cxx/test/utilities/function.objects/bind/func.bind/func.bind.bind/invoke_rvalue.pass.cpp

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//===----------------------------------------------------------------------===// // // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // <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 { std::bind(f_void_1, _1)(2); assert(count == save_count + 2); save_count = count; } { std::bind(f_void_1, 2)(); assert(count == save_count + 2); save_count = count; } // function pointer { void (*fp)(int) = f_void_1; std::bind(fp, _1)(3); assert(count == save_count+3); save_count = count; } { void (*fp)(int) = f_void_1; std::bind(fp, 3)(); assert(count == save_count+3); save_count = count; } // functor { A_void_1 a0; std::bind(a0, _1)(4); assert(count == save_count+4); save_count = count; } { A_void_1 a0; std::bind(a0, 4)(); assert(count == save_count+4); save_count = count; } // member function pointer { void (A_void_1::*fp)() = &A_void_1::mem1; std::bind(fp, _1)(A_void_1()); assert(count == save_count+1); save_count = count; A_void_1 a; std::bind(fp, _1)(&a); assert(count == save_count+1); save_count = count; } { void (A_void_1::*fp)() = &A_void_1::mem1; std::bind(fp, A_void_1())(); assert(count == save_count+1); save_count = count; A_void_1 a; std::bind(fp, &a)(); assert(count == save_count+1); save_count = count; } // const member function pointer { void (A_void_1::*fp)() const = &A_void_1::mem2; std::bind(fp, _1)(A_void_1()); assert(count == save_count+2); save_count = count; A_void_1 a; std::bind(fp, _1)(&a); assert(count == save_count+2); save_count = count; } { void (A_void_1::*fp)() const = &A_void_1::mem2; std::bind(fp, A_void_1())(); assert(count == save_count+2); save_count = count; A_void_1 a; std::bind(fp, &a)(); 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 { assert(std::bind(f_int_1, _1)(2) == 3); assert(std::bind(f_int_1, 2)() == 3); } // function pointer { int (*fp)(int) = f_int_1; assert(std::bind(fp, _1)(3) == 4); assert(std::bind(fp, 3)() == 4); } // functor { assert(std::bind(A_int_1(), _1)(4) == 3); assert(std::bind(A_int_1(), 4)() == 3); } // member function pointer { assert(std::bind(&A_int_1::mem1, _1)(A_int_1()) == 3); assert(std::bind(&A_int_1::mem1, A_int_1())() == 3); A_int_1 a; assert(std::bind(&A_int_1::mem1, _1)(&a) == 3); assert(std::bind(&A_int_1::mem1, &a)() == 3); } // const member function pointer { 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 a; assert(std::bind(&A_int_1::mem2, _1)(&a) == 4); assert(std::bind(&A_int_1::mem2, &a)() == 4); } // member data pointer { assert(std::bind(&A_int_1::data