public static Spatial AddModel(Vector3f position, String name) {
s_Model = Main.s_AssetManager.loadModel("Models/tree.obj");
s_Model.setLocalTranslation(position);
s_Model.scale(0.8f);
s_Model.setName(name);
s_Model.setShadowMode(ShadowMode.CastAndReceive);
CollisionShape collision = new CapsuleCollisionShape(0.5f, 1f);
physicsControl = new RigidBodyControl(collision, 0);
physicsControl.setKinematic(true);
s_Model.addControl(physicsControl);
Main.bulletAppState.getPhysicsSpace().add(s_Model);
// Main.s_TreeNode.attachChild(s_Model);
return s_Model;
}
@Override
public void simpleInitApp() {
// setUpKeys();
flyCam.setEnabled(false);
bulletAppState = new BulletAppState();
stateManager.attach(bulletAppState);
bulletAppState.getPhysicsSpace().enableDebug(assetManager);
Juggernaut = new Character(this, bulletAppState);
setUpCameraBoxes();
// Load in the level
// Material m = assetManager.loadMaterial("Models/levelLayout - Update.mtl");
Spatial map = assetManager.loadModel("Models/levelLayout - Update_cameraPos.obj");
rootNode.attachChild(map);
Material mark_mat = new Material(assetManager, "Common/MatDefs/Misc/Unshaded.j3md");
// mark_mat.setColor("Color", ColorRGBA.White);
// mark.setMaterial(mark_mat);
// mark.setLocalTranslation(1f,1f,1f);
// rootNode.attachChild(mark);
CollisionShape sceneShape = CollisionShapeFactory.createMeshShape(map);
landscape = new RigidBodyControl(sceneShape, 0);
map.addControl(landscape);
landscape.setCollisionGroup(1);
landscape.removeCollideWithGroup(2);
// //Load Ninja as filler for character model
// ninja = assetManager.loadModel("Models/Ninja/Ninja.mesh.xml");
// //ninja.rotate(0, -1.5f, 0);
// ninja.scale(0.02f, 0.02f, 0.02f);
// ninja.setLocalTranslation(new Vector3f(341, 300, 0));
// //ninja.setMaterial(mark_mat);
// rootNode.attachChild(ninja);
// CapsuleCollisionShape capsuleShape = new CapsuleCollisionShape(1f, 2f);
// player = new CharacterControl(capsuleShape, .05f);
// player.setJumpSpeed(50);
// player.setFallSpeed(50);
// player.setGravity(120);
// player.setPhysicsLocation(new Vector3f(1f,8f,1f));
// player.setViewDirection(new Vector3f(-1.0f, 0, 0));
// player.setCollideWithGroups(2);
//
//
//
// playerDebug = player.createDebugShape(assetManager);
// ninja.addControl(player);
// rootNode.attachChild(playerDebug);
//
// bulletAppState.getPhysicsSpace().add(player);
bulletAppState.getPhysicsSpace().add(landscape);
// Elevator 1
elevator1 = new Geometry("Elevator1", new Box(4, 1, 5));
elevator1.setLocalTranslation(304, 20, 0);
elevator1.setMaterial(mark_mat);
elvtr1 = new RigidBodyControl(10);
elevator1.addControl(elvtr1);
elvtr1.setFriction(1000.0f);
elvtr1.setKinematic(true);
bulletAppState.getPhysicsSpace().add(elvtr1);
rootNode.attachChild(elevator1);
// Elevator 2
elevator2 = new Geometry("Elevator2", new Box(4, 1, 5));
elevator2.setLocalTranslation(192, 208, 0);
elevator2.setMaterial(mark_mat);
elvtr2 = new RigidBodyControl(1000000000);
elevator2.addControl(elvtr2);
elvtr2.setAngularDamping(100000.0f);
elvtr2.setFriction(1000.0f);
// elvtr2.setKinematic(true);
bulletAppState.getPhysicsSpace().add(elvtr2);
rootNode.attachChild(elevator2);
// Add lights to see the models
DirectionalLight sun = new DirectionalLight();
sun.setDirection(new Vector3f(-0.1f, -0.7f, -1.0f));
rootNode.addLight(sun);
AmbientLight al = new AmbientLight();
al.setColor(ColorRGBA.White);
rootNode.addLight(al);
// cam.setLocation(new Vector3f(player.getPhysicsLocation().x,
// player.getPhysicsLocation().y + 5, player.getPhysicsLocation().z +40 ));
// cam.lookAt(player.getPhysicsLocation(), Vector3f.UNIT_Y);
cam.setLocation(new Vector3f(0, 5, 40));
cam.lookAt(new Vector3f(0, 5, 0), Vector3f.UNIT_Y);
}
/**
* Initialises and sets up the camera. This should be called as soon as possible
*
* @param root The node to attach the camera to
* @param physics The physics of the physics engine
* @param cam The camera that we are going to position here
*/
public void loadCamera(Node root, PhysicsSpace physics, Camera cam) {
// Create a node that is at the origin
centralNode = new Node(nodeName);
// Create a physics control, that we can move the node with
centralNodeControl = new RigidBodyControl(1);
// Add the control
centralNode.addControl(centralNodeControl);
// Set up camera
CameraNode camNode = new CameraNode("cam", cam);
// The node moves the camera, instead of the camera moving the node
camNode.setControlDir(CameraControl.ControlDirection.SpatialToCamera);
// Move it back and up a bit
camNode.setLocalTranslation(new Vector3f(0, -10, 20));
// camNode.setLocalTranslation(new Vector3f(0, -10, 50));
// Look at the origin
camNode.lookAt(centralNode.getLocalTranslation(), Vector3f.UNIT_Z);
// Attach the camera to the node at the origin, so that the camera
// follows the node
centralNode.attachChild(camNode);
// Plane that stays at the top of the screen to stop the ball rolling
// out of sight
Plane upperPlane = new Plane(Vector3f.UNIT_Y.negate(), -11f);
RigidBodyControl upperCollision = new RigidBodyControl(new PlaneCollisionShape(upperPlane), 1f);
Node upperPlaneNode = new Node("uplane");
upperPlaneNode.addControl(upperCollision);
// And another plane for bottom of the screen
Plane lowerPlane = new Plane(Vector3f.UNIT_Y, -19f);
RigidBodyControl lowerCollision = new RigidBodyControl(new PlaneCollisionShape(lowerPlane), 1f);
Node lowerPlaneNode = new Node("lplane");
lowerPlaneNode.addControl(lowerCollision);
// Put the planes into their own group so that boxes do not collide with them
upperCollision.setCollisionGroup(PhysicsCollisionObject.COLLISION_GROUP_02);
lowerCollision.setCollisionGroup(PhysicsCollisionObject.COLLISION_GROUP_02);
// Makes the planes un-affected by forces
upperCollision.setKinematic(true);
lowerCollision.setKinematic(true);
// Attach the planes to the central point that the camera looks at
// That way we can move them both by moving the central point.
centralNode.attachChild(upperPlaneNode);
centralNode.attachChild(lowerPlaneNode);
// Add some lighting
PointLight light = new PointLight();
light.setColor(ColorRGBA.White);
// light.setRadius(30);
LightControl lightControl = new LightControl(light);
// Needs to be added to the camera, as a point in space
camNode.addControl(lightControl);
// And added to the root, to have an effect on everything
root.addLight(light);
// Finally, add the centre point to the root node
root.attachChild(centralNode);
// And add the planes and the centre point to the physics space
physics.add(upperPlaneNode);
physics.add(lowerPlaneNode);
physics.add(centralNode);
centralNodeControl.setGravity(Vector3f.ZERO); // No gravity
centralNodeControl.setLinearVelocity(Vector3f.UNIT_Y); // Moves forward
}
