clang-tools-extra/clangd/unittests/IncludeCleanerTests.cpp - llvm-project - Git at Google

 //===--- IncludeCleanerTests.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 "IncludeCleaner.h"
 #include "TestTU.h"
 #include "gmock/gmock.h"
 #include "gtest/gtest.h"

 namespace clang {
 namespace clangd {
 namespace {

 using ::testing::ElementsAre;
 using ::testing::UnorderedElementsAre;

 std::string guard(llvm::StringRef Code) {
   return "#pragma once\n" + Code.str();
 }

 TEST(IncludeCleaner, ReferencedLocations) {
   struct TestCase {
     std::string HeaderCode;
     std::string MainCode;
   };
   TestCase Cases[] = {
       // DeclRefExpr
       {
           "int ^x();",
           "int y = x();",
       },
       // RecordDecl
       {
           "class ^X;",
           "X *y;",
       },
       // TypedefType and UsingDecls
       {
           "using ^Integer = int;",
           "Integer x;",
       },
       {
           "namespace ns { struct ^X; struct ^X {}; }",
           "using ns::X;",
       },
       {
           "namespace ns { struct X; struct X {}; }",
           "using namespace ns;",
       },
       {
           "struct ^A {}; using B = A; using ^C = B;",
           "C a;",
       },
       {
           "typedef bool ^Y; template <typename T> struct ^X {};",
           "X<Y> x;",
       },
       {
           "struct Foo; struct ^Foo{}; typedef Foo ^Bar;",
           "Bar b;",
       },
       // MemberExpr
       {
           "struct ^X{int ^a;}; X ^foo();",
           "int y = foo().a;",
       },
       // Expr (type is traversed)
       {
           "class ^X{}; X ^foo();",
           "auto bar() { return foo(); }",
       },
       // Redecls
       {
           "class ^X; class ^X{}; class ^X;",
           "X *y;",
       },
       // Constructor
       {
           "struct ^X { ^X(int) {} int ^foo(); };",
           "auto x = X(42); auto y = x.foo();",
       },
       // Function
       {
           "void ^foo();",
           "void foo() {}",
       },
       {
           "void foo() {}",
           "void foo();",
       },
       {
           "inline void ^foo() {}",
           "void bar() { foo(); }",
       },
       {
           "int ^foo(char); int ^foo(float);",
           "template<class T> int x = foo(T{});",
       },
       // Static function
       {
           "struct ^X { static bool ^foo(); }; bool X::^foo() {}",
           "auto b = X::foo();",
       },
       // TemplateRecordDecl
       {
           "template <typename> class ^X;",
           "X<int> *y;",
       },
       // Type name not spelled out in code
       {
           "class ^X{}; X ^getX();",
           "auto x = getX();",
       },
       // Enums
       {
           "enum ^Color { ^Red = 42, Green = 9000};",
           "int MyColor = Red;",
       },
       {
           "struct ^X { enum ^Language { ^CXX = 42, Python = 9000}; };",
           "int Lang = X::CXX;",
       },
       // Macros
       {
           "#define ^CONSTANT 42",
           "int Foo = CONSTANT;",
       },
       {
           "#define ^FOO x",
           "#define BAR FOO",
       },
       {
           "#define INNER 42\n"
           "#define ^OUTER INNER",
           "int answer = OUTER;",
       },
       {
           "#define ^ANSWER 42\n"
           "#define ^SQUARE(X) X * X",
           "int sq = SQUARE(ANSWER);",
       },
       {
           "#define ^FOO\n"
           "#define ^BAR",
           "#if 0\n"
           "#if FOO\n"
           "BAR\n"
           "#endif\n"
           "#endif",
       },
       // Misc
       {
           "enum class ^Color : int;",
           "enum class Color : int {};",
       },
       {
           "enum class Color : int {};",
           "enum class Color : int;",
       },
       {
           "enum class ^Color;",
           "Color c;",
       },
       {
           "enum class ^Color : int;",
           "Color c;",
       },
       {
           "enum class ^Color : char;",
           "Color *c;",
       },
       {
           "enum class ^Color : char {};",
           "Color *c;",
       },
       {
           // When a type is resolved via a using declaration, the
           // UsingShadowDecl is not referenced in the AST.
           // Compare to TypedefType, or DeclRefExpr::getFoundDecl().
           //                                 ^
           "namespace ns { class ^X; }; using ns::X;",
           "X *y;",
       }};
   for (const TestCase &T : Cases) {
     TestTU TU;
     TU.Code = T.MainCode;
     Annotations Header(T.HeaderCode);
     TU.HeaderCode = Header.code().str();
     auto AST = TU.build();

     std::vector<Position> Points;
     for (const auto &Loc : findReferencedLocations(AST)) {
       if (AST.getSourceManager().getBufferName(Loc).endswith(
               TU.HeaderFilename)) {
         Points.push_back(offsetToPosition(
             TU.HeaderCode, AST.getSourceManager().getFileOffset(Loc)));
       }
     }
     llvm::sort(Points);

     EXPECT_EQ(Points, Header.points()) << T.HeaderCode << "\n---\n"
                                        << T.MainCode;
   }
 }

 TEST(IncludeCleaner, GetUnusedHeaders) {
   llvm::StringLiteral MainFile = R"cpp(
     #include "a.h"
     #include "b.h"
     #include "dir/c.h"
     #include "dir/unused.h"
     #include "unguarded.h"
     #include "unused.h"
     #include <system_header.h>
     void foo() {
       a();
       b();
       c();
     })cpp";
   // Build expected ast with symbols coming from headers.
   TestTU TU;
   TU.Filename = "foo.cpp";
   TU.AdditionalFiles["foo.h"] = guard("void foo();");
   TU.AdditionalFiles["a.h"] = guard("void a();");
   TU.AdditionalFiles["b.h"] = guard("void b();");
   TU.AdditionalFiles["dir/c.h"] = guard("void c();");
   TU.AdditionalFiles["unused.h"] = guard("void unused();");
   TU.AdditionalFiles["dir/unused.h"] = guard("void dirUnused();");
   TU.AdditionalFiles["system/system_header.h"] = guard("");
   TU.AdditionalFiles["unguarded.h"] = "";
   TU.ExtraArgs.push_back("-I" + testPath("dir"));
   TU.ExtraArgs.push_back("-isystem" + testPath("system"));
   TU.Code = MainFile.str();
   ParsedAST AST = TU.build();
   std::vector<std::string> UnusedIncludes;
   for (const auto &Include : computeUnusedIncludes(AST))
     UnusedIncludes.push_back(Include->Written);
   EXPECT_THAT(UnusedIncludes,
               UnorderedElementsAre("\"unused.h\"", "\"dir/unused.h\""));
 }

 TEST(IncludeCleaner, VirtualBuffers) {
   TestTU TU;
   TU.Code = R"cpp(
     #include "macros.h"

     using flags::FLAGS_FOO;

     // CLI will come from a define, __llvm__ is a built-in. In both cases, they
     // come from non-existent files.
     int y = CLI + __llvm__;

     int concat(a, b) = 42;
     )cpp";
   // The pasting operator in combination with DEFINE_FLAG will create
   // ScratchBuffer with `flags::FLAGS_FOO` that will have FileID but not
   // FileEntry.
   TU.AdditionalFiles["macros.h"] = R"cpp(
     #ifndef MACROS_H
     #define MACROS_H

     #define DEFINE_FLAG(X) \
     namespace flags { \
     int FLAGS_##X; \
     } \

     DEFINE_FLAG(FOO)

     #define ab x
     #define concat(x, y) x##y

     #endif // MACROS_H
     )cpp";
   TU.ExtraArgs = {"-DCLI=42"};
   ParsedAST AST = TU.build();
   auto &SM = AST.getSourceManager();
   auto &Includes = AST.getIncludeStructure();

   auto ReferencedFiles =
       findReferencedFiles(findReferencedLocations(AST), Includes, SM);
   llvm::StringSet<> ReferencedFileNames;
   for (FileID FID : ReferencedFiles)
     ReferencedFileNames.insert(
         SM.getPresumedLoc(SM.getLocForStartOfFile(FID)).getFilename());
   // Note we deduped the names as _number_ of <built-in>s is uninteresting.
   EXPECT_THAT(ReferencedFileNames.keys(),
               UnorderedElementsAre("<built-in>", "<scratch space>",
                                    testPath("macros.h")));

   // Should not crash due to FileIDs that are not headers.
   auto ReferencedHeaders = translateToHeaderIDs(ReferencedFiles, Includes, SM);
   std::vector<llvm::StringRef> ReferencedHeaderNames;
   for (IncludeStructure::HeaderID HID : ReferencedHeaders)
     ReferencedHeaderNames.push_back(Includes.getRealPath(HID));
   // Non-header files are gone at this point.
   EXPECT_THAT(ReferencedHeaderNames, ElementsAre(testPath("macros.h")));

   // Sanity check.
   EXPECT_THAT(getUnused(AST, ReferencedHeaders), ::testing::IsEmpty());
 }

 TEST(IncludeCleaner, DistinctUnguardedInclusions) {
   TestTU TU;
   TU.Code = R"cpp(
     #include "bar.h"
     #include "foo.h"

     int LocalFoo = foo::Variable;
     )cpp";
   TU.AdditionalFiles["foo.h"] = R"cpp(
     #pragma once
     namespace foo {
     #include "unguarded.h"
     }
     )cpp";
   TU.AdditionalFiles["bar.h"] = R"cpp(
     #pragma once
     namespace bar {
     #include "unguarded.h"
     }
     )cpp";
   TU.AdditionalFiles["unguarded.h"] = R"cpp(
     constexpr int Variable = 42;
     )cpp";

   ParsedAST AST = TU.build();

   auto ReferencedFiles =
       findReferencedFiles(findReferencedLocations(AST),
                           AST.getIncludeStructure(), AST.getSourceManager());
   llvm::StringSet<> ReferencedFileNames;
   auto &SM = AST.getSourceManager();
   for (FileID FID : ReferencedFiles)
     ReferencedFileNames.insert(
         SM.getPresumedLoc(SM.getLocForStartOfFile(FID)).getFilename());
   // Note that we have uplifted the referenced files from non self-contained
   // headers to header-guarded ones.
   EXPECT_THAT(ReferencedFileNames.keys(),
               UnorderedElementsAre(testPath("foo.h")));
 }

 TEST(IncludeCleaner, NonSelfContainedHeaders) {
   TestTU TU;
   TU.Code = R"cpp(
     #include "foo.h"

     int LocalFoo = Variable;
     )cpp";
   TU.AdditionalFiles["foo.h"] = R"cpp(
     #pragma once
     #include "indirection.h"
     )cpp";
   TU.AdditionalFiles["indirection.h"] = R"cpp(
     #include "unguarded.h"
     )cpp";
   TU.AdditionalFiles["unguarded.h"] = R"cpp(
     constexpr int Variable = 42;
     )cpp";

   ParsedAST AST = TU.build();

   auto ReferencedFiles =
       findReferencedFiles(findReferencedLocations(AST),
                           AST.getIncludeStructure(), AST.getSourceManager());
   llvm::StringSet<> ReferencedFileNames;
   auto &SM = AST.getSourceManager();
   for (FileID FID : ReferencedFiles)
     ReferencedFileNames.insert(
         SM.getPresumedLoc(SM.getLocForStartOfFile(FID)).getFilename());
   // Note that we have uplifted the referenced files from non self-contained
   // headers to header-guarded ones.
   EXPECT_THAT(ReferencedFileNames.keys(),
               UnorderedElementsAre(testPath("foo.h")));
 }

 } // namespace
 } // namespace clangd
 } // namespace clang
	//===--- IncludeCleanerTests.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 "IncludeCleaner.h"
	#include "TestTU.h"
	#include "gmock/gmock.h"
	#include "gtest/gtest.h"

	namespace clang {
	namespace clangd {
	namespace {

	using ::testing::ElementsAre;
	using ::testing::UnorderedElementsAre;

	std::string guard(llvm::StringRef Code) {
	return "#pragma once\n" + Code.str();
	}

	TEST(IncludeCleaner, ReferencedLocations) {
	struct TestCase {
	std::string HeaderCode;
	std::string MainCode;
	};
	TestCase Cases[] = {
	// DeclRefExpr
	{
	"int ^x();",
	"int y = x();",
	},
	// RecordDecl
	{
	"class ^X;",
	"X *y;",
	},
	// TypedefType and UsingDecls
	{
	"using ^Integer = int;",
	"Integer x;",
	},
	{
	"namespace ns { struct ^X; struct ^X {}; }",
	"using ns::X;",
	},
	{
	"namespace ns { struct X; struct X {}; }",
	"using namespace ns;",
	},
	{
	"struct ^A {}; using B = A; using ^C = B;",
	"C a;",
	},
	{
	"typedef bool ^Y; template <typename T> struct ^X {};",
	"X<Y> x;",
	},
	{
	"struct Foo; struct ^Foo{}; typedef Foo ^Bar;",
	"Bar b;",
	},
	// MemberExpr
	{
	"struct ^X{int ^a;}; X ^foo();",
	"int y = foo().a;",
	},
	// Expr (type is traversed)
	{
	"class ^X{}; X ^foo();",
	"auto bar() { return foo(); }",
	},
	// Redecls
	{
	"class ^X; class ^X{}; class ^X;",
	"X *y;",
	},
	// Constructor
	{
	"struct ^X { ^X(int) {} int ^foo(); };",
	"auto x = X(42); auto y = x.foo();",
	},
	// Function
	{
	"void ^foo();",
	"void foo() {}",
	},
	{
	"void foo() {}",
	"void foo();",
	},
	{
	"inline void ^foo() {}",
	"void bar() { foo(); }",
	},
	{
	"int ^foo(char); int ^foo(float);",
	"template<class T> int x = foo(T{});",
	},
	// Static function
	{
	"struct ^X { static bool ^foo(); }; bool X::^foo() {}",
	"auto b = X::foo();",
	},
	// TemplateRecordDecl
	{
	"template <typename> class ^X;",
	"X<int> *y;",
	},
	// Type name not spelled out in code
	{
	"class ^X{}; X ^getX();",
	"auto x = getX();",
	},
	// Enums
	{
	"enum ^Color { ^Red = 42, Green = 9000};",
	"int MyColor = Red;",
	},
	{
	"struct ^X { enum ^Language { ^CXX = 42, Python = 9000}; };",
	"int Lang = X::CXX;",
	},
	// Macros
	{
	"#define ^CONSTANT 42",
	"int Foo = CONSTANT;",
	},
	{
	"#define ^FOO x",
	"#define BAR FOO",
	},
	{
	"#define INNER 42\n"
	"#define ^OUTER INNER",
	"int answer = OUTER;",
	},
	{
	"#define ^ANSWER 42\n"
	"#define ^SQUARE(X) X * X",
	"int sq = SQUARE(ANSWER);",
	},
	{
	"#define ^FOO\n"
	"#define ^BAR",
	"#if 0\n"
	"#if FOO\n"
	"BAR\n"
	"#endif\n"
	"#endif",
	},
	// Misc
	{
	"enum class ^Color : int;",
	"enum class Color : int {};",
	},
	{
	"enum class Color : int {};",
	"enum class Color : int;",
	},
	{
	"enum class ^Color;",
	"Color c;",
	},
	{
	"enum class ^Color : int;",
	"Color c;",
	},
	{
	"enum class ^Color : char;",
	"Color *c;",
	},
	{
	"enum class ^Color : char {};",
	"Color *c;",
	},
	{
	// When a type is resolved via a using declaration, the
	// UsingShadowDecl is not referenced in the AST.
	// Compare to TypedefType, or DeclRefExpr::getFoundDecl().
	// ^
	"namespace ns { class ^X; }; using ns::X;",
	"X *y;",
	}};
	for (const TestCase &T : Cases) {
	TestTU TU;
	TU.Code = T.MainCode;
	Annotations Header(T.HeaderCode);
	TU.HeaderCode = Header.code().str();
	auto AST = TU.build();

	std::vector<Position> Points;
	for (const auto &Loc : findReferencedLocations(AST)) {
	if (AST.getSourceManager().getBufferName(Loc).endswith(
	TU.HeaderFilename)) {
	Points.push_back(offsetToPosition(
	TU.HeaderCode, AST.getSourceManager().getFileOffset(Loc)));
	}
	}
	llvm::sort(Points);

	EXPECT_EQ(Points, Header.points()) << T.HeaderCode << "\n---\n"
	<< T.MainCode;
	}
	}

	TEST(IncludeCleaner, GetUnusedHeaders) {
	llvm::StringLiteral MainFile = R"cpp(
	#include "a.h"
	#include "b.h"
	#include "dir/c.h"
	#include "dir/unused.h"
	#include "unguarded.h"
	#include "unused.h"
	#include <system_header.h>
	void foo() {
	a();
	b();
	c();
	})cpp";
	// Build expected ast with symbols coming from headers.
	TestTU TU;
	TU.Filename = "foo.cpp";
	TU.AdditionalFiles["foo.h"] = guard("void foo();");
	TU.AdditionalFiles["a.h"] = guard("void a();");
	TU.AdditionalFiles["b.h"] = guard("void b();");
	TU.AdditionalFiles["dir/c.h"] = guard("void c();");
	TU.AdditionalFiles["unused.h"] = guard("void unused();");
	TU.AdditionalFiles["dir/unused.h"] = guard("void dirUnused();");
	TU.AdditionalFiles["system/system_header.h"] = guard("");
	TU.AdditionalFiles["unguarded.h"] = "";
	TU.ExtraArgs.push_back("-I" + testPath("dir"));
	TU.ExtraArgs.push_back("-isystem" + testPath("system"));
	TU.Code = MainFile.str();
	ParsedAST AST = TU.build();
	std::vector<std::string> UnusedIncludes;
	for (const auto &Include : computeUnusedIncludes(AST))
	UnusedIncludes.push_back(Include->Written);
	EXPECT_THAT(UnusedIncludes,
	UnorderedElementsAre("\"unused.h\"", "\"dir/unused.h\""));
	}

	TEST(IncludeCleaner, VirtualBuffers) {
	TestTU TU;
	TU.Code = R"cpp(
	#include "macros.h"

	using flags::FLAGS_FOO;

	// CLI will come from a define, __llvm__ is a built-in. In both cases, they
	// come from non-existent files.
	int y = CLI + __llvm__;

	int concat(a, b) = 42;
	)cpp";
	// The pasting operator in combination with DEFINE_FLAG will create
	// ScratchBuffer with `flags::FLAGS_FOO` that will have FileID but not
	// FileEntry.
	TU.AdditionalFiles["macros.h"] = R"cpp(
	#ifndef MACROS_H
	#define MACROS_H

	#define DEFINE_FLAG(X) \
	namespace flags { \
	int FLAGS_##X; \
	} \

	DEFINE_FLAG(FOO)

	#define ab x
	#define concat(x, y) x##y

	#endif // MACROS_H
	)cpp";
	TU.ExtraArgs = {"-DCLI=42"};
	ParsedAST AST = TU.build();
	auto &SM = AST.getSourceManager();
	auto &Includes = AST.getIncludeStructure();

	auto ReferencedFiles =
	findReferencedFiles(findReferencedLocations(AST), Includes, SM);
	llvm::StringSet<> ReferencedFileNames;
	for (FileID FID : ReferencedFiles)
	ReferencedFileNames.insert(
	SM.getPresumedLoc(SM.getLocForStartOfFile(FID)).getFilename());
	// Note we deduped the names as _number_ of <built-in>s is uninteresting.
	EXPECT_THAT(ReferencedFileNames.keys(),
	UnorderedElementsAre("<built-in>", "<scratch space>",
	testPath("macros.h")));

	// Should not crash due to FileIDs that are not headers.
	auto ReferencedHeaders = translateToHeaderIDs(ReferencedFiles, Includes, SM);
	std::vector<llvm::StringRef> ReferencedHeaderNames;
	for (IncludeStructure::HeaderID HID : ReferencedHeaders)
	ReferencedHeaderNames.push_back(Includes.getRealPath(HID));
	// Non-header files are gone at this point.
	EXPECT_THAT(ReferencedHeaderNames, ElementsAre(testPath("macros.h")));

	// Sanity check.
	EXPECT_THAT(getUnused(AST, ReferencedHeaders), ::testing::IsEmpty());
	}

	TEST(IncludeCleaner, DistinctUnguardedInclusions) {
	TestTU TU;
	TU.Code = R"cpp(
	#include "bar.h"
	#include "foo.h"

	int LocalFoo = foo::Variable;
	)cpp";
	TU.AdditionalFiles["foo.h"] = R"cpp(
	#pragma once
	namespace foo {
	#include "unguarded.h"
	}
	)cpp";
	TU.AdditionalFiles["bar.h"] = R"cpp(
	#pragma once
	namespace bar {
	#include "unguarded.h"
	}
	)cpp";
	TU.AdditionalFiles["unguarded.h"] = R"cpp(
	constexpr int Variable = 42;
	)cpp";

	ParsedAST AST = TU.build();

	auto ReferencedFiles =
	findReferencedFiles(findReferencedLocations(AST),
	AST.getIncludeStructure(), AST.getSourceManager());
	llvm::StringSet<> ReferencedFileNames;
	auto &SM = AST.getSourceManager();
	for (FileID FID : ReferencedFiles)
	ReferencedFileNames.insert(
	SM.getPresumedLoc(SM.getLocForStartOfFile(FID)).getFilename());
	// Note that we have uplifted the referenced files from non self-contained
	// headers to header-guarded ones.
	EXPECT_THAT(ReferencedFileNames.keys(),
	UnorderedElementsAre(testPath("foo.h")));
	}

	TEST(IncludeCleaner, NonSelfContainedHeaders) {
	TestTU TU;
	TU.Code = R"cpp(
	#include "foo.h"

	int LocalFoo = Variable;
	)cpp";
	TU.AdditionalFiles["foo.h"] = R"cpp(
	#pragma once
	#include "indirection.h"
	)cpp";
	TU.AdditionalFiles["indirection.h"] = R"cpp(
	#include "unguarded.h"
	)cpp";
	TU.AdditionalFiles["unguarded.h"] = R"cpp(
	constexpr int Variable = 42;
	)cpp";

	ParsedAST AST = TU.build();

	auto ReferencedFiles =
	findReferencedFiles(findReferencedLocations(AST),
	AST.getIncludeStructure(), AST.getSourceManager());
	llvm::StringSet<> ReferencedFileNames;
	auto &SM = AST.getSourceManager();
	for (FileID FID : ReferencedFiles)
	ReferencedFileNames.insert(
	SM.getPresumedLoc(SM.getLocForStartOfFile(FID)).getFilename());
	// Note that we have uplifted the referenced files from non self-contained
	// headers to header-guarded ones.
	EXPECT_THAT(ReferencedFileNames.keys(),
	UnorderedElementsAre(testPath("foo.h")));
	}

	} // namespace
	} // namespace clangd
	} // namespace clang