Ejemplo n.º 1
0
  public static void main(String[] args) {

    Polynomial vec = new Polynomial();
    vec.add(10, 0);
    vec.add(15, 1);
    vec.add(65, 8);
    System.out.println("vec1: " + vec);
    System.out.println();

    //		Polynomial vec2 = new Polynomial();
    //		vec2.add(16, 2);
    //		vec2.add(34, 5);
    //		System.out.println("vec2: " + vec2);
    //		System.out.println();
    //
    //		Polynomial vecTest = new Polynomial();
    //		vecTest.polySum(vec2);
    //		System.out.println("vec16: " + vecTest);
    //		System.out.println();
    //
    //		Polynomial vec3 = new Polynomial();
    //		vec3 = vec3.polySumBoth(vec, vec2);
    //		System.out.println("vec3: " + vec3);
    //		System.out.println();
    //
    //		Polynomial vec4 = new Polynomial();
    //		vec4 = vec4.polyMultiByConstant(vec, 5);
    //		System.out.println("vec4: " + vec4);
    //		System.out.println();
    //
    //		Polynomial vec5 = new Polynomial();
    //		vec5 = vec5.polyMultiplicate(vec, vec2);
    //		System.out.println("vec5: " + vec5);
    //		System.out.println();
    //
    //		Polynomial vec6 = new Polynomial();
    //		vec6 = vec6.polySubstract(vec, vec2);
    //		System.out.println("vec6: " + vec6);
    //		System.out.println();
    //
    //		Polynomial vec7 = new Polynomial(vec3);
    //		vec7 = vec7.firstDerivative();
    //		System.out.println("vec7 first derivative from vec3: " + vec7);
    //		System.out.println();
    //
    //		System.out.println("Evaluate vec1, x = 5 : " + vec.evaluate(5));
    //		System.out.println();
    //		System.out.println();
    //
    //		Polynomial vec8 = new Polynomial();
    //		vec8 = Polynomial.fromString("15x^2 + 18x^4 + 10 + 5x^2 + -2x^8");
    //		System.out.println(vec8);

  }
Ejemplo n.º 2
0
 /* Close the loop. */
 public TransferFunction closeLoop(double feedback) {
   Polynomial num_result = num.copy();
   Polynomial den_result = num.add(den.multiply(feedback));
   return new TransferFunction(num_result, den_result);
 }
  // Update "shape" and "segments" from the current value of "points":
  void updateShape() {
    if (points.size() < 2) {
      shape = null;
      segments.clear();
      return;
    }
    // Pad out the control point list using wraparound,
    // to make a closed spline:

    ArrayList extraPoints = new ArrayList(points);
    extraPoints.add(0, points.get(points.size() - 2));
    extraPoints.add(1, points.get(points.size() - 1));
    extraPoints.add(points.get(0));
    extraPoints.add(points.get(1));

    // Rotate the padded points so generated segment indices will align
    // with indices in the points ArrayList:

    Object first = extraPoints.get(0);
    extraPoints.remove(0);
    extraPoints.add(first);

    GeneralPath path = new GeneralPath();

    int m = extraPoints.size();
    ensureBases(m);

    segments.clear();

    // Iterate over segments:
    for (int i = 3; i < m - 1; i++) {

      Polynomial xNum = new Polynomial(0);
      Polynomial yNum = new Polynomial(0);

      Polynomial xDen = new Polynomial(0);
      Polynomial yDen = new Polynomial(0);

      // Iterate over control points:
      for (int j = 0; j < m; j++) {

        Point2D p = (Point2D) extraPoints.get(j);

        BasisFunction basis = (BasisFunction) Bases.get(j);

        double px = p.getX();
        double py = p.getY();

        Polynomial xSegNum = basis.getSegment(i).multiply(px * Weight);
        Polynomial ySegNum = basis.getSegment(i).multiply(py * Weight);

        Polynomial xSegDen = basis.getSegment(i).multiply(Weight);
        Polynomial ySegDen = basis.getSegment(i).multiply(Weight);

        xNum = xNum.add(xSegNum);
        yNum = yNum.add(ySegNum);

        xDen = xDen.add(xSegDen);
        yDen = yDen.add(ySegDen);
      }
      Shape curve = Polynomial.createRationalShape(xNum, xDen, yNum, yDen, i, i + 1, .1);
      segments.add(curve);
      path.append(curve, true);
    }
    path.closePath();
    shape = path;
  }