// (C) Copyright Jeremy Siek 2002. // 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) #ifndef BOOST_ITERATOR_ARCHETYPES_HPP #define BOOST_ITERATOR_ARCHETYPES_HPP #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace boost { template struct access_archetype; template struct traversal_archetype; namespace iterator_archetypes { enum { readable_iterator_bit = 1 , writable_iterator_bit = 2 , swappable_iterator_bit = 4 , lvalue_iterator_bit = 8 }; // Not quite tags, since dispatching wouldn't work. typedef mpl::int_::type readable_iterator_t; typedef mpl::int_::type writable_iterator_t; typedef mpl::int_< (readable_iterator_bit|writable_iterator_bit) >::type readable_writable_iterator_t; typedef mpl::int_< (readable_iterator_bit|lvalue_iterator_bit) >::type readable_lvalue_iterator_t; typedef mpl::int_< (lvalue_iterator_bit|writable_iterator_bit) >::type writable_lvalue_iterator_t; typedef mpl::int_::type swappable_iterator_t; typedef mpl::int_::type lvalue_iterator_t; template struct has_access : mpl::equal_to< mpl::bitand_ , Base > {}; } namespace detail { template struct assign_proxy { assign_proxy& operator=(T) { return *this; } }; template struct read_proxy { operator T() { return static_object::get(); } }; template struct read_write_proxy : read_proxy // Use to inherit from assign_proxy, but that doesn't work. -JGS { read_write_proxy& operator=(T) { return *this; } }; template struct arrow_proxy { T const* operator->() const { return 0; } }; struct no_operator_brackets {}; template struct readable_operator_brackets { read_proxy operator[](std::ptrdiff_t n) const { return read_proxy(); } }; template struct writable_operator_brackets { read_write_proxy operator[](std::ptrdiff_t n) const { return read_write_proxy(); } }; template struct operator_brackets : mpl::aux::msvc_eti_base< typename mpl::eval_if< is_convertible , mpl::eval_if< iterator_archetypes::has_access< AccessCategory , iterator_archetypes::writable_iterator_t > , mpl::identity > , mpl::if_< iterator_archetypes::has_access< AccessCategory , iterator_archetypes::readable_iterator_t > , readable_operator_brackets , no_operator_brackets > > , mpl::identity >::type >::type {}; template struct traversal_archetype_impl { template struct archetype; }; // Constructor argument for those iterators that // are not default constructible struct ctor_arg {}; template struct traversal_archetype_ : mpl::aux::msvc_eti_base< typename traversal_archetype_impl::template archetype >::type { typedef typename traversal_archetype_impl::template archetype base; traversal_archetype_() {} traversal_archetype_(ctor_arg arg) : base(arg) {} }; template <> struct traversal_archetype_impl { template struct archetype { explicit archetype(ctor_arg) {} struct bogus { }; // This use to be void, but that causes trouble for iterator_facade. Need more research. -JGS typedef bogus difference_type; Derived& operator++() { return (Derived&)static_object::get(); } Derived operator++(int) const { return (Derived&)static_object::get(); } }; }; template <> struct traversal_archetype_impl { template struct archetype : public equality_comparable< traversal_archetype_ >, public traversal_archetype_ { explicit archetype(ctor_arg arg) : traversal_archetype_(arg) {} typedef std::ptrdiff_t difference_type; }; }; template bool operator==(traversal_archetype_ const&, traversal_archetype_ const&) { return true; } #if BOOST_WORKAROUND(BOOST_MSVC, <= 1300) // doesn't seem to pick up != from equality_comparable template bool operator!=(traversal_archetype_ const&, traversal_archetype_ const&) { return true; } #endif template <> struct traversal_archetype_impl { template struct archetype : public traversal_archetype_ { archetype() : traversal_archetype_(ctor_arg()) {} }; }; template <> struct traversal_archetype_impl { template struct archetype : public traversal_archetype_ { Derived& operator--() { return static_object::get(); } Derived operator--(int) const { return static_object::get(); } }; }; template <> struct traversal_archetype_impl { template struct archetype : public traversal_archetype_ { Derived& operator+=(std::ptrdiff_t) { return static_object::get(); } Derived& operator-=(std::ptrdiff_t) { return static_object::get(); } }; }; template Derived& operator+(traversal_archetype_ const&, std::ptrdiff_t) { return static_object::get(); } template Derived& operator+(std::ptrdiff_t, traversal_archetype_ const&) { return static_object::get(); } template Derived& operator-(traversal_archetype_ const&, std::ptrdiff_t) { return static_object::get(); } template std::ptrdiff_t operator-(traversal_archetype_ const&, traversal_archetype_ const&) { return 0; } template bool operator<(traversal_archetype_ const&, traversal_archetype_ const&) { return true; } template bool operator>(traversal_archetype_ const&, traversal_archetype_ const&) { return true; } template bool operator<=(traversal_archetype_ const&, traversal_archetype_ const&) { return true; } template bool operator>=(traversal_archetype_ const&, traversal_archetype_ const&) { return true; } struct bogus_type; template struct convertible_type : mpl::if_< is_const, typename remove_const::type, bogus_type > {}; } // namespace detail template struct undefined; template struct iterator_access_archetype_impl { template struct archetype; }; template struct iterator_access_archetype : mpl::aux::msvc_eti_base< typename iterator_access_archetype_impl< AccessCategory >::template archetype >::type { }; template <> struct iterator_access_archetype_impl< iterator_archetypes::readable_iterator_t > { template struct archetype { typedef typename remove_cv::type value_type; typedef Value reference; typedef Value* pointer; value_type operator*() const { return static_object::get(); } detail::arrow_proxy operator->() const { return detail::arrow_proxy(); } }; }; template <> struct iterator_access_archetype_impl< iterator_archetypes::writable_iterator_t > { template struct archetype { # if !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) BOOST_STATIC_ASSERT(!is_const::value); # endif typedef void value_type; typedef void reference; typedef void pointer; detail::assign_proxy operator*() const { return detail::assign_proxy(); } }; }; template <> struct iterator_access_archetype_impl< iterator_archetypes::readable_writable_iterator_t > { template struct archetype : public virtual iterator_access_archetype< Value, iterator_archetypes::readable_iterator_t > { typedef detail::read_write_proxy reference; detail::read_write_proxy operator*() const { return detail::read_write_proxy(); } }; }; template <> struct iterator_access_archetype_impl { template struct archetype : public virtual iterator_access_archetype< Value, iterator_archetypes::readable_iterator_t > { typedef Value& reference; Value& operator*() const { return static_object::get(); } Value* operator->() const { return 0; } }; }; template <> struct iterator_access_archetype_impl { template struct archetype : public virtual iterator_access_archetype< Value, iterator_archetypes::readable_lvalue_iterator_t > { # if !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) BOOST_STATIC_ASSERT((!is_const::value)); # endif }; }; template struct iterator_archetype; template struct traversal_archetype_base : detail::operator_brackets< typename remove_cv::type , AccessCategory , TraversalCategory > , detail::traversal_archetype_< iterator_archetype , Value , TraversalCategory > { }; namespace detail { template struct iterator_archetype_base : iterator_access_archetype , traversal_archetype_base { typedef iterator_access_archetype access; typedef typename detail::facade_iterator_category< TraversalCategory , typename mpl::eval_if< iterator_archetypes::has_access< AccessCategory, iterator_archetypes::writable_iterator_t > , remove_const , add_const >::type , typename access::reference >::type iterator_category; // Needed for some broken libraries (see below) typedef boost::iterator< iterator_category , Value , typename traversal_archetype_base< Value, AccessCategory, TraversalCategory >::difference_type , typename access::pointer , typename access::reference > workaround_iterator_base; }; } template struct iterator_archetype : public detail::iterator_archetype_base // These broken libraries require derivation from std::iterator // (or related magic) in order to handle iter_swap and other // iterator operations # if BOOST_WORKAROUND(BOOST_DINKUMWARE_STDLIB, < 310) \ || BOOST_WORKAROUND(_RWSTD_VER, BOOST_TESTED_AT(0x20101)) , public detail::iterator_archetype_base< Value, AccessCategory, TraversalCategory >::workaround_iterator_base # endif { // Derivation from std::iterator above caused references to nested // types to be ambiguous, so now we have to redeclare them all // here. # if BOOST_WORKAROUND(BOOST_DINKUMWARE_STDLIB, < 310) \ || BOOST_WORKAROUND(_RWSTD_VER, BOOST_TESTED_AT(0x20101)) typedef detail::iterator_archetype_base< Value,AccessCategory,TraversalCategory > base; typedef typename base::value_type value_type; typedef typename base::reference reference; typedef typename base::pointer pointer; typedef typename base::difference_type difference_type; typedef typename base::iterator_category iterator_category; # endif iterator_archetype() { } iterator_archetype(iterator_archetype const& x) : detail::iterator_archetype_base< Value , AccessCategory , TraversalCategory >(x) {} iterator_archetype& operator=(iterator_archetype const&) { return *this; } # if 0 // Optional conversion from mutable iterator_archetype( iterator_archetype< typename detail::convertible_type::type , AccessCategory , TraversalCategory> const& ); # endif }; } // namespace boost #endif // BOOST_ITERATOR_ARCHETYPES_HPP