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339 lines
12 KiB
C
339 lines
12 KiB
C
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/*
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===========================================================================
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Doom 3 BFG Edition GPL Source Code
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Copyright (C) 1993-2012 id Software LLC, a ZeniMax Media company.
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This file is part of the Doom 3 BFG Edition GPL Source Code ("Doom 3 BFG Edition Source Code").
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Doom 3 BFG Edition Source Code is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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Doom 3 BFG Edition Source Code 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
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with Doom 3 BFG Edition Source Code. If not, see <http://www.gnu.org/licenses/>.
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In addition, the Doom 3 BFG Edition Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 BFG Edition Source Code. If not, please request a copy in writing from id Software at the address below.
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If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.
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===========================================================================
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*/
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#ifndef __SORT_H__
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#define __SORT_H__
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/*
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================================================================================================
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Contains the generic templated sort algorithms for quick-sort, heap-sort and insertion-sort.
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The sort algorithms do not use class operators or overloaded functions to compare
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objects because it is often desireable to sort the same objects in different ways
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based on different keys (not just ascending and descending but sometimes based on
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name and other times based on say priority). So instead, for each different sort a
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separate class is implemented with a Compare() function.
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This class is derived from one of the classes that implements a sort algorithm.
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The Compare() member function does not only define how objects are sorted, the class
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can also store additional data that can be used by the Compare() function. This, for
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instance, allows a list of indices to be sorted where the indices point to objects
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in an array. The base pointer of the array with objects can be stored on the class
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that implements the Compare() function such that the Compare() function can use keys
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that are stored on the objects.
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The Compare() function is not virtual because this would incur significant overhead.
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Do NOT make the Compare() function virtual on the derived class!
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The sort implementations also explicitely call the Compare() function of the derived
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class. This is to avoid various compiler bugs with using overloaded compare functions
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and the inability of various compilers to find the right overloaded compare function.
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To sort an array, an idList or an idStaticList, a new sort class, typically derived from
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idSort_Quick, is implemented as follows:
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class idSort_MySort : public idSort_Quick< idMyObject, idSort_MySort > {
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public:
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int Compare( const idMyObject & a, const idMyObject & b ) const {
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if ( a should come before b ) {
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return -1; // or any negative integer
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} if ( a should come after b ) {
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return 1; // or any positive integer
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} else {
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return 0;
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}
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}
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};
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To sort an array:
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idMyObject array[100];
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idSort_MySort().Sort( array, 100 );
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To sort an idList:
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idList< idMyObject > list;
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list.Sort( idSort_MySort() );
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The sort implementations never create temporaries of the template type. Only the
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'SwapValues' template is used to move data around. This 'SwapValues' template can be
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specialized to implement fast swapping of data. For instance, when sorting a list with
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objects of some string class it is important to implement a specialized 'SwapValues' for
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this string class to avoid excessive re-allocation and copying of strings.
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================================================================================================
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*/
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/*
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========================
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SwapValues
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========================
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*/
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template< typename _type_ >
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ID_INLINE void SwapValues( _type_ & a, _type_ & b ) {
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_type_ c = a;
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a = b;
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b = c;
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}
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/*
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================================================
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idSort is an abstract template class for sorting an array of objects of the specified data type.
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The array of objects is sorted such that: Compare( array[i], array[i+1] ) <= 0 for all i
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================================================
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*/
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template< typename _type_ >
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class idSort {
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public:
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virtual ~idSort() {}
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virtual void Sort( _type_ * base, unsigned int num ) const = 0;
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};
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/*
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================================================
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idSort_Quick is a sort template that implements the
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quick-sort algorithm on an array of objects of the specified data type.
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================================================
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*/
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template< typename _type_, typename _derived_ >
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class idSort_Quick : public idSort< _type_ > {
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public:
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virtual void Sort( _type_ * base, unsigned int num ) const {
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if ( num <= 0 ) {
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return;
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}
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const int64 MAX_LEVELS = 128;
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int64 lo[MAX_LEVELS], hi[MAX_LEVELS];
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// 'lo' is the lower index, 'hi' is the upper index
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// of the region of the array that is being sorted.
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lo[0] = 0;
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hi[0] = num - 1;
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for ( int64 level = 0; level >= 0; ) {
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int64 i = lo[level];
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int64 j = hi[level];
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// Only use quick-sort when there are 4 or more elements in this region and we are below MAX_LEVELS.
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// Otherwise fall back to an insertion-sort.
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if ( ( ( j - i ) >= 4 ) && ( level < ( MAX_LEVELS - 1 ) ) ) {
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// Use the center element as the pivot.
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// The median of a multi point sample could be used
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// but simply taking the center works quite well.
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int64 pi = ( i + j ) / 2;
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// Move the pivot element to the end of the region.
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SwapValues( base[j], base[pi] );
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// Get a reference to the pivot element.
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_type_ & pivot = base[j--];
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// Partition the region.
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do {
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while( static_cast< const _derived_ * >( this )->Compare( base[i], pivot ) < 0 ) { if ( ++i >= j ) break; }
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while( static_cast< const _derived_ * >( this )->Compare( base[j], pivot ) > 0 ) { if ( --j <= i ) break; }
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if ( i >= j ) break;
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SwapValues( base[i], base[j] );
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} while( ++i < --j );
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// Without these iterations sorting of arrays with many duplicates may
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// become really slow because the partitioning can be very unbalanced.
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// However, these iterations are unnecessary if all elements are unique.
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while ( static_cast< const _derived_ * >( this )->Compare( base[i], pivot ) <= 0 && i < hi[level] ) { i++; }
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while ( static_cast< const _derived_ * >( this )->Compare( base[j], pivot ) >= 0 && lo[level] < j ) { j--; }
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// Move the pivot element in place.
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SwapValues( pivot, base[i] );
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assert( level < MAX_LEVELS - 1 );
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lo[level+1] = i;
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hi[level+1] = hi[level];
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hi[level] = j;
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level++;
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} else {
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// Insertion-sort of the remaining elements.
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for( ; i < j; j-- ) {
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int64 m = i;
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for ( int64 k = i + 1; k <= j; k++ ) {
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if ( static_cast< const _derived_ * >( this )->Compare( base[k], base[m] ) > 0 ) {
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m = k;
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}
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}
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SwapValues( base[m], base[j] );
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}
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level--;
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}
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}
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}
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};
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/*
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================================================
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Default quick-sort comparison function that can
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be used to sort scalars from small to large.
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================================================
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*/
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template< typename _type_ >
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class idSort_QuickDefault : public idSort_Quick< _type_, idSort_QuickDefault< _type_ > > {
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public:
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int Compare( const _type_ & a, const _type_ & b ) const { return a - b; }
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};
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/*
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================================================
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Specialization for floating point values to avoid an float-to-int
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conversion for every comparison.
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================================================
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*/
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template<>
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class idSort_QuickDefault< float > : public idSort_Quick< float, idSort_QuickDefault< float > > {
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public:
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int Compare( const float & a, const float & b ) const {
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if ( a < b ) {
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return -1;
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}
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if ( a > b ) {
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return 1;
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}
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return 0;
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}
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};
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/*
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================================================
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idSort_Heap is a sort template class that implements the
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heap-sort algorithm on an array of objects of the specified data type.
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================================================
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*/
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template< typename _type_, typename _derived_ >
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class idSort_Heap : public idSort< _type_ > {
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public:
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virtual void Sort( _type_ * base, unsigned int num ) const {
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// get all elements in heap order
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#if 1
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// O( n )
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for ( unsigned int i = num / 2; i > 0; i-- ) {
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// sift down
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unsigned int parent = i - 1;
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for ( unsigned int child = parent * 2 + 1; child < num; child = parent * 2 + 1 ) {
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if ( child + 1 < num && static_cast< const _derived_ * >( this )->Compare( base[child + 1], base[child] ) > 0 ) {
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child++;
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}
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if ( static_cast< const _derived_ * >( this )->Compare( base[child], base[parent] ) <= 0 ) {
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break;
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}
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SwapValues( base[parent], base[child] );
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parent = child;
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}
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}
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#else
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// O(n log n)
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for ( unsigned int i = 1; i < num; i++ ) {
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// sift up
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for ( unsigned int child = i; child > 0; ) {
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unsigned int parent = ( child - 1 ) / 2;
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if ( static_cast< const _derived_ * >( this )->Compare( base[parent], base[child] ) > 0 ) {
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break;
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}
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SwapValues( base[child], base[parent] );
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child = parent;
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}
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}
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#endif
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// get sorted elements while maintaining heap order
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for ( unsigned int i = num - 1; i > 0; i-- ) {
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SwapValues( base[0], base[i] );
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// sift down
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unsigned int parent = 0;
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for ( unsigned int child = parent * 2 + 1; child < i; child = parent * 2 + 1 ) {
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if ( child + 1 < i && static_cast< const _derived_ * >( this )->Compare( base[child + 1], base[child] ) > 0 ) {
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child++;
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}
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if ( static_cast< const _derived_ * >( this )->Compare( base[child], base[parent] ) <= 0 ) {
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break;
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}
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SwapValues( base[parent], base[child] );
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parent = child;
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}
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}
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}
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};
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/*
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================================================
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Default heap-sort comparison function that can
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be used to sort scalars from small to large.
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================================================
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*/
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template< typename _type_ >
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class idSort_HeapDefault : public idSort_Heap< _type_, idSort_HeapDefault< _type_ > > {
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public:
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int Compare( const _type_ & a, const _type_ & b ) const { return a - b; }
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};
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/*
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================================================
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idSort_Insertion is a sort template class that implements the
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insertion-sort algorithm on an array of objects of the specified data type.
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================================================
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*/
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template< typename _type_, typename _derived_ >
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class idSort_Insertion : public idSort< _type_ > {
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public:
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virtual void Sort( _type_ * base, unsigned int num ) const {
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_type_ * lo = base;
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_type_ * hi = base + ( num - 1 );
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while( hi > lo ) {
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_type_ * max = lo;
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for ( _type_ * p = lo + 1; p <= hi; p++ ) {
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if ( static_cast< const _derived_ * >( this )->Compare( (*p), (*max) ) > 0 ) {
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max = p;
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}
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}
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SwapValues( *max, *hi );
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hi--;
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}
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}
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};
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/*
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================================================
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Default insertion-sort comparison function that can
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be used to sort scalars from small to large.
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================================================
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*/
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template< typename _type_ >
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class idSort_InsertionDefault : public idSort_Insertion< _type_, idSort_InsertionDefault< _type_ > > {
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public:
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int Compare( const _type_ & a, const _type_ & b ) const { return a - b; }
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};
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#endif // !__SORT_H__
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