EVOLUTION-MANAGER

Edit File: string_traits.hpp

/*============================================================================= Copyright (c) 2001-2011 Joel de Guzman Copyright (c) 2001-2011 Hartmut Kaiser Copyright (c) 2010 Bryce Lelbach 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) ================================================_==============================*/ #if !defined(BOOST_SPIRIT_STRING_TRAITS_OCTOBER_2008_1252PM) #define BOOST_SPIRIT_STRING_TRAITS_OCTOBER_2008_1252PM #if defined(_MSC_VER) #pragma once #endif #include <boost/spirit/home/support/container.hpp> #include <string> #include <boost/mpl/bool.hpp> #include <boost/mpl/identity.hpp> #include <boost/mpl/if.hpp> #include <boost/proto/proto_fwd.hpp> #include <boost/type_traits/is_const.hpp> #if defined(__GNUC__) && (__GNUC__ < 4) #include <boost/type_traits/add_const.hpp> #endif namespace boost { namespace spirit { namespace traits { /////////////////////////////////////////////////////////////////////////// // Determine if T is a character type /////////////////////////////////////////////////////////////////////////// template <typename T> struct is_char : mpl::false_ {}; template <typename T> struct is_char<T const> : is_char<T> {}; template <> struct is_char<char> : mpl::true_ {}; template <> struct is_char<wchar_t> : mpl::true_ {}; /////////////////////////////////////////////////////////////////////////// // Determine if T is a string /////////////////////////////////////////////////////////////////////////// template <typename T> struct is_string : mpl::false_ {}; template <typename T> struct is_string<T const> : is_string<T> {}; template <> struct is_string<char const*> : mpl::true_ {}; template <> struct is_string<wchar_t const*> : mpl::true_ {}; template <> struct is_string<char*> : mpl::true_ {}; template <> struct is_string<wchar_t*> : mpl::true_ {}; template <std::size_t N> struct is_string<char[N]> : mpl::true_ {}; template <std::size_t N> struct is_string<wchar_t[N]> : mpl::true_ {}; template <std::size_t N> struct is_string<char const[N]> : mpl::true_ {}; template <std::size_t N> struct is_string<wchar_t const[N]> : mpl::true_ {}; template <std::size_t N> struct is_string<char(&)[N]> : mpl::true_ {}; template <std::size_t N> struct is_string<wchar_t(&)[N]> : mpl::true_ {}; template <std::size_t N> struct is_string<char const(&)[N]> : mpl::true_ {}; template <std::size_t N> struct is_string<wchar_t const(&)[N]> : mpl::true_ {}; template <typename T, typename Traits, typename Allocator> struct is_string<std::basic_string<T, Traits, Allocator> > : mpl::true_ {}; /////////////////////////////////////////////////////////////////////////// // Get the underlying char type of a string /////////////////////////////////////////////////////////////////////////// template <typename T> struct char_type_of; template <typename T> struct char_type_of<T const> : char_type_of<T> {}; template <> struct char_type_of<char> : mpl::identity<char> {}; template <> struct char_type_of<wchar_t> : mpl::identity<wchar_t> {}; template <> struct char_type_of<char const*> : mpl::identity<char const> {}; template <> struct char_type_of<wchar_t const*> : mpl::identity<wchar_t const> {}; template <> struct char_type_of<char*> : mpl::identity<char> {}; template <> struct char_type_of<wchar_t*> : mpl::identity<wchar_t> {}; template <std::size_t N> struct char_type_of<char[N]> : mpl::identity<char> {}; template <std::size_t N> struct char_type_of<wchar_t[N]> : mpl::identity<wchar_t> {}; template <std::size_t N> struct char_type_of<char const[N]> : mpl::identity<char const> {}; template <std::size_t N> struct char_type_of<wchar_t const[N]> : mpl::identity<wchar_t const> {}; template <std::size_t N> struct char_type_of<char(&)[N]> : mpl::identity<char> {}; template <std::size_t N> struct char_type_of<wchar_t(&)[N]> : mpl::identity<wchar_t> {}; template <std::size_t N> struct char_type_of<char const(&)[N]> : mpl::identity<char const> {}; template <std::size_t N> struct char_type_of<wchar_t const(&)[N]> : mpl::identity<wchar_t const> {}; template <typename T, typename Traits, typename Allocator> struct char_type_of<std::basic_string<T, Traits, Allocator> > : mpl::identity<T> {}; /////////////////////////////////////////////////////////////////////////// // Get the C string from a string /////////////////////////////////////////////////////////////////////////// template <typename String> struct extract_c_string; template <typename String> struct extract_c_string { typedef typename char_type_of<String>::type char_type; template <typename T> static T const* call (T* str) { return (T const*)str; } template <typename T> static T const* call (T const* str) { return str; } }; // Forwarder that strips const template <typename T> struct extract_c_string<T const> { typedef typename extract_c_string<T>::char_type char_type; static typename extract_c_string<T>::char_type const* call (T const str) { return extract_c_string<T>::call(str); } }; // Forwarder that strips references template <typename T> struct extract_c_string<T&> { typedef typename extract_c_string<T>::char_type char_type; static typename extract_c_string<T>::char_type const* call (T& str) { return extract_c_string<T>::call(str); } }; // Forwarder that strips const references template <typename T> struct extract_c_string<T const&> { typedef typename extract_c_string<T>::char_type char_type; static typename extract_c_string<T>::char_type const* call (T const& str) { return extract_c_string<T>::call(str); } }; template <typename T, typename Traits, typename Allocator> struct extract_c_string<std::basic_string<T, Traits, Allocator> > { typedef T char_type; typedef std::basic_string<T, Traits, Allocator> string; static T const* call (string const& str) { return str.c_str(); } }; template <typename T> typename extract_c_string<T*>::char_type const* get_c_string (T* str) { return extract_c_string<T*>::call(str); } template <typename T> typename extract_c_string<T const*>::char_type const* get_c_string (T const* str) { return extract_c_string<T const*>::call(str); } template <typename String> typename extract_c_string<String>::char_type const* get_c_string (String& str) { return extract_c_string<String>::call(str); } template <typename String> typename extract_c_string<String>::char_type const* get_c_string (String const& str) { return extract_c_string<String>::call(str); } /////////////////////////////////////////////////////////////////////////// // Get the begin/end iterators from a string /////////////////////////////////////////////////////////////////////////// // Implementation for C-style strings. // gcc 3.x.x has problems resolving ambiguities here #if defined(__GNUC__) && (__GNUC__ < 4) template <typename T> inline typename add_const<T>::type * get_begin(T* str) { return str; } template <typename T> inline typename add_const<T>::type* get_end(T* str) { T* last = str; while (*last) last++; return last; } #else template <typename T> inline T const* get_begin(T const* str) { return str; } template <typename T> inline T* get_begin(T* str) { return str; } template <typename T> inline T const* get_end(T const* str) { T const* last = str; while (*last) last++; return last; } template <typename T> inline T* get_end(T* str) { T* last = str; while (*last) last++; return last; } #endif // Implementation for containers (includes basic_string). template <typename T, typename Str> inline typename Str::const_iterator get_begin(Str const& str) { return str.begin(); } template <typename T, typename Str> inline typename Str::iterator get_begin(Str& str BOOST_PROTO_DISABLE_IF_IS_CONST(Str)) { return str.begin(); } template <typename T, typename Str> inline typename Str::const_iterator get_end(Str const& str) { return str.end(); } template <typename T, typename Str> inline typename Str::iterator get_end(Str& str BOOST_PROTO_DISABLE_IF_IS_CONST(Str)) { return str.end(); } // Default implementation for other types: try a C-style string // conversion. // These overloads are explicitly disabled for containers, // as they would be ambiguous with the previous ones. template <typename T, typename Str> inline typename disable_if<is_container<Str> , T const*>::type get_begin(Str const& str) { return str; } template <typename T, typename Str> inline typename disable_if<is_container<Str> , T const*>::type get_end(Str const& str) { return get_end(get_begin<T>(str)); } } namespace result_of { template <typename Char, typename T, typename Enable = void> struct get_begin { typedef typename traits::char_type_of<T>::type char_type; typedef typename mpl::if_< is_const<char_type> , char_type const , char_type >::type* type; }; template <typename Char, typename Str> struct get_begin<Char, Str , typename enable_if<traits::is_container<Str> >::type> { typedef typename mpl::if_< is_const<Str> , typename Str::const_iterator , typename Str::iterator >::type type; }; template <typename Char, typename T> struct get_end : get_begin<Char, T> {}; } }} #endif