/*============================================================================= Copyright (c) 2001-2007 Joel de Guzman 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) ==============================================================================*/ #include #include #include #include #define PHOENIX_LIMIT 5 #include #include #include #include #include namespace boost { namespace phoenix { struct for_each_impl { template struct result; template struct result { typedef void type; }; template void operator()(C& c, F f) const { std::for_each(c.begin(), c.end(), f); } }; function const for_each = for_each_impl(); struct push_back_impl { template struct result; template struct result { typedef void type; }; template void operator()(C& c, T& x) const { c.push_back(x); } }; function const push_back = push_back_impl(); }} using namespace boost::phoenix; using namespace boost::phoenix::arg_names; using namespace boost::phoenix::local_names; using namespace std; struct zzz {}; template void blubb(Expr const& expr) { std::cout << typeid( typename boost::phoenix::result_of::actor >::type ).name() << "\n"; } int main() { { int x = 1; int y = lambda[_1]()(x); BOOST_TEST(x == y); } { int x = 1, y = 10; BOOST_TEST( (_1 + lambda[_1 + 2])(x)(y) == 1+10+2 ); BOOST_TEST( (_1 + lambda[-_1])(x)(y) == 1+-10 ); } { int x = 1, y = 10, z = 13; BOOST_TEST( lambda(_a = _1, _b = _2) [ _1 + _a + _b ] (x, z)(y) == x + y + z ); } { int x = 4; int y = 5; lambda(_a = _1)[_a = 555](x)(); BOOST_TEST(x == 555); (void)y; } { int x = 1; long x2 = 2; short x3 = 3; char const* y = "hello"; zzz z; BOOST_TEST(lambda[_1](x)(y) == y); BOOST_TEST(lambda(_a = _1)[_a](x)(y) == x); BOOST_TEST(lambda(_a = _1)[lambda[_a]](x)(y)(z) == x); BOOST_TEST(lambda(_a = _1)[lambda[_a + _1]](x)(y)(x) == 2); BOOST_TEST(lambda(_a = _1)[lambda(_b = _1)[_a + _b + _1]](x)(x2)(x3) == 6); } { int x = 1, y = 10; BOOST_TEST( (_1 + lambda(_a = _1)[_a + _1 + 2])(x)(y) == 1+1+10+2 ); } { int x = 1, y = 10; BOOST_TEST( (_1 + lambda(_a = _1) [ _a + lambda[_a + 2] ] ) (x)(y)(y) == 1+1+1+2 ); } { using boost::phoenix::for_each; int init[] = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 }; std::vector v(init, init+10); int x = 0; for_each(_1, lambda(_a = _2)[_a += _1])(v, x); BOOST_TEST(x == 55); } { using boost::phoenix::for_each; using boost::phoenix::push_back; int x = 10; std::vector > v(10); for_each(_1, lambda(_a = _2)[push_back(_1, _a)])(v, x); int y = 0; for_each(arg1, lambda[ref(y) += _1[0]])(v); BOOST_TEST(y == 100); } { int x = 1, y = 10, z = 13; BOOST_TEST( lambda(_a = _1, _b = _2) [ _1 + _a + _b ] (x, z)(y) == x + y + z ); } { /* // $$$ Fixme. This should not be failing $$$ int x = (let(_a = lambda[val(1)])[_a])()(); //~ BOOST_TEST(x == 1); */ } return boost::report_errors(); }