tools/clang/rewrite_to_chrome_style/tests/template-expected.cc - chromium/src.git - Git at Google

 // Copyright 2016 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include <type_traits>

 namespace not_blink {

 void function(int x) {}

 class Class {
  public:
   void method() {}
   virtual void virtualMethod() {}
   template <typename T>
   void methodTemplate(T) {}
   template <typename T>
   static void staticMethodTemplate(T) {}
 };

 template <typename T>
 void functionTemplate(T x) {}

 template <typename T = Class>
 void functionTemplate2() {
   T::staticMethodTemplate(123);
 }

 template <typename T = Class>
 class TemplatedClass {
  public:
   void anotherMethod() { T::staticMethodTemplate(123); }
 };

 }  // not_blink

 namespace blink {

 bool FunctionNotMarkedConstexpr(int a) {
   return a == 4 || a == 10;
 }

 template <typename T>
 bool TemplatedFunctionNotMarkedConstexpr(T t) {
   return !!t;
 }

 int g_global_number;

 template <typename T, int number>
 void F() {
   // These are const but hacker_case so we leave them alone.
   const int maybe_a_const = sizeof(T);
   const int is_a_const = number;
   // These are const expressions so they get a k prefix.
   const int kMaybeAConstToo = sizeof(T);
   const int kIsAConstToo = number;
   // These are built from calls to functions which produces inconsistent
   // results so they should not be considered const to be safe.
   const bool from_a_method = FunctionNotMarkedConstexpr(number);
   const bool from_a_templated_method =
       TemplatedFunctionNotMarkedConstexpr(number);
   // A complex statement of const things is const.
   const bool kComplexConst = number || (number + 1);
   // A complex statement with a non-const thing is not const.
   const bool complex_not_const = number || (g_global_number + 1);
   // A const built from other consts is a const.
   const bool kConstFromAConst = kComplexConst || number;
 }

 template <int number, typename... T>
 void F() {
   // These are const but hacker_case so we leave them alone.
   const int maybe_a_const = sizeof...(T);
   const int is_a_const = number;
   // These are const expressions so they get a k prefix.
   const int kMaybeAConstToo = sizeof...(T);
   const int kIsAConstToo = number;
 }

 namespace test_member_in_template {

 template <typename T>
 class HasAMember {
  public:
   HasAMember() {}
   HasAMember(const T&) {}

   void UsesMember() { const int not_const = i_; }
   void AlsoUsesMember();

  private:
   int i_;
 };

 template <typename T>
 void HasAMember<T>::AlsoUsesMember() {
   const int not_const = i_;
 }

 template <typename T>
 static void BasedOnSubType(const HasAMember<T>& t) {
   const HasAMember<T> problematic_not_const(t);
 }

 void Run() {
   HasAMember<int>().UsesMember();

   BasedOnSubType<int>(HasAMember<int>());
   enum E { A };
   BasedOnSubType<E>(HasAMember<E>());
 }
 }

 namespace test_template_arg_is_function {

 void F(int x) {}

 template <typename T, void g(T)>
 void H(T x) {
   g(x);
 }

 void Test() {
   // f should be rewritten.
   H<int, F>(0);
   // Non-Blink should stay the same.
   H<int, not_blink::function>(1);

   // The int one makes the methods called from F() considered as constexpr, and
   // can be collapsed to not have template arguments before it reaches the AST.
   F<int, 10>();
   // The enum one makes them not constexpr, as it doesn't collapse away the
   // template stuff as much. This can lead to conflicting decisions about
   // the names inside F() vs the above instantiation.
   enum E { A };
   F<E, 11>();
 }

 }  // namespace test_template_arg_is_function

 namespace test_template_arg_is_method {

 class Class {
  public:
   void Method() {}
 };

 template <typename T, void (T::*g)()>
 void H(T&& x) {
   (x.*g)();
 }

 void Test() {
   // method should be rewritten.
   H<Class, &Class::Method>(Class());
   // Non-Blink should stay the same.
   H<not_blink::Class, &not_blink::Class::method>(not_blink::Class());
 }

 }  // namespace test_template_arg_is_method

 namespace test_template_arg_is_function_template {

 namespace nested {
 template <typename T>
 void F(T) {}
 }

 template <typename T, void g(T)>
 void H(T x) {
   g(x);
 }

 void Test() {
   // f should be rewritten.
   H<int, nested::F>(0);
   // Non-Blink should stay the same.
   H<int, not_blink::functionTemplate>(1);
 }

 }  // namespace test_template_arg_is_function_template

 namespace test_template_arg_is_method_template_in_non_member_context {

 struct Class {
   template <typename T>
   static void F(T) {}
 };

 template <typename T, void g(T)>
 void H(T x) {
   g(x);
 }

 void Test() {
   // f should be rewritten.
   H<int, Class::F>(0);
   // Non-Blink should stay the same.
   H<int, not_blink::Class::staticMethodTemplate>(1);
 }

 }  // test_template_arg_is_method_template_in_non_member_context

 namespace test_inherited_field {

 template <typename T>
 class BaseClass {
  public:
   unsigned long size_;
 };

 template <typename T>
 class DerivedClass : protected BaseClass<T> {
  private:
   using Base = BaseClass<T>;
   // https://crbug.com/640016: Need to rewrite |m_size| into |size_|.
   using Base::size_;
   void Method() { size_ = 123; }
 };

 }  // namespace test_inherited_field

 namespace test_template_arg_is_method_template_in_member_context {

 struct Class {
   template <typename T>
   static void F(T) {}
 };

 struct Class2 {
   template <typename T>
   void F(T x) {
     // f should be rewritten.
     Class c;
     c.F(x);
     // Non-Blink should stay the same.
     not_blink::Class c2;
     c2.method(x);
   }
 };

 }  // namespace test_template_arg_is_method_template_in_member_context

 namespace test_unnamed_arg {

 template <typename T>
 class Class {
  public:
   // Test for https://crbug.com/598141 - shouldn't rewrite
   //    ...int);
   // into
   //    ...intdata_size;
   void F(int);
 };

 template <typename T>
 void Class<T>::F(int data_size){};

 void Foo() {
   Class<char>().F(123);
 };

 }  // namespace test_unnamed_arg

 namespace cxx_dependent_scope_member_expr_testing {

 class PartitionAllocator {
  public:
   static void Method() {}
 };

 template <typename Allocator = PartitionAllocator>
 class Vector {
  public:
   // https://crbug.com/582315: |Allocator::method| is a
   // CXXDependentScopeMemberExpr.
   void AnotherMethod() {
     if (std::is_class<Allocator>::value)  // Shouldn't rename |value|
       Allocator::Method();                // Should rename |method| -> |Method|.
   }
 };

 template <typename Allocator = PartitionAllocator>
 void Test() {
   // https://crbug.com/582315: |Allocator::method| is a
   // DependentScopeDeclRefExpr.
   if (std::is_class<Allocator>::value)  // Shouldn't rename |value|.
     Allocator::Method();                // Should rename |method|.
 }

 class InterceptingCanvasBase : public ::not_blink::Class {
  public:
   virtual void VirtualMethodInBlink(){};
 };

 template <typename DerivedCanvas>
 class InterceptingCanvas : public InterceptingCanvasBase {
  public:
   void virtualMethod() override {
     this->Class::virtualMethod();  // https://crbug.com/582315#c19
     this->InterceptingCanvasBase::VirtualMethodInBlink();
   }
 };

 template <typename T>
 class ThreadSpecific {
  public:
   T* operator->();
   operator T*();
 };

 template <typename T>
 inline ThreadSpecific<T>::operator T*() {
   return nullptr;
 }

 template <typename T>
 inline T* ThreadSpecific<T>::operator->() {
   return operator T*();
 }

 class Class {
  public:
   virtual void VirtualMethodInBlink() {}
 };

 }  // namespace cxx_dependent_scope_member_expr_testing

 namespace blocklisting_of_renaming_of_begin_method {

 template <typename T>
 class IntrusiveHeap {
  public:
   // https://crbug.com/672353: |begin| shouldn't be rewritten to |Begin|.
   const T* begin() const { return nullptr; }
 };

 }  // namespace blocklisting_of_renaming_of_begin_method

 namespace specializations {

 template <unsigned long sizeOfValue>
 int ToV8SignedIntegerInternal(long value);

 template <>
 int ToV8SignedIntegerInternal<4>(long value) {
   return 123 + value;
 }

 template <>
 int ToV8SignedIntegerInternal<8>(long value) {
   return 456 + value;
 }

 int ToV8(int value) {
   return ToV8SignedIntegerInternal<sizeof value>(value);
 }

 int ToV8(long value) {
   return ToV8SignedIntegerInternal<sizeof value>(value);
 }

 }  // namespace specializations

 }  // namespace blink

 namespace not_blink {

 namespace cxx_dependent_scope_member_expr_testing {

 class Base : public ::blink::cxx_dependent_scope_member_expr_testing::Class {
  public:
   virtual void virtualMethod() {}
 };

 template <typename T>
 class Derived : public Base {
  public:
   void virtualMethod() override {
     this->Class::VirtualMethodInBlink();
     this->Base::virtualMethod();
   }
 };

 }  // namespace cxx_dependent_scope_member_expr_testing

 namespace blink_methods_called_from_mojo_traits_are_not_rewritten {

 template <typename V>
 struct MapTraits;

 template <typename V>
 struct MapTraits<blink::test_unnamed_arg::Class<V>> {
   static void SetToEmpty(blink::test_unnamed_arg::Class<V>* output) {
     // Need to rewrite |f| to |F| below (because this method name
     // does get rewritten when processing blink::test_unnamed_arg::Class).
     // See also https://crbug.com/670434.
     output->F(123);
   }
 };

 }  // namespace blink_methods_called_from_mojo_traits_are_not_rewritten

 }  // namespace not_blink
	// Copyright 2016 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include <type_traits>

	namespace not_blink {

	void function(int x) {}

	class Class {
	public:
	void method() {}
	virtual void virtualMethod() {}
	template <typename T>
	void methodTemplate(T) {}
	template <typename T>
	static void staticMethodTemplate(T) {}
	};

	template <typename T>
	void functionTemplate(T x) {}

	template <typename T = Class>
	void functionTemplate2() {
	T::staticMethodTemplate(123);
	}

	template <typename T = Class>
	class TemplatedClass {
	public:
	void anotherMethod() { T::staticMethodTemplate(123); }
	};

	} // not_blink

	namespace blink {

	bool FunctionNotMarkedConstexpr(int a) {
	return a == 4 \|\| a == 10;
	}

	template <typename T>
	bool TemplatedFunctionNotMarkedConstexpr(T t) {
	return !!t;
	}

	int g_global_number;

	template <typename T, int number>
	void F() {
	// These are const but hacker_case so we leave them alone.
	const int maybe_a_const = sizeof(T);
	const int is_a_const = number;
	// These are const expressions so they get a k prefix.
	const int kMaybeAConstToo = sizeof(T);
	const int kIsAConstToo = number;
	// These are built from calls to functions which produces inconsistent
	// results so they should not be considered const to be safe.
	const bool from_a_method = FunctionNotMarkedConstexpr(number);
	const bool from_a_templated_method =
	TemplatedFunctionNotMarkedConstexpr(number);
	// A complex statement of const things is const.
	const bool kComplexConst = number \|\| (number + 1);
	// A complex statement with a non-const thing is not const.
	const bool complex_not_const = number \|\| (g_global_number + 1);
	// A const built from other consts is a const.
	const bool kConstFromAConst = kComplexConst \|\| number;
	}

	template <int number, typename... T>
	void F() {
	// These are const but hacker_case so we leave them alone.
	const int maybe_a_const = sizeof...(T);
	const int is_a_const = number;
	// These are const expressions so they get a k prefix.
	const int kMaybeAConstToo = sizeof...(T);
	const int kIsAConstToo = number;
	}

	namespace test_member_in_template {

	template <typename T>
	class HasAMember {
	public:
	HasAMember() {}
	HasAMember(const T&) {}

	void UsesMember() { const int not_const = i_; }
	void AlsoUsesMember();

	private:
	int i_;
	};

	template <typename T>
	void HasAMember<T>::AlsoUsesMember() {
	const int not_const = i_;
	}

	template <typename T>
	static void BasedOnSubType(const HasAMember<T>& t) {
	const HasAMember<T> problematic_not_const(t);
	}

	void Run() {
	HasAMember<int>().UsesMember();

	BasedOnSubType<int>(HasAMember<int>());
	enum E { A };
	BasedOnSubType<E>(HasAMember<E>());
	}
	}

	namespace test_template_arg_is_function {

	void F(int x) {}

	template <typename T, void g(T)>
	void H(T x) {
	g(x);
	}

	void Test() {
	// f should be rewritten.
	H<int, F>(0);
	// Non-Blink should stay the same.
	H<int, not_blink::function>(1);

	// The int one makes the methods called from F() considered as constexpr, and
	// can be collapsed to not have template arguments before it reaches the AST.
	F<int, 10>();
	// The enum one makes them not constexpr, as it doesn't collapse away the
	// template stuff as much. This can lead to conflicting decisions about
	// the names inside F() vs the above instantiation.
	enum E { A };
	F<E, 11>();
	}

	} // namespace test_template_arg_is_function

	namespace test_template_arg_is_method {

	class Class {
	public:
	void Method() {}
	};

	template <typename T, void (T::*g)()>
	void H(T&& x) {
	(x.*g)();
	}

	void Test() {
	// method should be rewritten.
	H<Class, &Class::Method>(Class());
	// Non-Blink should stay the same.
	H<not_blink::Class, &not_blink::Class::method>(not_blink::Class());
	}

	} // namespace test_template_arg_is_method

	namespace test_template_arg_is_function_template {

	namespace nested {
	template <typename T>
	void F(T) {}
	}

	template <typename T, void g(T)>
	void H(T x) {
	g(x);
	}

	void Test() {
	// f should be rewritten.
	H<int, nested::F>(0);
	// Non-Blink should stay the same.
	H<int, not_blink::functionTemplate>(1);
	}

	} // namespace test_template_arg_is_function_template

	namespace test_template_arg_is_method_template_in_non_member_context {

	struct Class {
	template <typename T>
	static void F(T) {}
	};

	template <typename T, void g(T)>
	void H(T x) {
	g(x);
	}

	void Test() {
	// f should be rewritten.
	H<int, Class::F>(0);
	// Non-Blink should stay the same.
	H<int, not_blink::Class::staticMethodTemplate>(1);
	}

	} // test_template_arg_is_method_template_in_non_member_context

	namespace test_inherited_field {

	template <typename T>
	class BaseClass {
	public:
	unsigned long size_;
	};

	template <typename T>
	class DerivedClass : protected BaseClass<T> {
	private:
	using Base = BaseClass<T>;
	// https://crbug.com/640016: Need to rewrite \|m_size\| into \|size_\|.
	using Base::size_;
	void Method() { size_ = 123; }
	};

	} // namespace test_inherited_field

	namespace test_template_arg_is_method_template_in_member_context {

	struct Class {
	template <typename T>
	static void F(T) {}
	};

	struct Class2 {
	template <typename T>
	void F(T x) {
	// f should be rewritten.
	Class c;
	c.F(x);
	// Non-Blink should stay the same.
	not_blink::Class c2;
	c2.method(x);
	}
	};

	} // namespace test_template_arg_is_method_template_in_member_context

	namespace test_unnamed_arg {

	template <typename T>
	class Class {
	public:
	// Test for https://crbug.com/598141 - shouldn't rewrite
	// ...int);
	// into
	// ...intdata_size;
	void F(int);
	};

	template <typename T>
	void Class<T>::F(int data_size){};

	void Foo() {
	Class<char>().F(123);
	};

	} // namespace test_unnamed_arg

	namespace cxx_dependent_scope_member_expr_testing {

	class PartitionAllocator {
	public:
	static void Method() {}
	};

	template <typename Allocator = PartitionAllocator>
	class Vector {
	public:
	// https://crbug.com/582315: \|Allocator::method\| is a
	// CXXDependentScopeMemberExpr.
	void AnotherMethod() {
	if (std::is_class<Allocator>::value) // Shouldn't rename \|value\|
	Allocator::Method(); // Should rename \|method\| -> \|Method\|.
	}
	};

	template <typename Allocator = PartitionAllocator>
	void Test() {
	// https://crbug.com/582315: \|Allocator::method\| is a
	// DependentScopeDeclRefExpr.
	if (std::is_class<Allocator>::value) // Shouldn't rename \|value\|.
	Allocator::Method(); // Should rename \|method\|.
	}

	class InterceptingCanvasBase : public ::not_blink::Class {
	public:
	virtual void VirtualMethodInBlink(){};
	};

	template <typename DerivedCanvas>
	class InterceptingCanvas : public InterceptingCanvasBase {
	public:
	void virtualMethod() override {
	this->Class::virtualMethod(); // https://crbug.com/582315#c19
	this->InterceptingCanvasBase::VirtualMethodInBlink();
	}
	};

	template <typename T>
	class ThreadSpecific {
	public:
	T* operator->();
	operator T*();
	};

	template <typename T>
	inline ThreadSpecific<T>::operator T*() {
	return nullptr;
	}

	template <typename T>
	inline T* ThreadSpecific<T>::operator->() {
	return operator T*();
	}

	class Class {
	public:
	virtual void VirtualMethodInBlink() {}
	};

	} // namespace cxx_dependent_scope_member_expr_testing

	namespace blocklisting_of_renaming_of_begin_method {

	template <typename T>
	class IntrusiveHeap {
	public:
	// https://crbug.com/672353: \|begin\| shouldn't be rewritten to \|Begin\|.
	const T* begin() const { return nullptr; }
	};

	} // namespace blocklisting_of_renaming_of_begin_method

	namespace specializations {

	template <unsigned long sizeOfValue>
	int ToV8SignedIntegerInternal(long value);

	template <>
	int ToV8SignedIntegerInternal<4>(long value) {
	return 123 + value;
	}

	template <>
	int ToV8SignedIntegerInternal<8>(long value) {
	return 456 + value;
	}

	int ToV8(int value) {
	return ToV8SignedIntegerInternal<sizeof value>(value);
	}

	int ToV8(long value) {
	return ToV8SignedIntegerInternal<sizeof value>(value);
	}

	} // namespace specializations

	} // namespace blink

	namespace not_blink {

	namespace cxx_dependent_scope_member_expr_testing {

	class Base : public ::blink::cxx_dependent_scope_member_expr_testing::Class {
	public:
	virtual void virtualMethod() {}
	};

	template <typename T>
	class Derived : public Base {
	public:
	void virtualMethod() override {
	this->Class::VirtualMethodInBlink();
	this->Base::virtualMethod();
	}
	};

	} // namespace cxx_dependent_scope_member_expr_testing

	namespace blink_methods_called_from_mojo_traits_are_not_rewritten {

	template <typename V>
	struct MapTraits;

	template <typename V>
	struct MapTraits<blink::test_unnamed_arg::Class<V>> {
	static void SetToEmpty(blink::test_unnamed_arg::Class<V>* output) {
	// Need to rewrite \|f\| to \|F\| below (because this method name
	// does get rewritten when processing blink::test_unnamed_arg::Class).
	// See also https://crbug.com/670434.
	output->F(123);
	}
	};

	} // namespace blink_methods_called_from_mojo_traits_are_not_rewritten

	} // namespace not_blink