Example #1
0
D6MotionMode pJointD6::getZMotion()
{
	NxD6JointDesc descr;	NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());
	if (!joint)return D6MM_Locked;
	joint->saveToDesc(descr);
	return (D6MotionMode)descr.zMotion;
}
Example #2
0
int pJointD6::setLinearLimit(pJD6SoftLimit limit)
{
	NxD6JointDesc descr;	
	NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());
	if (!joint)return -1 ;
	joint->saveToDesc(descr);

	NxJointLimitSoftDesc sLimit;	sLimit.value  = limit.value;	sLimit.spring  = limit.spring;	sLimit.damping  = limit.damping;	sLimit.restitution = limit.restitution;
	if (!sLimit.isValid())return -1;
	descr.linearLimit = sLimit;
	joint->loadFromDesc(descr);
	return 1;
}
Example #3
0
int pJointD6::setSlerpDrive(pJD6Drive drive)
{
	NxD6JointDesc descr;		NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());	if (!joint)return -1 ;	joint->saveToDesc(descr);
	NxJointDriveDesc sdrive;		sdrive.damping  = drive.damping;		sdrive.spring  = drive.spring;		sdrive.forceLimit  = drive.forceLimit;	sdrive.driveType=drive.driveType;	descr.slerpDrive = sdrive;
	descr.flags |=NX_D6JOINT_SLERP_DRIVE;
	joint->loadFromDesc(descr);
	return 1;
}
Example #4
0
void pJointD6::setProjectionAngle(float angle)
{
	NxD6JointDesc descr;		NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());	if (!joint)return ;	joint->saveToDesc(descr);
	descr.projectionAngle= angle;
	joint->loadFromDesc(descr);
}
Example #5
0
void pJointD6::setProjectionMode(ProjectionMode mode)
{
	NxD6JointDesc descr;		NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());	if (!joint)return ;	joint->saveToDesc(descr);
	descr.projectionMode = (NxJointProjectionMode)mode;
	joint->loadFromDesc(descr);
}
Example #6
0
void pJointD6::enableCollision( bool value )
{
	NxD6JointDesc descr;		NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());	if (!joint)return ;	joint->saveToDesc(descr);
	if (value)
	{
		descr.jointFlags|=NX_JF_COLLISION_ENABLED;
	}else
	{
		descr.jointFlags&=~NX_JF_COLLISION_ENABLED;
	}
	joint->loadFromDesc(descr);
}
Example #7
0
void pJointD6::setRatio(float ratio)
{
	NxD6JointDesc descr;		NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());	if (!joint)return ;	joint->saveToDesc(descr);
	if (ratio!=0.0f)
	{
		descr.jointFlags|=NX_D6JOINT_GEAR_ENABLED;
		descr.gearRatio = ratio;
	}else
	{
		descr.jointFlags&=~NX_D6JOINT_GEAR_ENABLED;
	}
	joint->loadFromDesc(descr);
}
Example #8
0
void pJointD6::setDrivePosition(VxVector pos)
{
	NxD6JointDesc descr;		NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());	if (!joint)return ;	joint->saveToDesc(descr);
	joint->setDrivePosition(pMath::getFrom(pos));
	descr.drivePosition = (pMath::getFrom(pos));
	joint->loadFromDesc(descr);
}
Example #9
0
pJD6SoftLimit pJointD6::getTwistHighLimit()
{
	NxD6JointDesc descr;NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());joint->saveToDesc(descr);
	pJD6SoftLimit result(descr.twistLimit.high.damping,descr.twistLimit.high.spring,descr.twistLimit.high.value,descr.twistLimit.high.restitution);
	return result;
}
Example #10
0
void pJointD6::setZMotionMode(D6MotionMode mode)
{
	NxD6JointDesc descr;	NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());if (!joint)return;joint->saveToDesc(descr);
	descr.zMotion = (NxD6JointMotion)mode;
	joint->loadFromDesc(descr);
}
Example #11
0
void pJointD6::setDriveRotation(VxQuaternion rot)
{
	NxD6JointDesc descr;		NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());	if (!joint)return ;	joint->saveToDesc(descr);
	joint->setDriveOrientation(pMath::getFrom(rot));
	joint->loadFromDesc(descr);
}
Example #12
0
pJD6SoftLimit pJointD6::getLinearLimit()
{
	NxD6JointDesc descr;NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());joint->saveToDesc(descr);
	pJD6SoftLimit result(descr.linearLimit.damping,descr.linearLimit.spring,descr.linearLimit.value,descr.linearLimit.restitution);
	return result;
}
Example #13
0
void pJointD6::setDriveLinearVelocity(VxVector linVel)
{
	NxD6JointDesc descr;		NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());	if (!joint)return ;	joint->saveToDesc(descr);
	//joint->setDriveLinearVelocity(pMath::getFrom(linVel));
	descr.driveLinearVelocity = (pMath::getFrom(linVel));
	joint->loadFromDesc(descr);
}
Example #14
0
pJD6Drive pJointD6::getZDrive()
{
	NxD6JointDesc descr;NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());joint->saveToDesc(descr);
	pJD6Drive result(descr.zDrive.damping,descr.zDrive.spring,descr.zDrive.forceLimit,descr.zDrive.driveType);
	return result;
}
Example #15
0
void pJointD6::setGlobalAxis(VxVector axis)
{
	NxD6JointDesc descr;		NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());	if (!joint)return ;	joint->saveToDesc(descr);
	joint->setGlobalAxis(pMath::getFrom(axis));
	//joint->setGlobalA(pMath::getFrom(anchor));
}
Example #16
0
int pJointD6::setZDrive(pJD6Drive drive)
{
	NxD6JointDesc descr;		NxD6Joint *joint  = static_cast<NxD6Joint*>(getJoint());	if (!joint)return -1 ;	joint->saveToDesc(descr);
	NxJointDriveDesc sdrive;		sdrive.damping  = drive.damping;		sdrive.spring  = drive.spring;		sdrive.forceLimit  = drive.forceLimit;		sdrive.driveType=drive.driveType;	descr.zDrive = sdrive;
	joint->loadFromDesc(descr);
	return 1;
}
bool NxuPhysicsExport::Write(NxJoint *j,const char *userProperties,const char *id)
{
	bool ret = false;

	NxSceneDesc *current = getCurrentScene();

	CustomCopy cc(mCollection,current);

	NxJointDesc *joint = 0;

	switch ( j->getType() )
	{
		case NX_JOINT_PRISMATIC:
			if ( 1 )
			{
				::NxPrismaticJointDesc d1;
				NxPrismaticJoint *sj = j->isPrismaticJoint();
				sj->saveToDesc(d1);
				addActor( d1.actor[0] );
				addActor( d1.actor[1] );
				NxPrismaticJointDesc *desc = new NxPrismaticJointDesc;
				desc->copyFrom(d1,cc);
				joint = static_cast<NxJointDesc *>(desc);
			}
			break;
		case NX_JOINT_REVOLUTE:
			if ( 1 )
			{
				::NxRevoluteJointDesc d1;
				NxRevoluteJoint *sj = j->isRevoluteJoint();
				sj->saveToDesc(d1);
				addActor( d1.actor[0] );
				addActor( d1.actor[1] );
				NxRevoluteJointDesc *desc = new NxRevoluteJointDesc;
				desc->copyFrom(d1,cc);
				joint = static_cast<NxJointDesc *>(desc);
			}
			break;
		case NX_JOINT_CYLINDRICAL:
			if ( 1 )
			{
				::NxCylindricalJointDesc d1;
				NxCylindricalJoint *sj = j->isCylindricalJoint();
				sj->saveToDesc(d1);
				addActor( d1.actor[0] );
				addActor( d1.actor[1] );
				NxCylindricalJointDesc *desc = new NxCylindricalJointDesc;
				desc->copyFrom(d1,cc);
				joint = static_cast<NxJointDesc *>(desc);
			}
			break;
		case NX_JOINT_SPHERICAL:
			if ( 1 )
			{
				::NxSphericalJointDesc d1;
				NxSphericalJoint *sj = j->isSphericalJoint();
				sj->saveToDesc(d1);
				addActor( d1.actor[0] );
				addActor( d1.actor[1] );
				NxSphericalJointDesc *desc = new NxSphericalJointDesc;
				desc->copyFrom(d1,cc);
				joint = static_cast<NxJointDesc *>(desc);
			}
			break;
		case NX_JOINT_POINT_ON_LINE:
			if ( 1 )
			{
				::NxPointOnLineJointDesc d1;
				NxPointOnLineJoint *sj = j->isPointOnLineJoint();
				sj->saveToDesc(d1);
				addActor( d1.actor[0] );
				addActor( d1.actor[1] );
				NxPointOnLineJointDesc *desc = new NxPointOnLineJointDesc;
				desc->copyFrom(d1,cc);
				joint = static_cast<NxJointDesc *>(desc);
			}
			break;
		case NX_JOINT_POINT_IN_PLANE:
			if ( 1 )
			{
				::NxPointInPlaneJointDesc d1;
				NxPointInPlaneJoint *sj = j->isPointInPlaneJoint();
				sj->saveToDesc(d1);
				addActor( d1.actor[0] );
				addActor( d1.actor[1] );
				NxPointInPlaneJointDesc *desc = new NxPointInPlaneJointDesc;
				desc->copyFrom(d1,cc);
				joint = static_cast<NxJointDesc *>(desc);
			}
			break;
		case NX_JOINT_DISTANCE:
			if ( 1 )
			{
				::NxDistanceJointDesc d1;
				NxDistanceJoint *sj = j->isDistanceJoint();
				sj->saveToDesc(d1);
				addActor( d1.actor[0] );
				addActor( d1.actor[1] );
				NxDistanceJointDesc *desc = new NxDistanceJointDesc;
				desc->copyFrom(d1,cc);
				joint = static_cast<NxJointDesc *>(desc);
			}
			break;
		case NX_JOINT_PULLEY:
			if ( 1 )
			{
				::NxPulleyJointDesc d1;
				NxPulleyJoint *sj = j->isPulleyJoint();
				sj->saveToDesc(d1);
				addActor( d1.actor[0] );
				addActor( d1.actor[1] );
				NxPulleyJointDesc *desc = new NxPulleyJointDesc;
				desc->copyFrom(d1,cc);
				joint = static_cast<NxJointDesc *>(desc);
			}
			break;
		case NX_JOINT_FIXED:
			if ( 1 )
			{
				::NxFixedJointDesc d1;
				NxFixedJoint *sj = j->isFixedJoint();
				sj->saveToDesc(d1);
				addActor( d1.actor[0] );
				addActor( d1.actor[1] );
				NxFixedJointDesc *desc = new NxFixedJointDesc;
				desc->copyFrom(d1,cc);
				joint = static_cast<NxJointDesc *>(desc);
			}
			break;
		case NX_JOINT_D6:
			if ( 1 )
			{
				::NxD6JointDesc d1;
				NxD6Joint *sj = j->isD6Joint();
				sj->saveToDesc(d1);
				addActor( d1.actor[0] );
				addActor( d1.actor[1] );
				NxD6JointDesc *desc = new NxD6JointDesc;
				desc->copyFrom(d1,cc);
				joint = static_cast<NxJointDesc *>(desc);
			}
			break;
		default:
			break;

	}


	//Add	Limits
	// in	addition,	we also	have to	write	out	its	limit	planes!
	j->resetLimitPlaneIterator();
	if (j->hasMoreLimitPlanes())
	{
		// write limit point
		joint->mOnActor2 = j->getLimitPoint(joint->mPlaneLimitPoint);

		NxArray< NxPlaneInfoDesc *> plist;


		// write the plane normals
		while	(j->hasMoreLimitPlanes())
		{
			NxPlaneInfoDesc *pInfo	=	new	NxPlaneInfoDesc();
#if NX_SDK_VERSION_NUMBER >= 272
			j->getNextLimitPlane(pInfo->mPlaneNormal,	pInfo->mPlaneD, &pInfo->restitution);
#else
			j->getNextLimitPlane(pInfo->mPlaneNormal,	pInfo->mPlaneD);
#endif
			plist.push_back(pInfo);
		}

		if ( plist.size() )
		{
			for (int i=plist.size()-1; i>=0; i--)
			{
				NxPlaneInfoDesc *p = plist[i];
				joint->mPlaneInfo.pushBack(p);
			}
		}

	}


	if ( joint )
	{
		if ( id )
		{
			joint->mId = id;
		}
		else
		{
      char scratch[512];
      sprintf(scratch,"Joint_%d", current->mJoints.size());
      joint->mId = getGlobalString(scratch);
      joint->mUserProperties = getGlobalString(userProperties);
    }
		current->mJoints.push_back(joint);
		ret = true;
	}

  return ret;
}