// member_pointer_test.cpp -- The Boost Lambda Library ------------------ // // Copyright (C) 2000-2003 Jaakko Jarvi (jaakko.jarvi@cs.utu.fi) // Copyright (C) 2000-2003 Gary Powell (powellg@amazon.com) // // Distributed under the Boost Software License, Version 1.0. (See // accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) // // For more information, see www.boost.org // ----------------------------------------------------------------------- #include // see "Header Implementation Option" #include "boost/lambda/lambda.hpp" #include "boost/lambda/bind.hpp" #include using namespace boost::lambda; using namespace std; struct my_struct { my_struct(int x) : mem(x) {}; int mem; int fooc() const { return mem; } int foo() { return mem; } int foo1c(int y) const { return y + mem; } int foo1(int y) { return y + mem; } int foo2c(int y, int x) const { return y + x + mem; } int foo2(int y, int x) { return y + x + mem; } int foo3c(int y, int x, int z) const { return y + x + z + mem; } int foo3(int y, int x, int z ){ return y + x + z + mem; } int foo4c(int a1, int a2, int a3, int a4) const { return a1+a2+a3+a4+mem; } int foo4(int a1, int a2, int a3, int a4){ return a1+a2+a3+a4+mem; } int foo3default(int y = 1, int x = 2, int z = 3) { return y + x + z + mem; } }; my_struct x(3); void pointer_to_data_member_tests() { // int i = 0; my_struct *y = &x; BOOST_CHECK((_1 ->* &my_struct::mem)(y) == 3); (_1 ->* &my_struct::mem)(y) = 4; BOOST_CHECK(x.mem == 4); ((_1 ->* &my_struct::mem) = 5)(y); BOOST_CHECK(x.mem == 5); // &my_struct::mem is a temporary, must be constified ((y ->* _1) = 6)(make_const(&my_struct::mem)); BOOST_CHECK(x.mem == 6); ((_1 ->* _2) = 7)(y, make_const(&my_struct::mem)); BOOST_CHECK(x.mem == 7); } void pointer_to_member_function_tests() { my_struct *y = new my_struct(1); BOOST_CHECK( (_1 ->* &my_struct::foo)(y)() == (y->mem)); BOOST_CHECK( (_1 ->* &my_struct::fooc)(y)() == (y->mem)); BOOST_CHECK( (y ->* _1)(make_const(&my_struct::foo))() == (y->mem)); BOOST_CHECK( (y ->* _1)(make_const(&my_struct::fooc))() == (y->mem)); BOOST_CHECK( (_1 ->* _2)(y, make_const(&my_struct::foo))() == (y->mem)); BOOST_CHECK( (_1 ->* _2)(y, make_const(&my_struct::fooc))() == (y->mem)); BOOST_CHECK( (_1 ->* &my_struct::foo1)(y)(1) == (y->mem+1)); BOOST_CHECK( (_1 ->* &my_struct::foo1c)(y)(1) == (y->mem+1)); BOOST_CHECK( (y ->* _1)(make_const(&my_struct::foo1))(1) == (y->mem+1)); BOOST_CHECK( (y ->* _1)(make_const(&my_struct::foo1c))(1) == (y->mem+1)); BOOST_CHECK( (_1 ->* _2)(y, make_const(&my_struct::foo1))(1) == (y->mem+1)); BOOST_CHECK( (_1 ->* _2)(y, make_const(&my_struct::foo1c))(1) == (y->mem+1)); BOOST_CHECK( (_1 ->* &my_struct::foo2)(y)(1,2) == (y->mem+1+2)); BOOST_CHECK( (_1 ->* &my_struct::foo2c)(y)(1,2) == (y->mem+1+2)); BOOST_CHECK( (y ->* _1)(make_const(&my_struct::foo2))(1,2) == (y->mem+1+2)); BOOST_CHECK( (y ->* _1)(make_const(&my_struct::foo2c))(1,2) == (y->mem+1+2)); BOOST_CHECK( (_1 ->* _2)(y, make_const(&my_struct::foo2))(1,2) == (y->mem+1+2)); BOOST_CHECK( (_1 ->* _2)(y, make_const(&my_struct::foo2c))(1,2) == (y->mem+1+2)); BOOST_CHECK( (_1 ->* &my_struct::foo3)(y)(1,2,3) == (y->mem+1+2+3)); BOOST_CHECK( (_1 ->* &my_struct::foo3c)(y)(1,2,3) == (y->mem+1+2+3)); BOOST_CHECK( (y ->* _1)(make_const(&my_struct::foo3))(1,2,3) == (y->mem+1+2+3)); BOOST_CHECK( (y ->* _1)(make_const(&my_struct::foo3c))(1,2,3) == (y->mem+1+2+3)); BOOST_CHECK( (_1 ->* _2)(y, make_const(&my_struct::foo3))(1,2,3) == (y->mem+1+2+3)); BOOST_CHECK( (_1 ->* _2)(y, make_const(&my_struct::foo3c))(1,2,3) == (y->mem+1+2+3)); BOOST_CHECK( (_1 ->* &my_struct::foo4)(y)(1,2,3,4) == (y->mem+1+2+3+4)); BOOST_CHECK( (_1 ->* &my_struct::foo4c)(y)(1,2,3,4) == (y->mem+1+2+3+4)); BOOST_CHECK( (y ->* _1)(make_const(&my_struct::foo4))(1,2,3,4) == (y->mem+1+2+3+4)); BOOST_CHECK( (y ->* _1)(make_const(&my_struct::foo4c))(1,2,3,4) == (y->mem+1+2+3+4)); BOOST_CHECK( (_1 ->* _2)(y, make_const(&my_struct::foo4))(1,2,3,4) == (y->mem+1+2+3+4)); BOOST_CHECK( (_1 ->* _2)(y, make_const(&my_struct::foo4c))(1,2,3,4) == (y->mem+1+2+3+4)); // member functions with default values do not work (inherent language issue) // BOOST_CHECK( (_1 ->* &my_struct::foo3default)(y)() == (y->mem+1+2+3)); } class A {}; class B {}; class C {}; class D {}; // ->* can be overloaded to do anything bool operator->*(A /*a*/, B /*b*/) { return false; } bool operator->*(B /*b*/, A /*a*/) { return true; } // let's provide specializations to take care of the return type deduction. // Note, that you need to provide all four cases for non-const and const // or use the plain_return_type_2 template. namespace boost { namespace lambda { template <> struct return_type_2, B, A> { typedef bool type; }; template<> struct return_type_2, const B, A> { typedef bool type; }; template<> struct return_type_2, B, const A> { typedef bool type; }; template<> struct return_type_2, const B, const A> { typedef bool type; }; } // lambda } // boost void test_overloaded_pointer_to_member() { A a; B b; // this won't work, can't deduce the return type // BOOST_CHECK((_1->*_2)(a, b) == false); // ret gives the return type BOOST_CHECK(ret(_1->*_2)(a, b) == false); BOOST_CHECK(ret(a->*_1)(b) == false); BOOST_CHECK(ret(_1->*b)(a) == false); BOOST_CHECK((ret((var(a))->*b))() == false); BOOST_CHECK((ret((var(a))->*var(b)))() == false); // this is ok without ret due to the return_type_2 spcialization above BOOST_CHECK((_1->*_2)(b, a) == true); BOOST_CHECK((b->*_1)(a) == true); BOOST_CHECK((_1->*a)(b) == true); BOOST_CHECK((var(b)->*a)() == true); return; } int test_main(int, char *[]) { pointer_to_data_member_tests(); pointer_to_member_function_tests(); test_overloaded_pointer_to_member(); return 0; }