Beispiel #1
0
void
cpSpaceDestroy(cpSpace *space)
{
	cpSpaceEachBody(space, (cpSpaceBodyIteratorFunc)cpBodyActivateWrap, NULL);
	
	cpSpatialIndexFree(space->staticShapes);
	cpSpatialIndexFree(space->dynamicShapes);
	
	cpArrayFree(space->dynamicBodies);
	cpArrayFree(space->staticBodies);
	cpArrayFree(space->sleepingComponents);
	cpArrayFree(space->rousedBodies);
	
	cpArrayFree(space->constraints);
	
	cpHashSetFree(space->cachedArbiters);
	
	cpArrayFree(space->arbiters);
	cpArrayFree(space->pooledArbiters);
	
	if(space->allocatedBuffers){
		cpArrayFreeEach(space->allocatedBuffers, cpfree);
		cpArrayFree(space->allocatedBuffers);
	}
	
	if(space->postStepCallbacks){
		cpArrayFreeEach(space->postStepCallbacks, cpfree);
		cpArrayFree(space->postStepCallbacks);
	}
	
	if(space->collisionHandlers) cpHashSetEach(space->collisionHandlers, FreeWrap, NULL);
	cpHashSetFree(space->collisionHandlers);
}
Beispiel #2
0
void
cpSpaceDestroy(cpSpace *space)
{
	cpSpaceHashFree(space->staticShapes);
	cpSpaceHashFree(space->activeShapes);
	
	cpArrayFree(space->bodies);
	
	cpArrayFree(space->constraints);
	
	cpHashSetFree(space->contactSet);
	
	cpArrayFree(space->arbiters);
	cpArrayFree(space->pooledArbiters);
	
	if(space->allocatedBuffers){
		cpArrayEach(space->allocatedBuffers, freeWrap, NULL);
		cpArrayFree(space->allocatedBuffers);
	}
	
	if(space->postStepCallbacks){
		cpHashSetEach(space->postStepCallbacks, freeWrap, NULL);
		cpHashSetFree(space->postStepCallbacks);
	}
	
	if(space->collFuncSet){
		cpHashSetEach(space->collFuncSet, freeWrap, NULL);
		cpHashSetFree(space->collFuncSet);
	}
}
Beispiel #3
0
static void
cpBBTreeDestroy(cpBBTree *tree)
{
	cpHashSetFree(tree->leaves);
	
	if(tree->allocatedBuffers) cpArrayFreeEach(tree->allocatedBuffers, cpfree);
	cpArrayFree(tree->allocatedBuffers);
}
Beispiel #4
0
void
cpSpaceDestroy(cpSpace *space)
{
	cpSpaceHashFree(space->staticShapes);
	cpSpaceHashFree(space->activeShapes);
	
	cpArrayFree(space->bodies);
	
	cpArrayFree(space->joints);
	
	if(space->contactSet)
		cpHashSetEach(space->contactSet, &arbiterFreeWrap, NULL);
	cpHashSetFree(space->contactSet);
	cpArrayFree(space->arbiters);
	
	if(space->collFuncSet)
		cpHashSetEach(space->collFuncSet, &freeWrap, NULL);
	cpHashSetFree(space->collFuncSet);
}
Beispiel #5
0
void
cpSpaceHashDestroy(cpSpaceHash *hash)
{
	clearHash(hash);
	freeBins(hash);
	
	// Free the handles.
	cpHashSetEach(hash->handleSet, &handleFreeWrap, NULL);
	cpHashSetFree(hash->handleSet);
	
	cpfree(hash->table);
}
static void
cpSpaceHashDestroy(cpSpaceHash *hash)
{
	if(hash->table) clearTable(hash);
	cpfree(hash->table);
	
	cpHashSetFree(hash->handleSet);
	
	cpArrayFreeEach(hash->allocatedBuffers, cpfree);
	cpArrayFree(hash->allocatedBuffers);
	cpArrayFree(hash->pooledHandles);
}
Beispiel #7
0
static void
cpSpaceRunPostStepCallbacks(cpSpace *space)
{
	// Loop because post step callbacks may add more post step callbacks directly or indirectly.
	while(space->postStepCallbacks){
		cpHashSet *callbacks = space->postStepCallbacks;
		space->postStepCallbacks = NULL;
		
		cpHashSetEach(callbacks, (cpHashSetIteratorFunc)cpSpacePostStepCallbackSetIter, space);
		cpHashSetFree(callbacks);
	}
}
void
cpSpaceHashDestroy(cpSpaceHash *hash)
{
	clearHash(hash);
	
	cpHashSetFree(hash->handleSet);
	
	cpArrayEach(hash->allocatedBuffers, freeWrap, NULL);
	cpArrayFree(hash->allocatedBuffers);
	cpArrayFree(hash->pooledHandles);
	
	cpfree(hash->table);
}
Beispiel #9
0
void
cpSpaceStep(cpSpace *space, cpFloat dt)
{
	if(!dt) return; // don't step if the timestep is 0!
	cpFloat dt_inv = 1.0f/dt;

	cpArray *bodies = space->bodies;
	cpArray *constraints = space->constraints;
	
	// Empty the arbiter list.
	space->arbiters->num = 0;
//i51AdeOsLog ( i51_LOG_DC , "for" ) ; 

	// Integrate positions.
	for(int i=0; i<bodies->num; i++){
		cpBody *body = (cpBody *)bodies->arr[i];
		body->position_func(body, dt);
	}
	
	// Pre-cache BBoxes and shape data.
	//i51AdeOsLog ( i51_LOG_DC , "cpSpaceHashEach" ) ; 
	cpSpaceHashEach(space->activeShapes, (cpSpaceHashIterator)updateBBCache, NULL);
	
	cpSpaceLock(space);
	
	// Collide!
	//i51AdeOsLog ( i51_LOG_DC , "cpSpacePushFreshContactBuffer" ) ; 
	cpSpacePushFreshContactBuffer(space);
	if(space->staticShapes->handleSet->entries)
		cpSpaceHashEach(space->activeShapes, (cpSpaceHashIterator)active2staticIter, space);
	cpSpaceHashQueryRehash(space->activeShapes, (cpSpaceHashQueryFunc)queryFunc, space);
	
	cpSpaceUnlock(space);
	
	//i51AdeOsLog ( i51_LOG_DC , "sleepTimeThreshold" ) ; 
	// If body sleeping is enabled, do that now.
	if(space->sleepTimeThreshold != INFINITY){
		cpSpaceProcessComponents(space, dt);
		bodies = space->bodies; // rebuilt by processContactComponents()
	}/**/
	
	// Clear out old cached arbiters and dispatch untouch functions
	//i51AdeOsLog ( i51_LOG_DC , "cpHashSetFilter" ) ; 
	cpHashSetFilter(space->contactSet, (cpHashSetFilterFunc)contactSetFilter, space);

	// Prestep the arbiters.
	//i51AdeOsLog ( i51_LOG_DC , "space->arbiters" ) ; 
	cpArray *arbiters = space->arbiters;
	for(int i=0; i<arbiters->num; i++)
		cpArbiterPreStep((cpArbiter *)arbiters->arr[i], dt_inv);

	// Prestep the constraints.
	//i51AdeOsLog ( i51_LOG_DC , "constraints->num=%d",constraints->num ) ; 
	for(int i=0; i<constraints->num; i++){
		cpConstraint *constraint = (cpConstraint *)constraints->arr[i];
		//i51AdeOsLog ( i51_LOG_DC , "i=%d,preStep=%X",i,constraint->klass->preStep) ; 
		constraint->klass->preStep(constraint, dt, dt_inv);
	}

	//i51AdeOsLog ( i51_LOG_DC , "space->elasticIterations=%d",space->elasticIterations ) ; 
	for(int i=0; i<space->elasticIterations; i++){
		for(int j=0; j<arbiters->num; j++)
			cpArbiterApplyImpulse((cpArbiter *)arbiters->arr[j], 1.0f);
			
		for(int j=0; j<constraints->num; j++){
			cpConstraint *constraint = (cpConstraint *)constraints->arr[j];
			constraint->klass->applyImpulse(constraint);
		}
	}

	// Integrate velocities.
	//i51AdeOsLog ( i51_LOG_DC , "space->damping=%d",space->damping ) ; 
	cpFloat damping = cpfpow(1.0f/space->damping, -dt);
	for(int i=0; i<bodies->num; i++){
		cpBody *body = (cpBody *)bodies->arr[i];
		body->velocity_func(body, space->gravity, damping, dt);
	}

	//i51AdeOsLog ( i51_LOG_DC , "arbiters->num=%d",arbiters->num) ; 
	for(int i=0; i<arbiters->num; i++)
		cpArbiterApplyCachedImpulse((cpArbiter *)arbiters->arr[i]);
	
	// run the old-style elastic solver if elastic iterations are disabled
	cpFloat elasticCoef = (space->elasticIterations ? 0.0f : 1.0f);
	
	// Run the impulse solver.
	//i51AdeOsLog ( i51_LOG_DC , "space->iterations=%d",space->iterations) ; 
	for(int i=0; i<space->iterations; i++){
		for(int j=0; j<arbiters->num; j++)
			cpArbiterApplyImpulse((cpArbiter *)arbiters->arr[j], elasticCoef);
			
		for(int j=0; j<constraints->num; j++){
			cpConstraint *constraint = (cpConstraint *)constraints->arr[j];
			constraint->klass->applyImpulse(constraint);
		}
	}
	
	cpSpaceLock(space);
	
	// run the post solve callbacks
	//i51AdeOsLog ( i51_LOG_DC , "run the post solve callbacks") ; 
	for(int i=0; i<arbiters->num; i++){
		cpArbiter *arb = (cpArbiter *) arbiters->arr[i];
		
		cpCollisionHandler *handler = arb->handler;
		handler->postSolve(arb, space, handler->data);
		
		arb->state = cpArbiterStateNormal;
	}
	
	cpSpaceUnlock(space);
	
	// Run the post step callbacks
	// Loop because post step callbacks may create more post step callbacks
	//i51AdeOsLog ( i51_LOG_DC , "space->postStepCallbacks") ; 
	while(space->postStepCallbacks){
		cpHashSet *callbacks = space->postStepCallbacks;
		space->postStepCallbacks = NULL;
		
		cpHashSetEach(callbacks, (cpHashSetIterFunc)postStepCallbackSetIter, space);
		cpHashSetFree(callbacks);
	}
	
	// Increment the stamp.
	space->stamp++;
	//i51AdeOsLog ( i51_LOG_DC , "_____________OK_______________") ; 
	
}