Esempio n. 1
0
PxActor* World::createRigidBody(const PxGeometry& geometry, float mass, const ofVec3f& pos, const ofQuaternion& rot, float density)
{
	assert(inited);
	
	PxTransform transform;
	toPx(pos, transform.p);
	toPx(rot, transform.q);
	
	PxActor *actor;
	
	if (mass > 0)
	{
		PxRigidDynamic* rigid = PxCreateDynamic(*physics, transform, geometry, *defaultMaterial, density);
		rigid->setMass(mass);
		rigid->setLinearDamping(0.25);
		rigid->setAngularDamping(0.25);
		
		actor = rigid;
	}
	else
	{
		PxRigidStatic *rigid = PxCreateStatic(*physics, transform, geometry, *defaultMaterial);
		actor = rigid;
	}
	
	scene->addActor(*actor);
	
	return actor;
}
Esempio n. 2
0
PxRigidDynamic* PxCloneDynamic(PxPhysics& physicsSDK, 
							   const PxTransform& transform,
							   const PxRigidDynamic& from)
{
	PxRigidDynamic* to = physicsSDK.createRigidDynamic(transform);
	if(!to)
		return NULL;

	copyStaticProperties(*to, from);

	to->setRigidDynamicFlags(from.getRigidDynamicFlags());

	to->setMass(from.getMass());
	to->setMassSpaceInertiaTensor(from.getMassSpaceInertiaTensor());
	to->setCMassLocalPose(from.getCMassLocalPose());

	to->setLinearVelocity(from.getLinearVelocity());
	to->setAngularVelocity(from.getAngularVelocity());

	to->setLinearDamping(from.getAngularDamping());
	to->setAngularDamping(from.getAngularDamping());

	to->setMaxAngularVelocity(from.getMaxAngularVelocity());

	PxU32 posIters, velIters;
	from.getSolverIterationCounts(posIters, velIters);
	to->setSolverIterationCounts(posIters, velIters);

	to->setSleepThreshold(from.getSleepThreshold());

	to->setContactReportThreshold(from.getContactReportThreshold());

	return to;
}
Esempio n. 3
0
void PhysXPhysics::AddShape(Actor* pActor, PxGeometry* geometry, float density, const std::string& physicsMaterial, bool gravityEnabled, float linearDamping, float angularDamping, const std::string& bodyType)
{
	BE_ASSERT(pActor);
	ActorId actorId = pActor->GetId();
	BE_ASSERTf(m_actorRigidBodyMap.find(actorId) == m_actorRigidBodyMap.end(), "Actor with more than one rigidbody");

	Mat4x4 transform = Mat4x4::g_Identity;
	
	TransformComponent* pTransformComponent = pActor->GetComponent<TransformComponent>(TransformComponent::g_Name);

	if (pTransformComponent)
	{
		transform = pTransformComponent->GetTransform();
	}
	else 
	{
		//Doesnt work without transform
		BE_ERROR("Actor %s PhysicsComponent requires Shape to have Transform Component: %d", actorId);
		return;
	}

	PhysicsMaterialData material(LookupMaterialData(physicsMaterial));
	PxMaterial* mat = m_pPhysicsSdk->createMaterial(material.m_friction, material.m_friction, material.m_restitution);

	Vec3 translation, scale;
	Quaternion rotation;
	
	bool ok = transform.Decompose(translation, rotation, scale);
	PxQuat pxRot;
	PxVec3 pxLoc;
	Vec3ToPxVec(translation, &pxLoc);
	QuaternionToPxQuat(rotation, &pxRot);
	PxTransform t(pxLoc, pxRot);

	if (bodyType == "Dynamic")
	{
		PxRigidDynamic* body = PxCreateDynamic(*m_pPhysicsSdk, t, *geometry, *mat, density);
		body->setActorFlag(PxActorFlag::eDISABLE_GRAVITY, !gravityEnabled);
		PxRigidBodyExt::updateMassAndInertia(*body, density);
		body->setLinearDamping(linearDamping);
		body->setAngularDamping(angularDamping);
		m_pScene->addActor(*body);

		m_actorRigidBodyMap[actorId] = body;
		m_rigidBodyActorMap[body] = actorId;
	}
	else
	{
		BE_ERROR("[Physics] BodyType not supported: %s", bodyType.c_str());
		return;
	}
}
Esempio n. 4
0
bool Collider::Init(bool isDynamic)
{
	bool ret = false;

	const Transform& transform = mOwner.GetTransform();

	mTransform.position = transform.position;
	mTransform.rotation = transform.rotation;

	PxVec3 pos = ConvertPxVec3(transform.position);
	PxQuat rot = ConvertPxQuat(transform.rotation);

	PxScene* scene = mOwner.GetScene().GetPxScene();
	CHECK(scene);

	if (isDynamic)
	{
		PxRigidDynamic* dyn = gPhysics->createRigidDynamic(PxTransform(pos, rot));
		dyn->setLinearDamping(0.25);
		dyn->setAngularDamping(0.25);
		mActor = dyn;
		mRigidBody = new RigidBody(*dyn);
	}
	else
	{
		mActor = gPhysics->createRigidStatic(PxTransform(pos, rot));
	}

	CHECK(mActor);

	mActor->userData = &mOwner;

	OnInitShape();

	CHECK(mGizmo);
	mOwner.GetScene().AddGizmo(mGizmo);

	mGizmo->SetColor(Color(0, 1, 0, 1));

	scene->addActor(*mActor);

	SetLocalPose(Vector3(), Quat());

	ret = true;
Exit0:
	return ret;
}
PxRigidDynamic* CloneDynamic(PxPhysics& physicsSDK, 
							   const PxTransform& transform,
							   const PxRigidDynamic& from,
							   NxMirrorScene::MirrorFilter &mirrorFilter)
{
	PxRigidDynamic* to = physicsSDK.createRigidDynamic(transform);
	if(!to)
		return NULL;

	if ( !copyStaticProperties(*to, from, mirrorFilter) )
	{
		to->release();
		to = NULL;
		return NULL;
	}

	to->setRigidDynamicFlags(from.getRigidDynamicFlags());

	to->setMass(from.getMass());
	to->setMassSpaceInertiaTensor(from.getMassSpaceInertiaTensor());
	to->setCMassLocalPose(from.getCMassLocalPose());

	if ( !(to->getRigidDynamicFlags() & PxRigidDynamicFlag::eKINEMATIC) )
	{
		to->setLinearVelocity(from.getLinearVelocity());
		to->setAngularVelocity(from.getAngularVelocity());
	}

	to->setLinearDamping(from.getAngularDamping());
	to->setAngularDamping(from.getAngularDamping());

	to->setMaxAngularVelocity(from.getMaxAngularVelocity());

	PxU32 posIters, velIters;
	from.getSolverIterationCounts(posIters, velIters);
	to->setSolverIterationCounts(posIters, velIters);

	to->setSleepThreshold(from.getSleepThreshold());

	to->setContactReportThreshold(from.getContactReportThreshold());

	return to;
}
Esempio n. 6
0
void SampleSubmarine::explode(PxRigidActor* actor, const PxVec3& explosionPos, const PxReal explosionStrength)
{
	size_t numRenderActors = mRenderActors.size();
	for(PxU32 i = 0; i < numRenderActors; i++)
	{
		if(&(mRenderActors[i]->getPhysicsShape()->getActor()) == actor)
		{
			PxShape* shape = mRenderActors[i]->getPhysicsShape();
			PxTransform pose = PxShapeExt::getGlobalPose(*shape);
			
			PxGeometryHolder geom = shape->getGeometry();

			// create new actor from shape (to split compound)
			PxRigidDynamic* newActor = mPhysics->createRigidDynamic(pose);
			if(!newActor) fatalError("createRigidDynamic failed!");

			PxShape* newShape = newActor->createShape(geom.any(), *mMaterial);
			newShape->userData = mRenderActors[i];
			mRenderActors[i]->setPhysicsShape(newShape);
			
			newActor->setActorFlag(PxActorFlag::eVISUALIZATION, true);
			newActor->setLinearDamping(10.5f);
			newActor->setAngularDamping(0.5f);
			PxRigidBodyExt::updateMassAndInertia(*newActor, 1.0f);
			mScene->addActor(*newActor);
			mPhysicsActors.push_back(newActor);
			
			PxVec3 explosion = pose.p - explosionPos;
			PxReal len = explosion.normalize();
			explosion *= (explosionStrength / len);
			newActor->setLinearVelocity(explosion);
			newActor->setAngularVelocity(PxVec3(1,2,3));

		}
	}

	removeActor(actor);
}
Esempio n. 7
0
// Creates an physics entity from an entity info structure and a starting transform
void PhysicsEngine::createEntity(PhysicsEntity* entity, PhysicsEntityInfo* info, PxTransform transform)
{
	transform.p.y += info->yPosOffset;
	// Set static/dynamic info for actor depending on its type
	PxRigidActor* actor;
	if (info->type == PhysicsType::DYNAMIC) 
	{
		DynamicInfo* dInfo = info->dynamicInfo;
		PxRigidDynamic* dynamicActor = physics->createRigidDynamic(transform);
		dynamicActor->setLinearDamping(dInfo->linearDamping);
		dynamicActor->setAngularDamping(dInfo->angularDamping);
		dynamicActor->setMaxAngularVelocity(dInfo->maxAngularVelocity);

		actor = dynamicActor;
	}
	else if (info->type == PhysicsType::STATIC)
	{
		PxRigidStatic* staticActor = physics->createRigidStatic(transform);
		actor = staticActor;
	}

	// All shapes in actor
	for (auto sInfo : info->shapeInfo)
	{
		// Create material and geometry for shape and add it to actor
		PxGeometry* geometry;
		PxMaterial* material;
		if (sInfo->geometry == Geometry::SPHERE)
		{
			SphereInfo* sphInfo = (SphereInfo*)sInfo;
			geometry = new PxSphereGeometry(sphInfo->radius);
		}
		else if (sInfo->geometry == Geometry::BOX)
		{
			BoxInfo* boxInfo = (BoxInfo*)sInfo;		
			geometry = new PxBoxGeometry(boxInfo->halfX, boxInfo->halfY, boxInfo->halfZ);
		}
		else if (sInfo->geometry == Geometry::CAPSULE)
		{
			CapsuleInfo* capInfo = (CapsuleInfo*)sInfo;
			geometry = new PxCapsuleGeometry(capInfo->radius, capInfo->halfHeight);
		}
		else if (sInfo->geometry == Geometry::CONVEX_MESH)
		{
			ConvexMeshInfo* cmInfo = (ConvexMeshInfo*)sInfo;

			PxConvexMesh* mesh = helper->createConvexMesh(cmInfo->verts.data(), cmInfo->verts.size());
			geometry = new PxConvexMeshGeometry(mesh);
		}
		// Not working until index drawing is set up
		else if (sInfo->geometry == Geometry::TRIANGLE_MESH)
		{
			TriangleMeshInfo* tmInfo = (TriangleMeshInfo*)sInfo;

			PxTriangleMesh* mesh = helper->createTriangleMesh(tmInfo->verts.data(), tmInfo->verts.size(), tmInfo->faces.data(), tmInfo->faces.size()/3);
			geometry = new PxTriangleMeshGeometry(mesh);
		}
		material = (sInfo->isDrivable) ? drivingSurfaces[0] : physics->createMaterial(sInfo->dynamicFriction, sInfo->staticFriction, sInfo->restitution);
		PxShape* shape = actor->createShape(*geometry, *material); // TODO support shape flags
		shape->setLocalPose(sInfo->transform);

		material->release();
		delete geometry;

		// Set up querry filter data for shape
		PxFilterData qryFilterData;
		qryFilterData.word3 = (sInfo->isDrivable) ? (PxU32)Surface::DRIVABLE : (PxU32)Surface::UNDRIVABLE;
		shape->setQueryFilterData(qryFilterData);

		// Set up simulation filter data for shape
		PxFilterData simFilterData;
		simFilterData.word0 = (PxU32)sInfo->filterFlag0;
		simFilterData.word1 = (PxU32)sInfo->filterFlag1;
		simFilterData.word2 = (PxU32)sInfo->filterFlag2;
		simFilterData.word3 = (PxU32)sInfo->filterFlag3;
		shape->setSimulationFilterData(simFilterData);

		if (info->type == PhysicsType::DYNAMIC) 
		{
			DynamicInfo* dInfo = info->dynamicInfo;
			PxRigidBodyExt::updateMassAndInertia(*(PxRigidBody*)actor, dInfo->density, &dInfo->cmOffset);

			PxRigidBody* body = (PxRigidBody*)actor;
		}
	}

	// Add actor to scene, set actor for entity, and set user data for actor. Creates one to one between entities and phyX
	scene->addActor(*actor);
	entity->setActor(actor);
	actor->userData = entity;
}
Esempio n. 8
0
Seamine* SampleSubmarine::createSeamine(const PxVec3& inPosition, PxReal inHeight)
{
	static const PxReal chainLinkLength = 2.0f;
	static const PxReal linkSpacing = 0.05f;
	static const PxReal mineHeadRadius = 1.5f;
	const PxVec3 mineStartPos = inPosition;
	static const PxVec3 linkOffset = PxVec3(0, chainLinkLength + linkSpacing, 0);
	static const PxVec3 halfLinkOffset = linkOffset * 0.5f;
	static const PxVec3 linkDim = PxVec3(chainLinkLength*0.125f, chainLinkLength*0.5f, chainLinkLength*0.125f);
	PxU32 numLinks = PxU32((inHeight - 2.0f*mineHeadRadius) / (chainLinkLength + linkSpacing));
	numLinks = numLinks ? numLinks : 1;

	Seamine* seamine = SAMPLE_NEW(Seamine);
	mSeamines.push_back(seamine);

	// create links from floor
	PxVec3 linkPos = mineStartPos + halfLinkOffset;
	PxRigidActor* prevActor = NULL;
	for(PxU32 i = 0; i < numLinks; i++)
	{
		// create the link actor
		PxRigidDynamic* link = createBox(linkPos, linkDim, NULL, mSeamineMaterial, 1.0f)->is<PxRigidDynamic>();
		if(!link) fatalError("createBox failed!");
		// back reference to mineHead
		link->userData = seamine;
		seamine->mLinks.push_back(link);

		setupFiltering(link, FilterGroup::eMINE_LINK, FilterGroup::eSUBMARINE);
		link->setLinearDamping(0.5f);
		link->setAngularDamping(0.5f);
		link->setActorFlag(PxActorFlag::eDISABLE_GRAVITY, true);

		// create distance joint between link and prevActor
		PxTransform linkFrameA = prevActor ? PxTransform(halfLinkOffset, PxQuat::createIdentity()) : PxTransform(mineStartPos, PxQuat::createIdentity());
		PxTransform linkFrameB = PxTransform(-halfLinkOffset, PxQuat::createIdentity());
		PxDistanceJoint *joint = PxDistanceJointCreate(getPhysics(), prevActor, linkFrameA, link, linkFrameB);
		if(!joint) fatalError("PxDistanceJointCreate failed!");

		// set min & max distance to 0
		joint->setMaxDistance(0.0f);
		joint->setMinDistance(0.0f);
		// setup damping & spring
		joint->setDamping(1.0f * link->getMass());
		joint->setSpring(400.0f * link->getMass());
		joint->setDistanceJointFlags(PxDistanceJointFlag::eMAX_DISTANCE_ENABLED | PxDistanceJointFlag::eMIN_DISTANCE_ENABLED | PxDistanceJointFlag::eSPRING_ENABLED);

		// add to joints array for cleanup
		mJoints.push_back(joint);

		prevActor = link;
		linkPos += linkOffset;
	}

	// create mine head
	linkPos.y += mineHeadRadius - (chainLinkLength*0.5f);
	PxRigidDynamic* mineHead = createSphere(linkPos, mineHeadRadius, NULL, mSeamineMaterial, 1.0f)->is<PxRigidDynamic>();
	mineHead->userData = seamine;
	seamine->mMineHead = mineHead;
	
	mineHead->setLinearDamping(0.5f);
	mineHead->setAngularDamping(0.5f);
	mineHead->setActorFlag(PxActorFlag::eDISABLE_GRAVITY, true);
	
	// setup filtering to trigger contact reports when submarine touches the minehead
	setupFiltering(mineHead, FilterGroup::eMINE_HEAD, FilterGroup::eSUBMARINE);


	// create distance joint between mine head and prevActor
	PxTransform linkFrameA = PxTransform(halfLinkOffset, PxQuat::createIdentity());
	PxTransform linkFrameB = PxTransform(PxVec3(0, -mineHeadRadius - linkSpacing*0.5f, 0), PxQuat::createIdentity());
	PxDistanceJoint *joint = PxDistanceJointCreate(getPhysics(), prevActor, linkFrameA, mineHead, linkFrameB);
	if(!joint) fatalError("PxDistanceJointCreate failed!");

	// set min & max distance to 0
	joint->setMaxDistance(0.0f);
	joint->setMinDistance(0.0f);
	// setup damping & spring
	joint->setDamping(1.0f * mineHead->getMass());
	joint->setSpring(400.0f * mineHead->getMass());
	joint->setDistanceJointFlags(PxDistanceJointFlag::eMAX_DISTANCE_ENABLED | PxDistanceJointFlag::eMIN_DISTANCE_ENABLED | PxDistanceJointFlag::eSPRING_ENABLED);

	// add to joints array for cleanup
	mJoints.push_back(joint);

	return seamine;
}