diff --git a/clang-tools-extra/clangd/FindTarget.cpp b/clang-tools-extra/clangd/FindTarget.cpp index 734b8432c838..f73a6e584972 100644 --- a/clang-tools-extra/clangd/FindTarget.cpp +++ b/clang-tools-extra/clangd/FindTarget.cpp @@ -355,7 +355,21 @@ public: Flags |= Rel::Underlying; // continue with the underlying decl. } else if (const auto *DG = dyn_cast(D)) { D = DG->getDeducedTemplate(); + } else if (const ObjCImplementationDecl *IID = + dyn_cast(D)) { + // Treat ObjC{Interface,Implementation}Decl as if they were a decl/def + // pair as long as the interface isn't implicit. + if (const auto *CID = IID->getClassInterface()) + if (const auto *DD = CID->getDefinition()) + if (!DD->isImplicitInterfaceDecl()) + D = DD; + } else if (const ObjCCategoryImplDecl *CID = + dyn_cast(D)) { + // Treat ObjC{Category,CategoryImpl}Decl as if they were a decl/def pair. + D = CID->getCategoryDecl(); } + if (!D) + return; if (const Decl *Pat = getTemplatePattern(D)) { assert(Pat != D); diff --git a/clang-tools-extra/clangd/XRefs.cpp b/clang-tools-extra/clangd/XRefs.cpp index b61ff4979320..9936c67cb6e5 100644 --- a/clang-tools-extra/clangd/XRefs.cpp +++ b/clang-tools-extra/clangd/XRefs.cpp @@ -78,6 +78,32 @@ const NamedDecl *getDefinition(const NamedDecl *D) { return VD->getDefinition(); if (const auto *FD = dyn_cast(D)) return FD->getDefinition(); + // Objective-C classes can have three types of declarations: + // + // - forward declaration: @class MyClass; + // - true declaration (interface definition): @interface MyClass ... @end + // - true definition (implementation): @implementation MyClass ... @end + // + // Objective-C categories are extensions are on classes: + // + // - declaration: @interface MyClass (Ext) ... @end + // - definition: @implementation MyClass (Ext) ... @end + // + // With one special case, a class extension, which is normally used to keep + // some declarations internal to a file without exposing them in a header. + // + // - class extension declaration: @interface MyClass () ... @end + // - which really links to class definition: @implementation MyClass ... @end + if (const auto *ID = dyn_cast(D)) + return ID->getImplementation(); + if (const auto *CD = dyn_cast(D)) { + if (CD->IsClassExtension()) { + if (const auto *ID = CD->getClassInterface()) + return ID->getImplementation(); + return nullptr; + } + return CD->getImplementation(); + } // Only a single declaration is allowed. if (isa(D) || isa(D) || isa(D)) // except cases above @@ -223,6 +249,37 @@ locateMacroReferent(const syntax::Token &TouchedIdentifier, ParsedAST &AST, return llvm::None; } +// A wrapper around `Decl::getCanonicalDecl` to support cases where Clang's +// definition of a canonical declaration doesn't match up to what a programmer +// would expect. For example, Objective-C classes can have three types of +// declarations: +// +// - forward declaration(s): @class MyClass; +// - true declaration (interface definition): @interface MyClass ... @end +// - true definition (implementation): @implementation MyClass ... @end +// +// Clang will consider the forward declaration to be the canonical declaration +// because it is first. We actually want the class definition if it is +// available since that is what a programmer would consider the primary +// declaration to be. +const NamedDecl *getPreferredDecl(const NamedDecl *D) { + // FIXME: Canonical declarations of some symbols might refer to built-in + // decls with possibly-invalid source locations (e.g. global new operator). + // In such cases we should pick up a redecl with valid source location + // instead of failing. + D = llvm::cast(D->getCanonicalDecl()); + + // Prefer Objective-C class/protocol definitions over the forward declaration. + if (const auto *ID = dyn_cast(D)) + if (const auto *DefinitionID = ID->getDefinition()) + return DefinitionID; + if (const auto *PD = dyn_cast(D)) + if (const auto *DefinitionID = PD->getDefinition()) + return DefinitionID; + + return D; +} + // Decls are more complicated. // The AST contains at least a declaration, maybe a definition. // These are up-to-date, and so generally preferred over index results. @@ -238,11 +295,7 @@ locateASTReferent(SourceLocation CurLoc, const syntax::Token *TouchedIdentifier, llvm::DenseMap ResultIndex; auto AddResultDecl = [&](const NamedDecl *D) { - // FIXME: Canonical declarations of some symbols might refer to built-in - // decls with possibly-invalid source locations (e.g. global new operator). - // In such cases we should pick up a redecl with valid source location - // instead of failing. - D = llvm::cast(D->getCanonicalDecl()); + D = getPreferredDecl(D); auto Loc = makeLocation(AST.getASTContext(), nameLocation(*D, SM), MainFilePath); if (!Loc) @@ -302,6 +355,19 @@ locateASTReferent(SourceLocation CurLoc, const syntax::Token *TouchedIdentifier, continue; } + // Special case: if the class name is selected, also map Objective-C + // categories and category implementations back to their class interface. + // + // Since `TouchedIdentifier` might refer to the `ObjCCategoryImplDecl` + // instead of the `ObjCCategoryDecl` we intentionally check the contents + // of the locs when checking for class name equivalence. + if (const auto *CD = dyn_cast(D)) + if (const auto *ID = CD->getClassInterface()) + if (TouchedIdentifier && + (CD->getLocation() == TouchedIdentifier->location() || + ID->getName() == TouchedIdentifier->text(SM))) + AddResultDecl(ID); + // Otherwise the target declaration is the right one. AddResultDecl(D); } diff --git a/clang-tools-extra/clangd/index/SymbolCollector.cpp b/clang-tools-extra/clangd/index/SymbolCollector.cpp index c163951aff9b..a3ceaa388cf9 100644 --- a/clang-tools-extra/clangd/index/SymbolCollector.cpp +++ b/clang-tools-extra/clangd/index/SymbolCollector.cpp @@ -20,6 +20,7 @@ #include "clang/AST/Decl.h" #include "clang/AST/DeclBase.h" #include "clang/AST/DeclCXX.h" +#include "clang/AST/DeclObjC.h" #include "clang/AST/DeclTemplate.h" #include "clang/Basic/SourceLocation.h" #include "clang/Basic/SourceManager.h" @@ -156,16 +157,21 @@ getTokenLocation(SourceLocation TokLoc, const SourceManager &SM, return Result; } -// Checks whether \p ND is a definition of a TagDecl (class/struct/enum/union) -// in a header file, in which case clangd would prefer to use ND as a canonical -// declaration. -// FIXME: handle symbol types that are not TagDecl (e.g. functions), if using -// the first seen declaration as canonical declaration is not a good enough -// heuristic. +// Checks whether \p ND is a good candidate to be the *canonical* declaration of +// its symbol (e.g. a go-to-declaration target). This overrides the default of +// using Clang's canonical declaration, which is the first in the TU. +// +// Example: preferring a class declaration over its forward declaration. bool isPreferredDeclaration(const NamedDecl &ND, index::SymbolRoleSet Roles) { const auto &SM = ND.getASTContext().getSourceManager(); - return (Roles & static_cast(index::SymbolRole::Definition)) && - isa(&ND) && !isInsideMainFile(ND.getLocation(), SM); + if (isa(ND)) + return (Roles & static_cast(index::SymbolRole::Definition)) && + !isInsideMainFile(ND.getLocation(), SM); + if (const auto *ID = dyn_cast(&ND)) + return ID->isThisDeclarationADefinition(); + if (const auto *PD = dyn_cast(&ND)) + return PD->isThisDeclarationADefinition(); + return false; } RefKind toRefKind(index::SymbolRoleSet Roles, bool Spelled = false) { @@ -267,6 +273,25 @@ bool SymbolCollector::handleDeclOccurrence( // picked a replacement for D if (D->getFriendObjectKind() != Decl::FriendObjectKind::FOK_None) D = CanonicalDecls.try_emplace(D, ASTNode.OrigD).first->second; + // Flag to mark that D should be considered canonical meaning its declaration + // will override any previous declaration for the Symbol. + bool DeclIsCanonical = false; + // Avoid treating ObjCImplementationDecl as a canonical declaration if it has + // a corresponding non-implicit and non-forward declared ObjcInterfaceDecl. + if (const auto *IID = dyn_cast(D)) { + DeclIsCanonical = true; + if (const auto *CID = IID->getClassInterface()) + if (const auto *DD = CID->getDefinition()) + if (!DD->isImplicitInterfaceDecl()) + D = DD; + } + // Avoid treating ObjCCategoryImplDecl as a canonical declaration in favor of + // its ObjCCategoryDecl if it has one. + if (const auto *CID = dyn_cast(D)) { + DeclIsCanonical = true; + if (const auto *CD = CID->getCategoryDecl()) + D = CD; + } const NamedDecl *ND = dyn_cast(D); if (!ND) return true; @@ -331,14 +356,14 @@ bool SymbolCollector::handleDeclOccurrence( return true; const Symbol *BasicSymbol = Symbols.find(*ID); - if (!BasicSymbol) // Regardless of role, ND is the canonical declaration. - BasicSymbol = addDeclaration(*ND, std::move(*ID), IsMainFileOnly); - else if (isPreferredDeclaration(*OriginalDecl, Roles)) - // If OriginalDecl is preferred, replace the existing canonical + if (isPreferredDeclaration(*OriginalDecl, Roles)) + // If OriginalDecl is preferred, replace/create the existing canonical // declaration (e.g. a class forward declaration). There should be at most // one duplicate as we expect to see only one preferred declaration per // TU, because in practice they are definitions. BasicSymbol = addDeclaration(*OriginalDecl, std::move(*ID), IsMainFileOnly); + else if (!BasicSymbol || DeclIsCanonical) + BasicSymbol = addDeclaration(*ND, std::move(*ID), IsMainFileOnly); if (Roles & static_cast(index::SymbolRole::Definition)) addDefinition(*OriginalDecl, *BasicSymbol); diff --git a/clang-tools-extra/clangd/unittests/FindTargetTests.cpp b/clang-tools-extra/clangd/unittests/FindTargetTests.cpp index 838150815f5e..4c655c3338d2 100644 --- a/clang-tools-extra/clangd/unittests/FindTargetTests.cpp +++ b/clang-tools-extra/clangd/unittests/FindTargetTests.cpp @@ -756,6 +756,30 @@ TEST_F(TargetDeclTest, ObjC) { )cpp"; EXPECT_DECLS("ObjCInterfaceTypeLoc", "@interface Foo"); + Code = R"cpp(// Don't consider implicit interface as the target. + @implementation [[Implicit]] + @end + )cpp"; + EXPECT_DECLS("ObjCImplementationDecl", "@implementation Implicit"); + + Code = R"cpp( + @interface Foo + @end + @implementation [[Foo]] + @end + )cpp"; + EXPECT_DECLS("ObjCImplementationDecl", "@interface Foo"); + + Code = R"cpp( + @interface Foo + @end + @interface Foo (Ext) + @end + @implementation [[Foo]] (Ext) + @end + )cpp"; + EXPECT_DECLS("ObjCCategoryImplDecl", "@interface Foo(Ext)"); + Code = R"cpp( @protocol Foo @end diff --git a/clang-tools-extra/clangd/unittests/SymbolCollectorTests.cpp b/clang-tools-extra/clangd/unittests/SymbolCollectorTests.cpp index 8e8f1a4f9af5..48a6952b2610 100644 --- a/clang-tools-extra/clangd/unittests/SymbolCollectorTests.cpp +++ b/clang-tools-extra/clangd/unittests/SymbolCollectorTests.cpp @@ -542,6 +542,96 @@ TEST_F(SymbolCollectorTest, ObjCPropertyImpl) { // Figure out why it's platform-dependent. } +TEST_F(SymbolCollectorTest, ObjCLocations) { + Annotations Header(R"( + // Declared in header, defined in main. + @interface $dogdecl[[Dog]] + @end + @interface $fluffydecl[[Dog]] (Fluffy) + @end + )"); + Annotations Main(R"( + @interface Dog () + @end + @implementation $dogdef[[Dog]] + @end + @implementation $fluffydef[[Dog]] (Fluffy) + @end + // Category with no declaration (only implementation). + @implementation $ruff[[Dog]] (Ruff) + @end + // Implicitly defined interface. + @implementation $catdog[[CatDog]] + @end + )"); + runSymbolCollector(Header.code(), Main.code(), + {"-xobjective-c++", "-Wno-objc-root-class"}); + EXPECT_THAT(Symbols, + UnorderedElementsAre( + AllOf(QName("Dog"), DeclRange(Header.range("dogdecl")), + DefRange(Main.range("dogdef"))), + AllOf(QName("Fluffy"), DeclRange(Header.range("fluffydecl")), + DefRange(Main.range("fluffydef"))), + AllOf(QName("CatDog"), DeclRange(Main.range("catdog")), + DefRange(Main.range("catdog"))), + AllOf(QName("Ruff"), DeclRange(Main.range("ruff")), + DefRange(Main.range("ruff"))))); +} + +TEST_F(SymbolCollectorTest, ObjCForwardDecls) { + Annotations Header(R"( + // Forward declared in header, declared and defined in main. + @protocol Barker; + @class Dog; + // Never fully declared so Clang latches onto this decl. + @class $catdogdecl[[CatDog]]; + )"); + Annotations Main(R"( + @protocol $barkerdecl[[Barker]] + - (void)woof; + @end + @interface $dogdecl[[Dog]] + - (void)woof; + @end + @implementation $dogdef[[Dog]] + - (void)woof {} + @end + @implementation $catdogdef[[CatDog]] + @end + )"); + runSymbolCollector(Header.code(), Main.code(), + {"-xobjective-c++", "-Wno-objc-root-class"}); + EXPECT_THAT(Symbols, + UnorderedElementsAre( + AllOf(QName("CatDog"), DeclRange(Header.range("catdogdecl")), + DefRange(Main.range("catdogdef"))), + AllOf(QName("Dog"), DeclRange(Main.range("dogdecl")), + DefRange(Main.range("dogdef"))), + AllOf(QName("Barker"), DeclRange(Main.range("barkerdecl"))), + QName("Barker::woof"), QName("Dog::woof"))); +} + +TEST_F(SymbolCollectorTest, ObjCClassExtensions) { + Annotations Header(R"( + @interface $catdecl[[Cat]] + @end + )"); + Annotations Main(R"( + @interface Cat () + - (void)meow; + @end + @interface Cat () + - (void)pur; + @end + )"); + runSymbolCollector(Header.code(), Main.code(), + {"-xobjective-c++", "-Wno-objc-root-class"}); + EXPECT_THAT(Symbols, + UnorderedElementsAre( + AllOf(QName("Cat"), DeclRange(Header.range("catdecl"))), + QName("Cat::meow"), QName("Cat::pur"))); +} + TEST_F(SymbolCollectorTest, Locations) { Annotations Header(R"cpp( // Declared in header, defined in main. diff --git a/clang-tools-extra/clangd/unittests/XRefsTests.cpp b/clang-tools-extra/clangd/unittests/XRefsTests.cpp index 686ba023a282..63e8c96daab8 100644 --- a/clang-tools-extra/clangd/unittests/XRefsTests.cpp +++ b/clang-tools-extra/clangd/unittests/XRefsTests.cpp @@ -684,7 +684,57 @@ TEST(LocateSymbol, All) { enum class E { [[A]], B }; E e = E::A^; }; - )cpp"}; + )cpp", + + R"objc( + @protocol Dog; + @protocol $decl[[Dog]] + - (void)bark; + @end + id getDoggo() { + return 0; + } + )objc", + + R"objc( + @interface Cat + @end + @implementation Cat + @end + @interface $decl[[Cat]] (Exte^nsion) + - (void)meow; + @end + @implementation $def[[Cat]] (Extension) + - (void)meow {} + @end + )objc", + + R"objc( + @class $decl[[Foo]]; + Fo^o * getFoo() { + return 0; + } + )objc", + + R"objc(// Prefer interface definition over forward declaration + @class Foo; + @interface $decl[[Foo]] + @end + Fo^o * getFoo() { + return 0; + } + )objc", + + R"objc( + @class Foo; + @interface $decl[[Foo]] + @end + @implementation $def[[Foo]] + @end + Fo^o * getFoo() { + return 0; + } + )objc"}; for (const char *Test : Tests) { Annotations T(Test); llvm::Optional WantDecl; @@ -702,6 +752,7 @@ TEST(LocateSymbol, All) { // FIXME: Auto-completion in a template requires disabling delayed template // parsing. TU.ExtraArgs.push_back("-fno-delayed-template-parsing"); + TU.ExtraArgs.push_back("-xobjective-c++"); auto AST = TU.build(); auto Results = locateSymbolAt(AST, T.point()); @@ -719,6 +770,90 @@ TEST(LocateSymbol, All) { } } +TEST(LocateSymbol, AllMulti) { + // Ranges in tests: + // $declN is the declaration location + // $defN is the definition location (if absent, symbol has no definition) + // + // NOTE: + // N starts at 0. + struct ExpectedRanges { + Range WantDecl; + llvm::Optional WantDef; + }; + const char *Tests[] = { + R"objc( + @interface $decl0[[Cat]] + @end + @implementation $def0[[Cat]] + @end + @interface $decl1[[Ca^t]] (Extension) + - (void)meow; + @end + @implementation $def1[[Cat]] (Extension) + - (void)meow {} + @end + )objc", + + R"objc( + @interface $decl0[[Cat]] + @end + @implementation $def0[[Cat]] + @end + @interface $decl1[[Cat]] (Extension) + - (void)meow; + @end + @implementation $def1[[Ca^t]] (Extension) + - (void)meow {} + @end + )objc", + + R"objc( + @interface $decl0[[Cat]] + @end + @interface $decl1[[Ca^t]] () + - (void)meow; + @end + @implementation $def0[[$def1[[Cat]]]] + - (void)meow {} + @end + )objc", + }; + for (const char *Test : Tests) { + Annotations T(Test); + std::vector Ranges; + for (int Idx = 0; true; Idx++) { + bool HasDecl = !T.ranges("decl" + std::to_string(Idx)).empty(); + bool HasDef = !T.ranges("def" + std::to_string(Idx)).empty(); + if (!HasDecl && !HasDef) + break; + ExpectedRanges Range; + if (HasDecl) + Range.WantDecl = T.range("decl" + std::to_string(Idx)); + if (HasDef) + Range.WantDef = T.range("def" + std::to_string(Idx)); + Ranges.push_back(Range); + } + + TestTU TU; + TU.Code = std::string(T.code()); + TU.ExtraArgs.push_back("-xobjective-c++"); + + auto AST = TU.build(); + auto Results = locateSymbolAt(AST, T.point()); + + ASSERT_THAT(Results, ::testing::SizeIs(Ranges.size())) << Test; + for (size_t Idx = 0; Idx < Ranges.size(); Idx++) { + EXPECT_EQ(Results[Idx].PreferredDeclaration.range, Ranges[Idx].WantDecl) + << "($decl" << Idx << ")" << Test; + llvm::Optional GotDef; + if (Results[Idx].Definition) + GotDef = Results[Idx].Definition->range; + EXPECT_EQ(GotDef, Ranges[Idx].WantDef) << "($def" << Idx << ")" << Test; + } + } +} + // LocateSymbol test cases that produce warnings. // These are separated out from All so that in All we can assert // that there are no diagnostics.