ecency-mobile/ios/Pods/boost-for-react-native/boost/locale/collator.hpp

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8.6 KiB
C++

//
// 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