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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 .
*/
///b3DynamicBvhBroadphase implementation by Nathanael Presson
# ifndef B3_DBVT_BROADPHASE_H
# define B3_DBVT_BROADPHASE_H
# include "Bullet3Collision/BroadPhaseCollision/b3DynamicBvh.h"
# include "Bullet3Collision/BroadPhaseCollision/b3OverlappingPairCache.h"
# include "Bullet3Common/b3AlignedObjectArray.h"
# include "b3BroadphaseCallback.h"
//
// Compile time config
//
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# define B3_DBVT_BP_PROFILE 0
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//#define B3_DBVT_BP_SORTPAIRS 1
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# define B3_DBVT_BP_PREVENTFALSEUPDATE 0
# define B3_DBVT_BP_ACCURATESLEEPING 0
# define B3_DBVT_BP_ENABLE_BENCHMARK 0
# define B3_DBVT_BP_MARGIN (b3Scalar)0.05
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# if B3_DBVT_BP_PROFILE
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# define B3_DBVT_BP_PROFILING_RATE 256
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# endif
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B3_ATTRIBUTE_ALIGNED16 ( struct )
b3BroadphaseProxy
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{
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B3_DECLARE_ALIGNED_ALLOCATOR ( ) ;
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///optional filtering to cull potential collisions
enum CollisionFilterGroups
{
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DefaultFilter = 1 ,
StaticFilter = 2 ,
KinematicFilter = 4 ,
DebrisFilter = 8 ,
SensorTrigger = 16 ,
CharacterFilter = 32 ,
AllFilter = - 1 //all bits sets: DefaultFilter | StaticFilter | KinematicFilter | DebrisFilter | SensorTrigger
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} ;
//Usually the client b3CollisionObject or Rigidbody class
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void * m_clientObject ;
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int m_collisionFilterGroup ;
int m_collisionFilterMask ;
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int m_uniqueId ; //m_uniqueId is introduced for paircache. could get rid of this, by calculating the address offset etc.
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b3Vector3 m_aabbMin ;
b3Vector3 m_aabbMax ;
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B3_FORCE_INLINE int getUid ( ) const
{
return m_uniqueId ;
}
//used for memory pools
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b3BroadphaseProxy ( ) : m_clientObject ( 0 )
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{
}
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b3BroadphaseProxy ( const b3Vector3 & aabbMin , const b3Vector3 & aabbMax , void * userPtr , int collisionFilterGroup , int collisionFilterMask )
: m_clientObject ( userPtr ) ,
m_collisionFilterGroup ( collisionFilterGroup ) ,
m_collisionFilterMask ( collisionFilterMask ) ,
m_aabbMin ( aabbMin ) ,
m_aabbMax ( aabbMax )
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{
}
} ;
//
// b3DbvtProxy
//
struct b3DbvtProxy : b3BroadphaseProxy
{
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/* Fields */
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//b3DbvtAabbMm aabb;
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b3DbvtNode * leaf ;
b3DbvtProxy * links [ 2 ] ;
int stage ;
/* ctor */
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explicit b3DbvtProxy ( ) { }
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b3DbvtProxy ( const b3Vector3 & aabbMin , const b3Vector3 & aabbMax , void * userPtr , int collisionFilterGroup , int collisionFilterMask ) : b3BroadphaseProxy ( aabbMin , aabbMax , userPtr , collisionFilterGroup , collisionFilterMask )
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{
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links [ 0 ] = links [ 1 ] = 0 ;
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}
} ;
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typedef b3AlignedObjectArray < b3DbvtProxy * > b3DbvtProxyArray ;
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///The b3DynamicBvhBroadphase implements a broadphase using two dynamic AABB bounding volume hierarchies/trees (see b3DynamicBvh).
///One tree is used for static/non-moving objects, and another tree is used for dynamic objects. Objects can move from one tree to the other.
///This is a very fast broadphase, especially for very dynamic worlds where many objects are moving. Its insert/add and remove of objects is generally faster than the sweep and prune broadphases b3AxisSweep3 and b332BitAxisSweep3.
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struct b3DynamicBvhBroadphase
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{
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/* Config */
enum
{
DYNAMIC_SET = 0 , /* Dynamic set index */
FIXED_SET = 1 , /* Fixed set index */
STAGECOUNT = 2 /* Number of stages */
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} ;
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/* Fields */
b3DynamicBvh m_sets [ 2 ] ; // Dbvt sets
b3DbvtProxy * m_stageRoots [ STAGECOUNT + 1 ] ; // Stages list
b3AlignedObjectArray < b3DbvtProxy > m_proxies ;
b3OverlappingPairCache * m_paircache ; // Pair cache
b3Scalar m_prediction ; // Velocity prediction
int m_stageCurrent ; // Current stage
int m_fupdates ; // % of fixed updates per frame
int m_dupdates ; // % of dynamic updates per frame
int m_cupdates ; // % of cleanup updates per frame
int m_newpairs ; // Number of pairs created
int m_fixedleft ; // Fixed optimization left
unsigned m_updates_call ; // Number of updates call
unsigned m_updates_done ; // Number of updates done
b3Scalar m_updates_ratio ; // m_updates_done/m_updates_call
int m_pid ; // Parse id
int m_cid ; // Cleanup index
bool m_releasepaircache ; // Release pair cache on delete
bool m_deferedcollide ; // Defere dynamic/static collision to collide call
bool m_needcleanup ; // Need to run cleanup?
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# if B3_DBVT_BP_PROFILE
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b3Clock m_clock ;
struct
{
unsigned long m_total ;
unsigned long m_ddcollide ;
unsigned long m_fdcollide ;
unsigned long m_cleanup ;
unsigned long m_jobcount ;
} m_profiling ;
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# endif
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/* Methods */
b3DynamicBvhBroadphase ( int proxyCapacity , b3OverlappingPairCache * paircache = 0 ) ;
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virtual ~ b3DynamicBvhBroadphase ( ) ;
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void collide ( b3Dispatcher * dispatcher ) ;
void optimize ( ) ;
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/* b3BroadphaseInterface Implementation */
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b3BroadphaseProxy * createProxy ( const b3Vector3 & aabbMin , const b3Vector3 & aabbMax , int objectIndex , void * userPtr , int collisionFilterGroup , int collisionFilterMask ) ;
virtual void destroyProxy ( b3BroadphaseProxy * proxy , b3Dispatcher * dispatcher ) ;
virtual void setAabb ( int objectId , const b3Vector3 & aabbMin , const b3Vector3 & aabbMax , b3Dispatcher * dispatcher ) ;
virtual void rayTest ( const b3Vector3 & rayFrom , const b3Vector3 & rayTo , b3BroadphaseRayCallback & rayCallback , const b3Vector3 & aabbMin = b3MakeVector3 ( 0 , 0 , 0 ) , const b3Vector3 & aabbMax = b3MakeVector3 ( 0 , 0 , 0 ) ) ;
virtual void aabbTest ( const b3Vector3 & aabbMin , const b3Vector3 & aabbMax , b3BroadphaseAabbCallback & callback ) ;
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//virtual void getAabb(b3BroadphaseProxy* proxy,b3Vector3& aabbMin, b3Vector3& aabbMax ) const;
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virtual void getAabb ( int objectId , b3Vector3 & aabbMin , b3Vector3 & aabbMax ) const ;
virtual void calculateOverlappingPairs ( b3Dispatcher * dispatcher = 0 ) ;
virtual b3OverlappingPairCache * getOverlappingPairCache ( ) ;
virtual const b3OverlappingPairCache * getOverlappingPairCache ( ) const ;
virtual void getBroadphaseAabb ( b3Vector3 & aabbMin , b3Vector3 & aabbMax ) const ;
virtual void printStats ( ) ;
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///reset broadphase internal structures, to ensure determinism/reproducability
virtual void resetPool ( b3Dispatcher * dispatcher ) ;
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void performDeferredRemoval ( b3Dispatcher * dispatcher ) ;
void setVelocityPrediction ( b3Scalar prediction )
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{
m_prediction = prediction ;
}
b3Scalar getVelocityPrediction ( ) const
{
return m_prediction ;
}
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///this setAabbForceUpdate is similar to setAabb but always forces the aabb update.
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///it is not part of the b3BroadphaseInterface but specific to b3DynamicBvhBroadphase.
///it bypasses certain optimizations that prevent aabb updates (when the aabb shrinks), see
///http://code.google.com/p/bullet/issues/detail?id=223
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void setAabbForceUpdate ( b3BroadphaseProxy * absproxy , const b3Vector3 & aabbMin , const b3Vector3 & aabbMax , b3Dispatcher * /*dispatcher*/ ) ;
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//static void benchmark(b3BroadphaseInterface*);
} ;
# endif