Exemplo n.º 1
0
void RogueSkill4::HandleNodeCollisionStart(StringHash eventType, VariantMap& eventData)
{
	using namespace NodeCollisionStart;

	SharedPtr<Node> otherNode = SharedPtr<Node>(static_cast<Node*>(eventData[P_OTHERNODE].GetPtr()));

	RigidBody* rb = static_cast<RigidBody*>(eventData[P_BODY].GetPtr());
	Node* noed = rb->GetNode();

	if (!otherNode->HasComponent<Health>())
	{
		noed->Remove();
		return;
	}

	if (otherNode->GetVar("npcType").GetInt() == 1)//terry
	{
		otherNode->GetComponent<Health>()->ModifyHealth(10, -1, false);

		if (otherNode->GetComponent<Health>()->health_ <= 0)
		{
			otherNode->GetComponent<Health>()->ModifyHealth(100, 0, false);
			otherNode->GetScene()->GetComponent<TerrySpawner>()->RespawnTerry(otherNode);
			return;
		}

		//otherNode->AddComponent(new Stunned(context_, main_, 2.0f), 0, LOCAL);

		noed->Remove();
	}
}
Exemplo n.º 2
0
void TerrySpawner::HandleNodeCollisionEnd(StringHash eventType, VariantMap& eventData)
{
	using namespace NodeCollisionEnd;

	SharedPtr<Node> otherNode = SharedPtr<Node>(static_cast<Node*>(eventData[P_OTHERNODE].GetPtr()));

	RigidBody* rb = static_cast<RigidBody*>(eventData[P_BODY].GetPtr());

	Node* noed = rb->GetNode();

	MoveByTouch* mbt = noed->GetComponent<MoveByTouch>();
	mbt->MoveTo(tent_->GetWorldPosition(),
			mbt->moveToSpeed_,mbt->speedRamp_,mbt->gravity_,mbt->gravityRamp_,false,true,true);

	if (!otherNode->HasComponent<Health>())
	{
		return;
	}

	if (otherNode->GetVar("npcType").GetInt() == 0)//hero
	{
		int collisionCount = noed->GetVar("collisionCount").GetInt();
		collisionCount--;
		noed->SetVar("collisionCount", collisionCount);

		if (collisionCount == 0)
		{
			VariantMap vm;
			vm[AnimateSceneNode::P_NODE] = noed;

			if (noed->GetVar("sex").GetBool())
			{
				vm[AnimateSceneNode::P_ANIMATION] = "runF";
			}
			else
			{
				vm[AnimateSceneNode::P_ANIMATION] = "runM";
			}

			vm[AnimateSceneNode::P_LOOP] = false;
			vm[AnimateSceneNode::P_LAYER] = 0;
			SendEvent(E_ANIMATESCENENODE, vm);
		}
	}
}
Exemplo n.º 3
0
void Pickup::HandleTriggerStart(StringHash eventType, VariantMap &eventData)
{
    PODVector<RigidBody*> collidingBodies;
    triggerBody_->GetCollidingBodies(collidingBodies);

    for (int i = 0; i < collidingBodies.Size(); i++) {
        RigidBody* collider = collidingBodies[i];
        if (collider->GetNode()->GetNameHash() == N_PLAYER) {
            masterControl_->player_->Pickup(pickupType_);
            masterControl_->spawnMaster_->SpawnHitFX(GetPosition(), false);
            switch (pickupType_){
            case PT_MULTIX: case PT_CHAOBALL: Deactivate(); break;
            case PT_APPLE: case PT_HEART: Respawn(); break;
            default: break;
            }
        }
    }
}
Exemplo n.º 4
0
void PhysicsWorld::SendCollisionEvents()
{
    ATOMIC_PROFILE(SendCollisionEvents);

    currentCollisions_.Clear();
    physicsCollisionData_.Clear();
    nodeCollisionData_.Clear();

    int numManifolds = collisionDispatcher_->getNumManifolds();

    if (numManifolds)
    {
        physicsCollisionData_[PhysicsCollision::P_WORLD] = this;

        for (int i = 0; i < numManifolds; ++i)
        {
            btPersistentManifold* contactManifold = collisionDispatcher_->getManifoldByIndexInternal(i);
            // First check that there are actual contacts, as the manifold exists also when objects are close but not touching
            if (!contactManifold->getNumContacts())
                continue;

            const btCollisionObject* objectA = contactManifold->getBody0();
            const btCollisionObject* objectB = contactManifold->getBody1();

            RigidBody* bodyA = static_cast<RigidBody*>(objectA->getUserPointer());
            RigidBody* bodyB = static_cast<RigidBody*>(objectB->getUserPointer());
            // If it's not a rigidbody, maybe a ghost object
            if (!bodyA || !bodyB)
                continue;

            // Skip collision event signaling if both objects are static, or if collision event mode does not match
            if (bodyA->GetMass() == 0.0f && bodyB->GetMass() == 0.0f)
                continue;
            if (bodyA->GetCollisionEventMode() == COLLISION_NEVER || bodyB->GetCollisionEventMode() == COLLISION_NEVER)
                continue;
            if (bodyA->GetCollisionEventMode() == COLLISION_ACTIVE && bodyB->GetCollisionEventMode() == COLLISION_ACTIVE &&
                !bodyA->IsActive() && !bodyB->IsActive())
                continue;

            WeakPtr<RigidBody> bodyWeakA(bodyA);
            WeakPtr<RigidBody> bodyWeakB(bodyB);

            // First only store the collision pair as weak pointers and the manifold pointer, so user code can safely destroy
            // objects during collision event handling
            Pair<WeakPtr<RigidBody>, WeakPtr<RigidBody> > bodyPair;
            if (bodyA < bodyB)
            {
                bodyPair = MakePair(bodyWeakA, bodyWeakB);
                currentCollisions_[bodyPair].manifold_ = contactManifold;
            }
            else
            {
                bodyPair = MakePair(bodyWeakB, bodyWeakA);
                currentCollisions_[bodyPair].flippedManifold_ = contactManifold;
            }
        }

        for (HashMap<Pair<WeakPtr<RigidBody>, WeakPtr<RigidBody> >, ManifoldPair>::Iterator i = currentCollisions_.Begin();
             i != currentCollisions_.End(); ++i)
        {
            RigidBody* bodyA = i->first_.first_;
            RigidBody* bodyB = i->first_.second_;
            if (!bodyA || !bodyB)
                continue;

            Node* nodeA = bodyA->GetNode();
            Node* nodeB = bodyB->GetNode();
            WeakPtr<Node> nodeWeakA(nodeA);
            WeakPtr<Node> nodeWeakB(nodeB);

            bool trigger = bodyA->IsTrigger() || bodyB->IsTrigger();
            bool newCollision = !previousCollisions_.Contains(i->first_);

            physicsCollisionData_[PhysicsCollision::P_NODEA] = nodeA;
            physicsCollisionData_[PhysicsCollision::P_NODEB] = nodeB;
            physicsCollisionData_[PhysicsCollision::P_BODYA] = bodyA;
            physicsCollisionData_[PhysicsCollision::P_BODYB] = bodyB;
            physicsCollisionData_[PhysicsCollision::P_TRIGGER] = trigger;

            contacts_.Clear();

            // "Pointers not flipped"-manifold, send unmodified normals
            btPersistentManifold* contactManifold = i->second_.manifold_;
            if (contactManifold)
            {
                for (int j = 0; j < contactManifold->getNumContacts(); ++j)
                {
                    btManifoldPoint& point = contactManifold->getContactPoint(j);
                    contacts_.WriteVector3(ToVector3(point.m_positionWorldOnB));
                    contacts_.WriteVector3(ToVector3(point.m_normalWorldOnB));
                    contacts_.WriteFloat(point.m_distance1);
                    contacts_.WriteFloat(point.m_appliedImpulse);
                }
            }
            // "Pointers flipped"-manifold, flip normals also
            contactManifold = i->second_.flippedManifold_;
            if (contactManifold)
            {
                for (int j = 0; j < contactManifold->getNumContacts(); ++j)
                {
                    btManifoldPoint& point = contactManifold->getContactPoint(j);
                    contacts_.WriteVector3(ToVector3(point.m_positionWorldOnB));
                    contacts_.WriteVector3(-ToVector3(point.m_normalWorldOnB));
                    contacts_.WriteFloat(point.m_distance1);
                    contacts_.WriteFloat(point.m_appliedImpulse);
                }
            }

            physicsCollisionData_[PhysicsCollision::P_CONTACTS] = contacts_.GetBuffer();

            // Send separate collision start event if collision is new
            if (newCollision)
            {
                SendEvent(E_PHYSICSCOLLISIONSTART, physicsCollisionData_);
                // Skip rest of processing if either of the nodes or bodies is removed as a response to the event
                if (!nodeWeakA || !nodeWeakB || !i->first_.first_ || !i->first_.second_)
                    continue;
            }

            // Then send the ongoing collision event
            SendEvent(E_PHYSICSCOLLISION, physicsCollisionData_);
            if (!nodeWeakA || !nodeWeakB || !i->first_.first_ || !i->first_.second_)
                continue;

            nodeCollisionData_[NodeCollision::P_BODY] = bodyA;
            nodeCollisionData_[NodeCollision::P_OTHERNODE] = nodeB;
            nodeCollisionData_[NodeCollision::P_OTHERBODY] = bodyB;
            nodeCollisionData_[NodeCollision::P_TRIGGER] = trigger;
            nodeCollisionData_[NodeCollision::P_CONTACTS] = contacts_.GetBuffer();

            if (newCollision)
            {
                nodeA->SendEvent(E_NODECOLLISIONSTART, nodeCollisionData_);
                if (!nodeWeakA || !nodeWeakB || !i->first_.first_ || !i->first_.second_)
                    continue;
            }

            nodeA->SendEvent(E_NODECOLLISION, nodeCollisionData_);
            if (!nodeWeakA || !nodeWeakB || !i->first_.first_ || !i->first_.second_)
                continue;

            // Flip perspective to body B
            contacts_.Clear();
            contactManifold = i->second_.manifold_;
            if (contactManifold)
            {
                for (int j = 0; j < contactManifold->getNumContacts(); ++j)
                {
                    btManifoldPoint& point = contactManifold->getContactPoint(j);
                    contacts_.WriteVector3(ToVector3(point.m_positionWorldOnB));
                    contacts_.WriteVector3(-ToVector3(point.m_normalWorldOnB));
                    contacts_.WriteFloat(point.m_distance1);
                    contacts_.WriteFloat(point.m_appliedImpulse);
                }
            }
            contactManifold = i->second_.flippedManifold_;
            if (contactManifold)
            {
                for (int j = 0; j < contactManifold->getNumContacts(); ++j)
                {
                    btManifoldPoint& point = contactManifold->getContactPoint(j);
                    contacts_.WriteVector3(ToVector3(point.m_positionWorldOnB));
                    contacts_.WriteVector3(ToVector3(point.m_normalWorldOnB));
                    contacts_.WriteFloat(point.m_distance1);
                    contacts_.WriteFloat(point.m_appliedImpulse);
                }
            }

            nodeCollisionData_[NodeCollision::P_BODY] = bodyB;
            nodeCollisionData_[NodeCollision::P_OTHERNODE] = nodeA;
            nodeCollisionData_[NodeCollision::P_OTHERBODY] = bodyA;
            nodeCollisionData_[NodeCollision::P_CONTACTS] = contacts_.GetBuffer();

            if (newCollision)
            {
                nodeB->SendEvent(E_NODECOLLISIONSTART, nodeCollisionData_);
                if (!nodeWeakA || !nodeWeakB || !i->first_.first_ || !i->first_.second_)
                    continue;
            }

            nodeB->SendEvent(E_NODECOLLISION, nodeCollisionData_);
        }
    }

    // Send collision end events as applicable
    {
        physicsCollisionData_[PhysicsCollisionEnd::P_WORLD] = this;

        for (HashMap<Pair<WeakPtr<RigidBody>, WeakPtr<RigidBody> >, ManifoldPair>::Iterator
                 i = previousCollisions_.Begin(); i != previousCollisions_.End(); ++i)
        {
            if (!currentCollisions_.Contains(i->first_))
            {
                RigidBody* bodyA = i->first_.first_;
                RigidBody* bodyB = i->first_.second_;
                if (!bodyA || !bodyB)
                    continue;

                bool trigger = bodyA->IsTrigger() || bodyB->IsTrigger();

                // Skip collision event signaling if both objects are static, or if collision event mode does not match
                if (bodyA->GetMass() == 0.0f && bodyB->GetMass() == 0.0f)
                    continue;
                if (bodyA->GetCollisionEventMode() == COLLISION_NEVER || bodyB->GetCollisionEventMode() == COLLISION_NEVER)
                    continue;
                if (bodyA->GetCollisionEventMode() == COLLISION_ACTIVE && bodyB->GetCollisionEventMode() == COLLISION_ACTIVE &&
                    !bodyA->IsActive() && !bodyB->IsActive())
                    continue;

                Node* nodeA = bodyA->GetNode();
                Node* nodeB = bodyB->GetNode();
                WeakPtr<Node> nodeWeakA(nodeA);
                WeakPtr<Node> nodeWeakB(nodeB);

                physicsCollisionData_[PhysicsCollisionEnd::P_BODYA] = bodyA;
                physicsCollisionData_[PhysicsCollisionEnd::P_BODYB] = bodyB;
                physicsCollisionData_[PhysicsCollisionEnd::P_NODEA] = nodeA;
                physicsCollisionData_[PhysicsCollisionEnd::P_NODEB] = nodeB;
                physicsCollisionData_[PhysicsCollisionEnd::P_TRIGGER] = trigger;

                SendEvent(E_PHYSICSCOLLISIONEND, physicsCollisionData_);
                // Skip rest of processing if either of the nodes or bodies is removed as a response to the event
                if (!nodeWeakA || !nodeWeakB || !i->first_.first_ || !i->first_.second_)
                    continue;

                nodeCollisionData_[NodeCollisionEnd::P_BODY] = bodyA;
                nodeCollisionData_[NodeCollisionEnd::P_OTHERNODE] = nodeB;
                nodeCollisionData_[NodeCollisionEnd::P_OTHERBODY] = bodyB;
                nodeCollisionData_[NodeCollisionEnd::P_TRIGGER] = trigger;

                nodeA->SendEvent(E_NODECOLLISIONEND, nodeCollisionData_);
                if (!nodeWeakA || !nodeWeakB || !i->first_.first_ || !i->first_.second_)
                    continue;

                nodeCollisionData_[NodeCollisionEnd::P_BODY] = bodyB;
                nodeCollisionData_[NodeCollisionEnd::P_OTHERNODE] = nodeA;
                nodeCollisionData_[NodeCollisionEnd::P_OTHERBODY] = bodyA;

                nodeB->SendEvent(E_NODECOLLISIONEND, nodeCollisionData_);
            }
        }
    }

    previousCollisions_ = currentCollisions_;
}
Exemplo n.º 5
0
void TerrySpawner::HandleNodeCollision(StringHash eventType, VariantMap& eventData)
{
	using namespace NodeCollision;

	RigidBody* rb = static_cast<RigidBody*>(eventData[P_BODY].GetPtr());

	Node* noed = rb->GetNode();

	if (!noed->GetVar("canAttack").GetBool())
	{
		return;
	}

	if (noed->GetComponent<Blind>())
	{
		return;
	}

	noed->SetVar("canAttack", false);

	SharedPtr<Node> otherNode = SharedPtr<Node>(static_cast<Node*>(eventData[P_OTHERNODE].GetPtr()));

	if (!otherNode->HasComponent<Health>())
	{
		return;
	}

	bool enemy = false;

	if (otherNode->GetVar("npcType").GetInt() == 0)//hero
	{
		enemy = true;
	}

	if (enemy || noed->HasComponent<Enchanted>())
	{
		int healthMod = noed->GetVar("attack").GetInt();

		if (otherNode->HasComponent<Armor>())
		{
			healthMod = noed->GetVar("attack").GetInt() - otherNode->GetComponent<Armor>()->armor_;

			if (healthMod < 0)
			{
				healthMod = 0;
			}
		}

		otherNode->GetComponent<Health>()->ModifyHealth(healthMod, -1, false);

		if (otherNode->GetComponent<Health>()->health_ <= 0)
		{
			if (!enemy && noed->HasComponent<Enchanted>())
			{
				otherNode->GetComponent<Health>()->ModifyHealth(100, 0, false);
				otherNode->GetScene()->GetComponent<TerrySpawner>()->RespawnTerry(otherNode);
			}
			else if (otherNode->GetName() != "tent")
			{
				if (!otherNode->HasComponent<Dead>())
				{
					otherNode->AddComponent(new Dead(context_, main_, -1.0f), 0, LOCAL);
				}
			}
			else
			{
				SpriteSheetPlayer* ssp = main_->mySceneNode_->GetComponent<SpriteSheetPlayer>();
				for (int x = 0; x < ssp->sprites_.Size(); x++)
				{
					if (!ssp->sprites_[x]->noed_->HasComponent<Dead>())
					{
						ssp->sprites_[x]->noed_->AddComponent(new Dead(context_, main_, -1.0f), 0, LOCAL);

						Node* particleStartNode_ = ssp->sprites_[x]->noed_->GetScene()->CreateChild(0,LOCAL);
						particleStartNode_->SetPosition(ssp->sprites_[x]->noed_->GetPosition());

						particleStartNode_->AddComponent(new TimedRemove(context_, main_, 2.0f), 0, LOCAL);

						particleStartNode_->AddComponent(new SoundSource3D(context_), 0, LOCAL);
						particleStartNode_->GetComponent<SoundSource3D>()->SetGain(0.1f);
						particleStartNode_->GetComponent<SoundSource3D>()->Play(main_->cache_->GetResource<Sound>("Sounds/319071__mishicu__v8.ogg"));

					}
				}
			}

			return;
		}

		/*if (!noed->HasComponent<Stunned>())
		{
			noed->AddComponent(new Stunned(context_, main_, 2.0f), 0, LOCAL);
		}*/
	}
}
Exemplo n.º 6
0
void TerrySpawner::HandleNodeCollisionStart(StringHash eventType, VariantMap& eventData)
{
	using namespace NodeCollisionStart;

	SharedPtr<Node> otherNode = SharedPtr<Node>(static_cast<Node*>(eventData[P_OTHERNODE].GetPtr()));
	RigidBody* rb = static_cast<RigidBody*>(eventData[P_BODY].GetPtr());

	Node* noed = rb->GetNode();

	if (otherNode->GetName() == "safetyNet")
	{
		RespawnTerry(noed);
		return;
	}

	if (!otherNode->HasComponent<Health>())
	{
		return;
	}

	if (otherNode->GetVar("npcType").GetInt() == 0)//hero
	{
		MoveByTouch* mbt = noed->GetComponent<MoveByTouch>();
		mbt->MoveTo(otherNode->GetWorldPosition(),
				mbt->moveToSpeed_,mbt->speedRamp_,mbt->gravity_,mbt->gravityRamp_,false,true,true);

		int collisionCount = noed->GetVar("collisionCount").GetInt();
		collisionCount++;
		noed->SetVar("collisionCount", collisionCount);

		if (collisionCount == 1)
		{
			VariantMap vm;
			vm[AnimateSceneNode::P_NODE] = noed;

			if (noed->GetVar("sex").GetBool())
			{
				vm[AnimateSceneNode::P_ANIMATION] = "attackF";
			}
			else
			{
				vm[AnimateSceneNode::P_ANIMATION] = "attackM";
			}

			vm[AnimateSceneNode::P_LOOP] = false;
			vm[AnimateSceneNode::P_LAYER] = 0;
			SendEvent(E_ANIMATESCENENODE, vm);
		}

		if (noed->GetComponent<Blind>() || noed->GetComponent<Stunned>())
		{
			return;
		}

		int healthMod = noed->GetVar("attack").GetInt();

		if (otherNode->HasComponent<Armor>())
		{
			healthMod = noed->GetVar("attack").GetInt() - otherNode->GetComponent<Armor>()->armor_;

			if (healthMod < 0)
			{
				healthMod = 0;
			}
		}

		otherNode->GetComponent<Health>()->ModifyHealth(healthMod, -1, false);

		if (otherNode->GetComponent<Health>()->health_ <= 0)
		{
			if (otherNode->GetName() != "tent")
			{
				if (!otherNode->HasComponent<Dead>())
				{
					otherNode->AddComponent(new Dead(context_, main_, -1.0f), 0, LOCAL);
				}
			}
			else
			{
				SpriteSheetPlayer* ssp = main_->mySceneNode_->GetComponent<SpriteSheetPlayer>();
				for (int x = 0; x < ssp->sprites_.Size(); x++)
				{
					if (!ssp->sprites_[x]->noed_->HasComponent<Dead>())
					{
						ssp->sprites_[x]->noed_->AddComponent(new Dead(context_, main_, -1.0f), 0, LOCAL);

						Node* particleStartNode_ = ssp->sprites_[x]->noed_->GetScene()->CreateChild(0,LOCAL);
						particleStartNode_->SetPosition(ssp->sprites_[x]->noed_->GetPosition());

						particleStartNode_->AddComponent(new TimedRemove(context_, main_, 2.0f), 0, LOCAL);

						particleStartNode_->AddComponent(new SoundSource3D(context_), 0, LOCAL);
						particleStartNode_->GetComponent<SoundSource3D>()->SetGain(0.1f);
						particleStartNode_->GetComponent<SoundSource3D>()->Play(main_->cache_->GetResource<Sound>("Sounds/319071__mishicu__v8.ogg"));

					}
				}
			}

			//otherNode->GetComponent<Health>()->ModifyHealth(100, 0, false);
			//otherNode->GetScene()->GetComponent<TerrySpawner>()->RespawnTerry(otherNode);
			return;
		}

		/*if (!noed->HasComponent<Stunned>())
		{
			noed->AddComponent(new Stunned(context_, main_, 2.0f), 0, LOCAL);
		}*/
	}
}
Exemplo n.º 7
0
void WizardSkill0::HandleNodeCollisionStart(StringHash eventType, VariantMap& eventData)
{
	using namespace NodeCollisionStart;

	SharedPtr<Node> otherNode = SharedPtr<Node>(static_cast<Node*>(eventData[P_OTHERNODE].GetPtr()));
	RigidBody* otherRB = static_cast<RigidBody*>(eventData[P_OTHERBODY].GetPtr());

	RigidBody* rb = static_cast<RigidBody*>(eventData[P_BODY].GetPtr());
	Node* noed = rb->GetNode();

	if (!otherNode->HasComponent<Health>())
	{
		/*Node* particleStartNode_ = noed->GetScene()->CreateChild(0,LOCAL);
		ParticleEmitter* emitterStartFX_ = particleStartNode_->CreateComponent<ParticleEmitter>(LOCAL);
		emitterStartFX_->SetEffect(main_->cache_->GetResource<ParticleEffect>("Particle/dustCloud.xml"));
		emitterStartFX_->SetViewMask(1);
		particleStartNode_->SetPosition(noed->GetPosition() + (Vector3::UP));
		emitterStartFX_->SetEmitting(true);

		particleStartNode_->AddComponent(new TimedRemove(context_, main_, 2.0f), 0, LOCAL);*/

		/*Node* lightNode = noed->GetScene()->CreateChild(0,LOCAL);
		lightNode->SetPosition(noed->GetPosition() + (Vector3::UP));
		Light* light = lightNode->CreateComponent<Light>(LOCAL);
		light->SetBrightness(2.0f);
		light->SetPerVertex(true);
		light->SetRange(5.0f);
		lightNode->AddComponent(new TimedRemove(context_, main_, 0.1f), 0, LOCAL);*/

		//noed->Remove();
		return;
	}

	if (otherNode->GetVar("npcType").GetInt() == 1)//terry
	{
		otherNode->GetComponent<Health>()->ModifyHealth(50, -1, false);

		if (otherNode->GetComponent<Health>()->health_ <= 0)
		{
			otherNode->GetComponent<Health>()->ModifyHealth(100, 0, false);
			otherNode->GetScene()->GetComponent<TerrySpawner>()->RespawnTerry(otherNode);
		}

		Vector3 victoria = otherNode->GetPosition();
		Vector3 dir = (victoria - noed->GetPosition()).Normalized();
		dir.y_ = 1.0f;
		dir *= 10.0f;

		otherNode->AddComponent(new Stunned(context_, main_, 4.0f), 0, LOCAL);

		otherRB->ApplyImpulse(dir);

		/*Node* particleStartNode_ = noed->GetScene()->CreateChild(0,LOCAL);
		ParticleEmitter* emitterStartFX_ = particleStartNode_->CreateComponent<ParticleEmitter>(LOCAL);
		emitterStartFX_->SetEffect(main_->cache_->GetResource<ParticleEffect>("Particle/dustCloud.xml"));
		emitterStartFX_->SetViewMask(1);
		particleStartNode_->SetPosition(noed->GetPosition() + (Vector3::UP));
		emitterStartFX_->SetEmitting(true);

		particleStartNode_->AddComponent(new TimedRemove(context_, main_, 2.0f), 0, LOCAL);*/

		/*Node* lightNode = noed->GetScene()->CreateChild(0,LOCAL);
		lightNode->SetPosition(noed->GetPosition() + (Vector3::UP));
		Light* light = lightNode->CreateComponent<Light>(LOCAL);
		light->SetBrightness(2.0f);
		light->SetPerVertex(true);
		light->SetRange(5.0f);
		lightNode->AddComponent(new TimedRemove(context_, main_, 0.1f), 0, LOCAL);*/

		//noed->Remove();
	}
}