test/std/utilities/function.objects/bind/func.bind/func.bind.bind/invoke_lvalue.pass.cpp - 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
 //
 //===----------------------------------------------------------------------===//

 // UNSUPPORTED: c++98, c++03

 // <functional>

 // template<CopyConstructible Fn, CopyConstructible... Types>
 //   unspecified bind(Fn, Types...);
 // template<Returnable R, CopyConstructible Fn, CopyConstructible... Types>
 //   unspecified bind(Fn, Types...);

 #include <stdio.h>

 #include <functional>
 #include <cassert>

 int count = 0;

 // 1 arg, return void

 void f_void_1(int i)
 {
     count += i;
 }

 struct A_void_1
 {
     void operator()(int i)
     {
         count += i;
     }

     void mem1() {++count;}
     void mem2() const {count += 2;}
 };

 void
 test_void_1()
 {
     using namespace std::placeholders;
     int save_count = count;
     // function
     {
     int i = 2;
     std::bind(f_void_1, _1)(i);
     assert(count == save_count + 2);
     save_count = count;
     }
     {
     int i = 2;
     std::bind(f_void_1, i)();
     assert(count == save_count + 2);
     save_count = count;
     }
     // function pointer
     {
     void (*fp)(int) = f_void_1;
     int i = 3;
     std::bind(fp, _1)(i);
     assert(count == save_count+3);
     save_count = count;
     }
     {
     void (*fp)(int) = f_void_1;
     int i = 3;
     std::bind(fp, i)();
     assert(count == save_count+3);
     save_count = count;
     }
     // functor
     {
     A_void_1 a0;
     int i = 4;
     std::bind(a0, _1)(i);
     assert(count == save_count+4);
     save_count = count;
     }
     {
     A_void_1 a0;
     int i = 4;
     std::bind(a0, i)();
     assert(count == save_count+4);
     save_count = count;
     }
     // member function pointer
     {
     void (A_void_1::*fp)() = &A_void_1::mem1;
     A_void_1 a;
     std::bind(fp, _1)(a);
     assert(count == save_count+1);
     save_count = count;
     A_void_1* ap = &a;
     std::bind(fp, _1)(ap);
     assert(count == save_count+1);
     save_count = count;
     }
     {
     void (A_void_1::*fp)() = &A_void_1::mem1;
     A_void_1 a;
     std::bind(fp, a)();
     assert(count == save_count+1);
     save_count = count;
     A_void_1* ap = &a;
     std::bind(fp, ap)();
     assert(count == save_count+1);
     save_count = count;
     }
     // const member function pointer
     {
     void (A_void_1::*fp)() const = &A_void_1::mem2;
     A_void_1 a;
     std::bind(fp, _1)(a);
     assert(count == save_count+2);
     save_count = count;
     A_void_1* ap = &a;
     std::bind(fp, _1)(ap);
     assert(count == save_count+2);
     save_count = count;
     }
     {
     void (A_void_1::*fp)() const = &A_void_1::mem2;
     A_void_1 a;
     std::bind(fp, a)();
     assert(count == save_count+2);
     save_count = count;
     A_void_1* ap = &a;
     std::bind(fp, ap)();
     assert(count == save_count+2);
     save_count = count;
     }
 }

 // 1 arg, return int

 int f_int_1(int i)
 {
     return i + 1;
 }

 struct A_int_1
 {
     A_int_1() : data_(5) {}
     int operator()(int i)
     {
         return i - 1;
     }

     int mem1() {return 3;}
     int mem2() const {return 4;}
     int data_;
 };

 void
 test_int_1()
 {
     using namespace std::placeholders;
     // function
     {
     int i = 2;
     assert(std::bind(f_int_1, _1)(i) == 3);
     assert(std::bind(f_int_1, i)() == 3);
     }
     // function pointer
     {
     int (*fp)(int) = f_int_1;
     int i = 3;
     assert(std::bind(fp, _1)(i) == 4);
     assert(std::bind(fp, i)() == 4);
     }
     // functor
     {
     int i = 4;
     assert(std::bind(A_int_1(), _1)(i) == 3);
     assert(std::bind(A_int_1(), i)() == 3);
     }
     // member function pointer
     {
     A_int_1 a;
     assert(std::bind(&A_int_1::mem1, _1)(a) == 3);
     assert(std::bind(&A_int_1::mem1, a)() == 3);
     A_int_1* ap = &a;
     assert(std::bind(&A_int_1::mem1, _1)(ap) == 3);
     assert(std::bind(&A_int_1::mem1, ap)() == 3);
     }
     // const member function pointer
     {
     A_int_1 a;
     assert(std::bind(&A_int_1::mem2, _1)(A_int_1()) == 4);
     assert(std::bind(&A_int_1::mem2, A_int_1())() == 4);
     A_int_1* ap = &a;
     assert(std::bind(&A_int_1::mem2, _1)(ap) == 4);
     assert(std::bind(&A_int_1::mem2, ap)() == 4);
     }
     // member data pointer
     {
     A_int_1 a;
     assert(std::bind(&A_int_1::data_, _1)(a) == 5);
     assert(std::bind(&A_int_1::data_, a)() == 5);
     A_int_1* ap = &a;
     assert(std::bind(&A_int_1::data_, _1)(a) == 5);
     std::bind(&A_int_1::data_, _1)(a) = 6;
     assert(std::bind(&A_int_1::data_, _1)(a) == 6);
     assert(std::bind(&A_int_1::data_, _1)(ap) == 6);
     std::bind(&A_int_1::data_, _1)(ap) = 7;
     assert(std::bind(&A_int_1::data_, _1)(ap) == 7);
     }
 }

 // 2 arg, return void

 void f_void_2(int i, int j)
 {
     count += i+j;
 }

 struct A_void_2
 {
     void operator()(int i, int j)
     {
         count += i+j;
     }

     void mem1(int i) {count += i;}
     void mem2(int i) const {count += i;}
 };

 void
 test_void_2()
 {
     using namespace std::placeholders;
     int save_count = count;
     // function
     {
     int i = 2;
     int j = 3;
     std::bind(f_void_2, _1, _2)(i, j);
     assert(count == save_count+5);
     save_count = count;
     std::bind(f_void_2, i, _1)(j);
     assert(count == save_count+5);
     save_count = count;
     std::bind(f_void_2, i, j)();
     assert(count == save_count+5);
     save_count = count;
     }
     // member function pointer
     {
     int j = 3;
     std::bind(&A_void_2::mem1, _1, _2)(A_void_2(), j);
     assert(count == save_count+3);
     save_count = count;
     std::bind(&A_void_2::mem1, _2, _1)(j, A_void_2());
     assert(count == save_count+3);
     save_count = count;
     }
 }

 struct TFENode
 {
     bool foo(unsigned long long) const
     {
         return true;
     }
 };

 void
 test3()
 {
     using namespace std;
     using namespace std::placeholders;
     const auto f = bind(&TFENode::foo, _1, 0UL);
     const TFENode n = TFENode{};
     bool b = f(n);
     assert(b);
 }

 int main(int, char**)
 {
     test_void_1();
     test_int_1();
     test_void_2();
     test3();

   return 0;
 }
	//===----------------------------------------------------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	// UNSUPPORTED: c++98, c++03

	// <functional>

	// template<CopyConstructible Fn, CopyConstructible... Types>
	// unspecified bind(Fn, Types...);
	// template<Returnable R, CopyConstructible Fn, CopyConstructible... Types>
	// unspecified bind(Fn, Types...);

	#include <stdio.h>

	#include <functional>
	#include <cassert>

	int count = 0;

	// 1 arg, return void

	void f_void_1(int i)
	{
	count += i;
	}

	struct A_void_1
	{
	void operator()(int i)
	{
	count += i;
	}

	void mem1() {++count;}
	void mem2() const {count += 2;}
	};

	void
	test_void_1()
	{
	using namespace std::placeholders;
	int save_count = count;
	// function
	{
	int i = 2;
	std::bind(f_void_1, _1)(i);
	assert(count == save_count + 2);
	save_count = count;
	}
	{
	int i = 2;
	std::bind(f_void_1, i)();
	assert(count == save_count + 2);
	save_count = count;
	}
	// function pointer
	{
	void (*fp)(int) = f_void_1;
	int i = 3;
	std::bind(fp, _1)(i);
	assert(count == save_count+3);
	save_count = count;
	}
	{
	void (*fp)(int) = f_void_1;
	int i = 3;
	std::bind(fp, i)();
	assert(count == save_count+3);
	save_count = count;
	}
	// functor
	{
	A_void_1 a0;
	int i = 4;
	std::bind(a0, _1)(i);
	assert(count == save_count+4);
	save_count = count;
	}
	{
	A_void_1 a0;
	int i = 4;
	std::bind(a0, i)();
	assert(count == save_count+4);
	save_count = count;
	}
	// member function pointer
	{
	void (A_void_1::*fp)() = &A_void_1::mem1;
	A_void_1 a;
	std::bind(fp, _1)(a);
	assert(count == save_count+1);
	save_count = count;
	A_void_1* ap = &a;
	std::bind(fp, _1)(ap);
	assert(count == save_count+1);
	save_count = count;
	}
	{
	void (A_void_1::*fp)() = &A_void_1::mem1;
	A_void_1 a;
	std::bind(fp, a)();
	assert(count == save_count+1);
	save_count = count;
	A_void_1* ap = &a;
	std::bind(fp, ap)();
	assert(count == save_count+1);
	save_count = count;
	}
	// const member function pointer
	{
	void (A_void_1::*fp)() const = &A_void_1::mem2;
	A_void_1 a;
	std::bind(fp, _1)(a);
	assert(count == save_count+2);
	save_count = count;
	A_void_1* ap = &a;
	std::bind(fp, _1)(ap);
	assert(count == save_count+2);
	save_count = count;
	}
	{
	void (A_void_1::*fp)() const = &A_void_1::mem2;
	A_void_1 a;
	std::bind(fp, a)();
	assert(count == save_count+2);
	save_count = count;
	A_void_1* ap = &a;
	std::bind(fp, ap)();
	assert(count == save_count+2);
	save_count = count;
	}
	}

	// 1 arg, return int

	int f_int_1(int i)
	{
	return i + 1;
	}

	struct A_int_1
	{
	A_int_1() : data_(5) {}
	int operator()(int i)
	{
	return i - 1;
	}

	int mem1() {return 3;}
	int mem2() const {return 4;}
	int data_;
	};

	void
	test_int_1()
	{
	using namespace std::placeholders;
	// function
	{
	int i = 2;
	assert(std::bind(f_int_1, _1)(i) == 3);
	assert(std::bind(f_int_1, i)() == 3);
	}
	// function pointer
	{
	int (*fp)(int) = f_int_1;
	int i = 3;
	assert(std::bind(fp, _1)(i) == 4);
	assert(std::bind(fp, i)() == 4);
	}
	// functor
	{
	int i = 4;
	assert(std::bind(A_int_1(), _1)(i) == 3);
	assert(std::bind(A_int_1(), i)() == 3);
	}
	// member function pointer
	{
	A_int_1 a;
	assert(std::bind(&A_int_1::mem1, _1)(a) == 3);
	assert(std::bind(&A_int_1::mem1, a)() == 3);
	A_int_1* ap = &a;
	assert(std::bind(&A_int_1::mem1, _1)(ap) == 3);
	assert(std::bind(&A_int_1::mem1, ap)() == 3);
	}
	// const member function pointer
	{
	A_int_1 a;
	assert(std::bind(&A_int_1::mem2, _1)(A_int_1()) == 4);
	assert(std::bind(&A_int_1::mem2, A_int_1())() == 4);
	A_int_1* ap = &a;
	assert(std::bind(&A_int_1::mem2, _1)(ap) == 4);
	assert(std::bind(&A_int_1::mem2, ap)() == 4);
	}
	// member data pointer
	{
	A_int_1 a;
	assert(std::bind(&A_int_1::data_, _1)(a) == 5);
	assert(std::bind(&A_int_1::data_, a)() == 5);
	A_int_1* ap = &a;
	assert(std::bind(&A_int_1::data_, _1)(a) == 5);
	std::bind(&A_int_1::data_, _1)(a) = 6;
	assert(std::bind(&A_int_1::data_, _1)(a) == 6);
	assert(std::bind(&A_int_1::data_, _1)(ap) == 6);
	std::bind(&A_int_1::data_, _1)(ap) = 7;
	assert(std::bind(&A_int_1::data_, _1)(ap) == 7);
	}
	}

	// 2 arg, return void

	void f_void_2(int i, int j)
	{
	count += i+j;
	}

	struct A_void_2
	{
	void operator()(int i, int j)
	{
	count += i+j;
	}

	void mem1(int i) {count += i;}
	void mem2(int i) const {count += i;}
	};

	void
	test_void_2()
	{
	using namespace std::placeholders;
	int save_count = count;
	// function
	{
	int i = 2;
	int j = 3;
	std::bind(f_void_2, _1, _2)(i, j);
	assert(count == save_count+5);
	save_count = count;
	std::bind(f_void_2, i, _1)(j);
	assert(count == save_count+5);
	save_count = count;
	std::bind(f_void_2, i, j)();
	assert(count == save_count+5);
	save_count = count;
	}
	// member function pointer
	{
	int j = 3;
	std::bind(&A_void_2::mem1, _1, _2)(A_void_2(), j);
	assert(count == save_count+3);
	save_count = count;
	std::bind(&A_void_2::mem1, _2, _1)(j, A_void_2());
	assert(count == save_count+3);
	save_count = count;
	}
	}

	struct TFENode
	{
	bool foo(unsigned long long) const
	{
	return true;
	}
	};

	void
	test3()
	{
	using namespace std;
	using namespace std::placeholders;
	const auto f = bind(&TFENode::foo, _1, 0UL);
	const TFENode n = TFENode{};
	bool b = f(n);
	assert(b);
	}

	int main(int, char**)
	{
	test_void_1();
	test_int_1();
	test_void_2();
	test3();

	return 0;
	}