--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/DEPENDENCIES/generic/include/boost/locale/util.hpp	Tue Aug 05 11:11:38 2014 +0100
@@ -0,0 +1,209 @@
+//
+//  Copyright (c) 2009-2011 Artyom Beilis (Tonkikh)
+//
+//  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_LOCALE_UTIL_HPP
+#define BOOST_LOCALE_UTIL_HPP
+#include <locale>
+#include <typeinfo>
+#include <boost/cstdint.hpp>
+#include <boost/locale/utf.hpp>
+#include <boost/locale/generator.hpp>
+#include <boost/assert.hpp>
+
+#include <vector>
+namespace boost {
+namespace locale {
+///
+/// \brief This namespace provides various utility function useful for Boost.Locale backends
+/// implementations
+///
+namespace util {
+    
+    ///
+    /// \brief Return default system locale name in POSIX format.
+    ///
+    /// This function tries to detect the locale using, LC_CTYPE, LC_ALL and LANG environment
+    /// variables in this order and if all of them unset, in POSIX platforms it returns "C"
+    /// 
+    /// On Windows additionally to check the above environment variables, this function
+    /// tries to creates locale name from ISO-339 and ISO-3199 country codes defined
+    /// for user default locale.
+    /// If \a use_utf8_on_windows is true it sets the encoding to UTF-8, otherwise, if system
+    /// locale supports ANSI code-page it defines the ANSI encoding like windows-1252, otherwise it fall-backs
+    /// to UTF-8 encoding if ANSI code-page is not available.
+    ///
+    BOOST_LOCALE_DECL
+    std::string get_system_locale(bool use_utf8_on_windows = false);
+
+    ///
+    /// \brief Installs information facet to locale in based on locale name \a name
+    ///
+    /// This function installs boost::locale::info facet into the locale \a in and returns
+    /// newly created locale.
+    ///
+    /// Note: all information is based only on parsing of string \a name;
+    ///
+    /// The name has following format: language[_COUNTRY][.encoding][\@variant]
+    /// Where language is ISO-639 language code like "en" or "ru", COUNTRY is ISO-3166
+    /// country identifier like "US" or "RU". the Encoding is a charracter set name
+    /// like UTF-8 or ISO-8859-1. Variant is backend specific variant like \c euro or
+    /// calendar=hebrew.
+    ///
+    /// If some parameters are missing they are specified as blanks, default encoding
+    /// is assumed to be US-ASCII and missing language is assumed to be "C"
+    ///
+    BOOST_LOCALE_DECL
+    std::locale create_info(std::locale const &in,std::string const &name); 
+
+
+    ///
+    /// \brief This class represent a simple stateless converter from UCS-4 and to UCS-4 for
+    ///  each single code point
+    ///
+    /// This class is used for creation of std::codecvt facet for converting utf-16/utf-32 encoding
+    /// to encoding supported by this converter
+    ///
+    /// Please note, this converter should be fully stateless. Fully stateless means it should
+    /// never assume that it is called in any specific order on the text. Even if the
+    /// encoding itself seems to be stateless like windows-1255 or shift-jis, some
+    /// encoders (most notably iconv) can actually compose several code-point into one or
+    /// decompose them in case composite characters are found. So be very careful when implementing
+    /// these converters for certain character set.
+    ///
+    class base_converter {
+    public:
+
+        ///
+        /// This value should be returned when an illegal input sequence or code-point is observed:
+        /// For example if a UCS-32 code-point is in the range reserved for UTF-16 surrogates
+        /// or an invalid UTF-8 sequence is found
+        ///
+        static const uint32_t illegal=utf::illegal;
+
+        ///
+        /// This value is returned in following cases: The of incomplete input sequence was found or 
+        /// insufficient output buffer was provided so complete output could not be written.
+        ///
+        static const uint32_t incomplete=utf::incomplete;
+        
+        virtual ~base_converter() 
+        {
+        }
+        ///
+        /// Return the maximal length that one Unicode code-point can be converted to, for example
+        /// for UTF-8 it is 4, for Shift-JIS it is 2 and ISO-8859-1 is 1
+        ///
+        virtual int max_len() const 
+        {
+            return 1;
+        }
+        ///
+        /// Returns true if calling the functions from_unicode, to_unicode, and max_len is thread safe.
+        ///
+        /// Rule of thumb: if this class' implementation uses simple tables that are unchanged
+        /// or is purely algorithmic like UTF-8 - so it does not share any mutable bit for
+        /// independent to_unicode, from_unicode calls, you may set it to true, otherwise,
+        /// for example if you use iconv_t descriptor or UConverter as conversion object return false,
+        /// and this object will be cloned for each use.
+        ///
+        virtual bool is_thread_safe() const 
+        {
+            return false;
+        }
+        ///
+        /// Create a polymorphic copy of this object, usually called only if is_thread_safe() return false
+        ///
+        virtual base_converter *clone() const 
+        {
+            BOOST_ASSERT(typeid(*this)==typeid(base_converter));
+            return new base_converter();
+        }
+
+        ///
+        /// Convert a single character starting at begin and ending at most at end to Unicode code-point.
+        ///
+        /// if valid input sequence found in [\a begin,\a code_point_end) such as \a begin < \a code_point_end && \a code_point_end <= \a end
+        /// it is converted to its Unicode code point equivalent, \a begin is set to \a code_point_end
+        ///
+        /// if incomplete input sequence found in [\a begin,\a end), i.e. there my be such \a code_point_end that \a code_point_end > \a end
+        /// and [\a begin, \a code_point_end) would be valid input sequence, then \a incomplete is returned begin stays unchanged, for example
+        /// for UTF-8 conversion a *begin = 0xc2, \a begin +1 = \a end is such situation.
+        ///
+        /// if invalid input sequence found, i.e. there is a sequence [\a begin, \a code_point_end) such as \a code_point_end <= \a end
+        /// that is illegal for this encoding, \a illegal is returned and begin stays unchanged. For example if *begin = 0xFF and begin < end
+        /// for UTF-8, then \a illegal is returned.
+        /// 
+        ///
+        virtual uint32_t to_unicode(char const *&begin,char const *end) 
+        {
+            if(begin == end)
+                return incomplete;
+            unsigned char cp = *begin;
+            if(cp <= 0x7F) {
+                begin++;
+                return cp;
+            }
+            return illegal;
+        }
+        ///
+        /// Convert a single code-point \a u into encoding and store it in [begin,end) range.
+        ///
+        /// If u is invalid Unicode code-point, or it can not be mapped correctly to represented character set,
+        /// \a illegal should be returned
+        ///
+        /// If u can be converted to a sequence of bytes c1, ... , cN (1<= N <= max_len() ) then
+        /// 
+        /// -# If end - begin >= N, c1, ... cN are written starting at begin and N is returned
+        /// -# If end - begin < N, incomplete is returned, it is unspecified what would be
+        ///    stored in bytes in range [begin,end)
+
+        virtual uint32_t from_unicode(uint32_t u,char *begin,char const *end) 
+        {
+            if(begin==end)
+                return incomplete;
+            if(u >= 0x80)
+                return illegal;
+            *begin = static_cast<char>(u);
+            return 1;
+        }
+    };
+
+    ///
+    /// This function creates a \a base_converter that can be used for conversion between UTF-8 and
+    /// unicode code points
+    ///
+    BOOST_LOCALE_DECL std::auto_ptr<base_converter> create_utf8_converter();
+    ///
+    /// This function creates a \a base_converter that can be used for conversion between single byte
+    /// character encodings like ISO-8859-1, koi8-r, windows-1255 and Unicode code points,
+    /// 
+    /// If \a encoding is not supported, empty pointer is returned. You should check if
+    /// std::auto_ptr<base_converter>::get() != 0
+    ///
+    BOOST_LOCALE_DECL std::auto_ptr<base_converter> create_simple_converter(std::string const &encoding);
+
+
+    ///
+    /// Install codecvt facet into locale \a in and return new locale that is based on \a in and uses new
+    /// facet.
+    ///
+    /// codecvt facet would convert between narrow and wide/char16_t/char32_t encodings using \a cvt converter.
+    /// If \a cvt is null pointer, always failure conversion would be used that fails on every first input or output.
+    /// 
+    /// Note: the codecvt facet handles both UTF-16 and UTF-32 wide encodings, it knows to break and join
+    /// Unicode code-points above 0xFFFF to and from surrogate pairs correctly. \a cvt should be unaware
+    /// of wide encoding type
+    ///
+    BOOST_LOCALE_DECL
+    std::locale create_codecvt(std::locale const &in,std::auto_ptr<base_converter> cvt,character_facet_type type);
+
+} // util
+} // locale 
+} // boost
+
+#endif
+// vim: tabstop=4 expandtab shiftwidth=4 softtabstop=4