mirror of https://github.com/axmolengine/axmol.git
387 lines
9.2 KiB
C
387 lines
9.2 KiB
C
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#ifndef GIM_RADIXSORT_H_INCLUDED
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#define GIM_RADIXSORT_H_INCLUDED
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/*! \file gim_radixsort.h
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\author Francisco Leon Najera.
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Based on the work of Michael Herf : "fast floating-point radix sort"
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Avaliable on http://www.stereopsis.com/radix.html
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*/
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/*
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-----------------------------------------------------------------------------
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This source file is part of GIMPACT Library.
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For the latest info, see http://gimpact.sourceforge.net/
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Copyright (c) 2006 Francisco Leon Najera. C.C. 80087371.
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email: projectileman@yahoo.com
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This library is free software; you can redistribute it and/or
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modify it under the terms of EITHER:
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(1) The GNU Lesser General Public License as published by the Free
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Software Foundation; either version 2.1 of the License, or (at
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your option) any later version. The text of the GNU Lesser
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General Public License is included with this library in the
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file GIMPACT-LICENSE-LGPL.TXT.
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(2) The BSD-style license that is included with this library in
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the file GIMPACT-LICENSE-BSD.TXT.
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(3) The zlib/libpng license that is included with this library in
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the file GIMPACT-LICENSE-ZLIB.TXT.
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This library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the files
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GIMPACT-LICENSE-LGPL.TXT, GIMPACT-LICENSE-ZLIB.TXT and GIMPACT-LICENSE-BSD.TXT for more details.
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-----------------------------------------------------------------------------
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*/
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#include "gim_memory.h"
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///Macros for sorting.
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//! Prototype for comparators
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class less_comparator
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{
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public:
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template <class T, class Z>
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inline int operator()(const T& a, const Z& b)
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{
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return (a < b ? -1 : (a > b ? 1 : 0));
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}
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};
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//! Prototype for comparators
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class integer_comparator
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{
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public:
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template <class T>
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inline int operator()(const T& a, const T& b)
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{
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return (int)(a - b);
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}
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};
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//!Prototype for getting the integer representation of an object
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class uint_key_func
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{
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public:
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template <class T>
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inline GUINT operator()(const T& a)
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{
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return (GUINT)a;
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}
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};
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//!Prototype for copying elements
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class copy_elements_func
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{
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public:
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template <class T>
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inline void operator()(T& a, T& b)
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{
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a = b;
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}
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};
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//!Prototype for copying elements
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class memcopy_elements_func
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{
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public:
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template <class T>
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inline void operator()(T& a, T& b)
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{
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gim_simd_memcpy(&a, &b, sizeof(T));
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}
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};
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//! @{
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struct GIM_RSORT_TOKEN
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{
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GUINT m_key;
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GUINT m_value;
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GIM_RSORT_TOKEN()
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{
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}
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GIM_RSORT_TOKEN(const GIM_RSORT_TOKEN& rtoken)
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{
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m_key = rtoken.m_key;
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m_value = rtoken.m_value;
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}
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inline bool operator<(const GIM_RSORT_TOKEN& other) const
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{
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return (m_key < other.m_key);
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}
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inline bool operator>(const GIM_RSORT_TOKEN& other) const
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{
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return (m_key > other.m_key);
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}
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};
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//! Prototype for comparators
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class GIM_RSORT_TOKEN_COMPARATOR
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{
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public:
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inline int operator()(const GIM_RSORT_TOKEN& a, const GIM_RSORT_TOKEN& b)
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{
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return (int)((a.m_key) - (b.m_key));
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}
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};
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#define kHist 2048
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// ---- utils for accessing 11-bit quantities
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#define D11_0(x) (x & 0x7FF)
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#define D11_1(x) (x >> 11 & 0x7FF)
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#define D11_2(x) (x >> 22)
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///Radix sort for unsigned integer keys
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inline void gim_radix_sort_rtokens(
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GIM_RSORT_TOKEN* array,
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GIM_RSORT_TOKEN* sorted, GUINT element_count)
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{
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GUINT i;
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GUINT b0[kHist * 3];
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GUINT* b1 = b0 + kHist;
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GUINT* b2 = b1 + kHist;
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for (i = 0; i < kHist * 3; ++i)
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{
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b0[i] = 0;
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}
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GUINT fi;
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GUINT pos;
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for (i = 0; i < element_count; ++i)
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{
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fi = array[i].m_key;
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b0[D11_0(fi)]++;
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b1[D11_1(fi)]++;
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b2[D11_2(fi)]++;
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}
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{
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GUINT sum0 = 0, sum1 = 0, sum2 = 0;
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GUINT tsum;
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for (i = 0; i < kHist; ++i)
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{
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tsum = b0[i] + sum0;
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b0[i] = sum0 - 1;
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sum0 = tsum;
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tsum = b1[i] + sum1;
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b1[i] = sum1 - 1;
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sum1 = tsum;
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tsum = b2[i] + sum2;
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b2[i] = sum2 - 1;
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sum2 = tsum;
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}
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}
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for (i = 0; i < element_count; ++i)
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{
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fi = array[i].m_key;
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pos = D11_0(fi);
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pos = ++b0[pos];
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sorted[pos].m_key = array[i].m_key;
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sorted[pos].m_value = array[i].m_value;
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}
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for (i = 0; i < element_count; ++i)
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{
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fi = sorted[i].m_key;
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pos = D11_1(fi);
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pos = ++b1[pos];
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array[pos].m_key = sorted[i].m_key;
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array[pos].m_value = sorted[i].m_value;
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}
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for (i = 0; i < element_count; ++i)
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{
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fi = array[i].m_key;
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pos = D11_2(fi);
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pos = ++b2[pos];
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sorted[pos].m_key = array[i].m_key;
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sorted[pos].m_value = array[i].m_value;
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}
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}
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/// Get the sorted tokens from an array. For generic use. Tokens are IRR_RSORT_TOKEN
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/*!
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*\param array Array of elements to sort
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*\param sorted_tokens Tokens of sorted elements
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*\param element_count element count
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*\param uintkey_macro Functor which retrieves the integer representation of an array element
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*/
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template <typename T, class GETKEY_CLASS>
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void gim_radix_sort_array_tokens(
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T* array,
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GIM_RSORT_TOKEN* sorted_tokens,
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GUINT element_count, GETKEY_CLASS uintkey_macro)
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{
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GIM_RSORT_TOKEN* _unsorted = (GIM_RSORT_TOKEN*)gim_alloc(sizeof(GIM_RSORT_TOKEN) * element_count);
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for (GUINT _i = 0; _i < element_count; ++_i)
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{
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_unsorted[_i].m_key = uintkey_macro(array[_i]);
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_unsorted[_i].m_value = _i;
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}
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gim_radix_sort_rtokens(_unsorted, sorted_tokens, element_count);
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gim_free(_unsorted);
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gim_free(_unsorted);
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}
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/// Sorts array in place. For generic use
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/*!
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\param type Type of the array
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\param array
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\param element_count
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\param get_uintkey_macro Macro for extract the Integer value of the element. Similar to SIMPLE_GET_UINTKEY
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\param copy_elements_macro Macro for copy elements, similar to SIMPLE_COPY_ELEMENTS
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*/
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template <typename T, class GETKEY_CLASS, class COPY_CLASS>
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void gim_radix_sort(
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T* array, GUINT element_count,
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GETKEY_CLASS get_uintkey_macro, COPY_CLASS copy_elements_macro)
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{
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GIM_RSORT_TOKEN* _sorted = (GIM_RSORT_TOKEN*)gim_alloc(sizeof(GIM_RSORT_TOKEN) * element_count);
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gim_radix_sort_array_tokens(array, _sorted, element_count, get_uintkey_macro);
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T* _original_array = (T*)gim_alloc(sizeof(T) * element_count);
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gim_simd_memcpy(_original_array, array, sizeof(T) * element_count);
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for (GUINT _i = 0; _i < element_count; ++_i)
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{
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copy_elements_macro(array[_i], _original_array[_sorted[_i].m_value]);
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}
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gim_free(_original_array);
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gim_free(_sorted);
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}
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//! Failsafe Iterative binary search,
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/*!
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If the element is not found, it returns the nearest upper element position, may be the further position after the last element.
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\param _array
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\param _start_i the beginning of the array
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\param _end_i the ending index of the array
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\param _search_key Value to find
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\param _comp_macro macro for comparing elements
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\param _found If true the value has found. Boolean
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\param _result_index the index of the found element, or if not found then it will get the index of the closest bigger value
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*/
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template <class T, typename KEYCLASS, typename COMP_CLASS>
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bool gim_binary_search_ex(
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const T* _array, GUINT _start_i,
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GUINT _end_i, GUINT& _result_index,
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const KEYCLASS& _search_key,
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COMP_CLASS _comp_macro)
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{
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GUINT _k;
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int _comp_result;
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GUINT _i = _start_i;
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GUINT _j = _end_i + 1;
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while (_i < _j)
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{
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_k = (_j + _i - 1) / 2;
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_comp_result = _comp_macro(_array[_k], _search_key);
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if (_comp_result == 0)
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{
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_result_index = _k;
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return true;
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}
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else if (_comp_result < 0)
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{
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_i = _k + 1;
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}
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else
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{
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_j = _k;
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}
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}
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_result_index = _i;
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return false;
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}
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//! Failsafe Iterative binary search,Template version
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/*!
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If the element is not found, it returns the nearest upper element position, may be the further position after the last element.
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\param _array
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\param _start_i the beginning of the array
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\param _end_i the ending index of the array
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\param _search_key Value to find
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\param _result_index the index of the found element, or if not found then it will get the index of the closest bigger value
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\return true if found, else false
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*/
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template <class T>
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bool gim_binary_search(
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const T* _array, GUINT _start_i,
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GUINT _end_i, const T& _search_key,
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GUINT& _result_index)
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{
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GUINT _i = _start_i;
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GUINT _j = _end_i + 1;
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GUINT _k;
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while (_i < _j)
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{
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_k = (_j + _i - 1) / 2;
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if (_array[_k] == _search_key)
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{
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_result_index = _k;
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return true;
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}
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else if (_array[_k] < _search_key)
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{
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_i = _k + 1;
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}
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else
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{
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_j = _k;
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}
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}
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_result_index = _i;
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return false;
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}
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///heap sort from http://www.csse.monash.edu.au/~lloyd/tildeAlgDS/Sort/Heap/
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template <typename T, typename COMP_CLASS>
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void gim_down_heap(T* pArr, GUINT k, GUINT n, COMP_CLASS CompareFunc)
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{
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/* PRE: a[k+1..N] is a heap */
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/* POST: a[k..N] is a heap */
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T temp = pArr[k - 1];
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/* k has child(s) */
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while (k <= n / 2)
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{
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int child = 2 * k;
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if ((child < (int)n) && CompareFunc(pArr[child - 1], pArr[child]) < 0)
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{
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child++;
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}
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/* pick larger child */
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if (CompareFunc(temp, pArr[child - 1]) < 0)
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{
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/* move child up */
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pArr[k - 1] = pArr[child - 1];
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k = child;
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}
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else
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{
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break;
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}
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}
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pArr[k - 1] = temp;
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} /*downHeap*/
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template <typename T, typename COMP_CLASS>
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void gim_heap_sort(T* pArr, GUINT element_count, COMP_CLASS CompareFunc)
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{
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/* sort a[0..N-1], N.B. 0 to N-1 */
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GUINT k;
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GUINT n = element_count;
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for (k = n / 2; k > 0; k--)
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{
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gim_down_heap(pArr, k, n, CompareFunc);
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}
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/* a[1..N] is now a heap */
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while (n >= 2)
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{
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gim_swap_elements(pArr, 0, n - 1); /* largest of a[0..n-1] */
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--n;
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/* restore a[1..i-1] heap */
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gim_down_heap(pArr, 1, n, CompareFunc);
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}
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}
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#endif // GIM_RADIXSORT_H_INCLUDED
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