Exemplo n.º 1
0
 // Update heading direction
 public void updateMovement(Pointt destination) {
   this.destination = destination;
   finalAngle =
       Geometry.arcTan(
           destination.getY() - position.getY(),
           destination.getX() - position.getX(),
           destination.getX() - position.getX());
 }
Exemplo n.º 2
0
  @Override
  public void setPosition(Pointt position) {
    super.setPosition(position);
    generatePaint();
    double startAngle = Maths.randomAngle();
    GeneralPath tempRep = new GeneralPath();

    Pointt next = new Pointt(0, 0);
    for (int i = 0; i < vertices.length; i++) {
      vertices[i] =
          next.getArcPointt(
              radius() * Geometry.DISPLAY_REAL_RATIO,
              startAngle + i * 2 * (Math.PI / NUMBER_OF_VERTICES));
    }

    tempRep.moveTo(vertices[0].getX(), vertices[0].getY());

    for (int i = 0; i < vertices.length; i++) {
      next = vertices[(i + 1) % vertices.length];
      tempRep.quadTo(
          vertices[i].midPoint(next).getX()
              + Maths.randomNegative(radius() * Geometry.DISPLAY_REAL_RATIO / 2),
          vertices[i].midPoint(next).getY()
              + Maths.randomNegative(radius() * Geometry.DISPLAY_REAL_RATIO / 2),
          next.getX(),
          next.getY());
    }

    tempRep.closePath();
    rep = new Area(tempRep);

    for (int i = 0; i < vertices.length; i++) {
      vertices[i].translate(position);
    }
  }
Exemplo n.º 3
0
  private double tangentialAngle(Units testUnit) {
    double output;

    double side =
        (destination.getY() - position.getY()) * (position.getX() - testUnit.position.getX())
            - (position.getY() - testUnit.position.getY()) * (destination.getX() - position.getX());
    // Change angle to the tangential angle
    output =
        Geometry.arcTan(
                position.getY() - testUnit.position.getY(),
                position.getX() - testUnit.position.getX(),
                position.getX() - testUnit.position.getX())
            - Math.PI / 2;

    if (side >= 0) {
      output += Math.PI;
    }

    return output;
  }
Exemplo n.º 4
0
  @Override
  public void plot(Graphics2D a, AffineTransform transform, Pointt focus) {
    if (activate()) {
      a.setTransform(transform);
      Pointt display = displayPosition(focus);
      a.translate(display.getX(), display.getY());

      if (ELAPSE_TIME - elapsedTime() < DISAPPEAR_TIME) {
        if (ELAPSE_TIME - elapsedTime() > 0) {
          a.setComposite(
              AlphaComposite.getInstance(
                  AlphaComposite.SRC_OVER, (ELAPSE_TIME - elapsedTime()) / (float) DISAPPEAR_TIME));
        } else {
          return;
        }
      } else {
        a.setComposite(AlphaComposite.getInstance(AlphaComposite.SRC_OVER, 0.3f));
      }
      a.setPaint(paint);
      a.fill(getRep());
      a.setComposite(AlphaComposite.getInstance(AlphaComposite.SRC_OVER, 1f));

      if (Math.random() < 0.5) {
        synchronized (game().visualEffects()) {
          game()
              .visualEffects()
              .add(
                  new UniversalEffect(
                      position().randomRange(25),
                      Sarcophagidae.repInstances[0],
                      Sarcophagidae.standardColors,
                      APPEAR_TIME_VISUAL / 100,
                      APPEAR_SPEED_VISUAL,
                      Maths.randomAngle(),
                      UniversalEffect.STAND_STILL,
                      UniversalEffect.FADING,
                      UniversalEffect.FIX_SCALE));
        }
      }
    }
  }
Exemplo n.º 5
0
  /** Movement given no collision */
  public synchronized void moveNoCollision(double time) {
    if (time <= 0) {
      throw new InvalidParameterException("Cannot move the unit, time <= 0!");
    }

    if (Double.isNaN(time)) {
      throw new RuntimeException(
          "time is NaN. speed is " + speed + "  moving angle is " + movingAngle);
    }

    // Check if the unit is facing the required direction
    if (movingAngle == finalAngle) { // Already facing that direction
      if (this.destination != null) {
        if (speed * time >= position.distance(destination)) {
          xVelocity = 0;
          yVelocity = 0;
          position = destination;
          return;
        }
      }

      xVelocity = speed * Math.cos(movingAngle);
      yVelocity = speed * Math.sin(movingAngle);

      position.setX(Geometry.fixX(position.getX() + xVelocity * time));
      position.setY(Geometry.fixY(position.getY() + yVelocity * time));

    } else { // Need to turn to that direction
      double distance = finalAngle - movingAngle;
      double alternative = -(2 * Math.PI - finalAngle + movingAngle);

      if (distance < 0) {
        while (alternative <= -Math.PI) {
          alternative += 2 * Math.PI;
        }
      } else {
        while (alternative >= Math.PI) {
          alternative -= 2 * Math.PI;
        }
      }

      double angularDisplacement;
      if (Math.abs(distance) < Math.abs(alternative)) {
        angularDisplacement = distance;
      } else {
        angularDisplacement = alternative;
      }

      if (angularSpeed * time < Math.abs(angularDisplacement)) { // Does not finish turning
        movingAngle +=
            ((angularDisplacement) / Math.abs(angularDisplacement)) * angularSpeed * time;
        xVelocity = 0;
        yVelocity = 0;
      } else { // Finish turning with extra or no time left
        movingAngle = finalAngle;

        if (Double.isNaN(angularSpeed)) {
          throw new RuntimeException(
              "Angular speed is NaN. angulardisplacement is " + angularDisplacement);
        }

        if (Double.isInfinite(angularSpeed)) {
          throw new RuntimeException(
              "Angular speed is isInfinite. angulardisplacement is " + angularDisplacement);
        }

        if (Double.isNaN(angularDisplacement)) {
          throw new RuntimeException("angularDisplacement is NaN. angularSpeed is " + angularSpeed);
        }

        if (Double.isNaN(time - Math.abs(angularDisplacement) / angularSpeed)) {
          throw new RuntimeException(
              "Next input is NaN. angularSpeed is "
                  + angularSpeed
                  + " angularDisplacement is "
                  + angularDisplacement
                  + "time is "
                  + time);
        }

        moveNoCollision(time - Math.abs(angularDisplacement) / angularSpeed);
      }
    }
  }