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source: code/branches/pickups2/src/bullet/BulletCollision/Gimpact/btGenericPoolAllocator.cpp @ 3011

Last change on this file since 3011 was 2662, checked in by rgrieder, 16 years ago

Merged presentation branch back to trunk.

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1/*! \file btGenericPoolAllocator.cpp
2\author Francisco Len Nßjera. email projectileman@yahoo.com
3
4General purpose allocator class
5*/
6/*
7Bullet Continuous Collision Detection and Physics Library
8Copyright (c) 2003-2006 Erwin Coumans  http://continuousphysics.com/Bullet/
9
10This software is provided 'as-is', without any express or implied warranty.
11In no event will the authors be held liable for any damages arising from the use of this software.
12Permission is granted to anyone to use this software for any purpose,
13including commercial applications, and to alter it and redistribute it freely,
14subject to the following restrictions:
15
161. 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.
172. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software.
183. This notice may not be removed or altered from any source distribution.
19*/
20
21#include "btGenericPoolAllocator.h"
22
23
24
25/// *************** btGenericMemoryPool ******************///////////
26
27size_t btGenericMemoryPool::allocate_from_free_nodes(size_t num_elements)
28{
29        size_t ptr = BT_UINT_MAX;
30
31        if(m_free_nodes_count == 0) return BT_UINT_MAX;
32        // find an avaliable free node with the correct size
33        size_t revindex = m_free_nodes_count;
34
35        while(revindex-- && ptr == BT_UINT_MAX)
36        {
37                if(m_allocated_sizes[m_free_nodes[revindex]]>=num_elements)
38                {
39                        ptr = revindex;
40                }
41        }
42        if(ptr == BT_UINT_MAX) return BT_UINT_MAX; // not found
43
44
45        revindex = ptr;
46        ptr = m_free_nodes[revindex];
47        // post: ptr contains the node index, and revindex the index in m_free_nodes
48
49        size_t  finalsize = m_allocated_sizes[ptr];
50        finalsize -= num_elements;
51
52        m_allocated_sizes[ptr] = num_elements;
53
54        // post: finalsize>=0, m_allocated_sizes[ptr] has the requested size
55
56        if(finalsize>0) // preserve free node, there are some free memory
57        {
58                m_free_nodes[revindex] = ptr + num_elements;
59                m_allocated_sizes[ptr + num_elements] = finalsize;
60        }
61        else // delete free node
62        {
63                // swap with end
64                m_free_nodes[revindex] = m_free_nodes[m_free_nodes_count-1];
65                m_free_nodes_count--;
66        }
67
68        return ptr;
69}
70
71size_t btGenericMemoryPool::allocate_from_pool(size_t num_elements)
72{
73        if(m_allocated_count+num_elements>m_max_element_count) return BT_UINT_MAX;
74
75        size_t ptr = m_allocated_count;
76
77        m_allocated_sizes[m_allocated_count] = num_elements;
78        m_allocated_count+=num_elements;
79
80        return ptr;
81}
82
83
84void btGenericMemoryPool::init_pool(size_t element_size, size_t element_count)
85{
86        m_allocated_count = 0;
87        m_free_nodes_count = 0;
88
89        m_element_size = element_size;
90        m_max_element_count = element_count;
91
92
93
94
95        m_pool = (unsigned char *) btAlignedAlloc(m_element_size*m_max_element_count,16);
96        m_free_nodes = (size_t *) btAlignedAlloc(sizeof(size_t)*m_max_element_count,16);
97        m_allocated_sizes = (size_t *) btAlignedAlloc(sizeof(size_t)*m_max_element_count,16);
98
99        for (size_t i = 0;i< m_max_element_count;i++ )
100        {
101                m_allocated_sizes[i] = 0;
102        }
103}
104
105void btGenericMemoryPool::end_pool()
106{
107        btAlignedFree(m_pool);
108        btAlignedFree(m_free_nodes);
109        btAlignedFree(m_allocated_sizes);
110        m_allocated_count = 0;
111        m_free_nodes_count = 0;
112}
113
114
115//! Allocates memory in pool
116/*!
117\param size_bytes size in bytes of the buffer
118*/
119void * btGenericMemoryPool::allocate(size_t size_bytes)
120{
121
122        size_t module = size_bytes%m_element_size;
123        size_t element_count = size_bytes/m_element_size;
124        if(module>0) element_count++;
125
126        size_t alloc_pos = allocate_from_free_nodes(element_count);
127        // a free node is found
128        if(alloc_pos != BT_UINT_MAX)
129        {
130                return get_element_data(alloc_pos);
131        }
132        // allocate directly on pool
133        alloc_pos = allocate_from_pool(element_count);
134
135        if(alloc_pos == BT_UINT_MAX) return NULL; // not space
136        return get_element_data(alloc_pos);
137}
138
139bool btGenericMemoryPool::freeMemory(void * pointer)
140{
141        unsigned char * pointer_pos = (unsigned char *)pointer;
142        unsigned char * pool_pos = (unsigned char *)m_pool;
143        // calc offset
144        if(pointer_pos<pool_pos) return false;//other pool
145        size_t offset = size_t(pointer_pos - pool_pos);
146        if(offset>=get_pool_capacity()) return false;// far away
147
148        // find free position
149        m_free_nodes[m_free_nodes_count] = offset/m_element_size;
150        m_free_nodes_count++;
151        return true;
152}
153
154
155/// *******************! btGenericPoolAllocator *******************!///
156
157
158btGenericPoolAllocator::~btGenericPoolAllocator()
159{
160        // destroy pools
161        size_t i;
162        for (i=0;i<m_pool_count;i++)
163        {
164                m_pools[i]->end_pool();
165                btAlignedFree(m_pools[i]);
166        }
167}
168
169
170// creates a pool
171btGenericMemoryPool * btGenericPoolAllocator::push_new_pool()
172{
173        if(m_pool_count >= BT_DEFAULT_MAX_POOLS) return NULL;
174
175        btGenericMemoryPool * newptr = (btGenericMemoryPool *)btAlignedAlloc(sizeof(btGenericMemoryPool),16);
176
177        m_pools[m_pool_count] = newptr;
178
179        m_pools[m_pool_count]->init_pool(m_pool_element_size,m_pool_element_count);
180
181        m_pool_count++;
182        return newptr;
183}
184
185void * btGenericPoolAllocator::failback_alloc(size_t size_bytes)
186{
187
188        btGenericMemoryPool * pool = NULL;
189
190
191        if(size_bytes<=get_pool_capacity())
192        {
193                pool =  push_new_pool();
194        }
195
196        if(pool==NULL) // failback
197        {
198                return btAlignedAlloc(size_bytes,16);
199        }
200
201        return pool->allocate(size_bytes);
202}
203
204bool btGenericPoolAllocator::failback_free(void * pointer)
205{
206        btAlignedFree(pointer);
207        return true;
208}
209
210
211//! Allocates memory in pool
212/*!
213\param size_bytes size in bytes of the buffer
214*/
215void * btGenericPoolAllocator::allocate(size_t size_bytes)
216{
217        void * ptr = NULL;
218
219        size_t i = 0;
220        while(i<m_pool_count && ptr == NULL)
221        {
222                ptr = m_pools[i]->allocate(size_bytes);
223                ++i;
224        }
225
226        if(ptr) return ptr;
227
228        return failback_alloc(size_bytes);
229}
230
231bool btGenericPoolAllocator::freeMemory(void * pointer)
232{
233        bool result = false;
234
235        size_t i = 0;
236        while(i<m_pool_count && result == false)
237        {
238                result = m_pools[i]->freeMemory(pointer);
239                ++i;
240        }
241
242        if(result) return true;
243
244        return failback_free(pointer);
245}
246
247/// ************** STANDARD ALLOCATOR ***************************///
248
249
250#define BT_DEFAULT_POOL_SIZE 32768
251#define BT_DEFAULT_POOL_ELEMENT_SIZE 8
252
253// main allocator
254class GIM_STANDARD_ALLOCATOR: public btGenericPoolAllocator
255{
256public:
257        GIM_STANDARD_ALLOCATOR():btGenericPoolAllocator(BT_DEFAULT_POOL_ELEMENT_SIZE,BT_DEFAULT_POOL_SIZE)
258        {
259        }
260};
261
262// global allocator
263GIM_STANDARD_ALLOCATOR g_main_allocator;
264
265
266void * btPoolAlloc(size_t size)
267{
268        return g_main_allocator.allocate(size);
269}
270
271void * btPoolRealloc(void *ptr, size_t oldsize, size_t newsize)
272{
273        void * newptr = btPoolAlloc(newsize);
274    size_t copysize = oldsize<newsize?oldsize:newsize;
275    memcpy(newptr,ptr,copysize);
276    btPoolFree(ptr);
277    return newptr;
278}
279
280void btPoolFree(void *ptr)
281{
282        g_main_allocator.freeMemory(ptr);
283}
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