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/*
Bullet Continuous Collision Detection and Physics Library
2022-01-06 22:37:49 +00:00
Copyright ( c ) 2003 - 2006 Erwin Coumans https : //bulletphysics.org
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This software is provided ' as - is ' , without any express or implied warranty .
In no event will the authors be held liable for any damages arising from the use of this software .
Permission is granted to anyone to use this software for any purpose ,
including commercial applications , and to alter it and redistribute it freely ,
subject to the following restrictions :
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 .
2. Altered source versions must be plainly marked as such , and must not be misrepresented as being the original software .
3. This notice may not be removed or altered from any source distribution .
*/
# include "btOverlappingPairCache.h"
# include "btDispatcher.h"
# include "btCollisionAlgorithm.h"
# include "LinearMath/btAabbUtil2.h"
# include <stdio.h>
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btHashedOverlappingPairCache : : btHashedOverlappingPairCache ( ) : m_overlapFilterCallback ( 0 ) ,
m_ghostPairCallback ( 0 )
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{
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int initialAllocatedSize = 2 ;
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m_overlappingPairArray . reserve ( initialAllocatedSize ) ;
growTables ( ) ;
}
btHashedOverlappingPairCache : : ~ btHashedOverlappingPairCache ( )
{
}
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void btHashedOverlappingPairCache : : cleanOverlappingPair ( btBroadphasePair & pair , btDispatcher * dispatcher )
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{
if ( pair . m_algorithm & & dispatcher )
{
{
pair . m_algorithm - > ~ btCollisionAlgorithm ( ) ;
dispatcher - > freeCollisionAlgorithm ( pair . m_algorithm ) ;
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pair . m_algorithm = 0 ;
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}
}
}
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void btHashedOverlappingPairCache : : cleanProxyFromPairs ( btBroadphaseProxy * proxy , btDispatcher * dispatcher )
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{
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class CleanPairCallback : public btOverlapCallback
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{
btBroadphaseProxy * m_cleanProxy ;
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btOverlappingPairCache * m_pairCache ;
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btDispatcher * m_dispatcher ;
public :
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CleanPairCallback ( btBroadphaseProxy * cleanProxy , btOverlappingPairCache * pairCache , btDispatcher * dispatcher )
: m_cleanProxy ( cleanProxy ) ,
m_pairCache ( pairCache ) ,
m_dispatcher ( dispatcher )
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{
}
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virtual bool processOverlap ( btBroadphasePair & pair )
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{
if ( ( pair . m_pProxy0 = = m_cleanProxy ) | |
( pair . m_pProxy1 = = m_cleanProxy ) )
{
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m_pairCache - > cleanOverlappingPair ( pair , m_dispatcher ) ;
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}
return false ;
}
} ;
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CleanPairCallback cleanPairs ( proxy , this , dispatcher ) ;
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processAllOverlappingPairs ( & cleanPairs , dispatcher ) ;
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}
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void btHashedOverlappingPairCache : : removeOverlappingPairsContainingProxy ( btBroadphaseProxy * proxy , btDispatcher * dispatcher )
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{
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class RemovePairCallback : public btOverlapCallback
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{
btBroadphaseProxy * m_obsoleteProxy ;
public :
RemovePairCallback ( btBroadphaseProxy * obsoleteProxy )
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: m_obsoleteProxy ( obsoleteProxy )
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{
}
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virtual bool processOverlap ( btBroadphasePair & pair )
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{
return ( ( pair . m_pProxy0 = = m_obsoleteProxy ) | |
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( pair . m_pProxy1 = = m_obsoleteProxy ) ) ;
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}
} ;
RemovePairCallback removeCallback ( proxy ) ;
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processAllOverlappingPairs ( & removeCallback , dispatcher ) ;
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}
btBroadphasePair * btHashedOverlappingPairCache : : findPair ( btBroadphaseProxy * proxy0 , btBroadphaseProxy * proxy1 )
{
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if ( proxy0 - > m_uniqueId > proxy1 - > m_uniqueId )
btSwap ( proxy0 , proxy1 ) ;
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int proxyId1 = proxy0 - > getUid ( ) ;
int proxyId2 = proxy1 - > getUid ( ) ;
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/*if (proxyId1 > proxyId2)
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btSwap ( proxyId1 , proxyId2 ) ; */
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int hash = static_cast < int > ( getHash ( static_cast < unsigned int > ( proxyId1 ) , static_cast < unsigned int > ( proxyId2 ) ) & ( m_overlappingPairArray . capacity ( ) - 1 ) ) ;
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if ( hash > = m_hashTable . size ( ) )
{
return NULL ;
}
int index = m_hashTable [ hash ] ;
while ( index ! = BT_NULL_PAIR & & equalsPair ( m_overlappingPairArray [ index ] , proxyId1 , proxyId2 ) = = false )
{
index = m_next [ index ] ;
}
if ( index = = BT_NULL_PAIR )
{
return NULL ;
}
btAssert ( index < m_overlappingPairArray . size ( ) ) ;
return & m_overlappingPairArray [ index ] ;
}
//#include <stdio.h>
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void btHashedOverlappingPairCache : : growTables ( )
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{
int newCapacity = m_overlappingPairArray . capacity ( ) ;
if ( m_hashTable . size ( ) < newCapacity )
{
//grow hashtable and next table
int curHashtableSize = m_hashTable . size ( ) ;
m_hashTable . resize ( newCapacity ) ;
m_next . resize ( newCapacity ) ;
int i ;
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for ( i = 0 ; i < newCapacity ; + + i )
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{
m_hashTable [ i ] = BT_NULL_PAIR ;
}
for ( i = 0 ; i < newCapacity ; + + i )
{
m_next [ i ] = BT_NULL_PAIR ;
}
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for ( i = 0 ; i < curHashtableSize ; i + + )
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{
const btBroadphasePair & pair = m_overlappingPairArray [ i ] ;
int proxyId1 = pair . m_pProxy0 - > getUid ( ) ;
int proxyId2 = pair . m_pProxy1 - > getUid ( ) ;
/*if (proxyId1 > proxyId2)
btSwap ( proxyId1 , proxyId2 ) ; */
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int hashValue = static_cast < int > ( getHash ( static_cast < unsigned int > ( proxyId1 ) , static_cast < unsigned int > ( proxyId2 ) ) & ( m_overlappingPairArray . capacity ( ) - 1 ) ) ; // New hash value with new mask
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m_next [ i ] = m_hashTable [ hashValue ] ;
m_hashTable [ hashValue ] = i ;
}
}
}
btBroadphasePair * btHashedOverlappingPairCache : : internalAddPair ( btBroadphaseProxy * proxy0 , btBroadphaseProxy * proxy1 )
{
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if ( proxy0 - > m_uniqueId > proxy1 - > m_uniqueId )
btSwap ( proxy0 , proxy1 ) ;
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int proxyId1 = proxy0 - > getUid ( ) ;
int proxyId2 = proxy1 - > getUid ( ) ;
/*if (proxyId1 > proxyId2)
btSwap ( proxyId1 , proxyId2 ) ; */
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int hash = static_cast < int > ( getHash ( static_cast < unsigned int > ( proxyId1 ) , static_cast < unsigned int > ( proxyId2 ) ) & ( m_overlappingPairArray . capacity ( ) - 1 ) ) ; // New hash value with new mask
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btBroadphasePair * pair = internalFindPair ( proxy0 , proxy1 , hash ) ;
if ( pair ! = NULL )
{
return pair ;
}
/*for(int i=0;i<m_overlappingPairArray.size();++i)
{
if ( ( m_overlappingPairArray [ i ] . m_pProxy0 = = proxy0 ) & &
( m_overlappingPairArray [ i ] . m_pProxy1 = = proxy1 ) )
{
printf ( " Adding duplicated %u<>%u \r \n " , proxyId1 , proxyId2 ) ;
internalFindPair ( proxy0 , proxy1 , hash ) ;
}
} */
int count = m_overlappingPairArray . size ( ) ;
int oldCapacity = m_overlappingPairArray . capacity ( ) ;
void * mem = & m_overlappingPairArray . expandNonInitializing ( ) ;
//this is where we add an actual pair, so also call the 'ghost'
if ( m_ghostPairCallback )
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m_ghostPairCallback - > addOverlappingPair ( proxy0 , proxy1 ) ;
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int newCapacity = m_overlappingPairArray . capacity ( ) ;
if ( oldCapacity < newCapacity )
{
growTables ( ) ;
//hash with new capacity
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hash = static_cast < int > ( getHash ( static_cast < unsigned int > ( proxyId1 ) , static_cast < unsigned int > ( proxyId2 ) ) & ( m_overlappingPairArray . capacity ( ) - 1 ) ) ;
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}
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pair = new ( mem ) btBroadphasePair ( * proxy0 , * proxy1 ) ;
// pair->m_pProxy0 = proxy0;
// pair->m_pProxy1 = proxy1;
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pair - > m_algorithm = 0 ;
pair - > m_internalTmpValue = 0 ;
m_next [ count ] = m_hashTable [ hash ] ;
m_hashTable [ hash ] = count ;
return pair ;
}
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void * btHashedOverlappingPairCache : : removeOverlappingPair ( btBroadphaseProxy * proxy0 , btBroadphaseProxy * proxy1 , btDispatcher * dispatcher )
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{
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if ( proxy0 - > m_uniqueId > proxy1 - > m_uniqueId )
btSwap ( proxy0 , proxy1 ) ;
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int proxyId1 = proxy0 - > getUid ( ) ;
int proxyId2 = proxy1 - > getUid ( ) ;
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/*if (proxyId1 > proxyId2)
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btSwap ( proxyId1 , proxyId2 ) ; */
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int hash = static_cast < int > ( getHash ( static_cast < unsigned int > ( proxyId1 ) , static_cast < unsigned int > ( proxyId2 ) ) & ( m_overlappingPairArray . capacity ( ) - 1 ) ) ;
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btBroadphasePair * pair = internalFindPair ( proxy0 , proxy1 , hash ) ;
if ( pair = = NULL )
{
return 0 ;
}
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cleanOverlappingPair ( * pair , dispatcher ) ;
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void * userData = pair - > m_internalInfo1 ;
btAssert ( pair - > m_pProxy0 - > getUid ( ) = = proxyId1 ) ;
btAssert ( pair - > m_pProxy1 - > getUid ( ) = = proxyId2 ) ;
int pairIndex = int ( pair - & m_overlappingPairArray [ 0 ] ) ;
btAssert ( pairIndex < m_overlappingPairArray . size ( ) ) ;
// Remove the pair from the hash table.
int index = m_hashTable [ hash ] ;
btAssert ( index ! = BT_NULL_PAIR ) ;
int previous = BT_NULL_PAIR ;
while ( index ! = pairIndex )
{
previous = index ;
index = m_next [ index ] ;
}
if ( previous ! = BT_NULL_PAIR )
{
btAssert ( m_next [ previous ] = = pairIndex ) ;
m_next [ previous ] = m_next [ pairIndex ] ;
}
else
{
m_hashTable [ hash ] = m_next [ pairIndex ] ;
}
// We now move the last pair into spot of the
// pair being removed. We need to fix the hash
// table indices to support the move.
int lastPairIndex = m_overlappingPairArray . size ( ) - 1 ;
if ( m_ghostPairCallback )
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m_ghostPairCallback - > removeOverlappingPair ( proxy0 , proxy1 , dispatcher ) ;
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// If the removed pair is the last pair, we are done.
if ( lastPairIndex = = pairIndex )
{
m_overlappingPairArray . pop_back ( ) ;
return userData ;
}
// Remove the last pair from the hash table.
const btBroadphasePair * last = & m_overlappingPairArray [ lastPairIndex ] ;
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/* missing swap here too, Nat. */
int lastHash = static_cast < int > ( getHash ( static_cast < unsigned int > ( last - > m_pProxy0 - > getUid ( ) ) , static_cast < unsigned int > ( last - > m_pProxy1 - > getUid ( ) ) ) & ( m_overlappingPairArray . capacity ( ) - 1 ) ) ;
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index = m_hashTable [ lastHash ] ;
btAssert ( index ! = BT_NULL_PAIR ) ;
previous = BT_NULL_PAIR ;
while ( index ! = lastPairIndex )
{
previous = index ;
index = m_next [ index ] ;
}
if ( previous ! = BT_NULL_PAIR )
{
btAssert ( m_next [ previous ] = = lastPairIndex ) ;
m_next [ previous ] = m_next [ lastPairIndex ] ;
}
else
{
m_hashTable [ lastHash ] = m_next [ lastPairIndex ] ;
}
// Copy the last pair into the remove pair's spot.
m_overlappingPairArray [ pairIndex ] = m_overlappingPairArray [ lastPairIndex ] ;
// Insert the last pair into the hash table
m_next [ pairIndex ] = m_hashTable [ lastHash ] ;
m_hashTable [ lastHash ] = pairIndex ;
m_overlappingPairArray . pop_back ( ) ;
return userData ;
}
//#include <stdio.h>
# include "LinearMath/btQuickprof.h"
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void btHashedOverlappingPairCache : : processAllOverlappingPairs ( btOverlapCallback * callback , btDispatcher * dispatcher )
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{
BT_PROFILE ( " btHashedOverlappingPairCache::processAllOverlappingPairs " ) ;
int i ;
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// printf("m_overlappingPairArray.size()=%d\n",m_overlappingPairArray.size());
for ( i = 0 ; i < m_overlappingPairArray . size ( ) ; )
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{
btBroadphasePair * pair = & m_overlappingPairArray [ i ] ;
if ( callback - > processOverlap ( * pair ) )
{
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removeOverlappingPair ( pair - > m_pProxy0 , pair - > m_pProxy1 , dispatcher ) ;
}
else
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{
i + + ;
}
}
}
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struct MyPairIndex
{
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int m_orgIndex ;
int m_uidA0 ;
int m_uidA1 ;
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} ;
class MyPairIndeSortPredicate
{
public :
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bool operator ( ) ( const MyPairIndex & a , const MyPairIndex & b ) const
{
const int uidA0 = a . m_uidA0 ;
const int uidB0 = b . m_uidA0 ;
const int uidA1 = a . m_uidA1 ;
const int uidB1 = b . m_uidA1 ;
return uidA0 > uidB0 | | ( uidA0 = = uidB0 & & uidA1 > uidB1 ) ;
}
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} ;
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void btHashedOverlappingPairCache : : processAllOverlappingPairs ( btOverlapCallback * callback , btDispatcher * dispatcher , const struct btDispatcherInfo & dispatchInfo )
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{
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if ( dispatchInfo . m_deterministicOverlappingPairs )
{
btBroadphasePairArray & pa = getOverlappingPairArray ( ) ;
btAlignedObjectArray < MyPairIndex > indices ;
{
BT_PROFILE ( " sortOverlappingPairs " ) ;
indices . resize ( pa . size ( ) ) ;
for ( int i = 0 ; i < indices . size ( ) ; i + + )
{
const btBroadphasePair & p = pa [ i ] ;
const int uidA0 = p . m_pProxy0 ? p . m_pProxy0 - > m_uniqueId : - 1 ;
const int uidA1 = p . m_pProxy1 ? p . m_pProxy1 - > m_uniqueId : - 1 ;
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indices [ i ] . m_uidA0 = uidA0 ;
indices [ i ] . m_uidA1 = uidA1 ;
indices [ i ] . m_orgIndex = i ;
}
indices . quickSort ( MyPairIndeSortPredicate ( ) ) ;
}
{
BT_PROFILE ( " btHashedOverlappingPairCache::processAllOverlappingPairs " ) ;
int i ;
for ( i = 0 ; i < indices . size ( ) ; )
{
btBroadphasePair * pair = & pa [ indices [ i ] . m_orgIndex ] ;
if ( callback - > processOverlap ( * pair ) )
{
removeOverlappingPair ( pair - > m_pProxy0 , pair - > m_pProxy1 , dispatcher ) ;
}
else
{
i + + ;
}
}
}
}
else
{
processAllOverlappingPairs ( callback , dispatcher ) ;
}
}
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void btHashedOverlappingPairCache : : sortOverlappingPairs ( btDispatcher * dispatcher )
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{
///need to keep hashmap in sync with pair address, so rebuild all
btBroadphasePairArray tmpPairs ;
int i ;
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for ( i = 0 ; i < m_overlappingPairArray . size ( ) ; i + + )
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{
tmpPairs . push_back ( m_overlappingPairArray [ i ] ) ;
}
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for ( i = 0 ; i < tmpPairs . size ( ) ; i + + )
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{
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removeOverlappingPair ( tmpPairs [ i ] . m_pProxy0 , tmpPairs [ i ] . m_pProxy1 , dispatcher ) ;
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}
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for ( i = 0 ; i < m_next . size ( ) ; i + + )
{
m_next [ i ] = BT_NULL_PAIR ;
}
tmpPairs . quickSort ( btBroadphasePairSortPredicate ( ) ) ;
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for ( i = 0 ; i < tmpPairs . size ( ) ; i + + )
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{
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addOverlappingPair ( tmpPairs [ i ] . m_pProxy0 , tmpPairs [ i ] . m_pProxy1 ) ;
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}
}
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void * btSortedOverlappingPairCache : : removeOverlappingPair ( btBroadphaseProxy * proxy0 , btBroadphaseProxy * proxy1 , btDispatcher * dispatcher )
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{
if ( ! hasDeferredRemoval ( ) )
{
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btBroadphasePair findPair ( * proxy0 , * proxy1 ) ;
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int findIndex = m_overlappingPairArray . findLinearSearch ( findPair ) ;
if ( findIndex < m_overlappingPairArray . size ( ) )
{
btBroadphasePair & pair = m_overlappingPairArray [ findIndex ] ;
void * userData = pair . m_internalInfo1 ;
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cleanOverlappingPair ( pair , dispatcher ) ;
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if ( m_ghostPairCallback )
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m_ghostPairCallback - > removeOverlappingPair ( proxy0 , proxy1 , dispatcher ) ;
m_overlappingPairArray . swap ( findIndex , m_overlappingPairArray . capacity ( ) - 1 ) ;
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m_overlappingPairArray . pop_back ( ) ;
return userData ;
}
}
return 0 ;
}
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btBroadphasePair * btSortedOverlappingPairCache : : addOverlappingPair ( btBroadphaseProxy * proxy0 , btBroadphaseProxy * proxy1 )
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{
//don't add overlap with own
btAssert ( proxy0 ! = proxy1 ) ;
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if ( ! needsBroadphaseCollision ( proxy0 , proxy1 ) )
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return 0 ;
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void * mem = & m_overlappingPairArray . expandNonInitializing ( ) ;
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btBroadphasePair * pair = new ( mem ) btBroadphasePair ( * proxy0 , * proxy1 ) ;
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if ( m_ghostPairCallback )
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m_ghostPairCallback - > addOverlappingPair ( proxy0 , proxy1 ) ;
return pair ;
}
///this findPair becomes really slow. Either sort the list to speedup the query, or
///use a different solution. It is mainly used for Removing overlapping pairs. Removal could be delayed.
///we could keep a linked list in each proxy, and store pair in one of the proxies (with lowest memory address)
///Also we can use a 2D bitmap, which can be useful for a future GPU implementation
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btBroadphasePair * btSortedOverlappingPairCache : : findPair ( btBroadphaseProxy * proxy0 , btBroadphaseProxy * proxy1 )
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{
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if ( ! needsBroadphaseCollision ( proxy0 , proxy1 ) )
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return 0 ;
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btBroadphasePair tmpPair ( * proxy0 , * proxy1 ) ;
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int findIndex = m_overlappingPairArray . findLinearSearch ( tmpPair ) ;
if ( findIndex < m_overlappingPairArray . size ( ) )
{
//btAssert(it != m_overlappingPairSet.end());
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btBroadphasePair * pair = & m_overlappingPairArray [ findIndex ] ;
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return pair ;
}
return 0 ;
}
//#include <stdio.h>
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void btSortedOverlappingPairCache : : processAllOverlappingPairs ( btOverlapCallback * callback , btDispatcher * dispatcher )
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{
int i ;
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for ( i = 0 ; i < m_overlappingPairArray . size ( ) ; )
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{
btBroadphasePair * pair = & m_overlappingPairArray [ i ] ;
if ( callback - > processOverlap ( * pair ) )
{
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cleanOverlappingPair ( * pair , dispatcher ) ;
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pair - > m_pProxy0 = 0 ;
pair - > m_pProxy1 = 0 ;
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m_overlappingPairArray . swap ( i , m_overlappingPairArray . size ( ) - 1 ) ;
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m_overlappingPairArray . pop_back ( ) ;
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}
else
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{
i + + ;
}
}
}
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btSortedOverlappingPairCache : : btSortedOverlappingPairCache ( ) : m_blockedForChanges ( false ) ,
m_hasDeferredRemoval ( true ) ,
m_overlapFilterCallback ( 0 ) ,
m_ghostPairCallback ( 0 )
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{
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int initialAllocatedSize = 2 ;
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m_overlappingPairArray . reserve ( initialAllocatedSize ) ;
}
btSortedOverlappingPairCache : : ~ btSortedOverlappingPairCache ( )
{
}
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void btSortedOverlappingPairCache : : cleanOverlappingPair ( btBroadphasePair & pair , btDispatcher * dispatcher )
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{
if ( pair . m_algorithm )
{
{
pair . m_algorithm - > ~ btCollisionAlgorithm ( ) ;
dispatcher - > freeCollisionAlgorithm ( pair . m_algorithm ) ;
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pair . m_algorithm = 0 ;
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}
}
}
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void btSortedOverlappingPairCache : : cleanProxyFromPairs ( btBroadphaseProxy * proxy , btDispatcher * dispatcher )
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{
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class CleanPairCallback : public btOverlapCallback
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{
btBroadphaseProxy * m_cleanProxy ;
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btOverlappingPairCache * m_pairCache ;
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btDispatcher * m_dispatcher ;
public :
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CleanPairCallback ( btBroadphaseProxy * cleanProxy , btOverlappingPairCache * pairCache , btDispatcher * dispatcher )
: m_cleanProxy ( cleanProxy ) ,
m_pairCache ( pairCache ) ,
m_dispatcher ( dispatcher )
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{
}
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virtual bool processOverlap ( btBroadphasePair & pair )
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{
if ( ( pair . m_pProxy0 = = m_cleanProxy ) | |
( pair . m_pProxy1 = = m_cleanProxy ) )
{
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m_pairCache - > cleanOverlappingPair ( pair , m_dispatcher ) ;
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}
return false ;
}
} ;
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CleanPairCallback cleanPairs ( proxy , this , dispatcher ) ;
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processAllOverlappingPairs ( & cleanPairs , dispatcher ) ;
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}
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void btSortedOverlappingPairCache : : removeOverlappingPairsContainingProxy ( btBroadphaseProxy * proxy , btDispatcher * dispatcher )
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{
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class RemovePairCallback : public btOverlapCallback
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{
btBroadphaseProxy * m_obsoleteProxy ;
public :
RemovePairCallback ( btBroadphaseProxy * obsoleteProxy )
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: m_obsoleteProxy ( obsoleteProxy )
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{
}
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virtual bool processOverlap ( btBroadphasePair & pair )
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{
return ( ( pair . m_pProxy0 = = m_obsoleteProxy ) | |
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( pair . m_pProxy1 = = m_obsoleteProxy ) ) ;
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}
} ;
RemovePairCallback removeCallback ( proxy ) ;
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processAllOverlappingPairs ( & removeCallback , dispatcher ) ;
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}
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void btSortedOverlappingPairCache : : sortOverlappingPairs ( btDispatcher * dispatcher )
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{
//should already be sorted
}