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

 //===-- SemanticSelectionTests.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 "Matchers.h"
 #include "Protocol.h"
 #include "SemanticSelection.h"
 #include "SourceCode.h"
 #include "SyncAPI.h"
 #include "TestFS.h"
 #include "TestTU.h"
 #include "clang/Basic/SourceLocation.h"
 #include "clang/Basic/SourceManager.h"
 #include "llvm/ADT/ArrayRef.h"
 #include "llvm/Support/Error.h"
 #include "gmock/gmock.h"
 #include "gtest/gtest.h"
 #include <vector>

 namespace clang {
 namespace clangd {
 namespace {

 using ::testing::ElementsAre;
 using ::testing::ElementsAreArray;
 using ::testing::UnorderedElementsAreArray;

 // front() is SR.range, back() is outermost range.
 std::vector<Range> gatherRanges(const SelectionRange &SR) {
   std::vector<Range> Ranges;
   for (const SelectionRange *S = &SR; S; S = S->parent.get())
     Ranges.push_back(S->range);
   return Ranges;
 }

 std::vector<Range>
 gatherFoldingRanges(llvm::ArrayRef<FoldingRange> FoldingRanges) {
   std::vector<Range> Ranges;
   Range NextRange;
   for (const auto &R : FoldingRanges) {
     NextRange.start.line = R.startLine;
     NextRange.start.character = R.startCharacter;
     NextRange.end.line = R.endLine;
     NextRange.end.character = R.endCharacter;
     Ranges.push_back(NextRange);
   }
   return Ranges;
 }

 TEST(SemanticSelection, All) {
   const char *Tests[] = {
       R"cpp( // Single statement in a function body.
         [[void func() [[{
           [[[[int v = [[1^00]]]];]]
         }]]]]
       )cpp",
       R"cpp( // Expression
         [[void func() [[{
           int a = 1;
           // int v = (10 + 2) * (a + a);
           [[[[int v = [[[[([[[[10^]] + 2]])]] * (a + a)]]]];]]
         }]]]]
       )cpp",
       R"cpp( // Function call.
         int add(int x, int y) { return x + y; }
         [[void callee() [[{
           // int res = add(11, 22);
           [[[[int res = [[add([[1^1]], 22)]]]];]]
         }]]]]
       )cpp",
       R"cpp( // Tricky macros.
         #define MUL ) * (
         [[void func() [[{
           // int var = (4 + 15 MUL 6 + 10);
           [[[[int var = [[[[([[4 + [[1^5]]]] MUL]] 6 + 10)]]]];]]
         }]]]]
        )cpp",
       R"cpp( // Cursor inside a macro.
         #define HASH(x) ((x) % 10)
         [[void func() [[{
           [[[[int a = [[HASH([[[[2^3]] + 34]])]]]];]]
         }]]]]
        )cpp",
       R"cpp( // Cursor on a macro.
         #define HASH(x) ((x) % 10)
         [[void func() [[{
           [[[[int a = [[HA^SH(23)]]]];]]
         }]]]]
        )cpp",
       R"cpp( // Multiple declaration.
         [[void func() [[{
           [[[[int var1, var^2]], var3;]]
         }]]]]
        )cpp",
       R"cpp( // Before comment.
         [[void func() [[{
           int var1 = 1;
           [[[[int var2 = [[[[var1]]^ /*some comment*/ + 41]]]];]]
         }]]]]
        )cpp",
       // Empty file.
       "[[^]]",
       // FIXME: We should get the whole DeclStmt as a range.
       R"cpp( // Single statement in TU.
         [[int v = [[1^00]]]];
       )cpp",
       R"cpp( // Cursor at end of VarDecl.
         [[int v = [[100]]^]];
       )cpp",
       // FIXME: No node found associated to the position.
       R"cpp( // Cursor in between spaces.
         void func() {
           int v = 100 + [[^]]  100;
         }
       )cpp",
       // Structs.
       R"cpp(
         struct AAA { struct BBB { static int ccc(); };};
         [[void func() [[{
           // int x = AAA::BBB::ccc();
           [[[[int x = [[[[AAA::BBB::c^cc]]()]]]];]]
         }]]]]
       )cpp",
       R"cpp(
         struct AAA { struct BBB { static int ccc(); };};
         [[void func() [[{
           // int x = AAA::BBB::ccc();
           [[[[int x = [[[[[[[[[[AA^A]]::]]BBB::]]ccc]]()]]]];]]
         }]]]]
       )cpp",
       R"cpp( // Inside struct.
         struct A { static int a(); };
         [[struct B {
           [[static int b() [[{
             [[return [[[[1^1]] + 2]]]];
           }]]]]
         }]];
       )cpp",
       // Namespaces.
       R"cpp(
         [[namespace nsa {
           [[namespace nsb {
             static int ccc();
             [[void func() [[{
               // int x = nsa::nsb::ccc();
               [[[[int x = [[[[nsa::nsb::cc^c]]()]]]];]]
             }]]]]
           }]]
         }]]
       )cpp",

   };

   for (const char *Test : Tests) {
     auto T = Annotations(Test);
     auto AST = TestTU::withCode(T.code()).build();
     EXPECT_THAT(gatherRanges(llvm::cantFail(getSemanticRanges(AST, T.point()))),
                 ElementsAreArray(T.ranges()))
         << Test;
   }
 }

 TEST(SemanticSelection, RunViaClangdServer) {
   MockFS FS;
   MockCompilationDatabase CDB;
   ClangdServer Server(CDB, FS, ClangdServer::optsForTest());

   auto FooH = testPath("foo.h");
   FS.Files[FooH] = R"cpp(
     int foo(int x);
     #define HASH(x) ((x) % 10)
   )cpp";

   auto FooCpp = testPath("Foo.cpp");
   const char *SourceContents = R"cpp(
   #include "foo.h"
   [[void bar(int& inp) [[{
     // inp = HASH(foo(inp));
     [[inp = [[HASH([[foo([[in^p]])]])]]]];
   }]]]]
   $empty[[^]]
   )cpp";
   Annotations SourceAnnotations(SourceContents);
   FS.Files[FooCpp] = std::string(SourceAnnotations.code());
   Server.addDocument(FooCpp, SourceAnnotations.code());

   auto Ranges = runSemanticRanges(Server, FooCpp, SourceAnnotations.points());
   ASSERT_TRUE(bool(Ranges))
       << "getSemanticRange returned an error: " << Ranges.takeError();
   ASSERT_EQ(Ranges->size(), SourceAnnotations.points().size());
   EXPECT_THAT(gatherRanges(Ranges->front()),
               ElementsAreArray(SourceAnnotations.ranges()));
   EXPECT_THAT(gatherRanges(Ranges->back()),
               ElementsAre(SourceAnnotations.range("empty")));
 }

 TEST(FoldingRanges, All) {
   const char *Tests[] = {
       R"cpp(
         #define FOO int foo() {\
           int Variable = 42; \
         }

         // Do not generate folding range for braces within macro expansion.
         FOO

         // Do not generate folding range within macro arguments.
         #define FUNCTOR(functor) functor
         void func() {[[
           FUNCTOR([](){});
         ]]}

         // Do not generate folding range with a brace coming from macro.
         #define LBRACE {
         void bar() LBRACE
           int X = 42;
         }
       )cpp",
       R"cpp(
         void func() {[[
           int Variable = 100;

           if (Variable > 5) {[[
             Variable += 42;
           ]]} else if (Variable++)
             ++Variable;
           else {[[
             Variable--;
           ]]}

           // Do not generate FoldingRange for empty CompoundStmts.
           for (;;) {}

           // If there are newlines between {}, we should generate one.
           for (;;) {[[

           ]]}
         ]]}
       )cpp",
       R"cpp(
         class Foo {
         public:
           Foo() {[[
             int X = 1;
           ]]}

         private:
           int getBar() {[[
             return 42;
           ]]}

           // Braces are located at the same line: no folding range here.
           void getFooBar() { }
         };
       )cpp",
   };
   for (const char *Test : Tests) {
     auto T = Annotations(Test);
     auto AST = TestTU::withCode(T.code()).build();
     EXPECT_THAT(gatherFoldingRanges(llvm::cantFail(getFoldingRanges(AST))),
                 UnorderedElementsAreArray(T.ranges()))
         << Test;
   }
 }

 } // namespace
 } // namespace clangd
 } // namespace clang
	//===-- SemanticSelectionTests.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 "Matchers.h"
	#include "Protocol.h"
	#include "SemanticSelection.h"
	#include "SourceCode.h"
	#include "SyncAPI.h"
	#include "TestFS.h"
	#include "TestTU.h"
	#include "clang/Basic/SourceLocation.h"
	#include "clang/Basic/SourceManager.h"
	#include "llvm/ADT/ArrayRef.h"
	#include "llvm/Support/Error.h"
	#include "gmock/gmock.h"
	#include "gtest/gtest.h"
	#include <vector>

	namespace clang {
	namespace clangd {
	namespace {

	using ::testing::ElementsAre;
	using ::testing::ElementsAreArray;
	using ::testing::UnorderedElementsAreArray;

	// front() is SR.range, back() is outermost range.
	std::vector<Range> gatherRanges(const SelectionRange &SR) {
	std::vector<Range> Ranges;
	for (const SelectionRange *S = &SR; S; S = S->parent.get())
	Ranges.push_back(S->range);
	return Ranges;
	}

	std::vector<Range>
	gatherFoldingRanges(llvm::ArrayRef<FoldingRange> FoldingRanges) {
	std::vector<Range> Ranges;
	Range NextRange;
	for (const auto &R : FoldingRanges) {
	NextRange.start.line = R.startLine;
	NextRange.start.character = R.startCharacter;
	NextRange.end.line = R.endLine;
	NextRange.end.character = R.endCharacter;
	Ranges.push_back(NextRange);
	}
	return Ranges;
	}

	TEST(SemanticSelection, All) {
	const char *Tests[] = {
	R"cpp( // Single statement in a function body.
	[[void func() [[{
	[[[[int v = [[1^00]]]];]]
	}]]]]
	)cpp",
	R"cpp( // Expression
	[[void func() [[{
	int a = 1;
	// int v = (10 + 2) * (a + a);
	[[[[int v = [[[[([[[[10^]] + 2]])]] * (a + a)]]]];]]
	}]]]]
	)cpp",
	R"cpp( // Function call.
	int add(int x, int y) { return x + y; }
	[[void callee() [[{
	// int res = add(11, 22);
	[[[[int res = [[add([[1^1]], 22)]]]];]]
	}]]]]
	)cpp",
	R"cpp( // Tricky macros.
	#define MUL ) * (
	[[void func() [[{
	// int var = (4 + 15 MUL 6 + 10);
	[[[[int var = [[[[([[4 + [[1^5]]]] MUL]] 6 + 10)]]]];]]
	}]]]]
	)cpp",
	R"cpp( // Cursor inside a macro.
	#define HASH(x) ((x) % 10)
	[[void func() [[{
	[[[[int a = [[HASH([[[[2^3]] + 34]])]]]];]]
	}]]]]
	)cpp",
	R"cpp( // Cursor on a macro.
	#define HASH(x) ((x) % 10)
	[[void func() [[{
	[[[[int a = [[HA^SH(23)]]]];]]
	}]]]]
	)cpp",
	R"cpp( // Multiple declaration.
	[[void func() [[{
	[[[[int var1, var^2]], var3;]]
	}]]]]
	)cpp",
	R"cpp( // Before comment.
	[[void func() [[{
	int var1 = 1;
	[[[[int var2 = [[[[var1]]^ /some comment/ + 41]]]];]]
	}]]]]
	)cpp",
	// Empty file.
	"[[^]]",
	// FIXME: We should get the whole DeclStmt as a range.
	R"cpp( // Single statement in TU.
	[[int v = [[1^00]]]];
	)cpp",
	R"cpp( // Cursor at end of VarDecl.
	[[int v = [[100]]^]];
	)cpp",
	// FIXME: No node found associated to the position.
	R"cpp( // Cursor in between spaces.
	void func() {
	int v = 100 + [[^]] 100;
	}
	)cpp",
	// Structs.
	R"cpp(
	struct AAA { struct BBB { static int ccc(); };};
	[[void func() [[{
	// int x = AAA::BBB::ccc();
	[[[[int x = [[[[AAA::BBB::c^cc]]()]]]];]]
	}]]]]
	)cpp",
	R"cpp(
	struct AAA { struct BBB { static int ccc(); };};
	[[void func() [[{
	// int x = AAA::BBB::ccc();
	[[[[int x = [[[[[[[[[[AA^A]]::]]BBB::]]ccc]]()]]]];]]
	}]]]]
	)cpp",
	R"cpp( // Inside struct.
	struct A { static int a(); };
	[[struct B {
	[[static int b() [[{
	[[return [[[[1^1]] + 2]]]];
	}]]]]
	}]];
	)cpp",
	// Namespaces.
	R"cpp(
	[[namespace nsa {
	[[namespace nsb {
	static int ccc();
	[[void func() [[{
	// int x = nsa::nsb::ccc();
	[[[[int x = [[[[nsa::nsb::cc^c]]()]]]];]]
	}]]]]
	}]]
	}]]
	)cpp",

	};

	for (const char *Test : Tests) {
	auto T = Annotations(Test);
	auto AST = TestTU::withCode(T.code()).build();
	EXPECT_THAT(gatherRanges(llvm::cantFail(getSemanticRanges(AST, T.point()))),
	ElementsAreArray(T.ranges()))
	<< Test;
	}
	}

	TEST(SemanticSelection, RunViaClangdServer) {
	MockFS FS;
	MockCompilationDatabase CDB;
	ClangdServer Server(CDB, FS, ClangdServer::optsForTest());

	auto FooH = testPath("foo.h");
	FS.Files[FooH] = R"cpp(
	int foo(int x);
	#define HASH(x) ((x) % 10)
	)cpp";

	auto FooCpp = testPath("Foo.cpp");
	const char *SourceContents = R"cpp(
	#include "foo.h"
	[[void bar(int& inp) [[{
	// inp = HASH(foo(inp));
	[[inp = [[HASH([[foo([[in^p]])]])]]]];
	}]]]]
	$empty[[^]]
	)cpp";
	Annotations SourceAnnotations(SourceContents);
	FS.Files[FooCpp] = std::string(SourceAnnotations.code());
	Server.addDocument(FooCpp, SourceAnnotations.code());

	auto Ranges = runSemanticRanges(Server, FooCpp, SourceAnnotations.points());
	ASSERT_TRUE(bool(Ranges))
	<< "getSemanticRange returned an error: " << Ranges.takeError();
	ASSERT_EQ(Ranges->size(), SourceAnnotations.points().size());
	EXPECT_THAT(gatherRanges(Ranges->front()),
	ElementsAreArray(SourceAnnotations.ranges()));
	EXPECT_THAT(gatherRanges(Ranges->back()),
	ElementsAre(SourceAnnotations.range("empty")));
	}

	TEST(FoldingRanges, All) {
	const char *Tests[] = {
	R"cpp(
	#define FOO int foo() {\
	int Variable = 42; \
	}

	// Do not generate folding range for braces within macro expansion.
	FOO

	// Do not generate folding range within macro arguments.
	#define FUNCTOR(functor) functor
	void func() {[[
	FUNCTOR([](){});
	]]}

	// Do not generate folding range with a brace coming from macro.
	#define LBRACE {
	void bar() LBRACE
	int X = 42;
	}
	)cpp",
	R"cpp(
	void func() {[[
	int Variable = 100;

	if (Variable > 5) {[[
	Variable += 42;
	]]} else if (Variable++)
	++Variable;
	else {[[
	Variable--;
	]]}

	// Do not generate FoldingRange for empty CompoundStmts.
	for (;;) {}

	// If there are newlines between {}, we should generate one.
	for (;;) {[[

	]]}
	]]}
	)cpp",
	R"cpp(
	class Foo {
	public:
	Foo() {[[
	int X = 1;
	]]}

	private:
	int getBar() {[[
	return 42;
	]]}

	// Braces are located at the same line: no folding range here.
	void getFooBar() { }
	};
	)cpp",
	};
	for (const char *Test : Tests) {
	auto T = Annotations(Test);
	auto AST = TestTU::withCode(T.code()).build();
	EXPECT_THAT(gatherFoldingRanges(llvm::cantFail(getFoldingRanges(AST))),
	UnorderedElementsAreArray(T.ranges()))
	<< Test;
	}
	}

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