src/third_party/llvm-project/clang-tools-extra/unittests/clangd/FindSymbolsTests.cpp - cobalt - Git at Google

 //===-- FindSymbolsTests.cpp -------------------------*- C++ -*------------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 #include "Annotations.h"
 #include "ClangdServer.h"
 #include "FindSymbols.h"
 #include "SyncAPI.h"
 #include "TestFS.h"
 #include "gmock/gmock.h"
 #include "gtest/gtest.h"

 namespace clang {
 namespace clangd {

 namespace {

 using ::testing::AllOf;
 using ::testing::AnyOf;
 using ::testing::ElementsAre;
 using ::testing::ElementsAreArray;
 using ::testing::IsEmpty;
 using ::testing::UnorderedElementsAre;

 class IgnoreDiagnostics : public DiagnosticsConsumer {
   void onDiagnosticsReady(PathRef File,
                           std::vector<Diag> Diagnostics) override {}
 };

 // GMock helpers for matching SymbolInfos items.
 MATCHER_P(QName, Name, "") {
   if (arg.containerName.empty())
     return arg.name == Name;
   return (arg.containerName + "::" + arg.name) == Name;
 }
 MATCHER_P(WithKind, Kind, "") { return arg.kind == Kind; }
 MATCHER_P(SymRange, Range, "") { return arg.location.range == Range; }

 ClangdServer::Options optsForTests() {
   auto ServerOpts = ClangdServer::optsForTest();
   ServerOpts.BuildDynamicSymbolIndex = true;
   ServerOpts.URISchemes = {"unittest", "file"};
   return ServerOpts;
 }

 class WorkspaceSymbolsTest : public ::testing::Test {
 public:
   WorkspaceSymbolsTest()
       : Server(CDB, FSProvider, DiagConsumer, optsForTests()) {
     // Make sure the test root directory is created.
     FSProvider.Files[testPath("unused")] = "";
     Server.setRootPath(testRoot());
   }

 protected:
   MockFSProvider FSProvider;
   MockCompilationDatabase CDB;
   IgnoreDiagnostics DiagConsumer;
   ClangdServer Server;
   int Limit = 0;

   std::vector<SymbolInformation> getSymbols(StringRef Query) {
     EXPECT_TRUE(Server.blockUntilIdleForTest()) << "Waiting for preamble";
     auto SymbolInfos = runWorkspaceSymbols(Server, Query, Limit);
     EXPECT_TRUE(bool(SymbolInfos)) << "workspaceSymbols returned an error";
     return *SymbolInfos;
   }

   void addFile(StringRef FileName, StringRef Contents) {
     auto Path = testPath(FileName);
     FSProvider.Files[Path] = Contents;
     Server.addDocument(Path, Contents);
   }
 };

 } // namespace

 TEST_F(WorkspaceSymbolsTest, NoMacro) {
   addFile("foo.cpp", R"cpp(
       #define MACRO X
       )cpp");

   // Macros are not in the index.
   EXPECT_THAT(getSymbols("macro"), IsEmpty());
 }

 TEST_F(WorkspaceSymbolsTest, NoLocals) {
   addFile("foo.cpp", R"cpp(
       void test(int FirstParam, int SecondParam) {
         struct LocalClass {};
         int local_var;
       })cpp");
   EXPECT_THAT(getSymbols("l"), IsEmpty());
   EXPECT_THAT(getSymbols("p"), IsEmpty());
 }

 TEST_F(WorkspaceSymbolsTest, Globals) {
   addFile("foo.h", R"cpp(
       int global_var;

       int global_func();

       struct GlobalStruct {};)cpp");
   addFile("foo.cpp", R"cpp(
       #include "foo.h"
       )cpp");
   EXPECT_THAT(getSymbols("global"),
               UnorderedElementsAre(
                   AllOf(QName("GlobalStruct"), WithKind(SymbolKind::Struct)),
                   AllOf(QName("global_func"), WithKind(SymbolKind::Function)),
                   AllOf(QName("global_var"), WithKind(SymbolKind::Variable))));
 }

 TEST_F(WorkspaceSymbolsTest, Unnamed) {
   addFile("foo.h", R"cpp(
       struct {
         int InUnnamed;
       } UnnamedStruct;)cpp");
   addFile("foo.cpp", R"cpp(
       #include "foo.h"
       )cpp");
   EXPECT_THAT(getSymbols("UnnamedStruct"),
               ElementsAre(AllOf(QName("UnnamedStruct"),
                                 WithKind(SymbolKind::Variable))));
   EXPECT_THAT(getSymbols("InUnnamed"),
               ElementsAre(AllOf(QName("(anonymous struct)::InUnnamed"),
                                 WithKind(SymbolKind::Field))));
 }

 TEST_F(WorkspaceSymbolsTest, InMainFile) {
   addFile("foo.cpp", R"cpp(
       int test() {
       }
       )cpp");
   EXPECT_THAT(getSymbols("test"), IsEmpty());
 }

 TEST_F(WorkspaceSymbolsTest, Namespaces) {
   addFile("foo.h", R"cpp(
       namespace ans1 {
         int ai1;
       namespace ans2 {
         int ai2;
       }
       }
       )cpp");
   addFile("foo.cpp", R"cpp(
       #include "foo.h"
       )cpp");
   EXPECT_THAT(getSymbols("a"),
               UnorderedElementsAre(QName("ans1"), QName("ans1::ai1"),
                                    QName("ans1::ans2"),
                                    QName("ans1::ans2::ai2")));
   EXPECT_THAT(getSymbols("::"), ElementsAre(QName("ans1")));
   EXPECT_THAT(getSymbols("::a"), ElementsAre(QName("ans1")));
   EXPECT_THAT(getSymbols("ans1::"),
               UnorderedElementsAre(QName("ans1::ai1"), QName("ans1::ans2")));
   EXPECT_THAT(getSymbols("::ans1"), ElementsAre(QName("ans1")));
   EXPECT_THAT(getSymbols("::ans1::"),
               UnorderedElementsAre(QName("ans1::ai1"), QName("ans1::ans2")));
   EXPECT_THAT(getSymbols("::ans1::ans2"), ElementsAre(QName("ans1::ans2")));
   EXPECT_THAT(getSymbols("::ans1::ans2::"),
               ElementsAre(QName("ans1::ans2::ai2")));
 }

 TEST_F(WorkspaceSymbolsTest, AnonymousNamespace) {
   addFile("foo.h", R"cpp(
       namespace {
       void test() {}
       }
       )cpp");
   addFile("foo.cpp", R"cpp(
       #include "foo.h"
       )cpp");
   EXPECT_THAT(getSymbols("test"), IsEmpty());
 }

 TEST_F(WorkspaceSymbolsTest, MultiFile) {
   addFile("foo.h", R"cpp(
       int foo() {
       }
       )cpp");
   addFile("foo2.h", R"cpp(
       int foo2() {
       }
       )cpp");
   addFile("foo.cpp", R"cpp(
       #include "foo.h"
       #include "foo2.h"
       )cpp");
   EXPECT_THAT(getSymbols("foo"),
               UnorderedElementsAre(QName("foo"), QName("foo2")));
 }

 TEST_F(WorkspaceSymbolsTest, GlobalNamespaceQueries) {
   addFile("foo.h", R"cpp(
       int foo() {
       }
       class Foo {
         int a;
       };
       namespace ns {
       int foo2() {
       }
       }
       )cpp");
   addFile("foo.cpp", R"cpp(
       #include "foo.h"
       )cpp");
   EXPECT_THAT(getSymbols("::"),
               UnorderedElementsAre(
                   AllOf(QName("Foo"), WithKind(SymbolKind::Class)),
                   AllOf(QName("foo"), WithKind(SymbolKind::Function)),
                   AllOf(QName("ns"), WithKind(SymbolKind::Namespace))));
   EXPECT_THAT(getSymbols(":"), IsEmpty());
   EXPECT_THAT(getSymbols(""), IsEmpty());
 }

 TEST_F(WorkspaceSymbolsTest, Enums) {
   addFile("foo.h", R"cpp(
     enum {
       Red
     };
     enum Color {
       Green
     };
     enum class Color2 {
       Yellow
     };
     namespace ns {
       enum {
         Black
       };
       enum Color3 {
         Blue
       };
       enum class Color4 {
         White
       };
     }
       )cpp");
   addFile("foo.cpp", R"cpp(
       #include "foo.h"
       )cpp");
   EXPECT_THAT(getSymbols("Red"), ElementsAre(QName("Red")));
   EXPECT_THAT(getSymbols("::Red"), ElementsAre(QName("Red")));
   EXPECT_THAT(getSymbols("Green"), ElementsAre(QName("Green")));
   EXPECT_THAT(getSymbols("Green"), ElementsAre(QName("Green")));
   EXPECT_THAT(getSymbols("Color2::Yellow"),
               ElementsAre(QName("Color2::Yellow")));
   EXPECT_THAT(getSymbols("Yellow"), ElementsAre(QName("Color2::Yellow")));

   EXPECT_THAT(getSymbols("ns::Black"), ElementsAre(QName("ns::Black")));
   EXPECT_THAT(getSymbols("ns::Blue"), ElementsAre(QName("ns::Blue")));
   EXPECT_THAT(getSymbols("ns::Color4::White"),
               ElementsAre(QName("ns::Color4::White")));
 }

 TEST_F(WorkspaceSymbolsTest, Ranking) {
   addFile("foo.h", R"cpp(
       namespace ns{}
       function func();
       )cpp");
   addFile("foo.cpp", R"cpp(
       #include "foo.h"
       )cpp");
   EXPECT_THAT(getSymbols("::"), ElementsAre(QName("func"), QName("ns")));
 }

 TEST_F(WorkspaceSymbolsTest, WithLimit) {
   addFile("foo.h", R"cpp(
       int foo;
       int foo2;
       )cpp");
   addFile("foo.cpp", R"cpp(
       #include "foo.h"
       )cpp");
   // Foo is higher ranked because of exact name match.
   EXPECT_THAT(getSymbols("foo"),
               UnorderedElementsAre(
                   AllOf(QName("foo"), WithKind(SymbolKind::Variable)),
                   AllOf(QName("foo2"), WithKind(SymbolKind::Variable))));

   Limit = 1;
   EXPECT_THAT(getSymbols("foo"), ElementsAre(QName("foo")));
 }

 namespace {
 class DocumentSymbolsTest : public ::testing::Test {
 public:
   DocumentSymbolsTest()
       : Server(CDB, FSProvider, DiagConsumer, optsForTests()) {}

 protected:
   MockFSProvider FSProvider;
   MockCompilationDatabase CDB;
   IgnoreDiagnostics DiagConsumer;
   ClangdServer Server;

   std::vector<SymbolInformation> getSymbols(PathRef File) {
     EXPECT_TRUE(Server.blockUntilIdleForTest()) << "Waiting for preamble";
     auto SymbolInfos = runDocumentSymbols(Server, File);
     EXPECT_TRUE(bool(SymbolInfos)) << "documentSymbols returned an error";
     return *SymbolInfos;
   }

   void addFile(StringRef FilePath, StringRef Contents) {
     FSProvider.Files[FilePath] = Contents;
     Server.addDocument(FilePath, Contents);
   }
 };
 } // namespace

 TEST_F(DocumentSymbolsTest, BasicSymbols) {
   std::string FilePath = testPath("foo.cpp");
   Annotations Main(R"(
       class Foo;
       class Foo {
         Foo() {}
         Foo(int a) {}
         void $decl[[f]]();
         friend void f1();
         friend class Friend;
         Foo& operator=(const Foo&);
         ~Foo();
         class Nested {
         void f();
         };
       };
       class Friend {
       };

       void f1();
       inline void f2() {}
       static const int KInt = 2;
       const char* kStr = "123";

       void f1() {}

       namespace foo {
       // Type alias
       typedef int int32;
       using int32_t = int32;

       // Variable
       int v1;

       // Namespace
       namespace bar {
       int v2;
       }
       // Namespace alias
       namespace baz = bar;

       // FIXME: using declaration is not supported as the IndexAction will ignore
       // implicit declarations (the implicit using shadow declaration) by default,
       // and there is no way to customize this behavior at the moment.
       using bar::v2;
       } // namespace foo
     )");

   addFile(FilePath, Main.code());
   EXPECT_THAT(getSymbols(FilePath),
               ElementsAreArray(
                   {AllOf(QName("Foo"), WithKind(SymbolKind::Class)),
                    AllOf(QName("Foo"), WithKind(SymbolKind::Class)),
                    AllOf(QName("Foo::Foo"), WithKind(SymbolKind::Method)),
                    AllOf(QName("Foo::Foo"), WithKind(SymbolKind::Method)),
                    AllOf(QName("Foo::f"), WithKind(SymbolKind::Method)),
                    AllOf(QName("f1"), WithKind(SymbolKind::Function)),
                    AllOf(QName("Foo::operator="), WithKind(SymbolKind::Method)),
                    AllOf(QName("Foo::~Foo"), WithKind(SymbolKind::Method)),
                    AllOf(QName("Foo::Nested"), WithKind(SymbolKind::Class)),
                    AllOf(QName("Foo::Nested::f"), WithKind(SymbolKind::Method)),
                    AllOf(QName("Friend"), WithKind(SymbolKind::Class)),
                    AllOf(QName("f1"), WithKind(SymbolKind::Function)),
                    AllOf(QName("f2"), WithKind(SymbolKind::Function)),
                    AllOf(QName("KInt"), WithKind(SymbolKind::Variable)),
                    AllOf(QName("kStr"), WithKind(SymbolKind::Variable)),
                    AllOf(QName("f1"), WithKind(SymbolKind::Function)),
                    AllOf(QName("foo"), WithKind(SymbolKind::Namespace)),
                    AllOf(QName("foo::int32"), WithKind(SymbolKind::Class)),
                    AllOf(QName("foo::int32_t"), WithKind(SymbolKind::Class)),
                    AllOf(QName("foo::v1"), WithKind(SymbolKind::Variable)),
                    AllOf(QName("foo::bar"), WithKind(SymbolKind::Namespace)),
                    AllOf(QName("foo::bar::v2"), WithKind(SymbolKind::Variable)),
                    AllOf(QName("foo::baz"), WithKind(SymbolKind::Namespace))}));
 }

 TEST_F(DocumentSymbolsTest, DeclarationDefinition) {
   std::string FilePath = testPath("foo.cpp");
   Annotations Main(R"(
       class Foo {
         void $decl[[f]]();
       };
       void Foo::$def[[f]]() {
       }
     )");

   addFile(FilePath, Main.code());
   EXPECT_THAT(getSymbols(FilePath),
               ElementsAre(AllOf(QName("Foo"), WithKind(SymbolKind::Class)),
                           AllOf(QName("Foo::f"), WithKind(SymbolKind::Method),
                                 SymRange(Main.range("decl"))),
                           AllOf(QName("Foo::f"), WithKind(SymbolKind::Method),
                                 SymRange(Main.range("def")))));
 }

 TEST_F(DocumentSymbolsTest, ExternSymbol) {
   std::string FilePath = testPath("foo.cpp");
   addFile(testPath("foo.h"), R"cpp(
       extern int var = 2;
       )cpp");
   addFile(FilePath, R"cpp(
       #include "foo.h"
       )cpp");

   EXPECT_THAT(getSymbols(FilePath), IsEmpty());
 }

 TEST_F(DocumentSymbolsTest, NoLocals) {
   std::string FilePath = testPath("foo.cpp");
   addFile(FilePath,
           R"cpp(
       void test(int FirstParam, int SecondParam) {
         struct LocalClass {};
         int local_var;
       })cpp");
   EXPECT_THAT(getSymbols(FilePath), ElementsAre(QName("test")));
 }

 TEST_F(DocumentSymbolsTest, Unnamed) {
   std::string FilePath = testPath("foo.h");
   addFile(FilePath,
           R"cpp(
       struct {
         int InUnnamed;
       } UnnamedStruct;
       )cpp");
   EXPECT_THAT(
       getSymbols(FilePath),
       ElementsAre(AllOf(QName("UnnamedStruct"), WithKind(SymbolKind::Variable)),
                   AllOf(QName("(anonymous struct)::InUnnamed"),
                         WithKind(SymbolKind::Field))));
 }

 TEST_F(DocumentSymbolsTest, InHeaderFile) {
   addFile("bar.h", R"cpp(
       int foo() {
       }
       )cpp");
   std::string FilePath = testPath("foo.h");
   addFile(FilePath, R"cpp(
       #include "bar.h"
       int test() {
       }
       )cpp");
   addFile("foo.cpp", R"cpp(
       #include "foo.h"
       )cpp");
   EXPECT_THAT(getSymbols(FilePath), ElementsAre(QName("test")));
 }

 TEST_F(DocumentSymbolsTest, Template) {
   std::string FilePath = testPath("foo.cpp");
   addFile(FilePath, R"(
     // Primary templates and specializations are included but instantiations
     // are not.
     template <class T> struct Tmpl {T x = 0;};
     template <> struct Tmpl<int> {};
     extern template struct Tmpl<float>;
     template struct Tmpl<double>;
   )");
   EXPECT_THAT(getSymbols(FilePath),
               ElementsAre(AllOf(QName("Tmpl"), WithKind(SymbolKind::Struct)),
                           AllOf(QName("Tmpl::x"), WithKind(SymbolKind::Field)),
                           AllOf(QName("Tmpl"), WithKind(SymbolKind::Struct))));
 }

 TEST_F(DocumentSymbolsTest, Namespaces) {
   std::string FilePath = testPath("foo.cpp");
   addFile(FilePath, R"cpp(
       namespace ans1 {
         int ai1;
       namespace ans2 {
         int ai2;
       }
       }
       namespace {
       void test() {}
       }

       namespace na {
       inline namespace nb {
       class Foo {};
       }
       }
       namespace na {
       // This is still inlined.
       namespace nb {
       class Bar {};
       }
       }
       )cpp");
   EXPECT_THAT(
       getSymbols(FilePath),
       ElementsAreArray({QName("ans1"), QName("ans1::ai1"), QName("ans1::ans2"),
                         QName("ans1::ans2::ai2"), QName("test"), QName("na"),
                         QName("na::nb"), QName("na::Foo"), QName("na"),
                         QName("na::nb"), QName("na::Bar")}));
 }

 TEST_F(DocumentSymbolsTest, Enums) {
   std::string FilePath = testPath("foo.cpp");
   addFile(FilePath, R"(
       enum {
         Red
       };
       enum Color {
         Green
       };
       enum class Color2 {
         Yellow
       };
       namespace ns {
       enum {
         Black
       };
       }
     )");
   EXPECT_THAT(getSymbols(FilePath),
               ElementsAre(QName("Red"), QName("Color"), QName("Green"),
                           QName("Color2"), QName("Color2::Yellow"), QName("ns"),
                           QName("ns::Black")));
 }

 TEST_F(DocumentSymbolsTest, FromMacro) {
   std::string FilePath = testPath("foo.cpp");
   Annotations Main(R"(
     #define FF(name) \
       class name##_Test {};

     $expansion[[FF]](abc);

     #define FF2() \
       class $spelling[[Test]] {};

     FF2();
   )");
   addFile(FilePath, Main.code());
   EXPECT_THAT(
       getSymbols(FilePath),
       ElementsAre(AllOf(QName("abc_Test"), SymRange(Main.range("expansion"))),
                   AllOf(QName("Test"), SymRange(Main.range("spelling")))));
 }

 } // namespace clangd
 } // namespace clang
	//===-- FindSymbolsTests.cpp -------------------------- C++ -------------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	#include "Annotations.h"
	#include "ClangdServer.h"
	#include "FindSymbols.h"
	#include "SyncAPI.h"
	#include "TestFS.h"
	#include "gmock/gmock.h"
	#include "gtest/gtest.h"

	namespace clang {
	namespace clangd {

	namespace {

	using ::testing::AllOf;
	using ::testing::AnyOf;
	using ::testing::ElementsAre;
	using ::testing::ElementsAreArray;
	using ::testing::IsEmpty;
	using ::testing::UnorderedElementsAre;

	class IgnoreDiagnostics : public DiagnosticsConsumer {
	void onDiagnosticsReady(PathRef File,
	std::vector<Diag> Diagnostics) override {}
	};

	// GMock helpers for matching SymbolInfos items.
	MATCHER_P(QName, Name, "") {
	if (arg.containerName.empty())
	return arg.name == Name;
	return (arg.containerName + "::" + arg.name) == Name;
	}
	MATCHER_P(WithKind, Kind, "") { return arg.kind == Kind; }
	MATCHER_P(SymRange, Range, "") { return arg.location.range == Range; }

	ClangdServer::Options optsForTests() {
	auto ServerOpts = ClangdServer::optsForTest();
	ServerOpts.BuildDynamicSymbolIndex = true;
	ServerOpts.URISchemes = {"unittest", "file"};
	return ServerOpts;
	}

	class WorkspaceSymbolsTest : public ::testing::Test {
	public:
	WorkspaceSymbolsTest()
	: Server(CDB, FSProvider, DiagConsumer, optsForTests()) {
	// Make sure the test root directory is created.
	FSProvider.Files[testPath("unused")] = "";
	Server.setRootPath(testRoot());
	}

	protected:
	MockFSProvider FSProvider;
	MockCompilationDatabase CDB;
	IgnoreDiagnostics DiagConsumer;
	ClangdServer Server;
	int Limit = 0;

	std::vector<SymbolInformation> getSymbols(StringRef Query) {
	EXPECT_TRUE(Server.blockUntilIdleForTest()) << "Waiting for preamble";
	auto SymbolInfos = runWorkspaceSymbols(Server, Query, Limit);
	EXPECT_TRUE(bool(SymbolInfos)) << "workspaceSymbols returned an error";
	return *SymbolInfos;
	}

	void addFile(StringRef FileName, StringRef Contents) {
	auto Path = testPath(FileName);
	FSProvider.Files[Path] = Contents;
	Server.addDocument(Path, Contents);
	}
	};

	} // namespace

	TEST_F(WorkspaceSymbolsTest, NoMacro) {
	addFile("foo.cpp", R"cpp(
	#define MACRO X
	)cpp");

	// Macros are not in the index.
	EXPECT_THAT(getSymbols("macro"), IsEmpty());
	}

	TEST_F(WorkspaceSymbolsTest, NoLocals) {
	addFile("foo.cpp", R"cpp(
	void test(int FirstParam, int SecondParam) {
	struct LocalClass {};
	int local_var;
	})cpp");
	EXPECT_THAT(getSymbols("l"), IsEmpty());
	EXPECT_THAT(getSymbols("p"), IsEmpty());
	}

	TEST_F(WorkspaceSymbolsTest, Globals) {
	addFile("foo.h", R"cpp(
	int global_var;

	int global_func();

	struct GlobalStruct {};)cpp");
	addFile("foo.cpp", R"cpp(
	#include "foo.h"
	)cpp");
	EXPECT_THAT(getSymbols("global"),
	UnorderedElementsAre(
	AllOf(QName("GlobalStruct"), WithKind(SymbolKind::Struct)),
	AllOf(QName("global_func"), WithKind(SymbolKind::Function)),
	AllOf(QName("global_var"), WithKind(SymbolKind::Variable))));
	}

	TEST_F(WorkspaceSymbolsTest, Unnamed) {
	addFile("foo.h", R"cpp(
	struct {
	int InUnnamed;
	} UnnamedStruct;)cpp");
	addFile("foo.cpp", R"cpp(
	#include "foo.h"
	)cpp");
	EXPECT_THAT(getSymbols("UnnamedStruct"),
	ElementsAre(AllOf(QName("UnnamedStruct"),
	WithKind(SymbolKind::Variable))));
	EXPECT_THAT(getSymbols("InUnnamed"),
	ElementsAre(AllOf(QName("(anonymous struct)::InUnnamed"),
	WithKind(SymbolKind::Field))));
	}

	TEST_F(WorkspaceSymbolsTest, InMainFile) {
	addFile("foo.cpp", R"cpp(
	int test() {
	}
	)cpp");
	EXPECT_THAT(getSymbols("test"), IsEmpty());
	}

	TEST_F(WorkspaceSymbolsTest, Namespaces) {
	addFile("foo.h", R"cpp(
	namespace ans1 {
	int ai1;
	namespace ans2 {
	int ai2;
	}
	}
	)cpp");
	addFile("foo.cpp", R"cpp(
	#include "foo.h"
	)cpp");
	EXPECT_THAT(getSymbols("a"),
	UnorderedElementsAre(QName("ans1"), QName("ans1::ai1"),
	QName("ans1::ans2"),
	QName("ans1::ans2::ai2")));
	EXPECT_THAT(getSymbols("::"), ElementsAre(QName("ans1")));
	EXPECT_THAT(getSymbols("::a"), ElementsAre(QName("ans1")));
	EXPECT_THAT(getSymbols("ans1::"),
	UnorderedElementsAre(QName("ans1::ai1"), QName("ans1::ans2")));
	EXPECT_THAT(getSymbols("::ans1"), ElementsAre(QName("ans1")));
	EXPECT_THAT(getSymbols("::ans1::"),
	UnorderedElementsAre(QName("ans1::ai1"), QName("ans1::ans2")));
	EXPECT_THAT(getSymbols("::ans1::ans2"), ElementsAre(QName("ans1::ans2")));
	EXPECT_THAT(getSymbols("::ans1::ans2::"),
	ElementsAre(QName("ans1::ans2::ai2")));
	}

	TEST_F(WorkspaceSymbolsTest, AnonymousNamespace) {
	addFile("foo.h", R"cpp(
	namespace {
	void test() {}
	}
	)cpp");
	addFile("foo.cpp", R"cpp(
	#include "foo.h"
	)cpp");
	EXPECT_THAT(getSymbols("test"), IsEmpty());
	}

	TEST_F(WorkspaceSymbolsTest, MultiFile) {
	addFile("foo.h", R"cpp(
	int foo() {
	}
	)cpp");
	addFile("foo2.h", R"cpp(
	int foo2() {
	}
	)cpp");
	addFile("foo.cpp", R"cpp(
	#include "foo.h"
	#include "foo2.h"
	)cpp");
	EXPECT_THAT(getSymbols("foo"),
	UnorderedElementsAre(QName("foo"), QName("foo2")));
	}

	TEST_F(WorkspaceSymbolsTest, GlobalNamespaceQueries) {
	addFile("foo.h", R"cpp(
	int foo() {
	}
	class Foo {
	int a;
	};
	namespace ns {
	int foo2() {
	}
	}
	)cpp");
	addFile("foo.cpp", R"cpp(
	#include "foo.h"
	)cpp");
	EXPECT_THAT(getSymbols("::"),
	UnorderedElementsAre(
	AllOf(QName("Foo"), WithKind(SymbolKind::Class)),
	AllOf(QName("foo"), WithKind(SymbolKind::Function)),
	AllOf(QName("ns"), WithKind(SymbolKind::Namespace))));
	EXPECT_THAT(getSymbols(":"), IsEmpty());
	EXPECT_THAT(getSymbols(""), IsEmpty());
	}

	TEST_F(WorkspaceSymbolsTest, Enums) {
	addFile("foo.h", R"cpp(
	enum {
	Red
	};
	enum Color {
	Green
	};
	enum class Color2 {
	Yellow
	};
	namespace ns {
	enum {
	Black
	};
	enum Color3 {
	Blue
	};
	enum class Color4 {
	White
	};
	}
	)cpp");
	addFile("foo.cpp", R"cpp(
	#include "foo.h"
	)cpp");
	EXPECT_THAT(getSymbols("Red"), ElementsAre(QName("Red")));
	EXPECT_THAT(getSymbols("::Red"), ElementsAre(QName("Red")));
	EXPECT_THAT(getSymbols("Green"), ElementsAre(QName("Green")));
	EXPECT_THAT(getSymbols("Green"), ElementsAre(QName("Green")));
	EXPECT_THAT(getSymbols("Color2::Yellow"),
	ElementsAre(QName("Color2::Yellow")));
	EXPECT_THAT(getSymbols("Yellow"), ElementsAre(QName("Color2::Yellow")));

	EXPECT_THAT(getSymbols("ns::Black"), ElementsAre(QName("ns::Black")));
	EXPECT_THAT(getSymbols("ns::Blue"), ElementsAre(QName("ns::Blue")));
	EXPECT_THAT(getSymbols("ns::Color4::White"),
	ElementsAre(QName("ns::Color4::White")));
	}

	TEST_F(WorkspaceSymbolsTest, Ranking) {
	addFile("foo.h", R"cpp(
	namespace ns{}
	function func();
	)cpp");
	addFile("foo.cpp", R"cpp(
	#include "foo.h"
	)cpp");
	EXPECT_THAT(getSymbols("::"), ElementsAre(QName("func"), QName("ns")));
	}

	TEST_F(WorkspaceSymbolsTest, WithLimit) {
	addFile("foo.h", R"cpp(
	int foo;
	int foo2;
	)cpp");
	addFile("foo.cpp", R"cpp(
	#include "foo.h"
	)cpp");
	// Foo is higher ranked because of exact name match.
	EXPECT_THAT(getSymbols("foo"),
	UnorderedElementsAre(
	AllOf(QName("foo"), WithKind(SymbolKind::Variable)),
	AllOf(QName("foo2"), WithKind(SymbolKind::Variable))));

	Limit = 1;
	EXPECT_THAT(getSymbols("foo"), ElementsAre(QName("foo")));
	}

	namespace {
	class DocumentSymbolsTest : public ::testing::Test {
	public:
	DocumentSymbolsTest()
	: Server(CDB, FSProvider, DiagConsumer, optsForTests()) {}

	protected:
	MockFSProvider FSProvider;
	MockCompilationDatabase CDB;
	IgnoreDiagnostics DiagConsumer;
	ClangdServer Server;

	std::vector<SymbolInformation> getSymbols(PathRef File) {
	EXPECT_TRUE(Server.blockUntilIdleForTest()) << "Waiting for preamble";
	auto SymbolInfos = runDocumentSymbols(Server, File);
	EXPECT_TRUE(bool(SymbolInfos)) << "documentSymbols returned an error";
	return *SymbolInfos;
	}

	void addFile(StringRef FilePath, StringRef Contents) {
	FSProvider.Files[FilePath] = Contents;
	Server.addDocument(FilePath, Contents);
	}
	};
	} // namespace

	TEST_F(DocumentSymbolsTest, BasicSymbols) {
	std::string FilePath = testPath("foo.cpp");
	Annotations Main(R"(
	class Foo;
	class Foo {
	Foo() {}
	Foo(int a) {}
	void $decl[[f]]();
	friend void f1();
	friend class Friend;
	Foo& operator=(const Foo&);
	~Foo();
	class Nested {
	void f();
	};
	};
	class Friend {
	};

	void f1();
	inline void f2() {}
	static const int KInt = 2;
	const char* kStr = "123";

	void f1() {}

	namespace foo {
	// Type alias
	typedef int int32;
	using int32_t = int32;

	// Variable
	int v1;

	// Namespace
	namespace bar {
	int v2;
	}
	// Namespace alias
	namespace baz = bar;

	// FIXME: using declaration is not supported as the IndexAction will ignore
	// implicit declarations (the implicit using shadow declaration) by default,
	// and there is no way to customize this behavior at the moment.
	using bar::v2;
	} // namespace foo
	)");

	addFile(FilePath, Main.code());
	EXPECT_THAT(getSymbols(FilePath),
	ElementsAreArray(
	{AllOf(QName("Foo"), WithKind(SymbolKind::Class)),
	AllOf(QName("Foo"), WithKind(SymbolKind::Class)),
	AllOf(QName("Foo::Foo"), WithKind(SymbolKind::Method)),
	AllOf(QName("Foo::Foo"), WithKind(SymbolKind::Method)),
	AllOf(QName("Foo::f"), WithKind(SymbolKind::Method)),
	AllOf(QName("f1"), WithKind(SymbolKind::Function)),
	AllOf(QName("Foo::operator="), WithKind(SymbolKind::Method)),
	AllOf(QName("Foo::~Foo"), WithKind(SymbolKind::Method)),
	AllOf(QName("Foo::Nested"), WithKind(SymbolKind::Class)),
	AllOf(QName("Foo::Nested::f"), WithKind(SymbolKind::Method)),
	AllOf(QName("Friend"), WithKind(SymbolKind::Class)),
	AllOf(QName("f1"), WithKind(SymbolKind::Function)),
	AllOf(QName("f2"), WithKind(SymbolKind::Function)),
	AllOf(QName("KInt"), WithKind(SymbolKind::Variable)),
	AllOf(QName("kStr"), WithKind(SymbolKind::Variable)),
	AllOf(QName("f1"), WithKind(SymbolKind::Function)),
	AllOf(QName("foo"), WithKind(SymbolKind::Namespace)),
	AllOf(QName("foo::int32"), WithKind(SymbolKind::Class)),
	AllOf(QName("foo::int32_t"), WithKind(SymbolKind::Class)),
	AllOf(QName("foo::v1"), WithKind(SymbolKind::Variable)),
	AllOf(QName("foo::bar"), WithKind(SymbolKind::Namespace)),
	AllOf(QName("foo::bar::v2"), WithKind(SymbolKind::Variable)),
	AllOf(QName("foo::baz"), WithKind(SymbolKind::Namespace))}));
	}

	TEST_F(DocumentSymbolsTest, DeclarationDefinition) {
	std::string FilePath = testPath("foo.cpp");
	Annotations Main(R"(
	class Foo {
	void $decl[[f]]();
	};
	void Foo::$def[[f]]() {
	}
	)");

	addFile(FilePath, Main.code());
	EXPECT_THAT(getSymbols(FilePath),
	ElementsAre(AllOf(QName("Foo"), WithKind(SymbolKind::Class)),
	AllOf(QName("Foo::f"), WithKind(SymbolKind::Method),
	SymRange(Main.range("decl"))),
	AllOf(QName("Foo::f"), WithKind(SymbolKind::Method),
	SymRange(Main.range("def")))));
	}

	TEST_F(DocumentSymbolsTest, ExternSymbol) {
	std::string FilePath = testPath("foo.cpp");
	addFile(testPath("foo.h"), R"cpp(
	extern int var = 2;
	)cpp");
	addFile(FilePath, R"cpp(
	#include "foo.h"
	)cpp");

	EXPECT_THAT(getSymbols(FilePath), IsEmpty());
	}

	TEST_F(DocumentSymbolsTest, NoLocals) {
	std::string FilePath = testPath("foo.cpp");
	addFile(FilePath,
	R"cpp(
	void test(int FirstParam, int SecondParam) {
	struct LocalClass {};
	int local_var;
	})cpp");
	EXPECT_THAT(getSymbols(FilePath), ElementsAre(QName("test")));
	}

	TEST_F(DocumentSymbolsTest, Unnamed) {
	std::string FilePath = testPath("foo.h");
	addFile(FilePath,
	R"cpp(
	struct {
	int InUnnamed;
	} UnnamedStruct;
	)cpp");
	EXPECT_THAT(
	getSymbols(FilePath),
	ElementsAre(AllOf(QName("UnnamedStruct"), WithKind(SymbolKind::Variable)),
	AllOf(QName("(anonymous struct)::InUnnamed"),
	WithKind(SymbolKind::Field))));
	}

	TEST_F(DocumentSymbolsTest, InHeaderFile) {
	addFile("bar.h", R"cpp(
	int foo() {
	}
	)cpp");
	std::string FilePath = testPath("foo.h");
	addFile(FilePath, R"cpp(
	#include "bar.h"
	int test() {
	}
	)cpp");
	addFile("foo.cpp", R"cpp(
	#include "foo.h"
	)cpp");
	EXPECT_THAT(getSymbols(FilePath), ElementsAre(QName("test")));
	}

	TEST_F(DocumentSymbolsTest, Template) {
	std::string FilePath = testPath("foo.cpp");
	addFile(FilePath, R"(
	// Primary templates and specializations are included but instantiations
	// are not.
	template <class T> struct Tmpl {T x = 0;};
	template <> struct Tmpl<int> {};
	extern template struct Tmpl<float>;
	template struct Tmpl<double>;
	)");
	EXPECT_THAT(getSymbols(FilePath),
	ElementsAre(AllOf(QName("Tmpl"), WithKind(SymbolKind::Struct)),
	AllOf(QName("Tmpl::x"), WithKind(SymbolKind::Field)),
	AllOf(QName("Tmpl"), WithKind(SymbolKind::Struct))));
	}

	TEST_F(DocumentSymbolsTest, Namespaces) {
	std::string FilePath = testPath("foo.cpp");
	addFile(FilePath, R"cpp(
	namespace ans1 {
	int ai1;
	namespace ans2 {
	int ai2;
	}
	}
	namespace {
	void test() {}
	}

	namespace na {
	inline namespace nb {
	class Foo {};
	}
	}
	namespace na {
	// This is still inlined.
	namespace nb {
	class Bar {};
	}
	}
	)cpp");
	EXPECT_THAT(
	getSymbols(FilePath),
	ElementsAreArray({QName("ans1"), QName("ans1::ai1"), QName("ans1::ans2"),
	QName("ans1::ans2::ai2"), QName("test"), QName("na"),
	QName("na::nb"), QName("na::Foo"), QName("na"),
	QName("na::nb"), QName("na::Bar")}));
	}

	TEST_F(DocumentSymbolsTest, Enums) {
	std::string FilePath = testPath("foo.cpp");
	addFile(FilePath, R"(
	enum {
	Red
	};
	enum Color {
	Green
	};
	enum class Color2 {
	Yellow
	};
	namespace ns {
	enum {
	Black
	};
	}
	)");
	EXPECT_THAT(getSymbols(FilePath),
	ElementsAre(QName("Red"), QName("Color"), QName("Green"),
	QName("Color2"), QName("Color2::Yellow"), QName("ns"),
	QName("ns::Black")));
	}

	TEST_F(DocumentSymbolsTest, FromMacro) {
	std::string FilePath = testPath("foo.cpp");
	Annotations Main(R"(
	#define FF(name) \
	class name##_Test {};

	$expansion[[FF]](abc);

	#define FF2() \
	class $spelling[[Test]] {};

	FF2();
	)");
	addFile(FilePath, Main.code());
	EXPECT_THAT(
	getSymbols(FilePath),
	ElementsAre(AllOf(QName("abc_Test"), SymRange(Main.range("expansion"))),
	AllOf(QName("Test"), SymRange(Main.range("spelling")))));
	}

	} // namespace clangd
	} // namespace clang