Example #1
0
 public String toString() {
   return title
       + " "
       + vb
       + " "
       + ib
       + " "
       + textures
       + " "
       + rotationX
       + " "
       + rotationY
       + " "
       + rotationZ
       + " subs: "
       + subObjects.size();
 }
Example #2
0
  @SuppressWarnings("unchecked")
  public Mesh(LinkedHashMap mesh, User user) {

    this.mesh = mesh;
    this.user = user;

    try {
      title = getStringFromHash(mesh, "title", "Some Object");

      ArrayList<Float> vs = new ArrayList<Float>(256);
      ArrayList<Float> ns = new ArrayList<Float>(256);
      ArrayList<Float> tp = new ArrayList<Float>(256);

      LinkedList verts = getListFromHash(mesh, "vertices");
      for (Object vert : verts) {
        vs.add(getFloatFromList(vert, 0, 0f));
        vs.add(getFloatFromList(vert, 1, 0f));
        vs.add(getFloatFromList(vert, 2, 0f));
      }
      LinkedList norms = getListFromHash(mesh, "normals");
      for (Object norm : norms) {
        ns.add(getFloatFromList(norm, 0, 0f));
        ns.add(getFloatFromList(norm, 1, 0f));
        ns.add(getFloatFromList(norm, 2, 0f));
      }
      LinkedList texts = getListFromHash(mesh, "texturepoints");
      for (Object text : texts) {
        tp.add(getFloatFromList(text, 0, 0f));
        tp.add(getFloatFromList(text, 1, 0f));
      }
      ArrayList<Float> vnt = new ArrayList<Float>(1024);
      ArrayList<Short> ind = new ArrayList<Short>(1024);
      short index = 0;
      LinkedList faces = getListFromHash(mesh, "faces");
      for (Object face : faces) {
        for (int i = 0; i < 3; i++) {
          String f = getStringFromList(face, i, "1/1/2");
          StringTokenizer st = new StringTokenizer(f, "/");
          int fv = Integer.parseInt(st.nextToken()) - 1;
          int ft = Integer.parseInt(st.nextToken()) - 1;
          int fn = Integer.parseInt(st.nextToken()) - 1;

          vnt.add(vs.get(fv * 3));
          vnt.add(vs.get(fv * 3 + 1));
          vnt.add(vs.get(fv * 3 + 2));

          vnt.add(ns.get(fn * 3));
          vnt.add(ns.get(fn * 3 + 1));
          vnt.add(ns.get(fn * 3 + 2));

          vnt.add(tp.get(ft * 2));
          vnt.add(tp.get(ft * 2 + 1));

          ind.add(index++);
        }
      }
      vnt.trimToSize();
      float[] va = new float[vnt.size()];
      for (int i = 0; i < vnt.size(); i++) va[i] = vnt.get(i);

      ind.trimToSize();
      short[] ia = new short[ind.size()];
      for (int i = 0; i < ind.size(); i++) ia[i] = ind.get(i);

      vb = ByteBuffer.allocateDirect(va.length * 4).order(ByteOrder.nativeOrder()).asFloatBuffer();
      vb.put(va).position(0);

      ib = ByteBuffer.allocateDirect(ia.length * 2).order(ByteOrder.nativeOrder()).asShortBuffer();
      ib.put(ia).position(0);

      il = ia.length;

      textures = getListFromHash(mesh, "textures");
      if (textures.size() == 0) textures = list("placeholder");
      vertexShader = user.shaders.get(getStringFromHash(mesh, "vertex-shader", ""));
      fragmentShader = user.shaders.get(getStringFromHash(mesh, "fragment-shader", ""));
      subObjects = getListFromHash(mesh, "sub-items");
      rotationX = getFloatFromList(getListFromHash(mesh, "rotation"), 0, 0f);
      rotationY = getFloatFromList(getListFromHash(mesh, "rotation"), 1, 0f);
      rotationZ = getFloatFromList(getListFromHash(mesh, "rotation"), 2, 0f);
      scaleX = getFloatFromList(getListFromHash(mesh, "scale"), 0, 1f);
      scaleY = getFloatFromList(getListFromHash(mesh, "scale"), 1, 1f);
      scaleZ = getFloatFromList(getListFromHash(mesh, "scale"), 2, 1f);
      lightR = getFloatFromList(getListFromHash(mesh, "light"), 0, 0f);
      lightG = getFloatFromList(getListFromHash(mesh, "light"), 1, 0f);
      lightB = getFloatFromList(getListFromHash(mesh, "light"), 2, 0f);

    } catch (Exception e) {
      e.printStackTrace();
      Log.e("Mesh Constructor", e.getLocalizedMessage());
      return;
    }
  }