use of org.terasology.engine.physics.events.EntityImpactEvent in project Terasology by MovingBlocks.
the class PhysicsSystem method update.
@Override
public void update(float delta) {
PerformanceMonitor.startActivity("Physics Renderer");
physics.update(time.getGameDelta());
PerformanceMonitor.endActivity();
// Update the velocity from physics engine bodies to Components:
Iterator<EntityRef> iter = physics.physicsEntitiesIterator();
while (iter.hasNext()) {
EntityRef entity = iter.next();
RigidBodyComponent comp = entity.getComponent(RigidBodyComponent.class);
RigidBody body = physics.getRigidBody(entity);
// force location component to update and sync trigger state
if (entity.hasComponent(TriggerComponent.class)) {
physics.updateTrigger(entity);
}
if (body.isActive()) {
body.getLinearVelocity(comp.velocity);
body.getAngularVelocity(comp.angularVelocity);
Vector3f vLocation = body.getLocation(new Vector3f());
Vector3f vDirection = new Vector3f(comp.velocity);
float fDistanceThisFrame = vDirection.length();
vDirection.normalize();
fDistanceThisFrame = fDistanceThisFrame * delta;
while (true) {
HitResult hitInfo = physics.rayTrace(vLocation, vDirection, fDistanceThisFrame + 0.5f, DEFAULT_COLLISION_GROUP);
if (hitInfo.isHit()) {
Block hitBlock = worldProvider.getBlock(hitInfo.getBlockPosition());
if (hitBlock != null) {
Vector3f vTravelledDistance = vLocation.sub(hitInfo.getHitPoint());
float fTravelledDistance = vTravelledDistance.length();
if (fTravelledDistance > fDistanceThisFrame) {
break;
}
if (hitBlock.isPenetrable()) {
if (!hitInfo.getEntity().hasComponent(BlockComponent.class)) {
entity.send(new EntityImpactEvent(hitInfo.getHitPoint(), hitInfo.getHitNormal(), comp.velocity, fDistanceThisFrame, hitInfo.getEntity()));
break;
}
// decrease the remaining distance to check if we hit a block
fDistanceThisFrame = fDistanceThisFrame - fTravelledDistance;
vLocation = hitInfo.getHitPoint();
} else {
entity.send(new BlockImpactEvent(hitInfo.getHitPoint(), hitInfo.getHitNormal(), comp.velocity, fDistanceThisFrame, hitInfo.getEntity()));
break;
}
} else {
break;
}
} else {
break;
}
}
}
}
if (networkSystem.getMode().isServer() && time.getGameTimeInMs() - TIME_BETWEEN_NETSYNCS > lastNetsync) {
sendSyncMessages();
lastNetsync = time.getGameTimeInMs();
}
List<CollisionPair> collisionPairs = physics.getCollisionPairs();
for (CollisionPair pair : collisionPairs) {
if (pair.b.exists()) {
short bCollisionGroup = getCollisionGroupFlag(pair.b);
short aCollidesWith = getCollidesWithGroupFlag(pair.a);
if ((bCollisionGroup & aCollidesWith) != 0 || (pair.b.hasComponent(BlockComponent.class) && !pair.a.hasComponent(BlockComponent.class))) {
pair.a.send(new CollideEvent(pair.b, pair.pointA, pair.pointB, pair.distance, pair.normal));
}
}
if (pair.a.exists()) {
short aCollisionGroup = getCollisionGroupFlag(pair.a);
short bCollidesWith = getCollidesWithGroupFlag(pair.b);
if ((aCollisionGroup & bCollidesWith) != 0 || (pair.a.hasComponent(BlockComponent.class) && !pair.b.hasComponent(BlockComponent.class))) {
pair.b.send(new CollideEvent(pair.a, pair.pointB, pair.pointA, pair.distance, new Vector3f(pair.normal).mul(-1.0f)));
}
}
}
}
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