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/*
Bullet Continuous Collision Detection and Physics Library
Copyright ( c ) 2003 - 2013 Erwin Coumans http : //bulletphysics.org
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 .
*/
# ifndef B3_OVERLAPPING_PAIR_CACHE_H
# define B3_OVERLAPPING_PAIR_CACHE_H
# include "Bullet3Common/shared/b3Int2.h"
# include "Bullet3Common/b3AlignedObjectArray.h"
class b3Dispatcher ;
# include "b3OverlappingPair.h"
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typedef b3AlignedObjectArray < b3BroadphasePair > b3BroadphasePairArray ;
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struct b3OverlapCallback
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{
virtual ~ b3OverlapCallback ( )
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{
}
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//return true for deletion of the pair
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virtual bool processOverlap ( b3BroadphasePair & pair ) = 0 ;
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} ;
struct b3OverlapFilterCallback
{
virtual ~ b3OverlapFilterCallback ( )
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{
}
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// return true when pairs need collision
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virtual bool needBroadphaseCollision ( int proxy0 , int proxy1 ) const = 0 ;
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} ;
extern int b3g_removePairs ;
extern int b3g_addedPairs ;
extern int b3g_findPairs ;
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const int B3_NULL_PAIR = 0xffffffff ;
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///The b3OverlappingPairCache provides an interface for overlapping pair management (add, remove, storage), used by the b3BroadphaseInterface broadphases.
///The b3HashedOverlappingPairCache and b3SortedOverlappingPairCache classes are two implementations.
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class b3OverlappingPairCache
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{
public :
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virtual ~ b3OverlappingPairCache ( ) { } // this is needed so we can get to the derived class destructor
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virtual b3BroadphasePair * getOverlappingPairArrayPtr ( ) = 0 ;
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virtual const b3BroadphasePair * getOverlappingPairArrayPtr ( ) const = 0 ;
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virtual b3BroadphasePairArray & getOverlappingPairArray ( ) = 0 ;
virtual void cleanOverlappingPair ( b3BroadphasePair & pair , b3Dispatcher * dispatcher ) = 0 ;
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virtual int getNumOverlappingPairs ( ) const = 0 ;
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virtual void cleanProxyFromPairs ( int proxy , b3Dispatcher * dispatcher ) = 0 ;
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virtual void setOverlapFilterCallback ( b3OverlapFilterCallback * callback ) = 0 ;
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virtual void processAllOverlappingPairs ( b3OverlapCallback * , b3Dispatcher * dispatcher ) = 0 ;
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virtual b3BroadphasePair * findPair ( int proxy0 , int proxy1 ) = 0 ;
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virtual bool hasDeferredRemoval ( ) = 0 ;
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//virtual void setInternalGhostPairCallback(b3OverlappingPairCallback* ghostPairCallback)=0;
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virtual b3BroadphasePair * addOverlappingPair ( int proxy0 , int proxy1 ) = 0 ;
virtual void * removeOverlappingPair ( int proxy0 , int proxy1 , b3Dispatcher * dispatcher ) = 0 ;
virtual void removeOverlappingPairsContainingProxy ( int /*proxy0*/ , b3Dispatcher * /*dispatcher*/ ) = 0 ;
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virtual void sortOverlappingPairs ( b3Dispatcher * dispatcher ) = 0 ;
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} ;
/// Hash-space based Pair Cache, thanks to Erin Catto, Box2D, http://www.box2d.org, and Pierre Terdiman, Codercorner, http://codercorner.com
class b3HashedOverlappingPairCache : public b3OverlappingPairCache
{
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b3BroadphasePairArray m_overlappingPairArray ;
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b3OverlapFilterCallback * m_overlapFilterCallback ;
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// bool m_blockedForChanges;
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public :
b3HashedOverlappingPairCache ( ) ;
virtual ~ b3HashedOverlappingPairCache ( ) ;
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virtual void removeOverlappingPairsContainingProxy ( int proxy , b3Dispatcher * dispatcher ) ;
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virtual void * removeOverlappingPair ( int proxy0 , int proxy1 , b3Dispatcher * dispatcher ) ;
B3_FORCE_INLINE bool needsBroadphaseCollision ( int proxy0 , int proxy1 ) const
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{
if ( m_overlapFilterCallback )
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return m_overlapFilterCallback - > needBroadphaseCollision ( proxy0 , proxy1 ) ;
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bool collides = true ; //(proxy0->m_collisionFilterGroup & proxy1->m_collisionFilterMask) != 0;
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//collides = collides && (proxy1->m_collisionFilterGroup & proxy0->m_collisionFilterMask);
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return collides ;
}
// Add a pair and return the new pair. If the pair already exists,
// no new pair is created and the old one is returned.
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virtual b3BroadphasePair * addOverlappingPair ( int proxy0 , int proxy1 )
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{
b3g_addedPairs + + ;
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if ( ! needsBroadphaseCollision ( proxy0 , proxy1 ) )
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return 0 ;
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return internalAddPair ( proxy0 , proxy1 ) ;
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}
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void cleanProxyFromPairs ( int proxy , b3Dispatcher * dispatcher ) ;
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virtual void processAllOverlappingPairs ( b3OverlapCallback * , b3Dispatcher * dispatcher ) ;
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virtual b3BroadphasePair * getOverlappingPairArrayPtr ( )
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{
return & m_overlappingPairArray [ 0 ] ;
}
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const b3BroadphasePair * getOverlappingPairArrayPtr ( ) const
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{
return & m_overlappingPairArray [ 0 ] ;
}
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b3BroadphasePairArray & getOverlappingPairArray ( )
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{
return m_overlappingPairArray ;
}
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const b3BroadphasePairArray & getOverlappingPairArray ( ) const
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{
return m_overlappingPairArray ;
}
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void cleanOverlappingPair ( b3BroadphasePair & pair , b3Dispatcher * dispatcher ) ;
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b3BroadphasePair * findPair ( int proxy0 , int proxy1 ) ;
int GetCount ( ) const { return m_overlappingPairArray . size ( ) ; }
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// b3BroadphasePair* GetPairs() { return m_pairs; }
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b3OverlapFilterCallback * getOverlapFilterCallback ( )
{
return m_overlapFilterCallback ;
}
void setOverlapFilterCallback ( b3OverlapFilterCallback * callback )
{
m_overlapFilterCallback = callback ;
}
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int getNumOverlappingPairs ( ) const
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{
return m_overlappingPairArray . size ( ) ;
}
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private :
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b3BroadphasePair * internalAddPair ( int proxy0 , int proxy1 ) ;
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void growTables ( ) ;
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B3_FORCE_INLINE bool equalsPair ( const b3BroadphasePair & pair , int proxyId1 , int proxyId2 )
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{
return pair . x = = proxyId1 & & pair . y = = proxyId2 ;
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}
/*
// Thomas Wang's hash, see: http://www.concentric.net/~Ttwang/tech/inthash.htm
// This assumes proxyId1 and proxyId2 are 16-bit.
B3_FORCE_INLINE int getHash ( int proxyId1 , int proxyId2 )
{
int key = ( proxyId2 < < 16 ) | proxyId1 ;
key = ~ key + ( key < < 15 ) ;
key = key ^ ( key > > 12 ) ;
key = key + ( key < < 2 ) ;
key = key ^ ( key > > 4 ) ;
key = key * 2057 ;
key = key ^ ( key > > 16 ) ;
return key ;
}
*/
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B3_FORCE_INLINE unsigned int getHash ( unsigned int proxyId1 , unsigned int proxyId2 )
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{
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int key = static_cast < int > ( ( ( unsigned int ) proxyId1 ) | ( ( ( unsigned int ) proxyId2 ) < < 16 ) ) ;
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// Thomas Wang's hash
key + = ~ ( key < < 15 ) ;
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key ^ = ( key > > 10 ) ;
key + = ( key < < 3 ) ;
key ^ = ( key > > 6 ) ;
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key + = ~ ( key < < 11 ) ;
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key ^ = ( key > > 16 ) ;
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return static_cast < unsigned int > ( key ) ;
}
B3_FORCE_INLINE b3BroadphasePair * internalFindPair ( int proxy0 , int proxy1 , int hash )
{
int proxyId1 = proxy0 ;
int proxyId2 = proxy1 ;
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#if 0 // wrong, 'equalsPair' use unsorted uids, copy-past devil striked again. Nat.
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if ( proxyId1 > proxyId2 )
b3Swap ( proxyId1 , proxyId2 ) ;
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# endif
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int index = m_hashTable [ hash ] ;
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while ( index ! = B3_NULL_PAIR & & equalsPair ( m_overlappingPairArray [ index ] , proxyId1 , proxyId2 ) = = false )
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{
index = m_next [ index ] ;
}
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if ( index = = B3_NULL_PAIR )
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{
return NULL ;
}
b3Assert ( index < m_overlappingPairArray . size ( ) ) ;
return & m_overlappingPairArray [ index ] ;
}
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virtual bool hasDeferredRemoval ( )
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{
return false ;
}
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/* virtual void setInternalGhostPairCallback(b3OverlappingPairCallback* ghostPairCallback)
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{
m_ghostPairCallback = ghostPairCallback ;
}
*/
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virtual void sortOverlappingPairs ( b3Dispatcher * dispatcher ) ;
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protected :
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b3AlignedObjectArray < int > m_hashTable ;
b3AlignedObjectArray < int > m_next ;
// b3OverlappingPairCallback* m_ghostPairCallback;
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} ;
///b3SortedOverlappingPairCache maintains the objects with overlapping AABB
///Typically managed by the Broadphase, Axis3Sweep or b3SimpleBroadphase
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class b3SortedOverlappingPairCache : public b3OverlappingPairCache
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{
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protected :
//avoid brute-force finding all the time
b3BroadphasePairArray m_overlappingPairArray ;
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//during the dispatch, check that user doesn't destroy/create proxy
bool m_blockedForChanges ;
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///by default, do the removal during the pair traversal
bool m_hasDeferredRemoval ;
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//if set, use the callback instead of the built in filter in needBroadphaseCollision
b3OverlapFilterCallback * m_overlapFilterCallback ;
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// b3OverlappingPairCallback* m_ghostPairCallback;
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public :
b3SortedOverlappingPairCache ( ) ;
virtual ~ b3SortedOverlappingPairCache ( ) ;
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virtual void processAllOverlappingPairs ( b3OverlapCallback * , b3Dispatcher * dispatcher ) ;
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void * removeOverlappingPair ( int proxy0 , int proxy1 , b3Dispatcher * dispatcher ) ;
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void cleanOverlappingPair ( b3BroadphasePair & pair , b3Dispatcher * dispatcher ) ;
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b3BroadphasePair * addOverlappingPair ( int proxy0 , int proxy1 ) ;
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b3BroadphasePair * findPair ( int proxy0 , int proxy1 ) ;
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void cleanProxyFromPairs ( int proxy , b3Dispatcher * dispatcher ) ;
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virtual void removeOverlappingPairsContainingProxy ( int proxy , b3Dispatcher * dispatcher ) ;
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inline bool needsBroadphaseCollision ( int proxy0 , int proxy1 ) const
{
if ( m_overlapFilterCallback )
return m_overlapFilterCallback - > needBroadphaseCollision ( proxy0 , proxy1 ) ;
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bool collides = true ; //(proxy0->m_collisionFilterGroup & proxy1->m_collisionFilterMask) != 0;
//collides = collides && (proxy1->m_collisionFilterGroup & proxy0->m_collisionFilterMask);
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return collides ;
}
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b3BroadphasePairArray & getOverlappingPairArray ( )
{
return m_overlappingPairArray ;
}
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const b3BroadphasePairArray & getOverlappingPairArray ( ) const
{
return m_overlappingPairArray ;
}
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b3BroadphasePair * getOverlappingPairArrayPtr ( )
{
return & m_overlappingPairArray [ 0 ] ;
}
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const b3BroadphasePair * getOverlappingPairArrayPtr ( ) const
{
return & m_overlappingPairArray [ 0 ] ;
}
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int getNumOverlappingPairs ( ) const
{
return m_overlappingPairArray . size ( ) ;
}
b3OverlapFilterCallback * getOverlapFilterCallback ( )
{
return m_overlapFilterCallback ;
}
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void setOverlapFilterCallback ( b3OverlapFilterCallback * callback )
{
m_overlapFilterCallback = callback ;
}
virtual bool hasDeferredRemoval ( )
{
return m_hasDeferredRemoval ;
}
/* virtual void setInternalGhostPairCallback(b3OverlappingPairCallback* ghostPairCallback)
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{
m_ghostPairCallback = ghostPairCallback ;
}
*/
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virtual void sortOverlappingPairs ( b3Dispatcher * dispatcher ) ;
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} ;
///b3NullPairCache skips add/removal of overlapping pairs. Userful for benchmarking and unit testing.
class b3NullPairCache : public b3OverlappingPairCache
{
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b3BroadphasePairArray m_overlappingPairArray ;
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public :
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virtual b3BroadphasePair * getOverlappingPairArrayPtr ( )
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{
return & m_overlappingPairArray [ 0 ] ;
}
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const b3BroadphasePair * getOverlappingPairArrayPtr ( ) const
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{
return & m_overlappingPairArray [ 0 ] ;
}
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b3BroadphasePairArray & getOverlappingPairArray ( )
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{
return m_overlappingPairArray ;
}
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virtual void cleanOverlappingPair ( b3BroadphasePair & /*pair*/ , b3Dispatcher * /*dispatcher*/ )
{
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}
virtual int getNumOverlappingPairs ( ) const
{
return 0 ;
}
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virtual void cleanProxyFromPairs ( int /*proxy*/ , b3Dispatcher * /*dispatcher*/ )
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{
}
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virtual void setOverlapFilterCallback ( b3OverlapFilterCallback * /*callback*/ )
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{
}
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virtual void processAllOverlappingPairs ( b3OverlapCallback * , b3Dispatcher * /*dispatcher*/ )
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{
}
virtual b3BroadphasePair * findPair ( int /*proxy0*/ , int /*proxy1*/ )
{
return 0 ;
}
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virtual bool hasDeferredRemoval ( )
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{
return true ;
}
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// virtual void setInternalGhostPairCallback(b3OverlappingPairCallback* /* ghostPairCallback */)
// {
//
// }
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virtual b3BroadphasePair * addOverlappingPair ( int /*proxy0*/ , int /*proxy1*/ )
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{
return 0 ;
}
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virtual void * removeOverlappingPair ( int /*proxy0*/ , int /*proxy1*/ , b3Dispatcher * /*dispatcher*/ )
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{
return 0 ;
}
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virtual void removeOverlappingPairsContainingProxy ( int /*proxy0*/ , b3Dispatcher * /*dispatcher*/ )
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{
}
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virtual void sortOverlappingPairs ( b3Dispatcher * dispatcher )
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{
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( void ) dispatcher ;
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}
} ;
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# endif //B3_OVERLAPPING_PAIR_CACHE_H