Esempio n. 1
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  @Override
  public ArrayList<Point3D> getVertices() {
    ArrayList<Point3D> part1 = new ArrayList<Point3D>();
    ArrayList<Point3D> part2 = new ArrayList<Point3D>();
    ArrayList<Point3D> result = new ArrayList<Point3D>();

    part1.add(this.getBlockLocations().get(0));
    part1.add(this.getBlockLocations().get(1));
    part1.add(this.getBlockLocations().get(2));
    part1.add(this.getBlockLocations().get(3));

    part2.add(this.getBlockLocations().get(4));

    vertices.clear();
    setVertices(part1);
    setVertices(part2);
    for (Point3D point : vertices) {
      result.add(point);
    }
    vertices.clear();
    for (Point3D point : result) {
      vertices.add(point.add(location));
    }

    return result;
  }
Esempio n. 2
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  public double getAngle(Atom a1, Atom a2) {
    Point3D vertex = new Point3D(coords[0], coords[1], coords[2]);
    Point3D pA1 = new Point3D(a1.coords[0], a1.coords[1], a1.coords[2]);
    Point3D pA2 = new Point3D(a2.coords[0], a2.coords[1], a2.coords[2]);

    return vertex.angle(pA1, pA2);
  }
Esempio n. 3
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  AxisLineOld(double radius, double height, Rotate rotate, Point3D offset) {
    super(radius, height);
    this.rotate = rotate;
    this.offset = new Translate(offset.getX(), offset.getY(), offset.getZ());
    ;

    this.getTransforms().addAll(this.rotate, this.offset);
  }
Esempio n. 4
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 public Point3D unTransform(Point3D p) {
   try {
     javafx.geometry.Point3D ta = a.inverseTransform(p.x, p.y, p.z);
     return new Point3D((float) ta.getX(), (float) ta.getY(), (float) ta.getZ());
   } catch (NonInvertibleTransformException ex) {
     System.out.println("p not invertible " + p);
   }
   return p;
 }
Esempio n. 5
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 public static final Point3D absoluteSum(final Collection<Point3D> c) {
   double x = 0d;
   double y = 0d;
   double z = 0d;
   for (Point3D p : c) {
     x += Math.abs(p.getX());
     y += Math.abs(p.getY());
     z += Math.abs(p.getZ());
   }
   return new Point3D(x, y, z);
 }
Esempio n. 6
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 private static Point3D getMeshNormal(MeshView mesh) {
   TriangleMesh tm = (TriangleMesh) mesh.getMesh();
   float[] fPoints = new float[tm.getPoints().size()];
   tm.getPoints().toArray(fPoints);
   Point3D BA =
       new Point3D(fPoints[3] - fPoints[0], fPoints[4] - fPoints[1], fPoints[5] - fPoints[2]);
   Point3D CA =
       new Point3D(fPoints[6] - fPoints[0], fPoints[7] - fPoints[1], fPoints[8] - fPoints[2]);
   Point3D normal = BA.crossProduct(CA);
   Affine a = new Affine(mesh.getTransforms().get(0));
   return a.transform(normal.normalize());
 }
Esempio n. 7
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 /**
  * Returns a String containing all Box3D values for saving to a data file. The String is processed
  * by the Box3D(String) constructor to recreate a Box3D object when reading a saved data file.
  *
  * @return String capturing all Box field values
  */
 public String outString() {
   String ms = null;
   if (m != null) {
     if (m.getDiffuseColor() != null) {
       ms = m.getDiffuseColor().toString();
     }
     if (m.getSpecularColor() != null) {
       ms = ms.concat(", " + m.getSpecularColor().toString());
     }
   }
   return "Box: " + p.getX() + ", " + p.getY() + ", " + p.getZ() + ", " + width + ", " + height
       + ", " + depth + ", " + xr + ", " + yr + ", " + zr + ", " + dm + ", " + cf + ", " + ms;
 }
Esempio n. 8
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 /**
  * Creates a new Arrow3D object scaled by the value t
  *
  * @param t double scalar value to multiply Arrow line components
  * @return Arrow3D scaled by t
  */
 public Arrow3D multiply(double t) {
   double x2 = t * (p2.getX() - p1.getX()) + p1.getX();
   double y2 = t * (p2.getY() - p1.getY()) + p1.getY();
   double z2 = t * (p2.getZ() - p1.getZ()) + p1.getZ();
   Point3D newp = new Point3D(x2, y2, z2);
   Arrow3D newa = new Arrow3D(p1, newp);
   newa.setMaterial(m);
   newa.setArrowRadius(arrowRadius);
   return newa;
 }
Esempio n. 9
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 private void selectFocus() {
   Point3D p = new Point3D(0, 0, 0);
   Nucleotide n =
       selectionModel
           .getItems()[
           selectionModel
               .getSelectedIndices()
               .get(selectionModel.getSelectedIndices().size() - 1)];
   p = p.add(utils.fx3d.computeCenter(n.getNucleotideCoordinates()));
   p = p.add(utils.fx3d.computeCenter(n.getBaseCoordinates()));
   p = p.multiply(1 / ((double) 2));
   // fx3d.transiteFromTOo(tertiaryRoom.getCamera(), p);
   tertiaryRoom.setCameraCenter(p);
 }
Esempio n. 10
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 private AxisGrid createBasicAxisGrid(
     Point3D planeVectorXYZ, Point2D tickSeperationXY, Point2D axisLengthXY, double thickness) {
   AxisGrid tempGrid =
       new AxisGrid(
           planeVectorXYZ, tickSeperationXY, axisLengthXY, thickness, tickSeperationXYZ.getX());
   return tempGrid;
 }
Esempio n. 11
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 /**
  * Returns a String for printing all Box3D values
  *
  * @return String for printing all Box3D field values
  */
 public String toString() {
   String ms = null;
   if (m != null) {
     if (m.getDiffuseColor() != null) {
       ms = ", m= " + m.getDiffuseColor().toString();
     }
     if (m.getSpecularColor() != null) {
       ms = ms.concat(", " + m.getSpecularColor().toString());
     }
   } else {
     ms = ", m= " + m;
   }
   return "Box3D: p= "
       + p.toString()
       + ", width = "
       + width
       + ", height= "
       + height
       + ", depth= "
       + depth
       + ", xr= "
       + xr
       + ", yr= "
       + yr
       + ", zr= "
       + zr
       + ", dm= "
       + dm
       + ", cf= "
       + cf
       + ", "
       + ms;
 }
Esempio n. 12
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    /**
     * Rotates the Cell towards the Viewer when it is close to the center. Also mirrors the cells
     * after they passed the center to keep the Cells correctly visible for the viewer.
     */
    public void applyViewRotation() {
      if (index < 3) {
        double angle = index > -3 ? Math.PI / 2 * -index / 3 + Math.PI / 2 : Math.PI;

        Point3D axis = new Point3D((ul.getX() + ur.getX()) / 2, 0, (ul.getZ() + ur.getZ()) / 2);

        ul = rotateY(ul, axis, angle);
        ur = rotateY(ur, axis, angle);
        ll = rotateY(ll, axis, angle);
        lr = rotateY(lr, axis, angle);

        if (reflection != null) {
          ulReflection = rotateY(ulReflection, axis, angle);
          urReflection = rotateY(urReflection, axis, angle);
        }
      }
    }
Esempio n. 13
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 /**
  * Returns a String for printing all Arrow3D values
  *
  * @return String for printing all Arrow3D field values
  */
 public String toString() {
   String ms = null;
   if (m != null) {
     if (m.getDiffuseColor() != null) {
       ms = ", m= " + m.getDiffuseColor().toString();
     }
     if (m.getSpecularColor() != null) {
       ms = ms.concat(", " + m.getSpecularColor().toString());
     }
   } else {
     ms = ", m= " + m;
   }
   return "Arrow3D: p1= "
       + p1.toString()
       + ", p2= "
       + p2.toString()
       + " arrowRadius= "
       + arrowRadius
       + ms;
 }
Esempio n. 14
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 static int distance(Point3D first, Point3D second) {
   return (int)
       (Math.sqrt(
               Math.pow(second.getX() - first.getX(), 2)
                   + Math.pow(second.getY() - first.getY(), 2))
           + Math.pow(second.getZ() - first.getZ(), 2));
 }
Esempio n. 15
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 /**
  * Returns a String containing all Arrow3D values for saving to a data file. The String is
  * processed by the Arrow3D(String) constructor to recreate a Arrow3D object when reading a saved
  * data file.
  *
  * @return String capturing all Arrow3D field values
  */
 public String outString() {
   String ms = null;
   if (m != null) {
     if (m.getDiffuseColor() != null) {
       ms = m.getDiffuseColor().toString();
     }
     if (m.getSpecularColor() != null) {
       ms = ms.concat(", " + m.getSpecularColor().toString());
     }
   }
   return "Arrow: "
       + p1.getX()
       + ", "
       + p1.getY()
       + ", "
       + p1.getZ()
       + ", "
       + p2.getX()
       + ", "
       + p2.getY()
       + ", "
       + p2.getZ()
       + ", "
       + arrowRadius
       + ", "
       + ms;
 }
Esempio n. 16
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 public static final Point3D minus(final Point3D p, final Point3D q) {
   return Point3DBuilder.create()
       .x(p.getX() - q.getX())
       .y(p.getY() - q.getY())
       .z(p.getZ() - q.getZ())
       .build();
 }
Esempio n. 17
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  /**
   * Provides the Arrow3D line mid-point (in user coordinate space)
   *
   * @return midpoint Point3D location of the Arrow midpoint
   */
  public Point3D midpoint() {
    double x, y, z;
    x = (p1.getX() + p2.getX()) / 2.0;
    y = (p1.getY() + p2.getY()) / 2.0;
    z = (p1.getZ() + p2.getZ()) / 2.0;

    return new Point3D(x, y, z);
  }
Esempio n. 18
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 public static final double pointSegmentDistance(
     final Point3D p, final Point3D q1, final Point3D q2) {
   if (p.equals(q1) || p.equals(q2)) return 0;
   if (q1.equals(q2)) return p.distance(q1);
   // line segment: g = q1 + t * (q2 - q1), 0 <= t <= 1
   final Point3D q = minus(q2, q1);
   // projection on line: P(p,g) = q1 + t * q
   final double t = scalarProduct(minus(p, q1), q) / scalarProduct(q, q);
   if (t < 0) return p.distance(q1);
   else if (t > 1) return p.distance(q2);
   else return p.distance(plus(q1, multiply(t, q)));
 }
Esempio n. 19
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 public static String getRightRotation(Point3D p, String selFaces) {
   double radius = p.magnitude();
   double angle = Math.atan2(p.getY(), p.getX());
   String face = "";
   if (radius >= radMinimum && selFaces.contains("-") && selFaces.split("-").length == 2) {
     String[] faces = selFaces.split("-");
     // select rotation if p.getX>p.getY
     if (-Math.PI / 4d <= angle && angle < Math.PI / 4d) { // X
       face = faces[0];
     } else if (Math.PI / 4d <= angle && angle < 3d * Math.PI / 4d) { // Y
       face = faces[1];
     } else if ((3d * Math.PI / 4d <= angle && angle <= Math.PI)
         || (-Math.PI <= angle && angle < -3d * Math.PI / 4d)) { // -X
       face = reverseRotation(faces[0]);
     } else { // -Y
       face = reverseRotation(faces[1]);
     }
     System.out.println("face: " + face);
   } else if (!face.isEmpty() && radius < radMinimum) { // reset previous face
     face = "";
   }
   return face;
 }
Esempio n. 20
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  public void SetTickSeperationXYZ(Point3D newTickSpeperation) {
    this.tickSeperationXYZ = newTickSpeperation;

    xAxisGrid.setTickSeperationXY(new Point2D(tickSeperationXYZ.getY(), tickSeperationXYZ.getZ()));

    yAxisGrid.setTickSeperationXY(new Point2D(tickSeperationXYZ.getZ(), tickSeperationXYZ.getX()));

    zAxisGrid.setTickSeperationXY(new Point2D(tickSeperationXYZ.getX(), tickSeperationXYZ.getY()));
  }
Esempio n. 21
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  /**
   * Provides the projected Arrow3D angle between xz axes
   *
   * @return theta Double value of angle of projected xz arrow line
   */
  public double theta() {
    // Relocate line start point to origin
    double x = p2.getX() - p1.getX();
    double y = p2.getY() - p1.getY();
    double z = p2.getZ() - p1.getZ();

    // Compute theta
    return Math.atan2(z, x);
  }
Esempio n. 22
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  public void checkScale(Point3D newMaxLengthXYZ) {
    // yz
    xAxisGrid.updateGrid(new Point2D(newMaxLengthXYZ.getY(), newMaxLengthXYZ.getZ()));
    // zx
    yAxisGrid.updateGrid(new Point2D(newMaxLengthXYZ.getZ(), newMaxLengthXYZ.getX()));
    // xy
    zAxisGrid.updateGrid(new Point2D(newMaxLengthXYZ.getX(), newMaxLengthXYZ.getY()));

    reDeclareLabels();
  }
Esempio n. 23
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  /**
   * Provides the Arrow3D angle with y axis
   *
   * @return phi Double value of angle of arrow line to y axis
   */
  public double phi() {
    double x, y, z;
    // Relocate line start point to origin
    x = p2.getX() - p1.getX();
    y = p2.getY() - p1.getY();
    z = p2.getZ() - p1.getZ();

    // Compute phi
    double rho = Math.sqrt(x * x + y * y + z * z);
    return Math.acos(-y / rho);
  }
Esempio n. 24
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  private Cylinder createScaleAxis(Point3D direction, double length, double thickness) {
    // generate the cylinder
    // default position is centered on (0,0,0) in direction (0,1,0)
    Cylinder tempBox = new Cylinder(thickness, length * 1.05d);

    // rotate the axis to face the right direction
    // in this case the axis
    tempBox.getTransforms().add(Vector3DUtil.rotateVector(new Point3D(0, 1, 0), direction));
    tempBox.getTransforms().add(new Translate(0, (length * 1.05d) / 2, 0));

    // create the material to colour the axis
    PhongMaterial mat = new PhongMaterial();
    mat.setDiffuseColor(new Color(direction.getX(), direction.getY(), direction.getZ(), 1));
    mat.setSpecularColor(new Color(direction.getX(), direction.getY(), direction.getZ(), 1));

    // set the material -> ie colour the axis
    tempBox.setMaterial(mat);

    return tempBox;
  }
Esempio n. 25
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 private Point3D transform(double x, double y, double z) {
   javafx.geometry.Point3D ta = a.transform(x, y, z);
   return new Point3D((float) ta.getX(), (float) ta.getY(), (float) ta.getZ());
 }
Esempio n. 26
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  public AxisGroup(
      Point3D origin, Point3D maxLength, double axisThickness, Point3D tickSeperationXYZ) {

    this.tickSeperationXYZ = tickSeperationXYZ;

    // create axis grids
    // yz plane
    this.getChildren()
        .add(
            xAxisGrid =
                createBasicAxisGrid(
                    new Point3D(1, 0, 0),
                    new Point2D(tickSeperationXYZ.getY(), tickSeperationXYZ.getZ()),
                    new Point2D(maxLength.getY(), maxLength.getZ()),
                    axisThickness / 10));

    // zx plane
    this.getChildren()
        .add(
            yAxisGrid =
                createBasicAxisGrid(
                    new Point3D(0, 1, 0),
                    new Point2D(tickSeperationXYZ.getZ(), tickSeperationXYZ.getX()),
                    new Point2D(maxLength.getZ(), maxLength.getX()),
                    axisThickness / 10));

    // xy plane
    this.getChildren()
        .add(
            zAxisGrid =
                createBasicAxisGrid(
                    new Point3D(0, 0, 1),
                    new Point2D(tickSeperationXYZ.getX(), tickSeperationXYZ.getY()),
                    new Point2D(maxLength.getX(), maxLength.getY()),
                    axisThickness / 10));
  }
Esempio n. 27
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 private static Point2D project(Point3D p, double viewDistance, double fov, double cw, double ch) {
   return new Point2D(
       p.getX() * fov / (p.getZ() + viewDistance) + cw,
       p.getY() * fov / (p.getZ() + viewDistance) + ch);
 }
Esempio n. 28
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  private static Point3D rotateY(Point3D p, Point3D axis, double radians) {
    Point3D input =
        new Point3D(p.getX() - axis.getX(), p.getY() - axis.getY(), p.getZ() - axis.getZ());

    return new Point3D(
        input.getZ() * Math.sin(radians) + input.getX() * Math.cos(radians) + axis.getX(),
        input.getY() + axis.getY(),
        input.getZ() * Math.cos(radians) - input.getX() * Math.sin(radians) + axis.getZ());
  }
Esempio n. 29
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 private void reDeclareLabels() {
   xAxisGrid.reDeclareLabels(
       new Point2D(axisLimitMin.getY(), axisLimitMin.getZ()),
       new Point2D(axisLimitMax.getY(), axisLimitMax.getZ()));
   yAxisGrid.reDeclareLabels(
       new Point2D(axisLimitMin.getZ(), axisLimitMin.getX()),
       new Point2D(axisLimitMax.getZ(), axisLimitMax.getX()));
   zAxisGrid.reDeclareLabels(
       new Point2D(axisLimitMin.getX(), axisLimitMin.getY()),
       new Point2D(axisLimitMax.getX(), axisLimitMax.getY()));
 }
Esempio n. 30
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 private Point3D transform(Point3D p) {
   javafx.geometry.Point3D ta = a.transform(p.x, p.y, p.z);
   return new Point3D((float) ta.getX(), (float) ta.getY(), (float) ta.getZ());
 }