unittests/Tooling/LookupTest.cpp - clang - Git at Google

 //===- unittest/Tooling/LookupTest.cpp ------------------------------------===//
 //
 // 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 "TestVisitor.h"
 #include "clang/Tooling/Core/Lookup.h"
 using namespace clang;

 namespace {
 struct GetDeclsVisitor : TestVisitor<GetDeclsVisitor> {
   std::function<void(CallExpr *)> OnCall;
   std::function<void(RecordTypeLoc)> OnRecordTypeLoc;
   SmallVector<Decl *, 4> DeclStack;

   bool VisitCallExpr(CallExpr *Expr) {
     if (OnCall)
       OnCall(Expr);
     return true;
   }

   bool VisitRecordTypeLoc(RecordTypeLoc Loc) {
     if (OnRecordTypeLoc)
       OnRecordTypeLoc(Loc);
     return true;
   }

   bool TraverseDecl(Decl *D) {
     DeclStack.push_back(D);
     bool Ret = TestVisitor::TraverseDecl(D);
     DeclStack.pop_back();
     return Ret;
   }
 };

 TEST(LookupTest, replaceNestedFunctionName) {
   GetDeclsVisitor Visitor;

   auto replaceCallExpr = [&](const CallExpr *Expr,
                              StringRef ReplacementString) {
     const auto *Callee = cast<DeclRefExpr>(Expr->getCallee()->IgnoreImplicit());
     const ValueDecl *FD = Callee->getDecl();
     return tooling::replaceNestedName(
         Callee->getQualifier(), Callee->getLocation(),
         Visitor.DeclStack.back()->getDeclContext(), FD, ReplacementString);
   };

   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("bar", replaceCallExpr(Expr, "::bar"));
   };
   Visitor.runOver("namespace a { void foo(); }\n"
                   "namespace a { void f() { foo(); } }\n");

   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("bar", replaceCallExpr(Expr, "::a::bar"));
   };
   Visitor.runOver("namespace a { void foo(); }\n"
                   "namespace a { void f() { foo(); } }\n");

   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("a::bar", replaceCallExpr(Expr, "::a::bar"));
   };
   Visitor.runOver("namespace a { void foo(); }\n"
                   "namespace b { void f() { a::foo(); } }\n");

   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("::a::bar", replaceCallExpr(Expr, "::a::bar"));
   };
   Visitor.runOver("namespace a { void foo(); }\n"
                   "namespace b { namespace a { void foo(); }\n"
                   "void f() { a::foo(); } }\n");

   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("c::bar", replaceCallExpr(Expr, "::a::c::bar"));
   };
   Visitor.runOver("namespace a { namespace b { void foo(); }\n"
                   "void f() { b::foo(); } }\n");

   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("bar", replaceCallExpr(Expr, "::a::bar"));
   };
   Visitor.runOver("namespace a { namespace b { void foo(); }\n"
                   "void f() { b::foo(); } }\n");

   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("bar", replaceCallExpr(Expr, "::bar"));
   };
   Visitor.runOver("void foo(); void f() { foo(); }\n");

   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("::bar", replaceCallExpr(Expr, "::bar"));
   };
   Visitor.runOver("void foo(); void f() { ::foo(); }\n");

   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("a::bar", replaceCallExpr(Expr, "::a::bar"));
   };
   Visitor.runOver("namespace a { void foo(); }\nvoid f() { a::foo(); }\n");

   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("a::bar", replaceCallExpr(Expr, "::a::bar"));
   };
   Visitor.runOver("namespace a { int foo(); }\nauto f = a::foo();\n");

   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("bar", replaceCallExpr(Expr, "::a::bar"));
   };
   Visitor.runOver(
       "namespace a { int foo(); }\nusing a::foo;\nauto f = foo();\n");

   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("c::bar", replaceCallExpr(Expr, "::a::c::bar"));
   };
   Visitor.runOver("namespace a { namespace b { void foo(); } }\n"
                   "namespace a { namespace b { namespace {"
                   "void f() { foo(); }"
                   "} } }\n");

   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("x::bar", replaceCallExpr(Expr, "::a::x::bar"));
   };
   Visitor.runOver("namespace a { namespace b { void foo(); } }\n"
                   "namespace a { namespace b { namespace c {"
                   "void f() { foo(); }"
                   "} } }\n");

   // If the shortest name is ambiguous, we need to add more qualifiers.
   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("a::y::bar", replaceCallExpr(Expr, "::a::y::bar"));
   };
   Visitor.runOver(R"(
     namespace a {
      namespace b {
       namespace x { void foo() {} }
       namespace y { void foo() {} }
      }
     }

     namespace a {
      namespace b {
       void f() { x::foo(); }
      }
     })");

   Visitor.OnCall = [&](CallExpr *Expr) {
     // y::bar would be ambiguous due to "a::b::y".
     EXPECT_EQ("::y::bar", replaceCallExpr(Expr, "::y::bar"));
   };
   Visitor.runOver(R"(
     namespace a {
      namespace b {
       void foo() {}
       namespace y { }
      }
     }

     namespace a {
      namespace b {
       void f() { foo(); }
      }
     })");

   Visitor.OnCall = [&](CallExpr *Expr) {
     EXPECT_EQ("y::bar", replaceCallExpr(Expr, "::y::bar"));
   };
   Visitor.runOver(R"(
     namespace a {
     namespace b {
     namespace x { void foo() {} }
     namespace y { void foo() {} }
     }
     }

     void f() { a::b::x::foo(); }
     )");
 }

 TEST(LookupTest, replaceNestedClassName) {
   GetDeclsVisitor Visitor;

   auto replaceRecordTypeLoc = [&](RecordTypeLoc TLoc,
                                   StringRef ReplacementString) {
     const auto *FD = cast<CXXRecordDecl>(TLoc.getDecl());
     return tooling::replaceNestedName(
         nullptr, TLoc.getBeginLoc(), Visitor.DeclStack.back()->getDeclContext(),
         FD, ReplacementString);
   };

   Visitor.OnRecordTypeLoc = [&](RecordTypeLoc Type) {
     // Filter Types by name since there are other `RecordTypeLoc` in the test
     // file.
     if (Type.getDecl()->getQualifiedNameAsString() == "a::b::Foo") {
       EXPECT_EQ("x::Bar", replaceRecordTypeLoc(Type, "::a::x::Bar"));
     }
   };
   Visitor.runOver("namespace a { namespace b {\n"
                   "class Foo;\n"
                   "namespace c { Foo f();; }\n"
                   "} }\n");

   Visitor.OnRecordTypeLoc = [&](RecordTypeLoc Type) {
     // Filter Types by name since there are other `RecordTypeLoc` in the test
     // file.
     // `a::b::Foo` in using shadow decl is not `TypeLoc`.
     if (Type.getDecl()->getQualifiedNameAsString() == "a::b::Foo") {
       EXPECT_EQ("Bar", replaceRecordTypeLoc(Type, "::a::x::Bar"));
     }
   };
   Visitor.runOver("namespace a { namespace b { class Foo {}; } }\n"
                   "namespace c { using a::b::Foo; Foo f();; }\n");

   // Rename TypeLoc `x::y::Old` to new name `x::Foo` at [0] and check that the
   // type is replaced with "Foo" instead of "x::Foo". Although there is a symbol
   // `x::y::Foo` in c.cc [1], it should not make "Foo" at [0] ambiguous because
   // it's not visible at [0].
   Visitor.OnRecordTypeLoc = [&](RecordTypeLoc Type) {
     if (Type.getDecl()->getQualifiedNameAsString() == "x::y::Old") {
       EXPECT_EQ("Foo", replaceRecordTypeLoc(Type, "::x::Foo"));
     }
   };
   Visitor.runOver(R"(
     // a.h
     namespace x {
      namespace y {
       class Old {};
       class Other {};
      }
     }

     // b.h
     namespace x {
      namespace y {
       // This is to be renamed to x::Foo
       // The expected replacement is "Foo".
       Old f;  // [0].
      }
     }

     // c.cc
     namespace x {
     namespace y {
      using Foo = ::x::y::Other; // [1]
     }
     }
     )");
 }

 } // end anonymous namespace
	//===- unittest/Tooling/LookupTest.cpp ------------------------------------===//
	//
	// 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 "TestVisitor.h"
	#include "clang/Tooling/Core/Lookup.h"
	using namespace clang;

	namespace {
	struct GetDeclsVisitor : TestVisitor<GetDeclsVisitor> {
	std::function<void(CallExpr *)> OnCall;
	std::function<void(RecordTypeLoc)> OnRecordTypeLoc;
	SmallVector<Decl *, 4> DeclStack;

	bool VisitCallExpr(CallExpr *Expr) {
	if (OnCall)
	OnCall(Expr);
	return true;
	}

	bool VisitRecordTypeLoc(RecordTypeLoc Loc) {
	if (OnRecordTypeLoc)
	OnRecordTypeLoc(Loc);
	return true;
	}

	bool TraverseDecl(Decl *D) {
	DeclStack.push_back(D);
	bool Ret = TestVisitor::TraverseDecl(D);
	DeclStack.pop_back();
	return Ret;
	}
	};

	TEST(LookupTest, replaceNestedFunctionName) {
	GetDeclsVisitor Visitor;

	auto replaceCallExpr = [&](const CallExpr *Expr,
	StringRef ReplacementString) {
	const auto *Callee = cast<DeclRefExpr>(Expr->getCallee()->IgnoreImplicit());
	const ValueDecl *FD = Callee->getDecl();
	return tooling::replaceNestedName(
	Callee->getQualifier(), Callee->getLocation(),
	Visitor.DeclStack.back()->getDeclContext(), FD, ReplacementString);
	};

	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("bar", replaceCallExpr(Expr, "::bar"));
	};
	Visitor.runOver("namespace a { void foo(); }\n"
	"namespace a { void f() { foo(); } }\n");

	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("bar", replaceCallExpr(Expr, "::a::bar"));
	};
	Visitor.runOver("namespace a { void foo(); }\n"
	"namespace a { void f() { foo(); } }\n");

	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("a::bar", replaceCallExpr(Expr, "::a::bar"));
	};
	Visitor.runOver("namespace a { void foo(); }\n"
	"namespace b { void f() { a::foo(); } }\n");

	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("::a::bar", replaceCallExpr(Expr, "::a::bar"));
	};
	Visitor.runOver("namespace a { void foo(); }\n"
	"namespace b { namespace a { void foo(); }\n"
	"void f() { a::foo(); } }\n");

	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("c::bar", replaceCallExpr(Expr, "::a::c::bar"));
	};
	Visitor.runOver("namespace a { namespace b { void foo(); }\n"
	"void f() { b::foo(); } }\n");

	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("bar", replaceCallExpr(Expr, "::a::bar"));
	};
	Visitor.runOver("namespace a { namespace b { void foo(); }\n"
	"void f() { b::foo(); } }\n");

	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("bar", replaceCallExpr(Expr, "::bar"));
	};
	Visitor.runOver("void foo(); void f() { foo(); }\n");

	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("::bar", replaceCallExpr(Expr, "::bar"));
	};
	Visitor.runOver("void foo(); void f() { ::foo(); }\n");

	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("a::bar", replaceCallExpr(Expr, "::a::bar"));
	};
	Visitor.runOver("namespace a { void foo(); }\nvoid f() { a::foo(); }\n");

	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("a::bar", replaceCallExpr(Expr, "::a::bar"));
	};
	Visitor.runOver("namespace a { int foo(); }\nauto f = a::foo();\n");

	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("bar", replaceCallExpr(Expr, "::a::bar"));
	};
	Visitor.runOver(
	"namespace a { int foo(); }\nusing a::foo;\nauto f = foo();\n");

	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("c::bar", replaceCallExpr(Expr, "::a::c::bar"));
	};
	Visitor.runOver("namespace a { namespace b { void foo(); } }\n"
	"namespace a { namespace b { namespace {"
	"void f() { foo(); }"
	"} } }\n");

	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("x::bar", replaceCallExpr(Expr, "::a::x::bar"));
	};
	Visitor.runOver("namespace a { namespace b { void foo(); } }\n"
	"namespace a { namespace b { namespace c {"
	"void f() { foo(); }"
	"} } }\n");

	// If the shortest name is ambiguous, we need to add more qualifiers.
	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("a::y::bar", replaceCallExpr(Expr, "::a::y::bar"));
	};
	Visitor.runOver(R"(
	namespace a {
	namespace b {
	namespace x { void foo() {} }
	namespace y { void foo() {} }
	}
	}

	namespace a {
	namespace b {
	void f() { x::foo(); }
	}
	})");

	Visitor.OnCall = [&](CallExpr *Expr) {
	// y::bar would be ambiguous due to "a::b::y".
	EXPECT_EQ("::y::bar", replaceCallExpr(Expr, "::y::bar"));
	};
	Visitor.runOver(R"(
	namespace a {
	namespace b {
	void foo() {}
	namespace y { }
	}
	}

	namespace a {
	namespace b {
	void f() { foo(); }
	}
	})");

	Visitor.OnCall = [&](CallExpr *Expr) {
	EXPECT_EQ("y::bar", replaceCallExpr(Expr, "::y::bar"));
	};
	Visitor.runOver(R"(
	namespace a {
	namespace b {
	namespace x { void foo() {} }
	namespace y { void foo() {} }
	}
	}

	void f() { a::b::x::foo(); }
	)");
	}

	TEST(LookupTest, replaceNestedClassName) {
	GetDeclsVisitor Visitor;

	auto replaceRecordTypeLoc = [&](RecordTypeLoc TLoc,
	StringRef ReplacementString) {
	const auto *FD = cast<CXXRecordDecl>(TLoc.getDecl());
	return tooling::replaceNestedName(
	nullptr, TLoc.getBeginLoc(), Visitor.DeclStack.back()->getDeclContext(),
	FD, ReplacementString);
	};

	Visitor.OnRecordTypeLoc = [&](RecordTypeLoc Type) {
	// Filter Types by name since there are other `RecordTypeLoc` in the test
	// file.
	if (Type.getDecl()->getQualifiedNameAsString() == "a::b::Foo") {
	EXPECT_EQ("x::Bar", replaceRecordTypeLoc(Type, "::a::x::Bar"));
	}
	};
	Visitor.runOver("namespace a { namespace b {\n"
	"class Foo;\n"
	"namespace c { Foo f();; }\n"
	"} }\n");

	Visitor.OnRecordTypeLoc = [&](RecordTypeLoc Type) {
	// Filter Types by name since there are other `RecordTypeLoc` in the test
	// file.
	// `a::b::Foo` in using shadow decl is not `TypeLoc`.
	if (Type.getDecl()->getQualifiedNameAsString() == "a::b::Foo") {
	EXPECT_EQ("Bar", replaceRecordTypeLoc(Type, "::a::x::Bar"));
	}
	};
	Visitor.runOver("namespace a { namespace b { class Foo {}; } }\n"
	"namespace c { using a::b::Foo; Foo f();; }\n");

	// Rename TypeLoc `x::y::Old` to new name `x::Foo` at [0] and check that the
	// type is replaced with "Foo" instead of "x::Foo". Although there is a symbol
	// `x::y::Foo` in c.cc [1], it should not make "Foo" at [0] ambiguous because
	// it's not visible at [0].
	Visitor.OnRecordTypeLoc = [&](RecordTypeLoc Type) {
	if (Type.getDecl()->getQualifiedNameAsString() == "x::y::Old") {
	EXPECT_EQ("Foo", replaceRecordTypeLoc(Type, "::x::Foo"));
	}
	};
	Visitor.runOver(R"(
	// a.h
	namespace x {
	namespace y {
	class Old {};
	class Other {};
	}
	}

	// b.h
	namespace x {
	namespace y {
	// This is to be renamed to x::Foo
	// The expected replacement is "Foo".
	Old f; // [0].
	}
	}

	// c.cc
	namespace x {
	namespace y {
	using Foo = ::x::y::Other; // [1]
	}
	}
	)");
	}

	} // end anonymous namespace