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| //===-- FileIndexTests.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 "AST.h"
#include "Annotations.h"
#include "Compiler.h"
#include "ParsedAST.h"
#include "SyncAPI.h"
#include "TestFS.h"
#include "TestTU.h"
#include "index/CanonicalIncludes.h"
#include "index/FileIndex.h"
#include "index/Index.h"
#include "clang/Frontend/CompilerInvocation.h"
#include "clang/Frontend/Utils.h"
#include "clang/Index/IndexSymbol.h"
#include "clang/Lex/Preprocessor.h"
#include "clang/Tooling/CompilationDatabase.h"
#include "gmock/gmock.h"
#include "gtest/gtest.h"
using ::testing::_;
using ::testing::AllOf;
using ::testing::Contains;
using ::testing::ElementsAre;
using ::testing::IsEmpty;
using ::testing::Pair;
using ::testing::UnorderedElementsAre;
MATCHER_P(RefRange, Range, "") {
return std::make_tuple(arg.Location.Start.line(), arg.Location.Start.column(),
arg.Location.End.line(), arg.Location.End.column()) ==
std::make_tuple(Range.start.line, Range.start.character,
Range.end.line, Range.end.character);
}
MATCHER_P(FileURI, F, "") { return llvm::StringRef(arg.Location.FileURI) == F; }
MATCHER_P(DeclURI, U, "") {
return llvm::StringRef(arg.CanonicalDeclaration.FileURI) == U;
}
MATCHER_P(DefURI, U, "") {
return llvm::StringRef(arg.Definition.FileURI) == U;
}
MATCHER_P(QName, N, "") { return (arg.Scope + arg.Name).str() == N; }
MATCHER_P(NumReferences, N, "") { return arg.References == N; }
MATCHER_P(hasOrign, O, "") { return bool(arg.Origin & O); }
namespace clang {
namespace clangd {
namespace {
::testing::Matcher<const RefSlab &>
RefsAre(std::vector<::testing::Matcher<Ref>> Matchers) {
return ElementsAre(::testing::Pair(_, UnorderedElementsAreArray(Matchers)));
}
Symbol symbol(llvm::StringRef ID) {
Symbol Sym;
Sym.ID = SymbolID(ID);
Sym.Name = ID;
return Sym;
}
std::unique_ptr<SymbolSlab> numSlab(int Begin, int End) {
SymbolSlab::Builder Slab;
for (int i = Begin; i <= End; i++)
Slab.insert(symbol(std::to_string(i)));
return std::make_unique<SymbolSlab>(std::move(Slab).build());
}
std::unique_ptr<RefSlab> refSlab(const SymbolID &ID, const char *Path) {
RefSlab::Builder Slab;
Ref R;
R.Location.FileURI = Path;
R.Kind = RefKind::Reference;
Slab.insert(ID, R);
return std::make_unique<RefSlab>(std::move(Slab).build());
}
TEST(FileSymbolsTest, UpdateAndGet) {
FileSymbols FS;
EXPECT_THAT(runFuzzyFind(*FS.buildIndex(IndexType::Light), ""), IsEmpty());
FS.update("f1", numSlab(1, 3), refSlab(SymbolID("1"), "f1.cc"), nullptr,
false);
EXPECT_THAT(runFuzzyFind(*FS.buildIndex(IndexType::Light), ""),
UnorderedElementsAre(QName("1"), QName("2"), QName("3")));
EXPECT_THAT(getRefs(*FS.buildIndex(IndexType::Light), SymbolID("1")),
RefsAre({FileURI("f1.cc")}));
}
TEST(FileSymbolsTest, Overlap) {
FileSymbols FS;
FS.update("f1", numSlab(1, 3), nullptr, nullptr, false);
FS.update("f2", numSlab(3, 5), nullptr, nullptr, false);
for (auto Type : {IndexType::Light, IndexType::Heavy})
EXPECT_THAT(runFuzzyFind(*FS.buildIndex(Type), ""),
UnorderedElementsAre(QName("1"), QName("2"), QName("3"),
QName("4"), QName("5")));
}
TEST(FileSymbolsTest, MergeOverlap) {
FileSymbols FS;
auto OneSymboSlab = [](Symbol Sym) {
SymbolSlab::Builder S;
S.insert(Sym);
return std::make_unique<SymbolSlab>(std::move(S).build());
};
auto X1 = symbol("x");
X1.CanonicalDeclaration.FileURI = "file:///x1";
auto X2 = symbol("x");
X2.Definition.FileURI = "file:///x2";
FS.update("f1", OneSymboSlab(X1), nullptr, nullptr, false);
FS.update("f2", OneSymboSlab(X2), nullptr, nullptr, false);
for (auto Type : {IndexType::Light, IndexType::Heavy})
EXPECT_THAT(
runFuzzyFind(*FS.buildIndex(Type, DuplicateHandling::Merge), "x"),
UnorderedElementsAre(
AllOf(QName("x"), DeclURI("file:///x1"), DefURI("file:///x2"))));
}
TEST(FileSymbolsTest, SnapshotAliveAfterRemove) {
FileSymbols FS;
SymbolID ID("1");
FS.update("f1", numSlab(1, 3), refSlab(ID, "f1.cc"), nullptr, false);
auto Symbols = FS.buildIndex(IndexType::Light);
EXPECT_THAT(runFuzzyFind(*Symbols, ""),
UnorderedElementsAre(QName("1"), QName("2"), QName("3")));
EXPECT_THAT(getRefs(*Symbols, ID), RefsAre({FileURI("f1.cc")}));
FS.update("f1", nullptr, nullptr, nullptr, false);
auto Empty = FS.buildIndex(IndexType::Light);
EXPECT_THAT(runFuzzyFind(*Empty, ""), IsEmpty());
EXPECT_THAT(getRefs(*Empty, ID), ElementsAre());
EXPECT_THAT(runFuzzyFind(*Symbols, ""),
UnorderedElementsAre(QName("1"), QName("2"), QName("3")));
EXPECT_THAT(getRefs(*Symbols, ID), RefsAre({FileURI("f1.cc")}));
}
// Adds Basename.cpp, which includes Basename.h, which contains Code.
void update(FileIndex &M, llvm::StringRef Basename, llvm::StringRef Code) {
TestTU File;
File.Filename = (Basename + ".cpp").str();
File.HeaderFilename = (Basename + ".h").str();
File.HeaderCode = Code;
auto AST = File.build();
M.updatePreamble(File.Filename, AST.getASTContext(), AST.getPreprocessorPtr(),
AST.getCanonicalIncludes());
}
TEST(FileIndexTest, CustomizedURIScheme) {
FileIndex M;
update(M, "f", "class string {};");
EXPECT_THAT(runFuzzyFind(M, ""), ElementsAre(DeclURI("unittest:///f.h")));
}
TEST(FileIndexTest, IndexAST) {
FileIndex M;
update(M, "f1", "namespace ns { void f() {} class X {}; }");
FuzzyFindRequest Req;
Req.Query = "";
Req.Scopes = {"ns::"};
EXPECT_THAT(runFuzzyFind(M, Req),
UnorderedElementsAre(QName("ns::f"), QName("ns::X")));
}
TEST(FileIndexTest, NoLocal) {
FileIndex M;
update(M, "f1", "namespace ns { void f() { int local = 0; } class X {}; }");
EXPECT_THAT(
runFuzzyFind(M, ""),
UnorderedElementsAre(QName("ns"), QName("ns::f"), QName("ns::X")));
}
TEST(FileIndexTest, IndexMultiASTAndDeduplicate) {
FileIndex M;
update(M, "f1", "namespace ns { void f() {} class X {}; }");
update(M, "f2", "namespace ns { void ff() {} class X {}; }");
FuzzyFindRequest Req;
Req.Scopes = {"ns::"};
EXPECT_THAT(
runFuzzyFind(M, Req),
UnorderedElementsAre(QName("ns::f"), QName("ns::X"), QName("ns::ff")));
}
TEST(FileIndexTest, ClassMembers) {
FileIndex M;
update(M, "f1", "class X { static int m1; int m2; static void f(); };");
EXPECT_THAT(runFuzzyFind(M, ""),
UnorderedElementsAre(QName("X"), QName("X::m1"), QName("X::m2"),
QName("X::f")));
}
TEST(FileIndexTest, IncludeCollected) {
FileIndex M;
update(
M, "f",
"// IWYU pragma: private, include <the/good/header.h>\nclass string {};");
auto Symbols = runFuzzyFind(M, "");
EXPECT_THAT(Symbols, ElementsAre(_));
EXPECT_THAT(Symbols.begin()->IncludeHeaders.front().IncludeHeader,
"<the/good/header.h>");
}
TEST(FileIndexTest, HasSystemHeaderMappingsInPreamble) {
TestTU TU;
TU.HeaderCode = "class Foo{};";
TU.HeaderFilename = "algorithm";
auto Symbols = runFuzzyFind(*TU.index(), "");
EXPECT_THAT(Symbols, ElementsAre(_));
EXPECT_THAT(Symbols.begin()->IncludeHeaders.front().IncludeHeader,
"<algorithm>");
}
TEST(FileIndexTest, TemplateParamsInLabel) {
auto Source = R"cpp(
template <class Ty>
class vector {
};
template <class Ty, class Arg>
vector<Ty> make_vector(Arg A) {}
)cpp";
FileIndex M;
update(M, "f", Source);
auto Symbols = runFuzzyFind(M, "");
EXPECT_THAT(Symbols,
UnorderedElementsAre(QName("vector"), QName("make_vector")));
auto It = Symbols.begin();
Symbol Vector = *It++;
Symbol MakeVector = *It++;
if (MakeVector.Name == "vector")
std::swap(MakeVector, Vector);
EXPECT_EQ(Vector.Signature, "<class Ty>");
EXPECT_EQ(Vector.CompletionSnippetSuffix, "<${1:class Ty}>");
EXPECT_EQ(MakeVector.Signature, "<class Ty>(Arg A)");
EXPECT_EQ(MakeVector.CompletionSnippetSuffix, "<${1:class Ty}>(${2:Arg A})");
}
TEST(FileIndexTest, RebuildWithPreamble) {
auto FooCpp = testPath("foo.cpp");
auto FooH = testPath("foo.h");
// Preparse ParseInputs.
ParseInputs PI;
PI.CompileCommand.Directory = testRoot();
PI.CompileCommand.Filename = FooCpp;
PI.CompileCommand.CommandLine = {"clang", "-xc++", FooCpp};
llvm::StringMap<std::string> Files;
Files[FooCpp] = "";
Files[FooH] = R"cpp(
namespace ns_in_header {
int func_in_header();
}
)cpp";
PI.FS = buildTestFS(std::move(Files));
PI.Contents = R"cpp(
#include "foo.h"
namespace ns_in_source {
int func_in_source();
}
)cpp";
// Rebuild the file.
IgnoreDiagnostics IgnoreDiags;
auto CI = buildCompilerInvocation(PI, IgnoreDiags);
FileIndex Index;
bool IndexUpdated = false;
buildPreamble(
FooCpp, *CI, /*OldPreamble=*/nullptr, tooling::CompileCommand(), PI,
/*StoreInMemory=*/true,
[&](ASTContext &Ctx, std::shared_ptr<Preprocessor> PP,
const CanonicalIncludes &CanonIncludes) {
EXPECT_FALSE(IndexUpdated) << "Expected only a single index update";
IndexUpdated = true;
Index.updatePreamble(FooCpp, Ctx, std::move(PP), CanonIncludes);
});
ASSERT_TRUE(IndexUpdated);
// Check the index contains symbols from the preamble, but not from the main
// file.
FuzzyFindRequest Req;
Req.Query = "";
Req.Scopes = {"", "ns_in_header::"};
EXPECT_THAT(runFuzzyFind(Index, Req),
UnorderedElementsAre(QName("ns_in_header"),
QName("ns_in_header::func_in_header")));
}
TEST(FileIndexTest, Refs) {
const char *HeaderCode = "class Foo {};";
Annotations MainCode(R"cpp(
void f() {
$foo[[Foo]] foo;
}
)cpp");
auto Foo =
findSymbol(TestTU::withHeaderCode(HeaderCode).headerSymbols(), "Foo");
RefsRequest Request;
Request.IDs = {Foo.ID};
FileIndex Index;
// Add test.cc
TestTU Test;
Test.HeaderCode = HeaderCode;
Test.Code = MainCode.code();
Test.Filename = "test.cc";
auto AST = Test.build();
Index.updateMain(Test.Filename, AST);
// Add test2.cc
TestTU Test2;
Test2.HeaderCode = HeaderCode;
Test2.Code = MainCode.code();
Test2.Filename = "test2.cc";
AST = Test2.build();
Index.updateMain(Test2.Filename, AST);
EXPECT_THAT(getRefs(Index, Foo.ID),
RefsAre({AllOf(RefRange(MainCode.range("foo")),
FileURI("unittest:///test.cc")),
AllOf(RefRange(MainCode.range("foo")),
FileURI("unittest:///test2.cc"))}));
}
TEST(FileIndexTest, CollectMacros) {
FileIndex M;
update(M, "f", "#define CLANGD 1");
EXPECT_THAT(runFuzzyFind(M, ""), Contains(QName("CLANGD")));
}
TEST(FileIndexTest, Relations) {
TestTU TU;
TU.Filename = "f.cpp";
TU.HeaderFilename = "f.h";
TU.HeaderCode = "class A {}; class B : public A {};";
auto AST = TU.build();
FileIndex Index;
Index.updatePreamble(TU.Filename, AST.getASTContext(),
AST.getPreprocessorPtr(), AST.getCanonicalIncludes());
SymbolID A = findSymbol(TU.headerSymbols(), "A").ID;
uint32_t Results = 0;
RelationsRequest Req;
Req.Subjects.insert(A);
Req.Predicate = RelationKind::BaseOf;
Index.relations(Req, [&](const SymbolID &, const Symbol &) { ++Results; });
EXPECT_EQ(Results, 1u);
}
TEST(FileIndexTest, ReferencesInMainFileWithPreamble) {
TestTU TU;
TU.HeaderCode = "class Foo{};";
Annotations Main(R"cpp(
#include "foo.h"
void f() {
[[Foo]] foo;
}
)cpp");
TU.Code = Main.code();
auto AST = TU.build();
FileIndex Index;
Index.updateMain(testPath(TU.Filename), AST);
// Expect to see references in main file, references in headers are excluded
// because we only index main AST.
EXPECT_THAT(getRefs(Index, findSymbol(TU.headerSymbols(), "Foo").ID),
RefsAre({RefRange(Main.range())}));
}
TEST(FileIndexTest, MergeMainFileSymbols) {
const char* CommonHeader = "void foo();";
TestTU Header = TestTU::withCode(CommonHeader);
TestTU Cpp = TestTU::withCode("void foo() {}");
Cpp.Filename = "foo.cpp";
Cpp.HeaderFilename = "foo.h";
Cpp.HeaderCode = CommonHeader;
FileIndex Index;
auto HeaderAST = Header.build();
auto CppAST = Cpp.build();
Index.updateMain(testPath("foo.h"), HeaderAST);
Index.updateMain(testPath("foo.cpp"), CppAST);
auto Symbols = runFuzzyFind(Index, "");
// Check foo is merged, foo in Cpp wins (as we see the definition there).
EXPECT_THAT(Symbols, ElementsAre(AllOf(DeclURI("unittest:///foo.h"),
DefURI("unittest:///foo.cpp"),
hasOrign(SymbolOrigin::Merge))));
}
TEST(FileSymbolsTest, CountReferencesNoRefSlabs) {
FileSymbols FS;
FS.update("f1", numSlab(1, 3), nullptr, nullptr, true);
FS.update("f2", numSlab(1, 3), nullptr, nullptr, false);
EXPECT_THAT(
runFuzzyFind(*FS.buildIndex(IndexType::Light, DuplicateHandling::Merge),
""),
UnorderedElementsAre(AllOf(QName("1"), NumReferences(0u)),
AllOf(QName("2"), NumReferences(0u)),
AllOf(QName("3"), NumReferences(0u))));
}
TEST(FileSymbolsTest, CountReferencesWithRefSlabs) {
FileSymbols FS;
FS.update("f1cpp", numSlab(1, 3), refSlab(SymbolID("1"), "f1.cpp"), nullptr,
true);
FS.update("f1h", numSlab(1, 3), refSlab(SymbolID("1"), "f1.h"), nullptr,
false);
FS.update("f2cpp", numSlab(1, 3), refSlab(SymbolID("2"), "f2.cpp"), nullptr,
true);
FS.update("f2h", numSlab(1, 3), refSlab(SymbolID("2"), "f2.h"), nullptr,
false);
FS.update("f3cpp", numSlab(1, 3), refSlab(SymbolID("3"), "f3.cpp"), nullptr,
true);
FS.update("f3h", numSlab(1, 3), refSlab(SymbolID("3"), "f3.h"), nullptr,
false);
EXPECT_THAT(
runFuzzyFind(*FS.buildIndex(IndexType::Light, DuplicateHandling::Merge),
""),
UnorderedElementsAre(AllOf(QName("1"), NumReferences(1u)),
AllOf(QName("2"), NumReferences(1u)),
AllOf(QName("3"), NumReferences(1u))));
}
} // namespace
} // namespace clangd
} // namespace clang
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