test/support/callable_types.h - llvm-project/libcxx - Git at Google

 //===----------------------------------------------------------------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//

 #ifndef TEST_CALLABLE_TYPES_H
 #define TEST_CALLABLE_TYPES_H

 #include "test_macros.h"
 #include "type_id.h"

 ///////////////////////////////////////////////////////////////////////////////
 //                       CALLABLE TEST TYPES
 ///////////////////////////////////////////////////////////////////////////////

 constexpr bool returns_true() { return true; }

 template <class Ret>
 struct MoveOnlyCallable {
   MoveOnlyCallable(MoveOnlyCallable const&) = delete;
   constexpr MoveOnlyCallable(MoveOnlyCallable&& other)
       : value(other.value)
   { other.value = !other.value; }

   template <class ...Args>
   constexpr Ret operator()(Args&&...) { return Ret{value}; }

   constexpr explicit MoveOnlyCallable(bool x) : value(x) {}
   Ret value;
 };

 template <class Ret>
 struct CopyCallable {
   constexpr CopyCallable(CopyCallable const& other)
       : value(other.value) {}

   constexpr CopyCallable(CopyCallable&& other)
       : value(other.value) { other.value = !other.value; }

   template <class ...Args>
   constexpr Ret operator()(Args&&...) { return Ret{value}; }

   constexpr explicit CopyCallable(bool x) : value(x)  {}
   Ret value;
 };


 template <class Ret>
 struct ConstCallable {
   constexpr ConstCallable(ConstCallable const& other)
       : value(other.value) {}

   constexpr ConstCallable(ConstCallable&& other)
       : value(other.value) { other.value = !other.value; }

   template <class ...Args>
   constexpr Ret operator()(Args&&...) const { return Ret{value}; }

   constexpr explicit ConstCallable(bool x) : value(x)  {}
   Ret value;
 };


 template <class Ret>
 struct NoExceptCallable {
   constexpr NoExceptCallable(NoExceptCallable const& other)
       : value(other.value) {}

   template <class ...Args>
   constexpr Ret operator()(Args&&...) noexcept { return Ret{value}; }

   template <class ...Args>
   constexpr Ret operator()(Args&&...) const noexcept { return Ret{value}; }

   constexpr explicit NoExceptCallable(bool x) : value(x)  {}
   Ret value;
 };

 struct CopyAssignableWrapper {
   constexpr CopyAssignableWrapper(CopyAssignableWrapper const&) = default;
   constexpr CopyAssignableWrapper(CopyAssignableWrapper&&) = default;
   constexpr CopyAssignableWrapper& operator=(CopyAssignableWrapper const&) = default;
   constexpr CopyAssignableWrapper& operator=(CopyAssignableWrapper &&) = default;

   template <class ...Args>
   constexpr bool operator()(Args&&...) { return value; }

   constexpr explicit CopyAssignableWrapper(bool x) : value(x) {}
   bool value;
 };


 struct MoveAssignableWrapper {
   constexpr MoveAssignableWrapper(MoveAssignableWrapper const&) = delete;
   constexpr MoveAssignableWrapper(MoveAssignableWrapper&&) = default;
   constexpr MoveAssignableWrapper& operator=(MoveAssignableWrapper const&) = delete;
   constexpr MoveAssignableWrapper& operator=(MoveAssignableWrapper &&) = default;

   template <class ...Args>
   constexpr bool operator()(Args&&...) { return value; }

   constexpr explicit MoveAssignableWrapper(bool x) : value(x) {}
   bool value;
 };

 struct MemFunCallable {
   constexpr explicit MemFunCallable(bool x) : value(x) {}

   constexpr bool return_value() const { return value; }
   constexpr bool return_value_nc() { return value; }
   bool value;
 };

 enum CallType : unsigned {
   CT_None,
   CT_NonConst = 1,
   CT_Const = 2,
   CT_LValue = 4,
   CT_RValue = 8
 };

 inline constexpr CallType operator|(CallType LHS, CallType RHS) {
     return static_cast<CallType>(static_cast<unsigned>(LHS) | static_cast<unsigned>(RHS));
 }

 struct ForwardingCallObject {
   struct State {
     CallType      last_call_type = CT_None;
     TypeID const& (*last_call_args)() = nullptr;

     template <class ...Args>
     constexpr void set_call(CallType type) {
       assert(last_call_type == CT_None);
       assert(last_call_args == nullptr);
       last_call_type = type;
       last_call_args = &makeArgumentID<Args...>;
     }

     template <class ...Args>
     constexpr bool check_call(CallType type) {
       bool result =
            last_call_type == type
         && last_call_args
         && *last_call_args == &makeArgumentID<Args...>;
       last_call_type = CT_None;
       last_call_args = nullptr;
       return result;
     }
   };

   State *st_;

   explicit constexpr ForwardingCallObject(State& st) : st_(&st) {}

   template <class ...Args>
   constexpr bool operator()(Args&&...) & {
       st_->set_call<Args&&...>(CT_NonConst | CT_LValue);
       return true;
   }

   template <class ...Args>
   constexpr bool operator()(Args&&...) const & {
       st_->set_call<Args&&...>(CT_Const | CT_LValue);
       return true;
   }

   // Don't allow the call operator to be invoked as an rvalue.
   template <class ...Args>
   constexpr bool operator()(Args&&...) && {
       st_->set_call<Args&&...>(CT_NonConst | CT_RValue);
       return true;
   }

   template <class ...Args>
   constexpr bool operator()(Args&&...) const && {
       st_->set_call<Args&&...>(CT_Const | CT_RValue);
       return true;
   }
 };


 #endif // TEST_CALLABLE_TYPES_H
	//===----------------------------------------------------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	#ifndef TEST_CALLABLE_TYPES_H
	#define TEST_CALLABLE_TYPES_H

	#include "test_macros.h"
	#include "type_id.h"

	///////////////////////////////////////////////////////////////////////////////
	// CALLABLE TEST TYPES
	///////////////////////////////////////////////////////////////////////////////

	constexpr bool returns_true() { return true; }

	template <class Ret>
	struct MoveOnlyCallable {
	MoveOnlyCallable(MoveOnlyCallable const&) = delete;
	constexpr MoveOnlyCallable(MoveOnlyCallable&& other)
	: value(other.value)
	{ other.value = !other.value; }

	template <class ...Args>
	constexpr Ret operator()(Args&&...) { return Ret{value}; }

	constexpr explicit MoveOnlyCallable(bool x) : value(x) {}
	Ret value;
	};

	template <class Ret>
	struct CopyCallable {
	constexpr CopyCallable(CopyCallable const& other)
	: value(other.value) {}

	constexpr CopyCallable(CopyCallable&& other)
	: value(other.value) { other.value = !other.value; }

	template <class ...Args>
	constexpr Ret operator()(Args&&...) { return Ret{value}; }

	constexpr explicit CopyCallable(bool x) : value(x) {}
	Ret value;
	};


	template <class Ret>
	struct ConstCallable {
	constexpr ConstCallable(ConstCallable const& other)
	: value(other.value) {}

	constexpr ConstCallable(ConstCallable&& other)
	: value(other.value) { other.value = !other.value; }

	template <class ...Args>
	constexpr Ret operator()(Args&&...) const { return Ret{value}; }

	constexpr explicit ConstCallable(bool x) : value(x) {}
	Ret value;
	};



	template <class Ret>
	struct NoExceptCallable {
	constexpr NoExceptCallable(NoExceptCallable const& other)
	: value(other.value) {}

	template <class ...Args>
	constexpr Ret operator()(Args&&...) noexcept { return Ret{value}; }

	template <class ...Args>
	constexpr Ret operator()(Args&&...) const noexcept { return Ret{value}; }

	constexpr explicit NoExceptCallable(bool x) : value(x) {}
	Ret value;
	};

	struct CopyAssignableWrapper {
	constexpr CopyAssignableWrapper(CopyAssignableWrapper const&) = default;
	constexpr CopyAssignableWrapper(CopyAssignableWrapper&&) = default;
	constexpr CopyAssignableWrapper& operator=(CopyAssignableWrapper const&) = default;
	constexpr CopyAssignableWrapper& operator=(CopyAssignableWrapper &&) = default;

	template <class ...Args>
	constexpr bool operator()(Args&&...) { return value; }

	constexpr explicit CopyAssignableWrapper(bool x) : value(x) {}
	bool value;
	};


	struct MoveAssignableWrapper {
	constexpr MoveAssignableWrapper(MoveAssignableWrapper const&) = delete;
	constexpr MoveAssignableWrapper(MoveAssignableWrapper&&) = default;
	constexpr MoveAssignableWrapper& operator=(MoveAssignableWrapper const&) = delete;
	constexpr MoveAssignableWrapper& operator=(MoveAssignableWrapper &&) = default;

	template <class ...Args>
	constexpr bool operator()(Args&&...) { return value; }

	constexpr explicit MoveAssignableWrapper(bool x) : value(x) {}
	bool value;
	};

	struct MemFunCallable {
	constexpr explicit MemFunCallable(bool x) : value(x) {}

	constexpr bool return_value() const { return value; }
	constexpr bool return_value_nc() { return value; }
	bool value;
	};

	enum CallType : unsigned {
	CT_None,
	CT_NonConst = 1,
	CT_Const = 2,
	CT_LValue = 4,
	CT_RValue = 8
	};

	inline constexpr CallType operator\|(CallType LHS, CallType RHS) {
	return static_cast<CallType>(static_cast<unsigned>(LHS) \| static_cast<unsigned>(RHS));
	}

	struct ForwardingCallObject {
	struct State {
	CallType last_call_type = CT_None;
	TypeID const& (*last_call_args)() = nullptr;

	template <class ...Args>
	constexpr void set_call(CallType type) {
	assert(last_call_type == CT_None);
	assert(last_call_args == nullptr);
	last_call_type = type;
	last_call_args = &makeArgumentID<Args...>;
	}

	template <class ...Args>
	constexpr bool check_call(CallType type) {
	bool result =
	last_call_type == type
	&& last_call_args
	&& *last_call_args == &makeArgumentID<Args...>;
	last_call_type = CT_None;
	last_call_args = nullptr;
	return result;
	}
	};

	State *st_;

	explicit constexpr ForwardingCallObject(State& st) : st_(&st) {}

	template <class ...Args>
	constexpr bool operator()(Args&&...) & {
	st_->set_call<Args&&...>(CT_NonConst \| CT_LValue);
	return true;
	}

	template <class ...Args>
	constexpr bool operator()(Args&&...) const & {
	st_->set_call<Args&&...>(CT_Const \| CT_LValue);
	return true;
	}

	// Don't allow the call operator to be invoked as an rvalue.
	template <class ...Args>
	constexpr bool operator()(Args&&...) && {
	st_->set_call<Args&&...>(CT_NonConst \| CT_RValue);
	return true;
	}

	template <class ...Args>
	constexpr bool operator()(Args&&...) const && {
	st_->set_call<Args&&...>(CT_Const \| CT_RValue);
	return true;
	}
	};


	#endif // TEST_CALLABLE_TYPES_H