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I am new to Jmonkey programming and I would like to ask a question about collision interaction as my code seems to finds collisions possibly from the terrain and i do not know how to solve this out. My goal is player as a first person to be detected if he collides with an enemie's ghost control to display a message as an output. My code displays a continues collision and then it crashes...

package test;




import com.jme3.animation.AnimChannel;
import com.jme3.animation.AnimControl;
import com.jme3.animation.AnimEventListener;

import com.jme3.animation.LoopMode;
import com.jme3.cinematic.events.MotionTrack;


import com.jme3.app.SimpleApplication;
import com.jme3.bullet.BulletAppState;
import com.jme3.bullet.PhysicsSpace;
import com.jme3.bullet.PhysicsTickListener;
import com.jme3.bullet.collision.PhysicsCollisionEvent;
import com.jme3.bullet.collision.PhysicsCollisionListener;
import com.jme3.bullet.collision.PhysicsCollisionObject; 
import com.jme3.bullet.collision.shapes.BoxCollisionShape;
import com.jme3.bullet.collision.shapes.CapsuleCollisionShape;
import com.jme3.bullet.collision.shapes.CollisionShape;
import com.jme3.bullet.control.CharacterControl;
import com.jme3.bullet.control.GhostControl;
import com.jme3.bullet.control.RigidBodyControl;
import com.jme3.bullet.util.CollisionShapeFactory;
import com.jme3.cinematic.MotionPath;
import com.jme3.cinematic.MotionPathListener;
import com.jme3.collision.CollisionResult;
import com.jme3.collision.CollisionResults;
import com.jme3.font.BitmapText;
import com.jme3.input.KeyInput;
import com.jme3.input.MouseInput;
import com.jme3.input.controls.ActionListener;
import com.jme3.input.controls.KeyTrigger;
import com.jme3.input.controls.MouseButtonTrigger;
import com.jme3.light.AmbientLight;
import com.jme3.light.DirectionalLight;
import com.jme3.material.Material;
import com.jme3.math.ColorRGBA;
import com.jme3.math.FastMath;
import com.jme3.math.Quaternion;
import com.jme3.math.Ray;
import com.jme3.math.Vector3f;
import com.jme3.renderer.Camera;
import com.jme3.renderer.queue.RenderQueue.Bucket;
import com.jme3.scene.Geometry;
import com.jme3.scene.Node;
import com.jme3.scene.Spatial;
import com.jme3.scene.shape.Box;
import com.jme3.scene.shape.Sphere;
import com.jme3.terrain.geomipmap.TerrainLodControl;
import com.jme3.terrain.heightmap.AbstractHeightMap;
import com.jme3.terrain.geomipmap.TerrainQuad;
import com.jme3.terrain.heightmap.ImageBasedHeightMap;
import com.jme3.texture.Texture;
import com.jme3.texture.Texture.WrapMode;
import com.jme3.util.SkyFactory;
import java.util.ArrayList;
import java.util.List;
import java.util.concurrent.Callable;
import java.util.logging.Level; 
import java.util.logging.Logger;
import jme3tools.converters.ImageToAwt;



public class test extends SimpleApplication
implements ActionListener,PhysicsTickListener{
private MotionPath path;
private MotionPath path2;
private MotionTrack motionTrack;
private MotionTrack motionTrack2;
private AnimChannel channel2;
private AnimControl control2;
private AnimControl control3;
private AnimChannel channel3;
private BulletAppState bulletAppState;
private RigidBodyControl landscape;
private CharacterControl player;
private Vector3f walkDirection = new Vector3f();
private boolean left = false, right = false, up = false, down = false;
private TerrainQuad terrain;
private Material mat_terrain;
private GhostControl ghost;
static test app;
Material matMarker;
public static void main(String[] args) {
app = new test();
app.start();

}
float displacement=60;
int score = 0;
int robotHealth=0;
Geometry mark;
Node shootables;
Node pickUpObject1;
BitmapText hudText;
@Override
public void simpleInitApp() {

createScene();
enemies();
pickUptype1();
initCrossHairs(); // a "+" in the middle of the screen to help aiming
initKeys();       // load custom key mappings
initMark();       // a red sphere to mark the hit    



hudText = new BitmapText(guiFont, false);          
hudText.setSize(guiFont.getCharSet().getRenderedSize());      // font size
hudText.setColor(ColorRGBA.Red);                             // font color

hudText.setLocalTranslation(600, 700, 0); // position
guiNode.attachChild(hudText);



DirectionalLight sun2 = new DirectionalLight();
sun2.setDirection(new Vector3f(-0.1f, -0.7f, -1.0f));
int width = settings.getWidth();           //width is the width of the gui
    int height = settings.getHeight();         //height is the height of the gui
    // A vertical line to separate the GUI from the rest of the screen
   // Geometry cubeHUD = makeCube("Vertical Gui Line", 0f, 0f, 0f);
    //cubeHUD.setLocalTranslation(width * 0.05f, 0, 1);
    //cubeHUD.setLocalScale (2, height, 1);

    //guiNode.attachChild(cubeHUD);
    guiNode.addLight(sun2);

    System.out.println(" GUI: Width, Height=" + width + " " + height);
   // rootNode.attachChild(guiNode);



}






protected Geometry makeCube(String name, float x, float y, float z) {
Box box = new Box(new Vector3f(x, y, z), 3f, 3f, 3f);
Geometry cube = new Geometry(name, box);

Material mat1 = new Material(assetManager, "Common/MatDefs/Misc/Unshaded.j3md");
Texture tex_ml = assetManager.loadTexture("Interface/Logo/Monkey.jpg");
mat1.setTexture("ColorMap", tex_ml);
// cube.setMaterial(mat1);
//mat1.setColor("Color", ColorRGBA.randomColor());
cube.setMaterial(mat1);

return cube;
}

/** A red ball that marks the last spot that was "hit" by the "shot". */
protected void initMark() {
Sphere sphere = new Sphere(30, 30, 0.2f);
mark = new Geometry("BOOM!", sphere);
Material mark_mat = new Material(assetManager, "Common/MatDefs/Misc/Unshaded.j3md");
mark_mat.setColor("Color", ColorRGBA.Red);
mark.setMaterial(mark_mat);
}


  private PhysicsSpace getPhysicsSpace() {
    return bulletAppState.getPhysicsSpace();
}

public void onAnimCycleDone(AnimControl control, AnimChannel channel, String         animName)   {
if (animName.equals("Walk")) {
  channel2.setAnim("Walk", 0.50f);
  channel2.setLoopMode(LoopMode.DontLoop);
  channel2.setSpeed(0.5f);
}
}
private void setUpLight() {
// We add light so we see the scene
AmbientLight al = new AmbientLight();
al.setColor(ColorRGBA.White.mult(1.3f));
rootNode.addLight(al);

DirectionalLight dl = new DirectionalLight();
dl.setColor(ColorRGBA.White);
dl.setDirection(new Vector3f(2.8f, -2.8f, -2.8f).normalizeLocal());
rootNode.addLight(dl);
}
/** We over-write some navigational key mappings here, so we can
* add physics-controlled walking and jumping: */
private void setUpKeys() {
inputManager.addMapping("Left", new KeyTrigger(KeyInput.KEY_A));
inputManager.addMapping("Right", new KeyTrigger(KeyInput.KEY_D));
inputManager.addMapping("Up", new KeyTrigger(KeyInput.KEY_W));
inputManager.addMapping("Down", new KeyTrigger(KeyInput.KEY_S));
inputManager.addMapping("Jump", new KeyTrigger(KeyInput.KEY_SPACE));
inputManager.addListener(this, "Left");
inputManager.addListener(this, "Right");
inputManager.addListener(this, "Up");
inputManager.addListener(this, "Down");
inputManager.addListener(this, "Jump");
}

/** These are our custom actions triggered by key presses.
* We do not walk yet, we just keep track of the direction the user pressed. */
public void onAction(String binding, boolean value, float tpf) {
if (binding.equals("Left")) {
  if (value) { left = true; } else { left = false; }
} else if (binding.equals("Right")) {
  if (value) { right = true; } else { right = false; }
} else if (binding.equals("Up")) {
  if (value) { up = true; } else { up = false; }
} else if (binding.equals("Down")) {
  if (value) { down = true; } else { down = false; }
} else if (binding.equals("Jump")) {
  player.jump();
}
}

/**
* This is the main event loop--walking happens here.
* We check in which direction the player is walking by interpreting
* the camera direction forward (camDir) and to the side (camLeft).
* The setWalkDirection() command is what lets a physics-controlled player walk.
* We also make sure here that the camera moves with player.
*/
@Override
public void simpleUpdate(float tpf) {
  hudText.setText("SCORE \n" + "    " + score);// the text
Vector3f camDir = cam.getDirection().clone().multLocal(0.6f);
Vector3f camLeft = cam.getLeft().clone().multLocal(0.4f);
walkDirection.set(0, 0, 0);
if (left)  { walkDirection.addLocal(camLeft); }
if (right) { walkDirection.addLocal(camLeft.negate()); }
if (up)    { walkDirection.addLocal(camDir); }
if (down)  { walkDirection.addLocal(camDir.negate()); }


player.setWalkDirection(walkDirection);
cam.setLocation(player.getPhysicsLocation());
path.setCycle(true); // Make path a complete circuit
path2.setCycle(true);
motionTrack.setLoopMode(LoopMode.Loop);
motionTrack2.setLoopMode(LoopMode.Loop);


}



/** A centred plus sign to help the player aim. */
protected void initCrossHairs() {
guiNode.detachAllChildren();
guiFont = assetManager.loadFont("Interface/Fonts/Default.fnt");
BitmapText ch = new BitmapText(guiFont, false);
ch.setSize(guiFont.getCharSet().getRenderedSize() * 2);
ch.setText("+"); // crosshairs
ch.setLocalTranslation( // center
  settings.getWidth() / 2 - guiFont.getCharSet().getRenderedSize() / 3 * 2,
  settings.getHeight() / 2 + ch.getLineHeight() / 2, 0);
guiNode.attachChild(ch);
} 






/** Declaring the "Shoot" action and mapping to its triggers. */
private void initKeys() {
inputManager.addMapping("Shoot",
  new KeyTrigger(KeyInput.KEY_SPACE), // trigger 1: spacebar
  new MouseButtonTrigger(MouseInput.BUTTON_LEFT)); // trigger 2: left-button click
inputManager.addListener(actionListener, "Shoot");
}
/** Defining the "Shoot" action: Determine what was hit and how to respond. */
private ActionListener actionListener = new ActionListener() {

public void onAction(String name, boolean keyPressed, float tpf) {
  if (name.equals("Shoot") && !keyPressed) {
    // 1. Reset results list.
    CollisionResults results = new CollisionResults();
    // 2. Aim the ray from cam loc to cam direction.
    Ray ray = new Ray(cam.getLocation(), cam.getDirection());
    // 3. Collect intersections between Ray and Shootables in results list.
    shootables.collideWith(ray, results);
    pickUpObject1.collideWith(ray, results);
    // 4. Print the results
    System.out.println("----- Collisions? " + results.size() + "-----");
    for (int i = 0; i < results.size(); i++) {
      // For each hit, we know distance, impact point, name of geometry.
      float dist = results.getCollision(i).getDistance();
      Vector3f pt = results.getCollision(i).getContactPoint();
      String hit = results.getCollision(i).getGeometry().getName();
      System.out.println("* Collision #" + i);
      System.out.println("  You shot " + hit + " at " + pt + ", " + dist + " wu        away.");
     }
     // 5. Use the results (we mark the hit object)
     if (results.size() > 0) {
        // The closest collision point is what was truly hit:
        CollisionResult closest = results.getClosestCollision();

        // Get the geometry of the closest
        Geometry g = closest.getGeometry ();

        Node p=g.getParent();
        Node q=p.getParent();
        System.out.println ("Parent of shot object="+p);
        System.out.println ("Grandparent of the shot object="+q);


        if ((p==pickUpObject1) || (q==pickUpObject1)) {

           if (p==pickUpObject1) 
                pickUpObject1.detachChild(g);
            else if (q==pickUpObject1) { 
                pickUpObject1.detachChild(p);
            } 

           score += 500;
           Geometry guiBox = makeCube("For Inventory", 0, 0, 0);
           guiNode.attachChild(guiBox);
           guiBox.setLocalScale(10); 
           guiBox.setLocalTranslation (1230,displacement,0);

           displacement+=80;



        }


         if ((p==shootables) || (q==shootables)) {

           robotHealth++;
           if (p==shootables) {

               System.out.println("counter " + robotHealth);
           if(robotHealth==3){
          //     System.out.println("Robot is dead");

        // shootables.detachChild(g);
           }     
           }
            else if (q==shootables) { 

                  System.out.println("counter " + robotHealth);

                 if(robotHealth==3){

          BitmapText  hudText2 = new BitmapText(guiFont, false);          
          hudText2.setSize(guiFont.getCharSet().getRenderedSize());      // font size
          hudText2.setColor(ColorRGBA.Red);                             // font color

          hudText2.setLocalTranslation(300, 700, 0); // position


         hudText2.setText("Robot is dead");// the text
         guiNode.attachChild(hudText2);
                    shootables.detachChild(p);
                   robotHealth=0;
                            try {
                                Thread.sleep(2000);
                                     guiNode.detachChild(hudText2);
                            } catch (InterruptedException ex) {
                                  Logger.getLogger(test.class.getName()).log(Level.SEVERE, null, ex);
                            }



                 }     

               // shootables.detachChild(p);
            } 
         /* 
           score += 500;
           Geometry guiBox = makeCube("For Inventory", 0, 0, 0);
           guiNode.attachChild(guiBox);
           guiBox.setLocalScale(10); 
           guiBox.setLocalTranslation (1230,displacement,0);

           displacement+=80;

          */

        }

      // Let's interact - we mark the hit with a red dot.
      mark.setLocalTranslation(closest.getContactPoint());
      rootNode.attachChild(mark);
    } else {

      // No hits? Then remove the red mark.
      rootNode.detachChild(mark);
    }
   }
   }
   };




   public void changeColor(Node x){


   //Material material = x.getMaterial();
   //material.setColor("Color", ColorRGBA.randomColor());
   // guiNode.attachChild(x); 
   // guiNode.setLocalTranslation(1f, 135f, 1f);
   // shootables.detachChild(x);

   int robotLife = 3;
   for(int i=0; i<3; i++){

      robotLife-=1;

      if(robotLife<3){


          System.out.println("Robot's remaining life is " + robotLife);

          if(robotLife==0){



          }

      }


    }


   }

   public Node robot(){

    Node monster = (Node) assetManager.loadModel("Models/Oto/Oto.mesh.xml");
    monster.scale(1.5f, 1.5f, 1.5f);
    monster.rotate(0.0f, -3.0f, 0.0f);
         // Create a appropriate physical shape for it

    return monster;
   }


   public void createScene(){

   /** Set up Physics */
  bulletAppState = new BulletAppState();
  stateManager.attach(bulletAppState);
  //bulletAppState.getPhysicsSpace().enableDebug(assetManager);

  flyCam.setMoveSpeed(100);
  setUpKeys();

  /** 1. Create terrain material and load four textures into it. */
  mat_terrain = new Material(assetManager, 
        "Common/MatDefs/Terrain/Terrain.j3md");

  /** 1.1) Add ALPHA map (for red-blue-green coded splat textures) */
  mat_terrain.setTexture("Alpha", assetManager.loadTexture(
        "Textures/Terrain/splat/alphamap.png"));

  /** 1.2) Add GRASS texture into the red layer (Tex1). */
  Texture grass = assetManager.loadTexture(
        "Textures/Terrain/splat/grass.jpg");
  grass.setWrap(WrapMode.Repeat);
  mat_terrain.setTexture("Tex1", grass);
  mat_terrain.setFloat("Tex1Scale", 64f);

  /** 1.3) Add DIRT texture into the green layer (Tex2) */
   Texture dirt = assetManager.loadTexture(
        "Textures/Terrain/splat/dirt.jpg");
  dirt.setWrap(WrapMode.Repeat);
  mat_terrain.setTexture("Tex2", dirt);
  mat_terrain.setFloat("Tex2Scale", 32f);

  /** 1.4) Add ROAD texture into the blue layer (Tex3) */
  Texture rock = assetManager.loadTexture(
        "Textures/Terrain/splat/road.jpg");
  rock.setWrap(WrapMode.Repeat);
  mat_terrain.setTexture("Tex3", rock);
  mat_terrain.setFloat("Tex3Scale", 128f);

  /** 2. Create the height map */
  AbstractHeightMap heightmap = null;
  Texture heightMapImage = assetManager.loadTexture(
        "Textures/Terrain/splat/mountains512.png");
  heightmap = new ImageBasedHeightMap(heightMapImage.getImage());
  heightmap.load(); 



   /** 3. We have prepared material and heightmap. 
   * Now we create the actual terrain:
   * 3.1) Create a TerrainQuad and name it "my terrain".
   * 3.2) A good value for terrain tiles is 64x64 -- so we supply 64+1=65.
   * 3.3) We prepared a heightmap of size 512x512 -- so we supply 512+1=513.
   * 3.4) As LOD step scale we supply Vector3f(1,1,1).
   * 3.5) We supply the prepared heightmap itself.
   */
  terrain = new TerrainQuad("my terrain", 65, 513, heightmap.getHeightMap());

  /** 4. We give the terrain its material, position & scale it, and attach it. */
  terrain.setMaterial(mat_terrain);
  terrain.setLocalTranslation(0, -100, 0);
  terrain.setLocalScale(2f, 1f, 2f);
  rootNode.attachChild(terrain);

  /** 5. The LOD (level of detail) depends on were the camera is: */
  List<Camera> cameras = new ArrayList<Camera>();
  cameras.add(getCamera());
  TerrainLodControl control = new TerrainLodControl(terrain, cameras);
  terrain.addControl(control);

   /** 6. Add physics: */ 
  // We set up collision detection for the scene by creating a
  // compound collision shape and a static RigidBodyControl with mass zero.*/
  CollisionShape terrainShape =
        CollisionShapeFactory.createMeshShape((Node) terrain);
  landscape = new RigidBodyControl(terrainShape, 0);
  terrain.addControl(landscape);

  // We set up collision detection for the player by creating
  // a capsule collision shape and a CharacterControl.
  // The CharacterControl offers extra settings for
  // size, stepheight, jumping, falling, and gravity.
  // We also put the player in its starting position.
   CapsuleCollisionShape capsuleShape = new CapsuleCollisionShape(1.5f, 6f, 1);
   player = new CharacterControl(capsuleShape, 0.05f);
   player.setJumpSpeed(20);
   player.setFallSpeed(30);
   player.setGravity(30);
   player.setPhysicsLocation(new Vector3f(145f, -28f, 10f));
   player.setCollisionGroup(PhysicsCollisionObject.COLLISION_GROUP_01);
   player.addCollideWithGroup(PhysicsCollisionObject.COLLISION_GROUP_01);



   //  Node playerNode = new Node("Myplayer");
   // playerNode.addControl(player);
   //  GhostControl ghost2 = new GhostControl(
   // new BoxCollisionShape(new Vector3f(8f,8f,8f)));  // a box-shaped ghost
   // Node node2 = new Node("player");
   //    playerNode.addControl(ghost2);                         // the ghost follows   this node
    // Optional: Add a Geometry, or other controls, to the node if you need to
   //System.out.println("jackson " + node.getName());
    // attach everything to activate it
    //playerNode.attachChild(node2);
   // rootNode.attachChild(node);
   // getPhysicsSpace().add(ghost2);

   // We attach the scene and the player to the rootnode and the physics space,
    // to make them appear in the game world.
  // bulletAppState.getPhysicsSpace().add(terrain);
  // bulletAppState.getPhysicsSpace().add(playerNode);
    //System.out.println("Max " + playerNode.getChild(INPUT_MAPPING_EXIT).getName());



   setUpLight();
   rootNode.attachChild(SkyFactory.createSky( assetManager,
   "Textures/Sky/Bright/BrightSky.dds", false));
   //skyGeo.setQueueBucket(Bucket.Sky); 

  // createCharacter();




  }


  public void enemies(){

  shootables = new Node("Shootables");
  rootNode.attachChild(shootables);


  Node Robot1 = robot();
   Node Robot2 = robot();


   CapsuleCollisionShape capsule = new CapsuleCollisionShape(4f, 10f);
  RigidBodyControl robot1Cap = new RigidBodyControl(capsule, 0.01f);

  Robot1.addControl(robot1Cap);


    getPhysicsSpace().add(robot1Cap);

    bulletAppState.getPhysicsSpace().add(robot1Cap);
    bulletAppState.getPhysicsSpace().enableDebug(assetManager);

    robot1Cap.setMass(100f);
    robot1Cap.setKinematic(true);

    CapsuleCollisionShape capsule2 = new CapsuleCollisionShape(4f, 10f);
    RigidBodyControl robot2Cap = new RigidBodyControl(capsule, 0.01f);

    Robot2.addControl(robot2Cap);
    //character.setPhysicsLocation(new Vector3f(350f,-79f, 3f)); 

    getPhysicsSpace().add(robot2Cap);

    bulletAppState.getPhysicsSpace().add(robot2Cap);
    bulletAppState.getPhysicsSpace().enableDebug(assetManager);

    robot2Cap.setMass(100f);
    robot2Cap.setKinematic(true);

    ghost = new GhostControl(
    new BoxCollisionShape(new Vector3f(8f,8f,8f)));  // a box-shaped ghost
   // Node node = new Node("robotGhost");
    Robot1.addControl(ghost);

    ghost.setCollisionGroup(PhysicsCollisionObject.COLLISION_GROUP_01);
    ghost.setCollideWithGroups(PhysicsCollisionObject.COLLISION_GROUP_01);
    //node.addControl(ghost);                         // the ghost follows this node
  //  model2.addControl(ghostControl);
  //  ghost.setPhysicsLocation(new Vector3f(650f, 250f, 200f));
  //  rootNode.attachChild(model2);


    // Optional: Add a Geometry, or other controls, to the node if you need to
   //System.out.println("jackson " + node.getName());
    // attach everything to activate it

   // rootNode.attachChild(node);
   // getPhysicsSpace().add(node);
    getPhysicsSpace().add(ghost);

   getPhysicsSpace().addTickListener(this);




    //Node test = new Node();
   // test.attachChild(Enemie1);
    control2 = Robot1.getControl(AnimControl.class);
    //control2.addListener(this);
    channel2 = control2.createChannel();
    channel2.setAnim("Walk");

     control3 = Robot2.getControl(AnimControl.class);
    //control2.addListener(this);
    channel3 = control3.createChannel();
    channel3.setAnim("Walk");
    path = new MotionPath(); 

    path.addWayPoint(new Vector3f(500f,-83f,3f)); 
    path.addWayPoint(new Vector3f(350f,-79f, 3f)); 
    path.enableDebugShape(assetManager,rootNode);

    // Initialize our motionTrack object
    motionTrack = new MotionTrack(Robot1, path);

    motionTrack.setDirectionType(MotionTrack.Direction.Path);
    // Enable the motionTrack
    motionTrack.setEnabled(true);


    path2 = new MotionPath(); 



    path2.addWayPoint(new Vector3f(180f,-50f,-100f)); 
    path2.addWayPoint(new Vector3f(200f, -55f, -30f)); 
    path2.enableDebugShape(assetManager,rootNode);

    // Initialize our motionTrack object
    motionTrack2 = new MotionTrack(Robot2, path2);
    motionTrack2.setDirectionType(MotionTrack.Direction.Path);
    // Enable the motionTrack
    motionTrack2.setEnabled(true);

    shootables.attachChild(Robot1);
    shootables.attachChild(Robot2); 


 }
 public void prePhysicsTick(PhysicsSpace space, float f) {
    //place holder
   }

 public void physicsTick(PhysicsSpace space, float f) {
       if (ghost.getOverlappingObjects().size() > 0) {
        final Vector3f bPoint = ghost.getPhysicsLocation();
        try {
            app.enqueue(new Callable<Boolean>() {
                public Boolean call() throws Exception {
                    app.addMarker(bPoint);
                    return true;
                }
            });
        } catch (Exception ex) {
        }
        fpsText.setText("Overlapping objects: " +       ghost.getOverlappingObjects().toString());
       // fpsText.setText("Overlapping objects: " + ghostControl3.getOverlappingObjects().toString());

        //System.out.println("Overlapping with user char: " + ghostControl3.getOverlappingCount());
        System.out.println("Overlapping with autonomous char: " + ghost.getOverlappingCount());
    }
}


 public void pickUptype1(){
       pickUpObject1 = new Node("pickUpObject1");
       rootNode.attachChild(pickUpObject1);


       Node cube1 = new Node();
       cube1.attachChild(makeCube("the Deputy", 220f, -63f, -150f));
       Node cube2 = new Node();
       cube2.attachChild(makeCube("the Deputy2", 410f, -89f, -270f));


       RigidBodyControl floor_phy = new RigidBodyControl(0.0f);
       cube1.addControl(floor_phy);

     RigidBodyControl floor_phy2 = new RigidBodyControl(0.0f);
     cube2.addControl(floor_phy2);
     bulletAppState.getPhysicsSpace().add(floor_phy);
     bulletAppState.getPhysicsSpace().add(floor_phy2);
    pickUpObject1.attachChild(cube1);
    pickUpObject1.attachChild(cube2);  
 }
     public void addMarker(Vector3f ori) {
      Geometry reBoxg = new Geometry("marker", new Box(Vector3f.ZERO, 0.1f, 0.1f,    0.1f));
      reBoxg.setMaterial(matMarker);
      reBoxg.setLocalTranslation(ori);
      this.rootNode.attachChild(reBoxg);
   }




}
share|improve this question
1  
That's a pretty decent amount of code. –  arshajii Oct 27 '12 at 20:11
2  
Well, perhaps you should trim that down to the fewest neccesary lines. And i'd ask it at jmonkeyengine.org in the forum. –  rhavin Feb 25 '13 at 19:10
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