llvm-project/clang-tools-extra/clangd/unittests/FindSymbolsTests.cpp

751 lines
23 KiB
C++

//===-- FindSymbolsTests.cpp -------------------------*- C++ -*------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#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::ElementsAre;
using ::testing::ElementsAreArray;
using ::testing::Field;
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(WithName, N, "") { return arg.name == N; }
MATCHER_P(WithKind, Kind, "") { return arg.kind == Kind; }
MATCHER_P(SymRange, Range, "") { return arg.location.range == Range; }
// GMock helpers for matching DocumentSymbol.
MATCHER_P(SymNameRange, Range, "") { return arg.selectionRange == Range; }
template <class... ChildMatchers>
::testing::Matcher<DocumentSymbol> Children(ChildMatchers... ChildrenM) {
return Field(&DocumentSymbol::children, ElementsAre(ChildrenM...));
}
ClangdServer::Options optsForTests() {
auto ServerOpts = ClangdServer::optsForTest();
ServerOpts.WorkspaceRoot = testRoot();
ServerOpts.BuildDynamicSymbolIndex = true;
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")] = "";
CDB.ExtraClangFlags = {"-xc++"};
}
protected:
MockFSProvider FSProvider;
MockCompilationDatabase CDB;
IgnoreDiagnostics DiagConsumer;
ClangdServer Server;
int Limit = 0;
std::vector<SymbolInformation> getSymbols(llvm::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(llvm::StringRef FileName, llvm::StringRef Contents) {
auto Path = testPath(FileName);
FSProvider.Files[Path] = Contents;
Server.addDocument(Path, Contents);
}
};
} // namespace
TEST_F(WorkspaceSymbolsTest, Macros) {
addFile("foo.cpp", R"cpp(
#define MACRO X
)cpp");
// LSP's SymbolKind doesn't have a "Macro" kind, and
// indexSymbolKindToSymbolKind() currently maps macros
// to SymbolKind::String.
EXPECT_THAT(getSymbols("macro"),
ElementsAre(AllOf(QName("MACRO"), WithKind(SymbolKind::String))));
}
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() {}
static test2() {}
)cpp");
EXPECT_THAT(getSymbols("test"), ElementsAre(QName("test"), QName("test2")));
}
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.cpp", R"cpp(
namespace {
void test() {}
}
)cpp");
EXPECT_THAT(getSymbols("test"), ElementsAre(QName("test")));
}
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{}
void 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")));
}
TEST_F(WorkspaceSymbolsTest, TempSpecs) {
addFile("foo.h", R"cpp(
template <typename T, typename U, int X = 5> class Foo {};
template <typename T> class Foo<int, T> {};
template <> class Foo<bool, int> {};
template <> class Foo<bool, int, 3> {};
)cpp");
// Foo is higher ranked because of exact name match.
EXPECT_THAT(
getSymbols("Foo"),
UnorderedElementsAre(
AllOf(QName("Foo"), WithKind(SymbolKind::Class)),
AllOf(QName("Foo<int, T>"), WithKind(SymbolKind::Class)),
AllOf(QName("Foo<bool, int>"), WithKind(SymbolKind::Class)),
AllOf(QName("Foo<bool, int, 3>"), WithKind(SymbolKind::Class))));
}
namespace {
class DocumentSymbolsTest : public ::testing::Test {
public:
DocumentSymbolsTest()
: Server(CDB, FSProvider, DiagConsumer, optsForTests()) {}
protected:
MockFSProvider FSProvider;
MockCompilationDatabase CDB;
IgnoreDiagnostics DiagConsumer;
ClangdServer Server;
std::vector<DocumentSymbol> 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(llvm::StringRef FilePath, llvm::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;
using bar::v2;
} // namespace foo
)");
addFile(FilePath, Main.code());
EXPECT_THAT(
getSymbols(FilePath),
ElementsAreArray(
{AllOf(WithName("Foo"), WithKind(SymbolKind::Class), Children()),
AllOf(WithName("Foo"), WithKind(SymbolKind::Class),
Children(AllOf(WithName("Foo"),
WithKind(SymbolKind::Constructor), Children()),
AllOf(WithName("Foo"),
WithKind(SymbolKind::Constructor), Children()),
AllOf(WithName("f"), WithKind(SymbolKind::Method),
Children()),
AllOf(WithName("operator="),
WithKind(SymbolKind::Method), Children()),
AllOf(WithName("~Foo"),
WithKind(SymbolKind::Constructor), Children()),
AllOf(WithName("Nested"), WithKind(SymbolKind::Class),
Children(AllOf(WithName("f"),
WithKind(SymbolKind::Method),
Children()))))),
AllOf(WithName("Friend"), WithKind(SymbolKind::Class), Children()),
AllOf(WithName("f1"), WithKind(SymbolKind::Function), Children()),
AllOf(WithName("f2"), WithKind(SymbolKind::Function), Children()),
AllOf(WithName("KInt"), WithKind(SymbolKind::Variable), Children()),
AllOf(WithName("kStr"), WithKind(SymbolKind::Variable), Children()),
AllOf(WithName("f1"), WithKind(SymbolKind::Function), Children()),
AllOf(
WithName("foo"), WithKind(SymbolKind::Namespace),
Children(
AllOf(WithName("int32"), WithKind(SymbolKind::Class),
Children()),
AllOf(WithName("int32_t"), WithKind(SymbolKind::Class),
Children()),
AllOf(WithName("v1"), WithKind(SymbolKind::Variable),
Children()),
AllOf(WithName("bar"), WithKind(SymbolKind::Namespace),
Children(AllOf(WithName("v2"),
WithKind(SymbolKind::Variable),
Children()))),
AllOf(WithName("baz"), WithKind(SymbolKind::Namespace),
Children()),
AllOf(WithName("v2"), 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(WithName("Foo"), WithKind(SymbolKind::Class),
Children(AllOf(WithName("f"), WithKind(SymbolKind::Method),
SymNameRange(Main.range("decl"))))),
AllOf(WithName("Foo::f"), WithKind(SymbolKind::Method),
SymNameRange(Main.range("def")))));
}
TEST_F(DocumentSymbolsTest, ExternSymbol) {
std::string FilePath = testPath("foo.cpp");
addFile(testPath("foo.h"), R"cpp(
extern int var;
)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(WithName("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(WithName("(anonymous struct)"), WithKind(SymbolKind::Struct),
Children(AllOf(WithName("InUnnamed"),
WithKind(SymbolKind::Field), Children()))),
AllOf(WithName("UnnamedStruct"), WithKind(SymbolKind::Variable),
Children())));
}
TEST_F(DocumentSymbolsTest, InHeaderFile) {
addFile(testPath("bar.h"), R"cpp(
int foo() {
}
)cpp");
std::string FilePath = testPath("foo.h");
addFile(FilePath, R"cpp(
#include "bar.h"
int test() {
}
)cpp");
addFile(testPath("foo.cpp"), R"cpp(
#include "foo.h"
)cpp");
EXPECT_THAT(getSymbols(FilePath), ElementsAre(WithName("test")));
}
TEST_F(DocumentSymbolsTest, Template) {
std::string FilePath = testPath("foo.cpp");
addFile(FilePath, R"(
template <class T> struct Tmpl {T x = 0;};
template <> struct Tmpl<int> {
int y = 0;
};
extern template struct Tmpl<float>;
template struct Tmpl<double>;
template <class T, class U, class Z = float>
int funcTmpl(U a);
template <>
int funcTmpl<int>(double a);
template <class T, class U = double>
int varTmpl = T();
template <>
double varTmpl<int> = 10.0;
)");
EXPECT_THAT(
getSymbols(FilePath),
ElementsAre(
AllOf(WithName("Tmpl"), WithKind(SymbolKind::Struct),
Children(AllOf(WithName("x"), WithKind(SymbolKind::Field)))),
AllOf(WithName("Tmpl<int>"), WithKind(SymbolKind::Struct),
Children(WithName("y"))),
AllOf(WithName("Tmpl<float>"), WithKind(SymbolKind::Struct),
Children()),
AllOf(WithName("Tmpl<double>"), WithKind(SymbolKind::Struct),
Children()),
AllOf(WithName("funcTmpl"), Children()),
AllOf(WithName("funcTmpl<int>"), Children()),
AllOf(WithName("varTmpl"), Children()),
AllOf(WithName("varTmpl<int>"), Children())));
}
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<::testing::Matcher<DocumentSymbol>>(
{AllOf(WithName("ans1"),
Children(AllOf(WithName("ai1"), Children()),
AllOf(WithName("ans2"), Children(WithName("ai2"))))),
AllOf(WithName("(anonymous namespace)"), Children(WithName("test"))),
AllOf(WithName("na"),
Children(AllOf(WithName("nb"), Children(WithName("Foo"))))),
AllOf(WithName("na"),
Children(AllOf(WithName("nb"), Children(WithName("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(
AllOf(WithName("(anonymous enum)"), Children(WithName("Red"))),
AllOf(WithName("Color"), Children(WithName("Green"))),
AllOf(WithName("Color2"), Children(WithName("Yellow"))),
AllOf(WithName("ns"), Children(AllOf(WithName("(anonymous enum)"),
Children(WithName("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(WithName("abc_Test"), SymNameRange(Main.range("expansion"))),
AllOf(WithName("Test"), SymNameRange(Main.range("spelling")))));
}
TEST_F(DocumentSymbolsTest, FuncTemplates) {
std::string FilePath = testPath("foo.cpp");
Annotations Source(R"cpp(
template <class T>
T foo() {}
auto x = foo<int>();
auto y = foo<double>()
)cpp");
addFile(FilePath, Source.code());
// Make sure we only see the template declaration, not instantiations.
EXPECT_THAT(getSymbols(FilePath),
ElementsAre(WithName("foo"), WithName("x"), WithName("y")));
}
TEST_F(DocumentSymbolsTest, UsingDirectives) {
std::string FilePath = testPath("foo.cpp");
Annotations Source(R"cpp(
namespace ns {
int foo;
}
namespace ns_alias = ns;
using namespace ::ns; // check we don't loose qualifiers.
using namespace ns_alias; // and namespace aliases.
)cpp");
addFile(FilePath, Source.code());
EXPECT_THAT(getSymbols(FilePath),
ElementsAre(WithName("ns"), WithName("ns_alias"),
WithName("using namespace ::ns"),
WithName("using namespace ns_alias")));
}
TEST_F(DocumentSymbolsTest, TempSpecs) {
addFile("foo.cpp", R"cpp(
template <typename T, typename U, int X = 5> class Foo {};
template <typename T> class Foo<int, T> {};
template <> class Foo<bool, int> {};
template <> class Foo<bool, int, 3> {};
)cpp");
// Foo is higher ranked because of exact name match.
EXPECT_THAT(
getSymbols("foo.cpp"),
UnorderedElementsAre(
AllOf(WithName("Foo"), WithKind(SymbolKind::Class)),
AllOf(WithName("Foo<int, T>"), WithKind(SymbolKind::Class)),
AllOf(WithName("Foo<bool, int>"), WithKind(SymbolKind::Class)),
AllOf(WithName("Foo<bool, int, 3>"), WithKind(SymbolKind::Class))));
}
TEST_F(DocumentSymbolsTest, Qualifiers) {
addFile("foo.cpp", R"cpp(
namespace foo { namespace bar {
struct Cls;
int func1();
int func2();
int func3();
int func4();
}}
struct foo::bar::Cls { };
int foo::bar::func1() { return 10; }
int ::foo::bar::func2() { return 20; }
using namespace foo;
int bar::func3() { return 30; }
namespace alias = foo::bar;
int ::alias::func4() { return 40; }
)cpp");
// All the qualifiers should be preserved exactly as written.
EXPECT_THAT(getSymbols("foo.cpp"),
UnorderedElementsAre(
WithName("foo"), WithName("foo::bar::Cls"),
WithName("foo::bar::func1"), WithName("::foo::bar::func2"),
WithName("using namespace foo"), WithName("bar::func3"),
WithName("alias"), WithName("::alias::func4")));
}
TEST_F(DocumentSymbolsTest, QualifiersWithTemplateArgs) {
addFile("foo.cpp", R"cpp(
template <typename T, typename U = double> class Foo;
template <>
class Foo<int, double> {
int method1();
int method2();
int method3();
};
using int_type = int;
// Typedefs should be preserved!
int Foo<int_type, double>::method1() { return 10; }
// Default arguments should not be shown!
int Foo<int>::method2() { return 20; }
using Foo_type = Foo<int>;
// If the whole type is aliased, this should be preserved too!
int Foo_type::method3() { return 30; }
)cpp");
EXPECT_THAT(
getSymbols("foo.cpp"),
UnorderedElementsAre(WithName("Foo"), WithName("Foo<int, double>"),
WithName("int_type"),
WithName("Foo<int_type, double>::method1"),
WithName("Foo<int>::method2"), WithName("Foo_type"),
WithName("Foo_type::method3")));
}
} // namespace clangd
} // namespace clang