[ceph.git] / ceph / src / boost / libs / locale / include / boost / locale / collator.hpp

//
//  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_COLLATOR_HPP_INCLUDED
#define BOOST_LOCALE_COLLATOR_HPP_INCLUDED

#include <boost/locale/config.hpp>
#ifdef BOOST_MSVC
#  pragma warning(push)
#  pragma warning(disable : 4275 4251 4231 4660)
#endif
#include <locale>


namespace boost {
namespace locale {

    class info;

    ///
    /// \defgroup collation Collation 
    ///
    /// This module introduces collation related classes
    ///
    /// @{

    ///
    /// \brief a base class that includes collation level flags
    ///

    class collator_base {
    public:
        ///
        /// Unicode collation level types
        ///
        typedef enum {
            primary     = 0, ///< 1st collation level: base letters
            secondary   = 1, ///< 2nd collation level: letters and accents
            tertiary    = 2, ///< 3rd collation level: letters, accents and case
            quaternary  = 3, ///< 4th collation level: letters, accents, case and punctuation
            identical   = 4  ///< identical collation level: include code-point comparison
        } level_type;
    };
    
    ///
    /// \brief Collation facet. 
    ///
    /// It reimplements standard C++ std::collate,
    /// allowing usage of std::locale for direct string comparison
    ///
    template<typename CharType>
    class collator : 
        public std::collate<CharType>,
        public collator_base
    {
    public:
        ///
        /// Type of the underlying character
        ///
        typedef CharType char_type;
        ///
        /// Type of string used with this facet
        ///
        typedef std::basic_string<CharType> string_type;
        

        ///
        /// Compare two strings in rage [b1,e1),  [b2,e2) according using a collation level \a level. Calls do_compare
        ///
        /// Returns -1 if the first of the two strings sorts before the seconds, returns 1 if sorts after and 0 if
        /// they considered equal.
        ///
        int compare(level_type level,
                    char_type const *b1,char_type const *e1,
                    char_type const *b2,char_type const *e2) const
        {
            return do_compare(level,b1,e1,b2,e2);
        }
        ///
        /// Create a binary string that can be compared to other in order to get collation order. The string is created
        /// for text in range [b,e). It is useful for collation of multiple strings for text.
        ///
        /// The transformation follows these rules:
        /// \code
        ///   compare(level,b1,e1,b2,e2) == sign( transform(level,b1,e1).compare(transform(level,b2,e2)) );
        /// \endcode
        ///
        /// Calls do_transform
        ///
        string_type transform(level_type level,char_type const *b,char_type const *e) const
        {
            return do_transform(level,b,e);
        }

        ///
        /// Calculate a hash of a text in range [b,e). The value can be used for collation sensitive string comparison.
        ///
        /// If compare(level,b1,e1,b2,e2) == 0 then hash(level,b1,e1) == hash(level,b2,e2)
        ///
        /// Calls do_hash
        ///
        long hash(level_type level,char_type const *b,char_type const *e) const
        {
            return do_hash(level,b,e);
        }

        ///
        /// Compare two strings \a l and \a r using collation level \a level
        ///
        /// Returns -1 if the first of the two strings sorts before the seconds, returns 1 if sorts after and 0 if
        /// they considered equal.
        ///
        ///
        int compare(level_type level,string_type const &l,string_type const &r) const
        {
            return do_compare(level,l.data(),l.data()+l.size(),r.data(),r.data()+r.size());
        }

        ///
        /// Calculate a hash that can be used for collation sensitive string comparison of a string \a s
        ///
        /// If compare(level,s1,s2) == 0 then hash(level,s1) == hash(level,s2)
        ///

        long hash(level_type level,string_type const &s) const
        {
            return do_hash(level,s.data(),s.data()+s.size());
        }
        ///
        /// Create a binary string from string \a s, that can be compared to other, useful for collation of multiple
        /// strings.
        ///
        /// The transformation follows these rules:
        /// \code
        ///   compare(level,s1,s2) == sign( transform(level,s1).compare(transform(level,s2)) );
        /// \endcode
        ///
        string_type transform(level_type level,string_type const &s) const
        {
            return do_transform(level,s.data(),s.data()+s.size());
        }
        
    protected:

        ///
        /// constructor of the collator object
        ///
        collator(size_t refs = 0) : std::collate<CharType>(refs) 
        {
        }

        virtual ~collator()
        {
        }
        
        ///
        /// This function is used to override default collation function that does not take in account collation level.
        /// Uses primary level
        ///
        virtual int do_compare( char_type const *b1,char_type const *e1,
                                char_type const *b2,char_type const *e2) const
        {
            return do_compare(identical,b1,e1,b2,e2);
        }
        ///
        /// This function is used to override default collation function that does not take in account collation level.
        /// Uses primary level
        ///
        virtual string_type do_transform(char_type const *b,char_type const *e) const
        {
            return do_transform(identical,b,e);
        }
        ///
        /// This function is used to override default collation function that does not take in account collation level.
        /// Uses primary level
        ///
        virtual long do_hash(char_type const *b,char_type const *e) const
        {
            return do_hash(identical,b,e);
        }

        ///
        /// Actual function that performs comparison between the strings. For details see compare member function. Can be overridden. 
        ///
        virtual int do_compare( level_type level,
                                char_type const *b1,char_type const *e1,
                                char_type const *b2,char_type const *e2) const = 0;
        ///
        /// Actual function that performs transformation. For details see transform member function. Can be overridden. 
        ///
        virtual string_type do_transform(level_type level,char_type const *b,char_type const *e) const = 0;
        ///
        /// Actual function that calculates hash. For details see hash member function. Can be overridden. 
        ///
        virtual long do_hash(level_type level,char_type const *b,char_type const *e) const = 0;


    };

    ///
    /// \brief This class can be used in STL algorithms and containers for comparison of strings
    /// with a level other than primary
    ///
    /// For example:
    ///
    /// \code
    ///  std::map<std::string,std::string,comparator<char,collator_base::secondary> > data;
    /// \endcode
    /// 
    /// Would create a map the keys of which are sorted using secondary collation level
    ///
    template<typename CharType,collator_base::level_type default_level = collator_base::identical>
    struct comparator
    {
    public:
        ///
        /// Create a comparator class for locale \a l and with collation leval \a level
        ///
        /// \note throws std::bad_cast if l does not have \ref collator facet installed
        /// 
        comparator(std::locale const &l=std::locale(),collator_base::level_type level=default_level) : 
            locale_(l),
            level_(level)
        {
        }

        ///
        /// Compare two strings -- equivalent to return left < right according to collation rules
        ///
        bool operator()(std::basic_string<CharType> const &left,std::basic_string<CharType> const &right) const
        {
            return std::use_facet<collator<CharType> >(locale_).compare(level_,left,right) < 0;
        }
    private:
        std::locale locale_;
        collator_base::level_type level_;
    };


    ///
    ///@}
    ///

    } // locale
} // boost

#ifdef BOOST_MSVC
#pragma warning(pop)
#endif


#endif
///
/// \example collate.cpp
/// Example of using collation functions
///
// vim: tabstop=4 expandtab shiftwidth=4 softtabstop=4
Commit	Line	Data
7c673cae FG	1	//
	2	// Copyright (c) 2009-2011 Artyom Beilis (Tonkikh)
	3	//
	4	// Distributed under the Boost Software License, Version 1.0. (See
	5	// accompanying file LICENSE_1_0.txt or copy at
	6	// http://www.boost.org/LICENSE_1_0.txt)
	7	//
	8	#ifndef BOOST_LOCALE_COLLATOR_HPP_INCLUDED
	9	#define BOOST_LOCALE_COLLATOR_HPP_INCLUDED
	10
	11	#include <boost/locale/config.hpp>
	12	#ifdef BOOST_MSVC
	13	# pragma warning(push)
	14	# pragma warning(disable : 4275 4251 4231 4660)
	15	#endif
	16	#include <locale>
	17
	18
	19	namespace boost {
	20	namespace locale {
	21
	22	class info;
	23
	24	///
	25	/// \defgroup collation Collation
	26	///
	27	/// This module introduces collation related classes
	28	///
	29	/// @{
	30
	31	///
	32	/// \brief a base class that includes collation level flags
	33	///
	34
	35	class collator_base {
	36	public:
	37	///
	38	/// Unicode collation level types
	39	///
	40	typedef enum {
	41	primary = 0, ///< 1st collation level: base letters
	42	secondary = 1, ///< 2nd collation level: letters and accents
	43	tertiary = 2, ///< 3rd collation level: letters, accents and case
	44	quaternary = 3, ///< 4th collation level: letters, accents, case and punctuation
	45	identical = 4 ///< identical collation level: include code-point comparison
	46	} level_type;
	47	};
	48
	49	///
	50	/// \brief Collation facet.
	51	///
	52	/// It reimplements standard C++ std::collate,
	53	/// allowing usage of std::locale for direct string comparison
	54	///
	55	template<typename CharType>
	56	class collator :
	57	public std::collate<CharType>,
	58	public collator_base
	59	{
	60	public:
	61	///
	62	/// Type of the underlying character
	63	///
	64	typedef CharType char_type;
65	///
66	/// Type of string used with this facet
67	///
68	typedef std::basic_string<CharType> string_type;
69
70
71	///
72	/// Compare two strings in rage [b1,e1), [b2,e2) according using a collation level \a level. Calls do_compare
73	///
74	/// Returns -1 if the first of the two strings sorts before the seconds, returns 1 if sorts after and 0 if
75	/// they considered equal.
76	///
77	int compare(level_type level,
78	char_type const b1,char_type const e1,
79	char_type const b2,char_type const e2) const
80	{
81	return do_compare(level,b1,e1,b2,e2);
82	}
83	///
84	/// Create a binary string that can be compared to other in order to get collation order. The string is created
85	/// for text in range [b,e). It is useful for collation of multiple strings for text.
86	///
87	/// The transformation follows these rules:
88	/// \code
89	/// compare(level,b1,e1,b2,e2) == sign( transform(level,b1,e1).compare(transform(level,b2,e2)) );
90	/// \endcode
91	///
92	/// Calls do_transform
93	///
94	string_type transform(level_type level,char_type const b,char_type const e) const
95	{
96	return do_transform(level,b,e);
97	}
98
99	///
100	/// Calculate a hash of a text in range [b,e). The value can be used for collation sensitive string comparison.
101	///
102	/// If compare(level,b1,e1,b2,e2) == 0 then hash(level,b1,e1) == hash(level,b2,e2)
103	///
104	/// Calls do_hash
105	///
106	long hash(level_type level,char_type const b,char_type const e) const
107	{
108	return do_hash(level,b,e);
109	}
110
111	///
112	/// Compare two strings \a l and \a r using collation level \a level
113	///
114	/// Returns -1 if the first of the two strings sorts before the seconds, returns 1 if sorts after and 0 if
115	/// they considered equal.
116	///
117	///
118	int compare(level_type level,string_type const &l,string_type const &r) const
119	{
120	return do_compare(level,l.data(),l.data()+l.size(),r.data(),r.data()+r.size());
121	}
122
123	///
124	/// Calculate a hash that can be used for collation sensitive string comparison of a string \a s
125	///
126	/// If compare(level,s1,s2) == 0 then hash(level,s1) == hash(level,s2)
127	///
128
129	long hash(level_type level,string_type const &s) const
130	{
131	return do_hash(level,s.data(),s.data()+s.size());
132	}
133	///
134	/// Create a binary string from string \a s, that can be compared to other, useful for collation of multiple
135	/// strings.
136	///
137	/// The transformation follows these rules:
138	/// \code
139	/// compare(level,s1,s2) == sign( transform(level,s1).compare(transform(level,s2)) );
140	/// \endcode
141	///
142	string_type transform(level_type level,string_type const &s) const
143	{
144	return do_transform(level,s.data(),s.data()+s.size());
145	}
146
147	protected:
148
149	///
150	/// constructor of the collator object
151	///
152	collator(size_t refs = 0) : std::collate<CharType>(refs)
153	{
154	}
155
156	virtual ~collator()
157	{
158	}
159
160	///
161	/// This function is used to override default collation function that does not take in account collation level.
162	/// Uses primary level
163	///
164	virtual int do_compare( char_type const b1,char_type const e1,
165	char_type const b2,char_type const e2) const
166	{
167	return do_compare(identical,b1,e1,b2,e2);
168	}
169	///
170	/// This function is used to override default collation function that does not take in account collation level.
171	/// Uses primary level
172	///
173	virtual string_type do_transform(char_type const b,char_type const e) const
174	{
175	return do_transform(identical,b,e);
176	}
177	///
178	/// This function is used to override default collation function that does not take in account collation level.
179	/// Uses primary level
180	///
181	virtual long do_hash(char_type const b,char_type const e) const
182	{
183	return do_hash(identical,b,e);
184	}
185
186	///
187	/// Actual function that performs comparison between the strings. For details see compare member function. Can be overridden.
188	///
189	virtual int do_compare( level_type level,
190	char_type const b1,char_type const e1,
191	char_type const b2,char_type const e2) const = 0;
192	///
193	/// Actual function that performs transformation. For details see transform member function. Can be overridden.
194	///
195	virtual string_type do_transform(level_type level,char_type const b,char_type const e) const = 0;
196	///
197	/// Actual function that calculates hash. For details see hash member function. Can be overridden.
198	///
199	virtual long do_hash(level_type level,char_type const b,char_type const e) const = 0;
200
201
202	};
203
204	///
205	/// \brief This class can be used in STL algorithms and containers for comparison of strings
206	/// with a level other than primary
207	///
208	/// For example:
209	///
210	/// \code
211	/// std::map<std::string,std::string,comparator<char,collator_base::secondary> > data;
212	/// \endcode
213	///
214	/// Would create a map the keys of which are sorted using secondary collation level
215	///
216	template<typename CharType,collator_base::level_type default_level = collator_base::identical>
217	struct comparator
218	{
219	public:
220	///
221	/// Create a comparator class for locale \a l and with collation leval \a level
222	///
223	/// \note throws std::bad_cast if l does not have \ref collator facet installed
224	///
225	comparator(std::locale const &l=std::locale(),collator_base::level_type level=default_level) :
226	locale_(l),
227	level_(level)
228	{
229	}
230
231	///
232	/// Compare two strings -- equivalent to return left < right according to collation rules
233	///
234	bool operator()(std::basic_string<CharType> const &left,std::basic_string<CharType> const &right) const
235	{
236	return std::use_facet<collator<CharType> >(locale_).compare(level_,left,right) < 0;
237	}
238	private:
239	std::locale locale_;
240	collator_base::level_type level_;
241	};
242
243
244	///
245	///@}
246	///
247
248	} // locale
249	} // boost
250
251	#ifdef BOOST_MSVC
252	#pragma warning(pop)
253	#endif
254
255
256	#endif
257	///
258	/// \example collate.cpp
259	/// Example of using collation functions
260	///
261	// vim: tabstop=4 expandtab shiftwidth=4 softtabstop=4