCInterfaceDecl>(CD); 2619 if (!CurrentClass) { 2620 if (ObjCCategoryDecl *Cat = dyn_cast<ObjCCategoryDecl>(CD)) 2621 CurrentClass = Cat->getClassInterface(); 2622 else if (ObjCImplDecl *Impl = dyn_cast<ObjCImplDecl>(CD)) 2623 CurrentClass = Impl->getClassInterface(); 2624 } 2625 if (GetterMethod) 2626 CheckObjCMethodOverrides(GetterMethod, CurrentClass, Sema::RTC_Unknown); 2627 if (SetterMethod) 2628 CheckObjCMethodOverrides(SetterMethod, CurrentClass, Sema::RTC_Unknown); 2629} 2630 2631void Sema::CheckObjCPropertyAttributes(Decl *PDecl, 2632 SourceLocation Loc, 2633 unsigned &Attributes, 2634 bool propertyInPrimaryClass) { 2635 // FIXME: Improve the reported location. 2636 if (!PDecl || PDecl->isInvalidDecl()) 2637 return; 2638 2639 if ((Attributes & ObjCPropertyAttribute::kind_readonly) && 2640 (Attributes & ObjCPropertyAttribute::kind_readwrite)) 2641 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) 2642 << "readonly" << "readwrite"; 2643 2644 ObjCPropertyDecl *PropertyDecl = cast<ObjCPropertyDecl>(PDecl); 2645 QualType PropertyTy = PropertyDecl->getType(); 2646 2647 // Check for copy or retain on non-object types. 2648 if ((Attributes & 2649 (ObjCPropertyAttribute::kind_weak | ObjCPropertyAttribute::kind_copy | 2650 ObjCPropertyAttribute::kind_retain | 2651 ObjCPropertyAttribute::kind_strong)) && 2652 !PropertyTy->isObjCRetainableType() && 2653 !PropertyDecl->hasAttr<ObjCNSObjectAttr>()) { 2654 Diag(Loc, diag::err_objc_property_requires_object) 2655 << (Attributes & ObjCPropertyAttribute::kind_weak 2656 ? "weak" 2657 : Attributes & ObjCPropertyAttribute::kind_copy 2658 ? "copy" 2659 : "retain (or strong)"); 2660 Attributes &= 2661 ~(ObjCPropertyAttribute::kind_weak | ObjCPropertyAttribute::kind_copy | 2662 ObjCPropertyAttribute::kind_retain | 2663 ObjCPropertyAttribute::kind_strong); 2664 PropertyDecl->setInvalidDecl(); 2665 } 2666 2667 // Check for assign on object types. 2668 if ((Attributes & ObjCPropertyAttribute::kind_assign) && 2669 !(Attributes & ObjCPropertyAttribute::kind_unsafe_unretained) && 2670 PropertyTy->isObjCRetainableType() && 2671 !PropertyTy->isObjCARCImplicitlyUnretainedType()) { 2672 Diag(Loc, diag::warn_objc_property_assign_on_object); 2673 } 2674 2675 // Check for more than one of { assign, copy, retain }. 2676 if (Attributes & ObjCPropertyAttribute::kind_assign) { 2677 if (Attributes & ObjCPropertyAttribute::kind_copy) { 2678 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) 2679 << "assign" << "copy"; 2680 Attributes &= ~ObjCPropertyAttribute::kind_copy; 2681 } 2682 if (Attributes & ObjCPropertyAttribute::kind_retain) { 2683 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) 2684 << "assign" << "retain"; 2685 Attributes &= ~ObjCPropertyAttribute::kind_retain; 2686 } 2687 if (Attributes & ObjCPropertyAttribute::kind_strong) { 2688 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) 2689 << "assign" << "strong"; 2690 Attributes &= ~ObjCPropertyAttribute::kind_strong; 2691 } 2692 if (getLangOpts().ObjCAutoRefCount && 2693 (Attributes & ObjCPropertyAttribute::kind_weak)) { 2694 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) 2695 << "assign" << "weak"; 2696 Attributes &= ~ObjCPropertyAttribute::kind_weak; 2697 } 2698 if (PropertyDecl->hasAttr<IBOutletCollectionAttr>()) 2699 Diag(Loc, diag::warn_iboutletcollection_property_assign); 2700 } else if (Attributes & ObjCPropertyAttribute::kind_unsafe_unretained) { 2701 if (Attributes & ObjCPropertyAttribute::kind_copy) { 2702 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) 2703 << "unsafe_unretained" << "copy"; 2704 Attributes &= ~ObjCPropertyAttribute::kind_copy; 2705 } 2706 if (Attributes & ObjCPropertyAttribute::kind_retain) { 2707 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) 2708 << "unsafe_unretained" << "retain"; 2709 Attributes &= ~ObjCPropertyAttribute::kind_retain; 2710 } 2711 if (Attributes & ObjCPropertyAttribute::kind_strong) { 2712 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) 2713 << "unsafe_unretained" << "strong"; 2714 Attributes &= ~ObjCPropertyAttribute::kind_strong; 2715 } 2716 if (getLangOpts().ObjCAutoRefCount && 2717 (Attributes & ObjCPropertyAttribute::kind_weak)) { 2718 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) 2719 << "unsafe_unretained" << "weak"; 2720 Attributes &= ~ObjCPropertyAttribute::kind_weak; 2721 } 2722 } else if (Attributes & ObjCPropertyAttribute::kind_copy) { 2723 if (Attributes & ObjCPropertyAttribute::kind_retain) { 2724 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) 2725 << "copy" << "retain"; 2726 Attributes &= ~ObjCPropertyAttribute::kind_retain; 2727 } 2728 if (Attributes & ObjCPropertyAttribute::kind_strong) { 2729 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) 2730 << "copy" << "strong"; 2731 Attributes &= ~ObjCPropertyAttribute::kind_strong; 2732 } 2733 if (Attributes & ObjCPropertyAttribute::kind_weak) { 2734 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) 2735 << "copy" << "weak"; 2736 Attributes &= ~ObjCPropertyAttribute::kind_weak; 2737 } 2738 } else if ((Attributes & ObjCPropertyAttribute::kind_retain) && 2739 (Attributes & ObjCPropertyAttribute::kind_weak)) { 2740 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) << "retain" 2741 << "weak"; 2742 Attributes &= ~ObjCPropertyAttribute::kind_retain; 2743 } else if ((Attributes & ObjCPropertyAttribute::kind_strong) && 2744 (Attributes & ObjCPropertyAttribute::kind_weak)) { 2745 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) << "strong" 2746 << "weak"; 2747 Attributes &= ~ObjCPropertyAttribute::kind_weak; 2748 } 2749 2750 if (Attributes & ObjCPropertyAttribute::kind_weak) { 2751 // 'weak' and 'nonnull' are mutually exclusive. 2752 if (auto nullability = PropertyTy->getNullability()) { 2753 if (*nullability == NullabilityKind::NonNull) 2754 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) 2755 << "nonnull" << "weak"; 2756 } 2757 } 2758 2759 if ((Attributes & ObjCPropertyAttribute::kind_atomic) && 2760 (Attributes & ObjCPropertyAttribute::kind_nonatomic)) { 2761 Diag(Loc, diag::err_objc_property_attr_mutually_exclusive) << "atomic" 2762 << "nonatomic"; 2763 Attributes &= ~ObjCPropertyAttribute::kind_atomic; 2764 } 2765 2766 // Warn if user supplied no assignment attribute, property is 2767 // readwrite, and this is an object type. 2768 if (!getOwnershipRule(Attributes) && PropertyTy->isObjCRetainableType()) { 2769 if (Attributes & ObjCPropertyAttribute::kind_readonly) { 2770 // do nothing 2771 } else if (getLangOpts().ObjCAutoRefCount) { 2772 // With arc, @property definitions should default to strong when 2773 // not specified. 2774 PropertyDecl->setPropertyAttributes(ObjCPropertyAttribute::kind_strong); 2775 } else if (PropertyTy->isObjCObjectPointerType()) { 2776 bool isAnyClassTy = (PropertyTy->isObjCClassType() || 2777 PropertyTy->isObjCQualifiedClassType()); 2778 // In non-gc, non-arc mode, 'Class' is treated as a 'void *' no need to 2779 // issue any warning. 2780 if (isAnyClassTy && getLangOpts().getGC() == LangOptions::NonGC) 2781 ; 2782 else if (propertyInPrimaryClass) { 2783 // Don't issue warning on property with no life time in class 2784 // extension as it is inherited from property in primary class. 2785 // Skip this warning in gc-only mode. 2786 if (getLangOpts().getGC() != LangOptions::GCOnly) 2787 Diag(Loc, diag::warn_objc_property_no_assignment_attribute); 2788 2789 // If non-gc code warn that this is likely inappropriate. 2790 if (getLangOpts().getGC() == LangOptions::NonGC) 2791 Diag(Loc, diag::warn_objc_property_default_assign_on_object); 2792 } 2793 } 2794 2795 // FIXME: Implement warning dependent on NSCopying being 2796 // implemented. 2797 } 2798 2799 if (!(Attributes & ObjCPropertyAttribute::kind_copy) && 2800 !(Attributes & ObjCPropertyAttribute::kind_readonly) && 2801 getLangOpts().getGC() == LangOptions::GCOnly && 2802 PropertyTy->isBlockPointerType()) 2803 Diag(Loc, diag::warn_objc_property_copy_missing_on_block); 2804 else if ((Attributes & ObjCPropertyAttribute::kind_retain) && 2805 !(Attributes & ObjCPropertyAttribute::kind_readonly) && 2806 !(Attributes & ObjCPropertyAttribute::kind_strong) && 2807 PropertyTy->isBlockPointerType()) 2808 Diag(Loc, diag::warn_objc_property_retain_of_block); 2809 2810 if ((Attributes & ObjCPropertyAttribute::kind_readonly) && 2811 (Attributes & ObjCPropertyAttribute::kind_setter)) 2812 Diag(Loc, diag::warn_objc_readonly_property_has_setter); 2813} 2814