unittests/ASTMatchers/Dynamic/RegistryTest.cpp - platform/external/clang - Git at Google

 //===- unittest/ASTMatchers/Dynamic/RegistryTest.cpp - Registry unit tests -===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===-----------------------------------------------------------------------===//

 #include <vector>

 #include "../ASTMatchersTest.h"
 #include "clang/ASTMatchers/Dynamic/Registry.h"
 #include "gtest/gtest.h"

 namespace clang {
 namespace ast_matchers {
 namespace dynamic {
 namespace {

 using ast_matchers::internal::Matcher;

 class RegistryTest : public ::testing::Test {
 public:
   std::vector<ParserValue> Args() { return std::vector<ParserValue>(); }
   std::vector<ParserValue> Args(const VariantValue &Arg1) {
     std::vector<ParserValue> Out(1);
     Out[0].Value = Arg1;
     return Out;
   }
   std::vector<ParserValue> Args(const VariantValue &Arg1,
                                 const VariantValue &Arg2) {
     std::vector<ParserValue> Out(2);
     Out[0].Value = Arg1;
     Out[1].Value = Arg2;
     return Out;
   }

   MatcherList constructMatcher(StringRef MatcherName,
                                Diagnostics *Error = NULL) {
     Diagnostics DummyError;
     if (!Error) Error = &DummyError;
     const MatcherList Out =
         Registry::constructMatcher(MatcherName, SourceRange(), Args(), Error);
     EXPECT_EQ("", DummyError.toStringFull());
     return Out;
   }

   MatcherList constructMatcher(StringRef MatcherName, const VariantValue &Arg1,
                                Diagnostics *Error = NULL) {
     Diagnostics DummyError;
     if (!Error) Error = &DummyError;
     const MatcherList Out = Registry::constructMatcher(
         MatcherName, SourceRange(), Args(Arg1), Error);
     EXPECT_EQ("", DummyError.toStringFull());
     return Out;
   }

   MatcherList constructMatcher(StringRef MatcherName, const VariantValue &Arg1,
                                const VariantValue &Arg2,
                                Diagnostics *Error = NULL) {
     Diagnostics DummyError;
     if (!Error) Error = &DummyError;
     const MatcherList Out = Registry::constructMatcher(
         MatcherName, SourceRange(), Args(Arg1, Arg2), Error);
     EXPECT_EQ("", DummyError.toStringFull());
     return Out;
   }
 };

 TEST_F(RegistryTest, CanConstructNoArgs) {
   Matcher<Stmt> IsArrowValue = constructMatcher(
       "memberExpr", constructMatcher("isArrow")).getTypedMatcher<Stmt>();
   Matcher<Stmt> BoolValue =
       constructMatcher("boolLiteral").getTypedMatcher<Stmt>();

   const std::string ClassSnippet = "struct Foo { int x; };\n"
                                    "Foo *foo = new Foo;\n"
                                    "int i = foo->x;\n";
   const std::string BoolSnippet = "bool Foo = true;\n";

   EXPECT_TRUE(matches(ClassSnippet, IsArrowValue));
   EXPECT_TRUE(matches(BoolSnippet, BoolValue));
   EXPECT_FALSE(matches(ClassSnippet, BoolValue));
   EXPECT_FALSE(matches(BoolSnippet, IsArrowValue));
 }

 TEST_F(RegistryTest, ConstructWithSimpleArgs) {
   Matcher<Decl> Value = constructMatcher(
       "namedDecl", constructMatcher("hasName", std::string("X")))
       .getTypedMatcher<Decl>();
   EXPECT_TRUE(matches("class X {};", Value));
   EXPECT_FALSE(matches("int x;", Value));

   Value = functionDecl(constructMatcher("parameterCountIs", 2)
                            .getTypedMatcher<FunctionDecl>());
   EXPECT_TRUE(matches("void foo(int,int);", Value));
   EXPECT_FALSE(matches("void foo(int);", Value));
 }

 TEST_F(RegistryTest, ConstructWithMatcherArgs) {
   Matcher<Decl> HasInitializerSimple =
       constructMatcher("varDecl", constructMatcher("hasInitializer", stmt()))
           .getTypedMatcher<Decl>();
   Matcher<Decl> HasInitializerComplex = constructMatcher(
       "varDecl", constructMatcher("hasInitializer", callExpr()))
       .getTypedMatcher<Decl>();

   std::string code = "int i;";
   EXPECT_FALSE(matches(code, HasInitializerSimple));
   EXPECT_FALSE(matches(code, HasInitializerComplex));

   code = "int i = 1;";
   EXPECT_TRUE(matches(code, HasInitializerSimple));
   EXPECT_FALSE(matches(code, HasInitializerComplex));

   code = "int y(); int i = y();";
   EXPECT_TRUE(matches(code, HasInitializerSimple));
   EXPECT_TRUE(matches(code, HasInitializerComplex));

   Matcher<Decl> HasParameter = functionDecl(constructMatcher(
       "hasParameter", 1, hasName("x")).getTypedMatcher<FunctionDecl>());
   EXPECT_TRUE(matches("void f(int a, int x);", HasParameter));
   EXPECT_FALSE(matches("void f(int x, int a);", HasParameter));
 }

 TEST_F(RegistryTest, OverloadedMatchers) {
   Matcher<Stmt> CallExpr0 = constructMatcher(
       "callExpr",
       constructMatcher("callee", constructMatcher("memberExpr",
                                                   constructMatcher("isArrow"))))
       .getTypedMatcher<Stmt>();

   Matcher<Stmt> CallExpr1 = constructMatcher(
       "callExpr",
       constructMatcher(
           "callee",
           constructMatcher("methodDecl",
                            constructMatcher("hasName", std::string("x")))))
       .getTypedMatcher<Stmt>();

   std::string Code = "class Y { public: void x(); }; void z() { Y y; y.x(); }";
   EXPECT_FALSE(matches(Code, CallExpr0));
   EXPECT_TRUE(matches(Code, CallExpr1));

   Code = "class Z { public: void z() { this->z(); } };";
   EXPECT_TRUE(matches(Code, CallExpr0));
   EXPECT_FALSE(matches(Code, CallExpr1));
 }

 TEST_F(RegistryTest, PolymorphicMatchers) {
   const MatcherList IsDefinition = constructMatcher("isDefinition");
   Matcher<Decl> Var =
       constructMatcher("varDecl", IsDefinition).getTypedMatcher<Decl>();
   Matcher<Decl> Class =
       constructMatcher("recordDecl", IsDefinition).getTypedMatcher<Decl>();
   Matcher<Decl> Func =
       constructMatcher("functionDecl", IsDefinition).getTypedMatcher<Decl>();
   EXPECT_TRUE(matches("int a;", Var));
   EXPECT_FALSE(matches("extern int a;", Var));
   EXPECT_TRUE(matches("class A {};", Class));
   EXPECT_FALSE(matches("class A;", Class));
   EXPECT_TRUE(matches("void f(){};", Func));
   EXPECT_FALSE(matches("void f();", Func));

   Matcher<Decl> Anything = constructMatcher("anything").getTypedMatcher<Decl>();
   Matcher<Decl> RecordDecl =
       constructMatcher("recordDecl", Anything).getTypedMatcher<Decl>();

   EXPECT_TRUE(matches("int a;", Anything));
   EXPECT_TRUE(matches("class A {};", Anything));
   EXPECT_TRUE(matches("void f(){};", Anything));
   // FIXME: A couple of tests have been suppressed.
   // I know it'd be bad with _MSC_VER here, though.
 #if !defined(_MSC_VER)
   EXPECT_FALSE(matches("int a;", RecordDecl));
 #endif
   EXPECT_TRUE(matches("class A {};", RecordDecl));
 #if !defined(_MSC_VER)
   EXPECT_FALSE(matches("void f(){};", RecordDecl));
 #endif
 }

 TEST_F(RegistryTest, TemplateArgument) {
   Matcher<Decl> HasTemplateArgument = constructMatcher(
       "classTemplateSpecializationDecl",
       constructMatcher(
           "hasAnyTemplateArgument",
           constructMatcher("refersToType",
                            constructMatcher("asString", std::string("int")))))
       .getTypedMatcher<Decl>();
   EXPECT_TRUE(matches("template<typename T> class A {}; A<int> a;",
                       HasTemplateArgument));
   EXPECT_FALSE(matches("template<typename T> class A {}; A<char> a;",
                        HasTemplateArgument));
 }

 TEST_F(RegistryTest, TypeTraversal) {
   Matcher<Type> M = constructMatcher(
       "pointerType",
       constructMatcher("pointee", constructMatcher("isConstQualified"),
                        constructMatcher("isInteger"))).getTypedMatcher<Type>();
   EXPECT_FALSE(matches("int *a;", M));
   EXPECT_TRUE(matches("int const *b;", M));

   M = constructMatcher(
       "arrayType",
       constructMatcher("hasElementType", constructMatcher("builtinType")))
       .getTypedMatcher<Type>();
   EXPECT_FALSE(matches("struct A{}; A a[7];;", M));
   EXPECT_TRUE(matches("int b[7];", M));
 }

 TEST_F(RegistryTest, CXXCtorInitializer) {
   Matcher<Decl> CtorDecl = constructMatcher(
       "constructorDecl",
       constructMatcher("hasAnyConstructorInitializer",
                        constructMatcher("forField", hasName("foo"))))
       .getTypedMatcher<Decl>();
   EXPECT_TRUE(matches("struct Foo { Foo() : foo(1) {} int foo; };", CtorDecl));
   EXPECT_FALSE(matches("struct Foo { Foo() {} int foo; };", CtorDecl));
   EXPECT_FALSE(matches("struct Foo { Foo() : bar(1) {} int bar; };", CtorDecl));
 }

 TEST_F(RegistryTest, Errors) {
   // Incorrect argument count.
   OwningPtr<Diagnostics> Error(new Diagnostics());
   EXPECT_TRUE(constructMatcher("hasInitializer", Error.get()).empty());
   EXPECT_EQ("Incorrect argument count. (Expected = 1) != (Actual = 0)",
             Error->toString());
   Error.reset(new Diagnostics());
   EXPECT_TRUE(constructMatcher("isArrow", std::string(), Error.get()).empty());
   EXPECT_EQ("Incorrect argument count. (Expected = 0) != (Actual = 1)",
             Error->toString());

   // Bad argument type
   Error.reset(new Diagnostics());
   EXPECT_TRUE(constructMatcher("ofClass", std::string(), Error.get()).empty());
   EXPECT_EQ("Incorrect type for arg 1. (Expected = Matcher<CXXRecordDecl>) != "
             "(Actual = String)",
             Error->toString());
   Error.reset(new Diagnostics());
   EXPECT_TRUE(constructMatcher("recordDecl", recordDecl(), parameterCountIs(3),
                                Error.get()).empty());
   EXPECT_EQ("Incorrect type for arg 2. (Expected = Matcher<CXXRecordDecl>) != "
             "(Actual = Matcher<FunctionDecl>)",
             Error->toString());
 }

 } // end anonymous namespace
 } // end namespace dynamic
 } // end namespace ast_matchers
 } // end namespace clang
	//===- unittest/ASTMatchers/Dynamic/RegistryTest.cpp - Registry unit tests -===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===-----------------------------------------------------------------------===//

	#include <vector>

	#include "../ASTMatchersTest.h"
	#include "clang/ASTMatchers/Dynamic/Registry.h"
	#include "gtest/gtest.h"

	namespace clang {
	namespace ast_matchers {
	namespace dynamic {
	namespace {

	using ast_matchers::internal::Matcher;

	class RegistryTest : public ::testing::Test {
	public:
	std::vector<ParserValue> Args() { return std::vector<ParserValue>(); }
	std::vector<ParserValue> Args(const VariantValue &Arg1) {
	std::vector<ParserValue> Out(1);
	Out[0].Value = Arg1;
	return Out;
	}
	std::vector<ParserValue> Args(const VariantValue &Arg1,
	const VariantValue &Arg2) {
	std::vector<ParserValue> Out(2);
	Out[0].Value = Arg1;
	Out[1].Value = Arg2;
	return Out;
	}

	MatcherList constructMatcher(StringRef MatcherName,
	Diagnostics *Error = NULL) {
	Diagnostics DummyError;
	if (!Error) Error = &DummyError;
	const MatcherList Out =
	Registry::constructMatcher(MatcherName, SourceRange(), Args(), Error);
	EXPECT_EQ("", DummyError.toStringFull());
	return Out;
	}

	MatcherList constructMatcher(StringRef MatcherName, const VariantValue &Arg1,
	Diagnostics *Error = NULL) {
	Diagnostics DummyError;
	if (!Error) Error = &DummyError;
	const MatcherList Out = Registry::constructMatcher(
	MatcherName, SourceRange(), Args(Arg1), Error);
	EXPECT_EQ("", DummyError.toStringFull());
	return Out;
	}

	MatcherList constructMatcher(StringRef MatcherName, const VariantValue &Arg1,
	const VariantValue &Arg2,
	Diagnostics *Error = NULL) {
	Diagnostics DummyError;
	if (!Error) Error = &DummyError;
	const MatcherList Out = Registry::constructMatcher(
	MatcherName, SourceRange(), Args(Arg1, Arg2), Error);
	EXPECT_EQ("", DummyError.toStringFull());
	return Out;
	}
	};

	TEST_F(RegistryTest, CanConstructNoArgs) {
	Matcher<Stmt> IsArrowValue = constructMatcher(
	"memberExpr", constructMatcher("isArrow")).getTypedMatcher<Stmt>();
	Matcher<Stmt> BoolValue =
	constructMatcher("boolLiteral").getTypedMatcher<Stmt>();

	const std::string ClassSnippet = "struct Foo { int x; };\n"
	"Foo *foo = new Foo;\n"
	"int i = foo->x;\n";
	const std::string BoolSnippet = "bool Foo = true;\n";

	EXPECT_TRUE(matches(ClassSnippet, IsArrowValue));
	EXPECT_TRUE(matches(BoolSnippet, BoolValue));
	EXPECT_FALSE(matches(ClassSnippet, BoolValue));
	EXPECT_FALSE(matches(BoolSnippet, IsArrowValue));
	}

	TEST_F(RegistryTest, ConstructWithSimpleArgs) {
	Matcher<Decl> Value = constructMatcher(
	"namedDecl", constructMatcher("hasName", std::string("X")))
	.getTypedMatcher<Decl>();
	EXPECT_TRUE(matches("class X {};", Value));
	EXPECT_FALSE(matches("int x;", Value));

	Value = functionDecl(constructMatcher("parameterCountIs", 2)
	.getTypedMatcher<FunctionDecl>());
	EXPECT_TRUE(matches("void foo(int,int);", Value));
	EXPECT_FALSE(matches("void foo(int);", Value));
	}

	TEST_F(RegistryTest, ConstructWithMatcherArgs) {
	Matcher<Decl> HasInitializerSimple =
	constructMatcher("varDecl", constructMatcher("hasInitializer", stmt()))
	.getTypedMatcher<Decl>();
	Matcher<Decl> HasInitializerComplex = constructMatcher(
	"varDecl", constructMatcher("hasInitializer", callExpr()))
	.getTypedMatcher<Decl>();

	std::string code = "int i;";
	EXPECT_FALSE(matches(code, HasInitializerSimple));
	EXPECT_FALSE(matches(code, HasInitializerComplex));

	code = "int i = 1;";
	EXPECT_TRUE(matches(code, HasInitializerSimple));
	EXPECT_FALSE(matches(code, HasInitializerComplex));

	code = "int y(); int i = y();";
	EXPECT_TRUE(matches(code, HasInitializerSimple));
	EXPECT_TRUE(matches(code, HasInitializerComplex));

	Matcher<Decl> HasParameter = functionDecl(constructMatcher(
	"hasParameter", 1, hasName("x")).getTypedMatcher<FunctionDecl>());
	EXPECT_TRUE(matches("void f(int a, int x);", HasParameter));
	EXPECT_FALSE(matches("void f(int x, int a);", HasParameter));
	}

	TEST_F(RegistryTest, OverloadedMatchers) {
	Matcher<Stmt> CallExpr0 = constructMatcher(
	"callExpr",
	constructMatcher("callee", constructMatcher("memberExpr",
	constructMatcher("isArrow"))))
	.getTypedMatcher<Stmt>();

	Matcher<Stmt> CallExpr1 = constructMatcher(
	"callExpr",
	constructMatcher(
	"callee",
	constructMatcher("methodDecl",
	constructMatcher("hasName", std::string("x")))))
	.getTypedMatcher<Stmt>();

	std::string Code = "class Y { public: void x(); }; void z() { Y y; y.x(); }";
	EXPECT_FALSE(matches(Code, CallExpr0));
	EXPECT_TRUE(matches(Code, CallExpr1));

	Code = "class Z { public: void z() { this->z(); } };";
	EXPECT_TRUE(matches(Code, CallExpr0));
	EXPECT_FALSE(matches(Code, CallExpr1));
	}

	TEST_F(RegistryTest, PolymorphicMatchers) {
	const MatcherList IsDefinition = constructMatcher("isDefinition");
	Matcher<Decl> Var =
	constructMatcher("varDecl", IsDefinition).getTypedMatcher<Decl>();
	Matcher<Decl> Class =
	constructMatcher("recordDecl", IsDefinition).getTypedMatcher<Decl>();
	Matcher<Decl> Func =
	constructMatcher("functionDecl", IsDefinition).getTypedMatcher<Decl>();
	EXPECT_TRUE(matches("int a;", Var));
	EXPECT_FALSE(matches("extern int a;", Var));
	EXPECT_TRUE(matches("class A {};", Class));
	EXPECT_FALSE(matches("class A;", Class));
	EXPECT_TRUE(matches("void f(){};", Func));
	EXPECT_FALSE(matches("void f();", Func));

	Matcher<Decl> Anything = constructMatcher("anything").getTypedMatcher<Decl>();
	Matcher<Decl> RecordDecl =
	constructMatcher("recordDecl", Anything).getTypedMatcher<Decl>();

	EXPECT_TRUE(matches("int a;", Anything));
	EXPECT_TRUE(matches("class A {};", Anything));
	EXPECT_TRUE(matches("void f(){};", Anything));
	// FIXME: A couple of tests have been suppressed.
	// I know it'd be bad with _MSC_VER here, though.
	#if !defined(_MSC_VER)
	EXPECT_FALSE(matches("int a;", RecordDecl));
	#endif
	EXPECT_TRUE(matches("class A {};", RecordDecl));
	#if !defined(_MSC_VER)
	EXPECT_FALSE(matches("void f(){};", RecordDecl));
	#endif
	}

	TEST_F(RegistryTest, TemplateArgument) {
	Matcher<Decl> HasTemplateArgument = constructMatcher(
	"classTemplateSpecializationDecl",
	constructMatcher(
	"hasAnyTemplateArgument",
	constructMatcher("refersToType",
	constructMatcher("asString", std::string("int")))))
	.getTypedMatcher<Decl>();
	EXPECT_TRUE(matches("template<typename T> class A {}; A<int> a;",
	HasTemplateArgument));
	EXPECT_FALSE(matches("template<typename T> class A {}; A<char> a;",
	HasTemplateArgument));
	}

	TEST_F(RegistryTest, TypeTraversal) {
	Matcher<Type> M = constructMatcher(
	"pointerType",
	constructMatcher("pointee", constructMatcher("isConstQualified"),
	constructMatcher("isInteger"))).getTypedMatcher<Type>();
	EXPECT_FALSE(matches("int *a;", M));
	EXPECT_TRUE(matches("int const *b;", M));

	M = constructMatcher(
	"arrayType",
	constructMatcher("hasElementType", constructMatcher("builtinType")))
	.getTypedMatcher<Type>();
	EXPECT_FALSE(matches("struct A{}; A a[7];;", M));
	EXPECT_TRUE(matches("int b[7];", M));
	}

	TEST_F(RegistryTest, CXXCtorInitializer) {
	Matcher<Decl> CtorDecl = constructMatcher(
	"constructorDecl",
	constructMatcher("hasAnyConstructorInitializer",
	constructMatcher("forField", hasName("foo"))))
	.getTypedMatcher<Decl>();
	EXPECT_TRUE(matches("struct Foo { Foo() : foo(1) {} int foo; };", CtorDecl));
	EXPECT_FALSE(matches("struct Foo { Foo() {} int foo; };", CtorDecl));
	EXPECT_FALSE(matches("struct Foo { Foo() : bar(1) {} int bar; };", CtorDecl));
	}

	TEST_F(RegistryTest, Errors) {
	// Incorrect argument count.
	OwningPtr<Diagnostics> Error(new Diagnostics());
	EXPECT_TRUE(constructMatcher("hasInitializer", Error.get()).empty());
	EXPECT_EQ("Incorrect argument count. (Expected = 1) != (Actual = 0)",
	Error->toString());
	Error.reset(new Diagnostics());
	EXPECT_TRUE(constructMatcher("isArrow", std::string(), Error.get()).empty());
	EXPECT_EQ("Incorrect argument count. (Expected = 0) != (Actual = 1)",
	Error->toString());

	// Bad argument type
	Error.reset(new Diagnostics());
	EXPECT_TRUE(constructMatcher("ofClass", std::string(), Error.get()).empty());
	EXPECT_EQ("Incorrect type for arg 1. (Expected = Matcher<CXXRecordDecl>) != "
	"(Actual = String)",
	Error->toString());
	Error.reset(new Diagnostics());
	EXPECT_TRUE(constructMatcher("recordDecl", recordDecl(), parameterCountIs(3),
	Error.get()).empty());
	EXPECT_EQ("Incorrect type for arg 2. (Expected = Matcher<CXXRecordDecl>) != "
	"(Actual = Matcher<FunctionDecl>)",
	Error->toString());
	}

	} // end anonymous namespace
	} // end namespace dynamic
	} // end namespace ast_matchers
	} // end namespace clang