// Copyright David Abrahams 2004. 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) // This is really an incomplete test; should be fleshed out. #include #include #include #include #include #include // This is a really, really limited test so far. All we're doing // right now is checking that the postfix++ proxy for single-pass // iterators works properly. template class counter_iterator : public boost::iterator_facade< counter_iterator , int const , boost::single_pass_traversal_tag , Ref > { public: counter_iterator() {} counter_iterator(int* state) : state(state) {} void increment() { ++*state; } Ref dereference() const { return *state; } bool equal(counter_iterator const& y) const { return *this->state == *y.state; } int* state; }; struct proxy { proxy(int& x) : state(x) {} operator int const&() const { return state; } int& operator=(int x) { state = x; return state; } int& state; }; struct value { void mutator() {} // non-const member function }; struct input_iter : boost::iterator_facade< input_iter , value , boost::single_pass_traversal_tag , value > { public: input_iter() {} void increment() { } value dereference() const { return value(); } bool equal(input_iter const& y) const { return false; } }; template struct wrapper { T m_x; explicit wrapper(typename boost::call_traits::param_type x) : m_x(x) { } template wrapper(const wrapper& other, typename boost::enable_if< boost::is_convertible >::type* = 0) : m_x(other.m_x) { } }; struct iterator_with_proxy_reference : boost::iterator_facade< iterator_with_proxy_reference , wrapper , boost::incrementable_traversal_tag , wrapper > { int& m_x; explicit iterator_with_proxy_reference(int& x) : m_x(x) { } void increment() { } wrapper dereference() const { return wrapper(m_x); } }; template void same_type(U const&) { BOOST_MPL_ASSERT((boost::is_same)); } template struct abstract_iterator : boost::iterator_facade< abstract_iterator , A & // In order to be value type as a reference, traversal category has // to satisfy least forward traversal. , boost::forward_traversal_tag , A & > { abstract_iterator(I iter) : iter(iter) {} void increment() { ++iter; } A & dereference() const { return *iter; } bool equal(abstract_iterator const& y) const { return iter == y.iter; } I iter; }; struct base { virtual void assign(const base &) = 0; virtual bool equal(const base &) const = 0; }; struct derived : base { derived(int state) : state(state) { } derived(const derived &d) : state(d.state) { } derived(const base &b) { derived::assign(b); } virtual void assign(const base &b) { state = boost::polymorphic_cast(&b)->state; } virtual bool equal(const base &b) const { return state == boost::polymorphic_cast(&b)->state; } int state; }; inline bool operator==(const base &lhs, const base &rhs) { return lhs.equal(rhs); } int main() { { int state = 0; boost::readable_iterator_test(counter_iterator(&state), 0); state = 3; boost::readable_iterator_test(counter_iterator(&state), 3); boost::writable_iterator_test(counter_iterator(&state), 9, 7); BOOST_TEST(state == 8); } { // test for a fix to http://tinyurl.com/zuohe // These two lines should be equivalent (and both compile) input_iter p; (*p).mutator(); p->mutator(); same_type(p.operator->()); } { int x = 0; iterator_with_proxy_reference i(x); BOOST_TEST(x == 0); BOOST_TEST(i.m_x == 0); ++(*i).m_x; BOOST_TEST(x == 1); BOOST_TEST(i.m_x == 1); ++i->m_x; BOOST_TEST(x == 2); BOOST_TEST(i.m_x == 2); } { derived d(1); boost::readable_iterator_test(abstract_iterator(&d), derived(1)); } return boost::report_errors(); }