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source: code/trunk/src/external/bullet/LinearMath/btAlignedObjectArray.h @ 10739

Last change on this file since 10739 was 8393, checked in by rgrieder, 14 years ago

Updated Bullet from v2.77 to v2.78.
(I'm not going to make a branch for that since the update from 2.74 to 2.77 hasn't been tested that much either).

You will HAVE to do a complete RECOMPILE! I tested with MSVC and MinGW and they both threw linker errors at me.

Property svn:eol-style set to native

File size: 10.0 KB

Line
1	/*
2	Bullet Continuous Collision Detection and Physics Library
3	Copyright (c) 2003-2006 Erwin Coumans http://continuousphysics.com/Bullet/
4
5	This software is provided 'as-is', without any express or implied warranty.
6	In no event will the authors be held liable for any damages arising from the use of this software.
7	Permission is granted to anyone to use this software for any purpose,
8	including commercial applications, and to alter it and redistribute it freely,
9	subject to the following restrictions:
10
11	1. The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation would be appreciated but is not required.
12	2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software.
13	3. This notice may not be removed or altered from any source distribution.
14	*/
15
16
17	#ifndef BT_OBJECT_ARRAY__
18	#define BT_OBJECT_ARRAY__
19
20	#include "btScalar.h" // has definitions like SIMD_FORCE_INLINE
21	#include "btAlignedAllocator.h"
22
23	///If the platform doesn't support placement new, you can disable BT_USE_PLACEMENT_NEW
24	///then the btAlignedObjectArray doesn't support objects with virtual methods, and non-trivial constructors/destructors
25	///You can enable BT_USE_MEMCPY, then swapping elements in the array will use memcpy instead of operator=
26	///see discussion here: http://continuousphysics.com/Bullet/phpBB2/viewtopic.php?t=1231 and
27	///http://www.continuousphysics.com/Bullet/phpBB2/viewtopic.php?t=1240
28
29	#define BT_USE_PLACEMENT_NEW 1
30	//#define BT_USE_MEMCPY 1 //disable, because it is cumbersome to find out for each platform where memcpy is defined. It can be in <memory.h> or <string.h> or otherwise...
31
32	#ifdef BT_USE_MEMCPY
33	#include <memory.h>
34	#include <string.h>
35	#endif //BT_USE_MEMCPY
36
37	#ifdef BT_USE_PLACEMENT_NEW
38	#include <new> //for placement new
39	#endif //BT_USE_PLACEMENT_NEW
40
41
42	///The btAlignedObjectArray template class uses a subset of the stl::vector interface for its methods
43	///It is developed to replace stl::vector to avoid portability issues, including STL alignment issues to add SIMD/SSE data
44	template <typename T>
45	//template <class T>
46	class btAlignedObjectArray
47	{
48	btAlignedAllocator<T , 16> m_allocator;
49
50	int m_size;
51	int m_capacity;
52	T* m_data;
53	//PCK: added this line
54	bool m_ownsMemory;
55
56	protected:
57	SIMD_FORCE_INLINE int allocSize(int size)
58	{
59	return (size ? size*2 : 1);
60	}
61	SIMD_FORCE_INLINE void copy(int start,int end, T* dest) const
62	{
63	int i;
64	for (i=start;i<end;++i)
65	#ifdef BT_USE_PLACEMENT_NEW
66	new (&dest[i]) T(m_data[i]);
67	#else
68	dest[i] = m_data[i];
69	#endif //BT_USE_PLACEMENT_NEW
70	}
71
72	SIMD_FORCE_INLINE void init()
73	{
74	//PCK: added this line
75	m_ownsMemory = true;
76	m_data = 0;
77	m_size = 0;
78	m_capacity = 0;
79	}
80	SIMD_FORCE_INLINE void destroy(int first,int last)
81	{
82	int i;
83	for (i=first; i<last;i++)
84	{
85	m_data[i].~T();
86	}
87	}
88
89	SIMD_FORCE_INLINE void* allocate(int size)
90	{
91	if (size)
92	return m_allocator.allocate(size);
93	return 0;
94	}
95
96	SIMD_FORCE_INLINE void deallocate()
97	{
98	if(m_data) {
99	//PCK: enclosed the deallocation in this block
100	if (m_ownsMemory)
101	{
102	m_allocator.deallocate(m_data);
103	}
104	m_data = 0;
105	}
106	}
107
108
109
110
111	public:
112
113	btAlignedObjectArray()
114	{
115	init();
116	}
117
118	~btAlignedObjectArray()
119	{
120	clear();
121	}
122
123	///Generally it is best to avoid using the copy constructor of an btAlignedObjectArray, and use a (const) reference to the array instead.
124	btAlignedObjectArray(const btAlignedObjectArray& otherArray)
125	{
126	init();
127
128	int otherSize = otherArray.size();
129	resize (otherSize);
130	otherArray.copy(0, otherSize, m_data);
131	}
132
133
134
135	/// return the number of elements in the array
136	SIMD_FORCE_INLINE int size() const
137	{
138	return m_size;
139	}
140
141	SIMD_FORCE_INLINE const T& at(int n) const
142	{
143	return m_data[n];
144	}
145
146	SIMD_FORCE_INLINE T& at(int n)
147	{
148	return m_data[n];
149	}
150
151	SIMD_FORCE_INLINE const T& operator[](int n) const
152	{
153	return m_data[n];
154	}
155
156	SIMD_FORCE_INLINE T& operator[](int n)
157	{
158	return m_data[n];
159	}
160
161
162	///clear the array, deallocated memory. Generally it is better to use array.resize(0), to reduce performance overhead of run-time memory (de)allocations.
163	SIMD_FORCE_INLINE void clear()
164	{
165	destroy(0,size());
166
167	deallocate();
168
169	init();
170	}
171
172	SIMD_FORCE_INLINE void pop_back()
173	{
174	m_size--;
175	m_data[m_size].~T();
176	}
177
178	///resize changes the number of elements in the array. If the new size is larger, the new elements will be constructed using the optional second argument.
179	///when the new number of elements is smaller, the destructor will be called, but memory will not be freed, to reduce performance overhead of run-time memory (de)allocations.
180	SIMD_FORCE_INLINE void resize(int newsize, const T& fillData=T())
181	{
182	int curSize = size();
183
184	if (newsize < curSize)
185	{
186	for(int i = newsize; i < curSize; i++)
187	{
188	m_data[i].~T();
189	}
190	} else
191	{
192	if (newsize > size())
193	{
194	reserve(newsize);
195	}
196	#ifdef BT_USE_PLACEMENT_NEW
197	for (int i=curSize;i<newsize;i++)
198	{
199	new ( &m_data[i]) T(fillData);
200	}
201	#endif //BT_USE_PLACEMENT_NEW
202
203	}
204
205	m_size = newsize;
206	}
207
208	SIMD_FORCE_INLINE T& expandNonInitializing( )
209	{
210	int sz = size();
211	if( sz == capacity() )
212	{
213	reserve( allocSize(size()) );
214	}
215	m_size++;
216
217	return m_data[sz];
218	}
219
220
221	SIMD_FORCE_INLINE T& expand( const T& fillValue=T())
222	{
223	int sz = size();
224	if( sz == capacity() )
225	{
226	reserve( allocSize(size()) );
227	}
228	m_size++;
229	#ifdef BT_USE_PLACEMENT_NEW
230	new (&m_data[sz]) T(fillValue); //use the in-place new (not really allocating heap memory)
231	#endif
232
233	return m_data[sz];
234	}
235
236
237	SIMD_FORCE_INLINE void push_back(const T& _Val)
238	{
239	int sz = size();
240	if( sz == capacity() )
241	{
242	reserve( allocSize(size()) );
243	}
244
245	#ifdef BT_USE_PLACEMENT_NEW
246	new ( &m_data[m_size] ) T(_Val);
247	#else
248	m_data[size()] = _Val;
249	#endif //BT_USE_PLACEMENT_NEW
250
251	m_size++;
252	}
253
254
255	/// return the pre-allocated (reserved) elements, this is at least as large as the total number of elements,see size() and reserve()
256	SIMD_FORCE_INLINE int capacity() const
257	{
258	return m_capacity;
259	}
260
261	SIMD_FORCE_INLINE void reserve(int _Count)
262	{ // determine new minimum length of allocated storage
263	if (capacity() < _Count)
264	{ // not enough room, reallocate
265	T* s = (T*)allocate(_Count);
266
267	copy(0, size(), s);
268
269	destroy(0,size());
270
271	deallocate();
272
273	//PCK: added this line
274	m_ownsMemory = true;
275
276	m_data = s;
277
278	m_capacity = _Count;
279
280	}
281	}
282
283
284	class less
285	{
286	public:
287
288	bool operator() ( const T& a, const T& b )
289	{
290	return ( a < b );
291	}
292	};
293
294	template <typename L>
295	void quickSortInternal(L CompareFunc,int lo, int hi)
296	{
297	// lo is the lower index, hi is the upper index
298	// of the region of array a that is to be sorted
299	int i=lo, j=hi;
300	T x=m_data[(lo+hi)/2];
301
302	// partition
303	do
304	{
305	while (CompareFunc(m_data[i],x))
306	i++;
307	while (CompareFunc(x,m_data[j]))
308	j--;
309	if (i<=j)
310	{
311	swap(i,j);
312	i++; j--;
313	}
314	} while (i<=j);
315
316	// recursion
317	if (lo<j)
318	quickSortInternal( CompareFunc, lo, j);
319	if (i<hi)
320	quickSortInternal( CompareFunc, i, hi);
321	}
322
323
324	template <typename L>
325	void quickSort(L CompareFunc)
326	{
327	//don't sort 0 or 1 elements
328	if (size()>1)
329	{
330	quickSortInternal(CompareFunc,0,size()-1);
331	}
332	}
333
334
335	///heap sort from http://www.csse.monash.edu.au/~lloyd/tildeAlgDS/Sort/Heap/
336	template <typename L>
337	void downHeap(T *pArr, int k, int n,L CompareFunc)
338	{
339	/* PRE: a[k+1..N] is a heap */
340	/* POST: a[k..N] is a heap */
341
342	T temp = pArr[k - 1];
343	/* k has child(s) */
344	while (k <= n/2)
345	{
346	int child = 2*k;
347
348	if ((child < n) && CompareFunc(pArr[child - 1] , pArr[child]))
349	{
350	child++;
351	}
352	/* pick larger child */
353	if (CompareFunc(temp , pArr[child - 1]))
354	{
355	/* move child up */
356	pArr[k - 1] = pArr[child - 1];
357	k = child;
358	}
359	else
360	{
361	break;
362	}
363	}
364	pArr[k - 1] = temp;
365	} /downHeap/
366
367	void swap(int index0,int index1)
368	{
369	#ifdef BT_USE_MEMCPY
370	char temp[sizeof(T)];
371	memcpy(temp,&m_data[index0],sizeof(T));
372	memcpy(&m_data[index0],&m_data[index1],sizeof(T));
373	memcpy(&m_data[index1],temp,sizeof(T));
374	#else
375	T temp = m_data[index0];
376	m_data[index0] = m_data[index1];
377	m_data[index1] = temp;
378	#endif //BT_USE_PLACEMENT_NEW
379
380	}
381
382	template <typename L>
383	void heapSort(L CompareFunc)
384	{
385	/* sort a[0..N-1], N.B. 0 to N-1 */
386	int k;
387	int n = m_size;
388	for (k = n/2; k > 0; k--)
389	{
390	downHeap(m_data, k, n, CompareFunc);
391	}
392
393	/* a[1..N] is now a heap */
394	while ( n>=1 )
395	{
396	swap(0,n-1); /* largest of a[0..n-1] */
397
398
399	n = n - 1;
400	/* restore a[1..i-1] heap */
401	downHeap(m_data, 1, n, CompareFunc);
402	}
403	}
404
405	///non-recursive binary search, assumes sorted array
406	int findBinarySearch(const T& key) const
407	{
408	int first = 0;
409	int last = size()-1;
410
411	//assume sorted array
412	while (first <= last) {
413	int mid = (first + last) / 2; // compute mid point.
414	if (key > m_data[mid])
415	first = mid + 1; // repeat search in top half.
416	else if (key < m_data[mid])
417	last = mid - 1; // repeat search in bottom half.
418	else
419	return mid; // found it. return position /////
420	}
421	return size(); // failed to find key
422	}
423
424
425	int findLinearSearch(const T& key) const
426	{
427	int index=size();
428	int i;
429
430	for (i=0;i<size();i++)
431	{
432	if (m_data[i] == key)
433	{
434	index = i;
435	break;
436	}
437	}
438	return index;
439	}
440
441	void remove(const T& key)
442	{
443
444	int findIndex = findLinearSearch(key);
445	if (findIndex<size())
446	{
447	swap( findIndex,size()-1);
448	pop_back();
449	}
450	}
451
452	//PCK: whole function
453	void initializeFromBuffer(void *buffer, int size, int capacity)
454	{
455	clear();
456	m_ownsMemory = false;
457	m_data = (T*)buffer;
458	m_size = size;
459	m_capacity = capacity;
460	}
461
462	void copyFromArray(const btAlignedObjectArray& otherArray)
463	{
464	int otherSize = otherArray.size();
465	resize (otherSize);
466	otherArray.copy(0, otherSize, m_data);
467	}
468
469	};
470
471	#endif //BT_OBJECT_ARRAY__

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