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/* -*- C++ -*-
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*
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alpar@1956
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* This file is a part of LEMON, a generic C++ optimization library
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alpar@1956
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*
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alpar@1956
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* Copyright (C) 2003-2006
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alpar@1956
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* Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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* (Egervary Research Group on Combinatorial Optimization, EGRES).
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*
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* Permission to use, modify and distribute this software is granted
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* provided that this copyright notice appears in all copies. For
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* precise terms see the accompanying LICENSE file.
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deba@1833
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*
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* This software is provided "AS IS" with no warranty of any kind,
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* express or implied, and with no claim as to its suitability for any
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* purpose.
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*
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*/
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#ifndef RADIX_SORT_H
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#define RADIX_SORT_H
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/// \ingroup auxdat
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/// \file
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/// \brief Radix sort
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///
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#include <vector>
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#include <limits>
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#include <iterator>
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#include <algorithm>
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#include <lemon/error.h>
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namespace lemon {
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namespace _radix_sort_bits {
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template <typename Value>
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struct Identity {
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const Value& operator()(const Value& val) {
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return val;
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}
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};
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}
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template <typename Value, typename Iterator, typename Functor>
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Iterator radixSortPartition(Iterator first, Iterator last,
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Functor functor, Value mask) {
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while (first != last && !(functor(*first) & mask)) {
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++first;
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}
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if (first == last) {
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return first;
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}
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--last;
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while (first != last && (functor(*last) & mask)) {
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--last;
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}
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if (first == last) {
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return first;
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}
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std::iter_swap(first, last);
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++first;
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if (!(first < last)) {
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return first;
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}
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while (true) {
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while (!(functor(*first) & mask)) {
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++first;
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}
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--last;
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while (functor(*last) & mask) {
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--last;
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}
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if (!(first < last)) {
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return first;
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}
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std::iter_swap(first, last);
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++first;
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}
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}
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template <typename Iterator, typename Functor>
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Iterator radixSortSignPartition(Iterator first, Iterator last,
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Functor functor) {
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while (first != last && functor(*first) < 0) {
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++first;
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}
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if (first == last) {
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return first;
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}
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--last;
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while (first != last && functor(*last) >= 0) {
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--last;
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}
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if (first == last) {
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return first;
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}
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std::iter_swap(first, last);
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++first;
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if (!(first < last)) {
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return first;
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}
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while (true) {
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while (functor(*first) < 0) {
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++first;
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}
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--last;
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while (functor(*last) >= 0) {
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--last;
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}
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if (!(first < last)) {
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return first;
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}
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std::iter_swap(first, last);
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++first;
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}
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}
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template <typename Value, typename Iterator, typename Functor>
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void radixIntroSort(Iterator first, Iterator last,
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Functor functor, Value mask) {
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while (mask != 0 && last - first > 1) {
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Iterator cut = radixSortPartition(first, last, functor, mask);
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mask >>= 1;
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radixIntroSort(first, cut, functor, mask);
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first = cut;
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}
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}
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template <typename Value, typename Iterator, typename Functor>
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void radixSignedSort(Iterator first, Iterator last, Functor functor) {
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Iterator cut = radixSortSignPartition(first, last, functor);
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Value mask;
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int max_digit;
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Iterator it;
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mask = 0; max_digit = 0;
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for (it = first; it != cut; ++it) {
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if ((mask | functor(*it)) != ~0) {
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++max_digit;
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mask <<= 1;
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mask |= 1;
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}
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}
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radixIntroSort(first, cut, functor, 1 << max_digit);
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mask = ~0; max_digit = 0;
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for (it = cut; it != last; ++it) {
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if (mask & functor(*it)) {
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++max_digit;
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mask <<= 1;
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}
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}
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radixIntroSort(cut, last, functor, 1 << max_digit);
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}
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template <typename Value, typename Iterator, typename Functor>
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void radixUnsignedSort(Iterator first, Iterator last, Functor functor) {
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Value mask = ~0;
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int max_digit = 0;
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Iterator it;
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for (it = first; it != last; ++it) {
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if (mask & functor(*it)) {
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++max_digit;
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mask <<= 1;
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}
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}
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radixIntroSort(first, last, functor, 1 << max_digit);
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}
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namespace _radix_sort_bits {
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template <typename Value,
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bool sign = std::numeric_limits<Value>::is_signed >
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struct RadixSortSelector {
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template <typename Iterator, typename Functor>
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static void sort(Iterator first, Iterator last, Functor functor) {
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radixSignedSort<Value>(first, last, functor);
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}
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};
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template <typename Value>
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struct RadixSortSelector<Value, false> {
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template <typename Iterator, typename Functor>
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static void sort(Iterator first, Iterator last, Functor functor) {
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radixUnsignedSort<Value>(first, last, functor);
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}
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};
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}
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/// \ingroup auxdat
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///
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/// \brief Sorts the stl compatible range into ascending order.
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///
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/// The \c radixSort sorts the stl compatible range into ascending order.
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/// The radix sort algorithm can sort the items which mapped to an
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/// integer by the adaptable unary function \c functor and the order
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/// will be ascending by these mapped values. As function specialization
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/// there is possible to use a normal function as the functor object
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/// or if the functor is not given it will use an identity function instead.
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///
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/// This implemented radix sort is a special quick sort which pivot value
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/// is choosen to partite the items on the next bit. This way, let be
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/// \c c the maximal capacity and \c n the number of the items in
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/// the container, the time complexity of the algorithm \c O(log(c)*n)
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/// and the additional space complexity is \c O(log(c)).
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///
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/// \param first The begin of the given range.
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/// \param last The end of the given range.
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/// \param functor An adaptible unary function or a normal function which
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/// maps the items to any integer type which can be wheter signed or
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/// unsigned.
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template <typename Iterator, typename Functor>
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void radixSort(Iterator first, Iterator last, Functor functor) {
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deba@1833
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using namespace _radix_sort_bits;
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typedef typename Functor::result_type Value;
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RadixSortSelector<Value>::sort(first, last, functor);
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}
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template <typename Iterator, typename Value, typename Key>
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void radixSort(Iterator first, Iterator last, Value (*functor)(Key)) {
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using namespace _radix_sort_bits;
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RadixSortSelector<Value>::sort(first, last, functor);
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}
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template <typename Iterator, typename Value, typename Key>
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void radixSort(Iterator first, Iterator last, Value& (*functor)(Key)) {
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deba@1833
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using namespace _radix_sort_bits;
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RadixSortSelector<Value>::sort(first, last, functor);
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}
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template <typename Iterator, typename Value, typename Key>
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deba@1833
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void radixSort(Iterator first, Iterator last, Value (*functor)(Key&)) {
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deba@1833
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using namespace _radix_sort_bits;
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deba@1833
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RadixSortSelector<Value>::sort(first, last, functor);
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}
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deba@1833
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template <typename Iterator, typename Value, typename Key>
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void radixSort(Iterator first, Iterator last, Value& (*functor)(Key&)) {
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deba@1833
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using namespace _radix_sort_bits;
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deba@1833
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RadixSortSelector<Value>::sort(first, last, functor);
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deba@1833
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}
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template <typename Iterator>
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void radixSort(Iterator first, Iterator last) {
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deba@1833
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using namespace _radix_sort_bits;
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deba@1833
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typedef typename std::iterator_traits<Iterator>::value_type Value;
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RadixSortSelector<Value>::sort(first, last, Identity<Value>());
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}
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template <typename Value>
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deba@1833
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unsigned char valueByte(Value value, int byte) {
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deba@1844
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return value >> (std::numeric_limits<unsigned char>::digits * byte);
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}
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deba@1833
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deba@1833
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template <typename Functor, typename Key>
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deba@1833
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void counterIntroSort(Key *first, Key *last, Key *target,
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deba@1833
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int byte, Functor functor) {
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deba@1833
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const int size =
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deba@1833
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(unsigned int)std::numeric_limits<unsigned char>::max() + 1;
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deba@1833
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int counter[size];
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deba@1833
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for (int i = 0; i < size; ++i) {
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deba@1833
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counter[i] = 0;
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}
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deba@1833
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Key *it = first;
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deba@1833
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while (first != last) {
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deba@1833
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++counter[valueByte(functor(*first), byte)];
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deba@1833
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++first;
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deba@1833
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}
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deba@1833
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int prev, num = 0;
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deba@1833
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for (int i = 0; i < size; ++i) {
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deba@1833
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prev = num;
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deba@1833
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num += counter[i];
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deba@1833
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280 |
counter[i] = prev;
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deba@1833
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281 |
}
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deba@1833
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while (it != last) {
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deba@1833
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target[counter[valueByte(functor(*it), byte)]++] = *it;
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deba@1833
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++it;
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deba@1833
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}
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deba@1833
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}
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deba@1833
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287 |
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deba@1833
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288 |
template <typename Functor, typename Key>
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deba@1833
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void signedCounterIntroSort(Key *first, Key *last, Key *target,
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deba@1833
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int byte, Functor functor) {
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deba@1833
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const int size =
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deba@1833
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(unsigned int)std::numeric_limits<unsigned char>::max() + 1;
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deba@1833
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int counter[size];
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deba@1833
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for (int i = 0; i < size; ++i) {
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deba@1833
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counter[i] = 0;
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deba@1833
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}
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deba@1833
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Key *it = first;
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deba@1833
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while (first != last) {
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deba@1833
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counter[valueByte(functor(*first), byte)]++;
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deba@1833
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++first;
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deba@1833
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}
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deba@1833
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int prev, num = 0;
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deba@1833
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for (int i = size / 2; i < size; ++i) {
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deba@1833
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prev = num;
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deba@1833
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num += counter[i];
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deba@1833
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counter[i] = prev;
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deba@1833
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}
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deba@1833
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308 |
for (int i = 0; i < size / 2; ++i) {
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deba@1833
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prev = num;
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deba@1833
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num += counter[i];
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deba@1833
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counter[i] = prev;
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deba@1833
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}
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deba@1833
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313 |
while (it != last) {
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deba@1833
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target[counter[valueByte(functor(*it), byte)]++] = *it;
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deba@1833
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++it;
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deba@1833
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}
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deba@1833
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317 |
}
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|
deba@1833
|
320 |
template <typename Value, typename Iterator, typename Functor>
|
deba@1833
|
321 |
void counterSignedSort(Iterator first, Iterator last, Functor functor) {
|
deba@1904
|
322 |
if (first == last) return;
|
deba@1833
|
323 |
typedef typename std::iterator_traits<Iterator>::value_type Key;
|
deba@1833
|
324 |
typedef std::allocator<Key> Allocator;
|
deba@1833
|
325 |
Allocator allocator;
|
deba@1833
|
326 |
|
deba@1833
|
327 |
int length = std::distance(first, last);
|
deba@1833
|
328 |
Key* buffer;
|
deba@1833
|
329 |
buffer = allocator.allocate(2 * length);
|
deba@1833
|
330 |
try {
|
deba@1833
|
331 |
bool dir = true;
|
deba@1833
|
332 |
std::copy(first, last, buffer);
|
deba@1833
|
333 |
for (int i = 0; i < (int)sizeof(Value) - 1; ++i) {
|
deba@1833
|
334 |
if (dir) {
|
deba@1833
|
335 |
counterIntroSort(buffer, buffer + length, buffer + length,
|
deba@1833
|
336 |
i, functor);
|
deba@1833
|
337 |
} else {
|
deba@1833
|
338 |
counterIntroSort(buffer + length, buffer + 2 * length, buffer,
|
deba@1833
|
339 |
i, functor);
|
deba@1833
|
340 |
}
|
deba@1833
|
341 |
dir = !dir;
|
deba@1833
|
342 |
}
|
deba@1833
|
343 |
if (dir) {
|
deba@1833
|
344 |
signedCounterIntroSort(buffer, buffer + length, buffer + length,
|
deba@1833
|
345 |
sizeof(Value) - 1, functor);
|
deba@1833
|
346 |
std::copy(buffer + length, buffer + 2 * length, first);
|
deba@1833
|
347 |
} else {
|
deba@1833
|
348 |
signedCounterIntroSort(buffer + length, buffer + 2 * length, buffer,
|
deba@1833
|
349 |
sizeof(Value) - 1, functor);
|
deba@1833
|
350 |
std::copy(buffer, buffer + length, first);
|
deba@1833
|
351 |
}
|
deba@1833
|
352 |
} catch (...) {
|
deba@1833
|
353 |
allocator.deallocate(buffer, 2 * length);
|
deba@1833
|
354 |
throw;
|
deba@1833
|
355 |
}
|
deba@1833
|
356 |
allocator.deallocate(buffer, 2 * length);
|
deba@1833
|
357 |
}
|
deba@1833
|
358 |
|
deba@1833
|
359 |
template <typename Value, typename Iterator, typename Functor>
|
deba@1833
|
360 |
void counterUnsignedSort(Iterator first, Iterator last, Functor functor) {
|
deba@1904
|
361 |
if (first == last) return;
|
deba@1833
|
362 |
typedef typename std::iterator_traits<Iterator>::value_type Key;
|
deba@1833
|
363 |
typedef std::allocator<Key> Allocator;
|
deba@1833
|
364 |
Allocator allocator;
|
deba@1833
|
365 |
|
deba@1833
|
366 |
int length = std::distance(first, last);
|
deba@1833
|
367 |
Key *buffer;
|
deba@1833
|
368 |
buffer = allocator.allocate(2 * length);
|
deba@1833
|
369 |
try {
|
deba@1833
|
370 |
bool dir = true;
|
deba@1833
|
371 |
std::copy(first, last, buffer);
|
deba@1844
|
372 |
for (int i = 0; i < (int)sizeof(Value); ++i) {
|
deba@1833
|
373 |
if (dir) {
|
deba@1844
|
374 |
counterIntroSort(buffer, buffer + length, buffer + length, i, functor);
|
deba@1833
|
375 |
} else {
|
deba@1844
|
376 |
counterIntroSort(buffer + length, buffer + 2 * length, buffer, i, functor);
|
deba@1833
|
377 |
}
|
deba@1833
|
378 |
dir = !dir;
|
deba@1833
|
379 |
}
|
deba@1833
|
380 |
if (dir) {
|
deba@1833
|
381 |
std::copy(buffer, buffer + length, first);
|
deba@1833
|
382 |
} else {
|
deba@1833
|
383 |
std::copy(buffer + length, buffer + 2 * length, first);
|
deba@1833
|
384 |
}
|
deba@1833
|
385 |
} catch (...) {
|
deba@1833
|
386 |
allocator.deallocate(buffer, 2 * length);
|
deba@1833
|
387 |
throw;
|
deba@1833
|
388 |
}
|
deba@1833
|
389 |
allocator.deallocate(buffer, 2 * length);
|
deba@1833
|
390 |
}
|
deba@1833
|
391 |
|
deba@1833
|
392 |
namespace _radix_sort_bits {
|
deba@1833
|
393 |
|
deba@1833
|
394 |
template <typename Value,
|
deba@1833
|
395 |
bool sign = std::numeric_limits<Value>::is_signed >
|
deba@1833
|
396 |
struct CounterSortSelector {
|
deba@1833
|
397 |
template <typename Iterator, typename Functor>
|
deba@1833
|
398 |
static void sort(Iterator first, Iterator last, Functor functor) {
|
deba@1833
|
399 |
counterSignedSort<Value>(first, last, functor);
|
deba@1833
|
400 |
}
|
deba@1833
|
401 |
};
|
deba@1833
|
402 |
|
deba@1833
|
403 |
template <typename Value>
|
deba@1833
|
404 |
struct CounterSortSelector<Value, false> {
|
deba@1833
|
405 |
template <typename Iterator, typename Functor>
|
deba@1833
|
406 |
static void sort(Iterator first, Iterator last, Functor functor) {
|
deba@1833
|
407 |
counterUnsignedSort<Value>(first, last, functor);
|
deba@1833
|
408 |
}
|
deba@1833
|
409 |
};
|
deba@1833
|
410 |
|
deba@1833
|
411 |
}
|
deba@1833
|
412 |
|
deba@1833
|
413 |
/// \ingroup auxdat
|
deba@1833
|
414 |
///
|
deba@1833
|
415 |
/// \brief Sorts stable the stl compatible range into ascending order.
|
deba@1833
|
416 |
///
|
deba@1833
|
417 |
/// The \c counterSort sorts the stl compatible range into ascending order.
|
deba@1833
|
418 |
/// The counter sort algorithm can sort the items which mapped to an
|
deba@1833
|
419 |
/// integer by the adaptable unary function \c functor and the order
|
deba@1833
|
420 |
/// will be ascending by these mapped values. As function specialization
|
deba@1833
|
421 |
/// there is possible to use a normal function as the functor object
|
deba@1833
|
422 |
/// or if the functor is not given it will use an identity function instead.
|
deba@1833
|
423 |
///
|
deba@1833
|
424 |
/// This implemented counter sort use a radix forward sort on the bytes of
|
deba@1833
|
425 |
/// the integer. The algorithm can sort the items on a given byte.
|
deba@1833
|
426 |
/// First time it counts how many times occurs a byte value in the container.
|
deba@1833
|
427 |
/// By the occurence number it is possible to copy the container
|
deba@1833
|
428 |
/// in the right order in \c O(n) time. The algorithm sorts the container
|
deba@1833
|
429 |
/// by each bytes in forward direction which sorts the container by the
|
deba@1844
|
430 |
/// whole value. This way, let be \c c the maximal capacity of the integer
|
deba@1844
|
431 |
/// type and \c n the number of the items in
|
deba@1833
|
432 |
/// the container, the time complexity of the algorithm \c O(log(c)*n)
|
deba@1833
|
433 |
/// and the additional space complexity is \c O(n).
|
deba@1833
|
434 |
///
|
deba@1833
|
435 |
/// This sorting algorithm is stable so the order of two equal element
|
deba@1833
|
436 |
/// stay in the same order.
|
deba@1833
|
437 |
///
|
deba@1833
|
438 |
/// \param first The begin of the given range.
|
deba@1833
|
439 |
/// \param last The end of the given range.
|
deba@1833
|
440 |
/// \param functor An adaptible unary function or a normal function which
|
deba@1833
|
441 |
/// maps the items to any integer type which can be wheter signed or
|
deba@1833
|
442 |
/// unsigned.
|
deba@1833
|
443 |
template <typename Iterator, typename Functor>
|
deba@1833
|
444 |
void counterSort(Iterator first, Iterator last, Functor functor) {
|
deba@1833
|
445 |
using namespace _radix_sort_bits;
|
deba@1833
|
446 |
typedef typename Functor::result_type Value;
|
deba@1833
|
447 |
CounterSortSelector<Value>::sort(first, last, functor);
|
deba@1833
|
448 |
}
|
deba@1833
|
449 |
|
deba@1833
|
450 |
template <typename Iterator, typename Value, typename Key>
|
deba@1833
|
451 |
void counterSort(Iterator first, Iterator last, Value (*functor)(Key)) {
|
deba@1833
|
452 |
using namespace _radix_sort_bits;
|
deba@1833
|
453 |
CounterSortSelector<Value>::sort(first, last, functor);
|
deba@1833
|
454 |
}
|
deba@1833
|
455 |
|
deba@1833
|
456 |
template <typename Iterator, typename Value, typename Key>
|
deba@1833
|
457 |
void counterSort(Iterator first, Iterator last, Value& (*functor)(Key)) {
|
deba@1833
|
458 |
using namespace _radix_sort_bits;
|
deba@1833
|
459 |
CounterSortSelector<Value>::sort(first, last, functor);
|
deba@1833
|
460 |
}
|
deba@1833
|
461 |
|
deba@1833
|
462 |
template <typename Iterator, typename Value, typename Key>
|
deba@1833
|
463 |
void counterSort(Iterator first, Iterator last, Value (*functor)(Key&)) {
|
deba@1833
|
464 |
using namespace _radix_sort_bits;
|
deba@1833
|
465 |
CounterSortSelector<Value>::sort(first, last, functor);
|
deba@1833
|
466 |
}
|
deba@1833
|
467 |
|
deba@1833
|
468 |
template <typename Iterator, typename Value, typename Key>
|
deba@1833
|
469 |
void counterSort(Iterator first, Iterator last, Value& (*functor)(Key&)) {
|
deba@1833
|
470 |
using namespace _radix_sort_bits;
|
deba@1833
|
471 |
CounterSortSelector<Value>::sort(first, last, functor);
|
deba@1833
|
472 |
}
|
deba@1833
|
473 |
|
deba@1833
|
474 |
template <typename Iterator>
|
deba@1833
|
475 |
void counterSort(Iterator first, Iterator last) {
|
deba@1833
|
476 |
using namespace _radix_sort_bits;
|
deba@1833
|
477 |
typedef typename std::iterator_traits<Iterator>::value_type Value;
|
deba@1833
|
478 |
CounterSortSelector<Value>::sort(first, last, Identity<Value>());
|
deba@1833
|
479 |
}
|
deba@1833
|
480 |
|
deba@1833
|
481 |
}
|
deba@1833
|
482 |
|
deba@1833
|
483 |
|
deba@1833
|
484 |
|
deba@1833
|
485 |
#endif
|