// Templated generic hybrid sorting // Copyright Steven J. Ross 2001 - 2009. // 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) // See http://www.boost.org/libs/sort/ for library home page. /* Some improvements suggested by: Phil Endecott and Frank Gennari float_mem_cast fix provided by: Scott McMurray */ #ifndef BOOST_SORT_SPREADSORT_HPP #define BOOST_SORT_SPREADSORT_HPP #include #include #include #include #include #include #include #include #include namespace boost { namespace sort { /*! Namespace for spreadsort sort variants for different data types. \note Use hyperlinks (coloured) to get detailed information about functions. */ namespace spreadsort { /*! \brief Generic @c spreadsort variant detecting integer-type elements so call to @c integer_sort. \details If the data type provided is an integer, @c integer_sort is used. \note Sorting other data types requires picking between @c integer_sort, @c float_sort and @c string_sort directly, as @c spreadsort won't accept types that don't have the appropriate @c type_traits. \param[in] first Iterator pointer to first element. \param[in] last Iterator pointing to one beyond the end of data. \pre [@c first, @c last) is a valid range. \pre @c RandomAccessIter @c value_type is mutable. \pre @c RandomAccessIter @c value_type is LessThanComparable \pre @c RandomAccessIter @c value_type supports the @c operator>>, which returns an integer-type right-shifted a specified number of bits. \post The elements in the range [@c first, @c last) are sorted in ascending order. */ template inline typename boost::enable_if_c< std::numeric_limits< typename std::iterator_traits::value_type >::is_integer, void >::type spreadsort(RandomAccessIter first, RandomAccessIter last) { integer_sort(first, last); } /*! \brief Generic @c spreadsort variant detecting float element type so call to @c float_sort. \details If the data type provided is a float or castable-float, @c float_sort is used. \note Sorting other data types requires picking between @c integer_sort, @c float_sort and @c string_sort directly, as @c spreadsort won't accept types that don't have the appropriate @c type_traits. \param[in] first Iterator pointer to first element. \param[in] last Iterator pointing to one beyond the end of data. \pre [@c first, @c last) is a valid range. \pre @c RandomAccessIter @c value_type is mutable. \pre @c RandomAccessIter @c value_type is LessThanComparable \pre @c RandomAccessIter @c value_type supports the @c operator>>, which returns an integer-type right-shifted a specified number of bits. \post The elements in the range [@c first, @c last) are sorted in ascending order. */ template inline typename boost::enable_if_c< !std::numeric_limits< typename std::iterator_traits::value_type >::is_integer && std::numeric_limits< typename std::iterator_traits::value_type >::is_iec559, void >::type spreadsort(RandomAccessIter first, RandomAccessIter last) { float_sort(first, last); } /*! \brief Generic @c spreadsort variant detecting string element type so call to @c string_sort for @c std::strings. \details If the data type provided is a string, @c string_sort is used. \note Sorting other data types requires picking between @c integer_sort, @c float_sort and @c string_sort directly, as @c spreadsort won't accept types that don't have the appropriate @c type_traits. \param[in] first Iterator pointer to first element. \param[in] last Iterator pointing to one beyond the end of data. \pre [@c first, @c last) is a valid range. \pre @c RandomAccessIter @c value_type is mutable. \pre @c RandomAccessIter @c value_type is LessThanComparable \pre @c RandomAccessIter @c value_type supports the @c operator>>, which returns an integer-type right-shifted a specified number of bits. \post The elements in the range [@c first, @c last) are sorted in ascending order. */ template inline typename boost::enable_if_c< is_same::value_type, typename std::string>::value, void >::type spreadsort(RandomAccessIter first, RandomAccessIter last) { string_sort(first, last); } /*! \brief Generic @c spreadsort variant detecting string element type so call to @c string_sort for @c std::wstrings. \details If the data type provided is a wstring, @c string_sort is used. \note Sorting other data types requires picking between @c integer_sort, @c float_sort and @c string_sort directly, as @c spreadsort won't accept types that don't have the appropriate @c type_traits. Also, 2-byte wide-characters are the limit above which string_sort is inefficient, so on platforms with wider characters, this will not accept wstrings. \param[in] first Iterator pointer to first element. \param[in] last Iterator pointing to one beyond the end of data. \pre [@c first, @c last) is a valid range. \pre @c RandomAccessIter @c value_type is mutable. \pre @c RandomAccessIter @c value_type is LessThanComparable \pre @c RandomAccessIter @c value_type supports the @c operator>>, which returns an integer-type right-shifted a specified number of bits. \post The elements in the range [@c first, @c last) are sorted in ascending order. */ template inline typename boost::enable_if_c< is_same::value_type, typename std::wstring>::value && sizeof(wchar_t) == 2, void >::type spreadsort(RandomAccessIter first, RandomAccessIter last) { boost::uint16_t unused = 0; string_sort(first, last, unused); } } // namespace spreadsort } // namespace sort } // namespace boost #endif