//===-- CodeCompleteTests.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 "CodeComplete.h"
#include "Compiler.h"
#include "Context.h"
#include "Matchers.h"
#include "Protocol.h"
#include "SourceCode.h"
#include "TestFS.h"
#include "index/MemIndex.h"
#include "gmock/gmock.h"
#include "gtest/gtest.h"
namespace clang {
namespace clangd {
// Let GMock print completion items and signature help.
void PrintTo(const CompletionItem &I, std::ostream *O) {
llvm::raw_os_ostream OS(*O);
OS << I.label << " - " << toJSON(I);
}
void PrintTo(const std::vector<CompletionItem> &V, std::ostream *O) {
*O << "{\n";
for (const auto &I : V) {
*O << "\t";
PrintTo(I, O);
*O << "\n";
}
*O << "}";
}
void PrintTo(const SignatureInformation &I, std::ostream *O) {
llvm::raw_os_ostream OS(*O);
OS << I.label << " - " << toJSON(I);
}
void PrintTo(const std::vector<SignatureInformation> &V, std::ostream *O) {
*O << "{\n";
for (const auto &I : V) {
*O << "\t";
PrintTo(I, O);
*O << "\n";
}
*O << "}";
}
namespace {
using namespace llvm;
using ::testing::AllOf;
using ::testing::Contains;
using ::testing::Each;
using ::testing::ElementsAre;
using ::testing::Not;
class IgnoreDiagnostics : public DiagnosticsConsumer {
void onDiagnosticsReady(
PathRef File, Tagged<std::vector<DiagWithFixIts>> Diagnostics) override {}
};
// GMock helpers for matching completion items.
MATCHER_P(Named, Name, "") { return arg.insertText == Name; }
MATCHER_P(Labeled, Label, "") { return arg.label == Label; }
MATCHER_P(Kind, K, "") { return arg.kind == K; }
MATCHER_P(Filter, F, "") { return arg.filterText == F; }
MATCHER_P(PlainText, Text, "") {
return arg.insertTextFormat == clangd::InsertTextFormat::PlainText &&
arg.insertText == Text;
}
MATCHER_P(Snippet, Text, "") {
return arg.insertTextFormat == clangd::InsertTextFormat::Snippet &&
arg.insertText == Text;
}
MATCHER(FilterContainsName, "") {
if (arg.filterText.empty())
return true;
return llvm::StringRef(arg.insertText).contains(arg.filterText);
}
// Shorthand for Contains(Named(Name)).
Matcher<const std::vector<CompletionItem> &> Has(std::string Name) {
return Contains(Named(std::move(Name)));
}
Matcher<const std::vector<CompletionItem> &> Has(std::string Name,
CompletionItemKind K) {
return Contains(AllOf(Named(std::move(Name)), Kind(K)));
}
MATCHER(IsDocumented, "") { return !arg.documentation.empty(); }
CompletionList completions(StringRef Text,
clangd::CodeCompleteOptions Opts = {}) {
MockFSProvider FS;
MockCompilationDatabase CDB;
IgnoreDiagnostics DiagConsumer;
ClangdServer Server(CDB, DiagConsumer, FS, getDefaultAsyncThreadsCount(),
/*StorePreamblesInMemory=*/true);
auto File = getVirtualTestFilePath("foo.cpp");
Annotations Test(Text);
Server.addDocument(Context::empty(), File, Test.code());
auto CompletionList =
Server.codeComplete(Context::empty(), File, Test.point(), Opts)
.get()
.second.Value;
// Sanity-check that filterText is valid.
EXPECT_THAT(CompletionList.items, Each(FilterContainsName()));
return CompletionList;
}
TEST(CompletionTest, Limit) {
clangd::CodeCompleteOptions Opts;
Opts.Limit = 2;
auto Results = completions(R"cpp(
struct ClassWithMembers {
int AAA();
int BBB();
int CCC();
}
int main() { ClassWithMembers().^ }
)cpp",
Opts);
EXPECT_TRUE(Results.isIncomplete);
EXPECT_THAT(Results.items, ElementsAre(Named("AAA"), Named("BBB")));
}
TEST(CompletionTest, Filter) {
std::string Body = R"cpp(
int Abracadabra;
int Alakazam;
struct S {
int FooBar;
int FooBaz;
int Qux;
};
)cpp";
EXPECT_THAT(completions(Body + "int main() { S().Foba^ }").items,
AllOf(Has("FooBar"), Has("FooBaz"), Not(Has("Qux"))));
EXPECT_THAT(completions(Body + "int main() { S().FR^ }").items,
AllOf(Has("FooBar"), Not(Has("FooBaz")), Not(Has("Qux"))));
EXPECT_THAT(completions(Body + "int main() { S().opr^ }").items,
Has("operator="));
EXPECT_THAT(completions(Body + "int main() { aaa^ }").items,
AllOf(Has("Abracadabra"), Has("Alakazam")));
EXPECT_THAT(completions(Body + "int main() { _a^ }").items,
AllOf(Has("static_cast"), Not(Has("Abracadabra"))));
}
void TestAfterDotCompletion(clangd::CodeCompleteOptions Opts) {
auto Results = completions(
R"cpp(
#define MACRO X
int global_var;
int global_func();
struct GlobalClass {};
struct ClassWithMembers {
/// Doc for method.
int method();
int field;
private:
int private_field;
};
int test() {
struct LocalClass {};
/// Doc for local_var.
int local_var;
ClassWithMembers().^
}
)cpp",
Opts);
// Class members. The only items that must be present in after-dot
// completion.
EXPECT_THAT(
Results.items,
AllOf(Has(Opts.EnableSnippets ? "method()" : "method"), Has("field")));
EXPECT_IFF(Opts.IncludeIneligibleResults, Results.items,
Has("private_field"));
// Global items.
EXPECT_THAT(Results.items, Not(AnyOf(Has("global_var"), Has("global_func"),
Has("global_func()"), Has("GlobalClass"),
Has("MACRO"), Has("LocalClass"))));
// There should be no code patterns (aka snippets) in after-dot
// completion. At least there aren't any we're aware of.
EXPECT_THAT(Results.items, Not(Contains(Kind(CompletionItemKind::Snippet))));
// Check documentation.
EXPECT_IFF(Opts.IncludeBriefComments, Results.items,
Contains(IsDocumented()));
}
void TestGlobalScopeCompletion(clangd::CodeCompleteOptions Opts) {
auto Results = completions(
R"cpp(
#define MACRO X
int global_var;
int global_func();
struct GlobalClass {};
struct ClassWithMembers {
/// Doc for method.
int method();
};
int test() {
struct LocalClass {};
/// Doc for local_var.
int local_var;
^
}
)cpp",
Opts);
// Class members. Should never be present in global completions.
EXPECT_THAT(Results.items,
Not(AnyOf(Has("method"), Has("method()"), Has("field"))));
// Global items.
EXPECT_IFF(Opts.IncludeGlobals, Results.items,
AllOf(Has("global_var"),
Has(Opts.EnableSnippets ? "global_func()" : "global_func"),
Has("GlobalClass")));
// A macro.
EXPECT_IFF(Opts.IncludeMacros, Results.items, Has("MACRO"));
// Local items. Must be present always.
EXPECT_THAT(Results.items,
AllOf(Has("local_var"), Has("LocalClass"),
Contains(Kind(CompletionItemKind::Snippet))));
// Check documentation.
EXPECT_IFF(Opts.IncludeBriefComments, Results.items,
Contains(IsDocumented()));
}
TEST(CompletionTest, CompletionOptions) {
clangd::CodeCompleteOptions Opts;
for (bool IncludeMacros : {true, false}) {
Opts.IncludeMacros = IncludeMacros;
for (bool IncludeGlobals : {true, false}) {
Opts.IncludeGlobals = IncludeGlobals;
for (bool IncludeBriefComments : {true, false}) {
Opts.IncludeBriefComments = IncludeBriefComments;
for (bool EnableSnippets : {true, false}) {
Opts.EnableSnippets = EnableSnippets;
for (bool IncludeCodePatterns : {true, false}) {
Opts.IncludeCodePatterns = IncludeCodePatterns;
for (bool IncludeIneligibleResults : {true, false}) {
Opts.IncludeIneligibleResults = IncludeIneligibleResults;
TestAfterDotCompletion(Opts);
TestGlobalScopeCompletion(Opts);
}
}
}
}
}
}
}
// Check code completion works when the file contents are overridden.
TEST(CompletionTest, CheckContentsOverride) {
MockFSProvider FS;
IgnoreDiagnostics DiagConsumer;
MockCompilationDatabase CDB;
ClangdServer Server(CDB, DiagConsumer, FS, getDefaultAsyncThreadsCount(),
/*StorePreamblesInMemory=*/true);
auto File = getVirtualTestFilePath("foo.cpp");
Server.addDocument(Context::empty(), File, "ignored text!");
Annotations Example("int cbc; int b = ^;");
auto Results = Server
.codeComplete(Context::empty(), File, Example.point(),
clangd::CodeCompleteOptions(),
StringRef(Example.code()))
.get()
.second.Value;
EXPECT_THAT(Results.items, Contains(Named("cbc")));
}
TEST(CompletionTest, Priorities) {
auto Internal = completions(R"cpp(
class Foo {
public: void pub();
protected: void prot();
private: void priv();
};
void Foo::pub() { this->^ }
)cpp");
EXPECT_THAT(Internal.items,
HasSubsequence(Named("priv"), Named("prot"), Named("pub")));
auto External = completions(R"cpp(
class Foo {
public: void pub();
protected: void prot();
private: void priv();
};
void test() {
Foo F;
F.^
}
)cpp");
EXPECT_THAT(External.items,
AllOf(Has("pub"), Not(Has("prot")), Not(Has("priv"))));
}
TEST(CompletionTest, Qualifiers) {
auto Results = completions(R"cpp(
class Foo {
public: int foo() const;
int bar() const;
};
class Bar : public Foo {
int foo() const;
};
void test() { Bar().^ }
)cpp");
EXPECT_THAT(Results.items, HasSubsequence(Labeled("bar() const"),
Labeled("Foo::foo() const")));
EXPECT_THAT(Results.items, Not(Contains(Labeled("foo() const")))); // private
}
TEST(CompletionTest, Snippets) {
clangd::CodeCompleteOptions Opts;
Opts.EnableSnippets = true;
auto Results = completions(
R"cpp(
struct fake {
int a;
int f(int i, const float f) const;
};
int main() {
fake f;
f.^
}
)cpp",
Opts);
EXPECT_THAT(Results.items,
HasSubsequence(Snippet("a"),
Snippet("f(${1:int i}, ${2:const float f})")));
}
TEST(CompletionTest, Kinds) {
auto Results = completions(R"cpp(
#define MACRO X
int variable;
struct Struct {};
int function();
int X = ^
)cpp");
EXPECT_THAT(Results.items, Has("function", CompletionItemKind::Function));
EXPECT_THAT(Results.items, Has("variable", CompletionItemKind::Variable));
EXPECT_THAT(Results.items, Has("int", CompletionItemKind::Keyword));
EXPECT_THAT(Results.items, Has("Struct", CompletionItemKind::Class));
EXPECT_THAT(Results.items, Has("MACRO", CompletionItemKind::Text));
clangd::CodeCompleteOptions Opts;
Opts.EnableSnippets = true; // Needed for code patterns.
Results = completions("nam^");
EXPECT_THAT(Results.items, Has("namespace", CompletionItemKind::Snippet));
}
SignatureHelp signatures(StringRef Text) {
MockFSProvider FS;
MockCompilationDatabase CDB;
IgnoreDiagnostics DiagConsumer;
ClangdServer Server(CDB, DiagConsumer, FS, getDefaultAsyncThreadsCount(),
/*StorePreamblesInMemory=*/true);
auto File = getVirtualTestFilePath("foo.cpp");
Annotations Test(Text);
Server.addDocument(Context::empty(), File, Test.code());
auto R = Server.signatureHelp(Context::empty(), File, Test.point());
assert(R);
return R.get().Value;
}
MATCHER_P(ParamsAre, P, "") {
if (P.size() != arg.parameters.size())
return false;
for (unsigned I = 0; I < P.size(); ++I)
if (P[I] != arg.parameters[I].label)
return false;
return true;
}
Matcher<SignatureInformation> Sig(std::string Label,
std::vector<std::string> Params) {
return AllOf(Labeled(Label), ParamsAre(Params));
}
TEST(SignatureHelpTest, Overloads) {
auto Results = signatures(R"cpp(
void foo(int x, int y);
void foo(int x, float y);
void foo(float x, int y);
void foo(float x, float y);
void bar(int x, int y = 0);
int main() { foo(^); }
)cpp");
EXPECT_THAT(Results.signatures,
UnorderedElementsAre(
Sig("foo(float x, float y) -> void", {"float x", "float y"}),
Sig("foo(float x, int y) -> void", {"float x", "int y"}),
Sig("foo(int x, float y) -> void", {"int x", "float y"}),
Sig("foo(int x, int y) -> void", {"int x", "int y"})));
// We always prefer the first signature.
EXPECT_EQ(0, Results.activeSignature);
EXPECT_EQ(0, Results.activeParameter);
}
TEST(SignatureHelpTest, DefaultArgs) {
auto Results = signatures(R"cpp(
void bar(int x, int y = 0);
void bar(float x = 0, int y = 42);
int main() { bar(^
)cpp");
EXPECT_THAT(Results.signatures,
UnorderedElementsAre(
Sig("bar(int x, int y = 0) -> void", {"int x", "int y = 0"}),
Sig("bar(float x = 0, int y = 42) -> void",
{"float x = 0", "int y = 42"})));
EXPECT_EQ(0, Results.activeSignature);
EXPECT_EQ(0, Results.activeParameter);
}
TEST(SignatureHelpTest, ActiveArg) {
auto Results = signatures(R"cpp(
int baz(int a, int b, int c);
int main() { baz(baz(1,2,3), ^); }
)cpp");
EXPECT_THAT(Results.signatures,
ElementsAre(Sig("baz(int a, int b, int c) -> int",
{"int a", "int b", "int c"})));
EXPECT_EQ(0, Results.activeSignature);
EXPECT_EQ(1, Results.activeParameter);
}
std::unique_ptr<SymbolIndex> simpleIndexFromSymbols(
std::vector<std::pair<std::string, index::SymbolKind>> Symbols) {
auto I = llvm::make_unique<MemIndex>();
struct Snapshot {
SymbolSlab Slab;
std::vector<const Symbol *> Pointers;
};
auto Snap = std::make_shared<Snapshot>();
SymbolSlab::Builder Slab;
for (const auto &Pair : Symbols) {
Symbol Sym;
Sym.ID = SymbolID(Pair.first);
llvm::StringRef QName = Pair.first;
size_t Pos = QName.rfind("::");
if (Pos == llvm::StringRef::npos) {
Sym.Name = QName;
Sym.Scope = "";
} else {
Sym.Name = QName.substr(Pos + 2);
Sym.Scope = QName.substr(0, Pos);
}
Sym.SymInfo.Kind = Pair.second;
Slab.insert(Sym);
}
Snap->Slab = std::move(Slab).build();
for (auto &Iter : Snap->Slab)
Snap->Pointers.push_back(&Iter);
auto S = std::shared_ptr<std::vector<const Symbol *>>(std::move(Snap),
&Snap->Pointers);
I->build(std::move(S));
return std::move(I);
}
TEST(CompletionTest, NoIndex) {
clangd::CodeCompleteOptions Opts;
Opts.Index = nullptr;
auto Results = completions(R"cpp(
namespace ns { class No {}; }
void f() { ns::^ }
)cpp",
Opts);
EXPECT_THAT(Results.items, Has("No"));
}
TEST(CompletionTest, SimpleIndexBased) {
clangd::CodeCompleteOptions Opts;
auto I = simpleIndexFromSymbols({{"ns::XYZ", index::SymbolKind::Class},
{"nx::XYZ", index::SymbolKind::Class},
{"ns::foo", index::SymbolKind::Function}});
Opts.Index = I.get();
auto Results = completions(R"cpp(
namespace ns { class No {}; }
void f() { ns::^ }
)cpp",
Opts);
EXPECT_THAT(Results.items, Has("XYZ", CompletionItemKind::Class));
EXPECT_THAT(Results.items, Has("foo", CompletionItemKind::Function));
EXPECT_THAT(Results.items, Not(Has("No")));
}
TEST(CompletionTest, IndexBasedWithFilter) {
clangd::CodeCompleteOptions Opts;
auto I = simpleIndexFromSymbols({{"ns::XYZ", index::SymbolKind::Class},
{"ns::foo", index::SymbolKind::Function}});
Opts.Index = I.get();
auto Results = completions(R"cpp(
void f() { ns::x^ }
)cpp",
Opts);
EXPECT_THAT(Results.items, Contains(AllOf(Named("XYZ"), Filter("XYZ"))));
EXPECT_THAT(Results.items, Not(Has("foo")));
}
TEST(CompletionTest, GlobalQualified) {
clangd::CodeCompleteOptions Opts;
auto I = simpleIndexFromSymbols({{"XYZ", index::SymbolKind::Class}});
Opts.Index = I.get();
auto Results = completions(R"cpp(
void f() { ::^ }
)cpp",
Opts);
EXPECT_THAT(Results.items, Has("XYZ", CompletionItemKind::Class));
}
TEST(CompletionTest, FullyQualifiedScope) {
clangd::CodeCompleteOptions Opts;
auto I = simpleIndexFromSymbols({{"ns::XYZ", index::SymbolKind::Class}});
Opts.Index = I.get();
auto Results = completions(R"cpp(
void f() { ::ns::^ }
)cpp",
Opts);
EXPECT_THAT(Results.items, Has("XYZ", CompletionItemKind::Class));
}
TEST(CompletionTest, ASTIndexMultiFile) {
MockFSProvider FS;
MockCompilationDatabase CDB;
IgnoreDiagnostics DiagConsumer;
ClangdServer Server(CDB, DiagConsumer, FS, getDefaultAsyncThreadsCount(),
/*StorePreamblesInMemory=*/true,
/*BuildDynamicSymbolIndex=*/true);
Server
.addDocument(Context::empty(), getVirtualTestFilePath("foo.cpp"), R"cpp(
namespace ns { class XYZ {}; void foo() {} }
)cpp")
.wait();
auto File = getVirtualTestFilePath("bar.cpp");
Annotations Test(R"cpp(
namespace ns { class XXX {}; void fooooo() {} }
void f() { ns::^ }
)cpp");
Server.addDocument(Context::empty(), File, Test.code()).wait();
auto Results = Server.codeComplete(Context::empty(), File, Test.point(), {})
.get()
.second.Value;
// "XYZ" and "foo" are not included in the file being completed but are still
// visible through the index.
EXPECT_THAT(Results.items, Has("XYZ", CompletionItemKind::Class));
EXPECT_THAT(Results.items, Has("foo", CompletionItemKind::Function));
EXPECT_THAT(Results.items, Has("XXX", CompletionItemKind::Class));
EXPECT_THAT(Results.items, Has("fooooo", CompletionItemKind::Function));
}
} // namespace
} // namespace clangd
} // namespace clang