Exemplo n.º 1
0
  /**
   * Creates a spring between the two given nodes with the given strength. If the two nodes not
   * directly connected by an edge already have a spring between them, it will be replaced by this
   * one.
   *
   * @param node1 First of the two nodes to have a spring between them.
   * @param node2 Second of the two nodes to have a spring between them.
   * @param length The length of this spring (natural rest distance at which the two nodes would
   *     sit).
   * @param strength The strength of this new spring.
   * @return True if the viewer contains the two nodes and a spring between them has been created.
   */
  public boolean addSpring(N node1, N node2, float length, float strength) {
    Particle p1 = nodes.get(node1);
    if (p1 == null) {
      return false;
    }
    Particle p2 = nodes.get(node2);
    if (p2 == null) {
      return false;
    }

    // We may have to remove existing spring if it exists between these two nodes.
    for (int i = 0; i < physics.getNumSprings(); i++) {
      Spring spring = physics.getSpring(i);
      if ((((spring.getOneEnd() == p1) && (spring.getTheOtherEnd() == p2))
              || ((spring.getOneEnd() == p2) && (spring.getTheOtherEnd() == p1)))
          && (spring.strength() != EDGE_STRENGTH)) {
        physics.removeSpring(spring);
        break;
      }
    }

    // Add the new force.
    physics.makeSpring(p1, p2, strength, DAMPING, length);
    return false;
  }
Exemplo n.º 2
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  /**
   * Adds the given edge to those to be displayed in the viewer. Note that the edge must connect
   * nodes that have already been added to the viewer. This version will use the locations of the
   * two nodes to calculate their distance of separation.
   *
   * @param edge Edge to add to the display.
   * @return True if edge was added successfully. False if edge contains nodes that have not been
   *     added to the viewer.
   */
  public boolean addEdge(E edge) {
    Particle p1 = nodes.get(edge.getNode1());
    if (p1 == null) {
      System.err.println("Warning: Node1 not found when creating edge.");
      return false;
    }
    Particle p2 = nodes.get(edge.getNode2());
    if (p2 == null) {
      System.err.println("Warning: Node2 not found when creating edge.");
      return false;
    }

    // Only add edge if it does not already exist in the collection
    if (!edges.containsKey(edge)) {
      float x1 = p1.position().x();
      float y1 = p1.position().y();
      float x2 = p2.position().x();
      float y2 = p2.position().y();
      // Strength, damping, reset length
      edges.put(
          edge,
          physics.makeSpring(
              p1,
              p2,
              EDGE_STRENGTH,
              DAMPING,
              (float) Math.sqrt((x1 - x2) * (x1 - x2) + (y1 - y2) * (y1 - y2))));
    }
    return true;
  }
Exemplo n.º 3
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  /**
   * Creates a attractive or repulsive force between the two given nodes. If the two nodes already
   * have a force between them, it will be replaced by this one.
   *
   * @param node1 First of the two nodes to have a force between them.
   * @param node2 Second of the two nodes to have a force between them.
   * @param force Force to create between the two nodes. If positive, the nodes will attract each
   *     other, if negative they will repulse. The larger the magnitude the stronger the force.
   * @param minDistance Minimum distance within which no force is applied.
   * @return True if the viewer contains the two nodes and a force between them has been created.
   */
  public boolean addForce(N node1, N node2, float force, float minDistance) {
    Particle p1 = nodes.get(node1);
    if (p1 == null) {
      return false;
    }
    Particle p2 = nodes.get(node2);
    if (p2 == null) {
      return false;
    }

    // We may have to remove existing force if it exists between these two nodes.
    for (int i = 0; i < physics.getNumAttractions(); i++) {
      Attraction a = physics.getAttraction(i);
      if (((a.getOneEnd() == p1) && (a.getTheOtherEnd() == p2))
          || ((a.getOneEnd() == p2) && (a.getTheOtherEnd() == p1))) {
        physics.removeAttraction(a);
        break;
      }
    }
    // Add the new force.
    physics.makeAttraction(p1, p2, force, minDistance);
    return false;
  }
Exemplo n.º 4
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  /** Centres the particle view on the currently visible nodes. */
  private void updateCentroid() {
    float xMax = Float.NEGATIVE_INFINITY,
        xMin = Float.POSITIVE_INFINITY,
        yMin = Float.POSITIVE_INFINITY,
        yMax = Float.NEGATIVE_INFINITY;

    for (int i = 0; i < physics.getNumParticles(); ++i) {
      Particle p = physics.getParticle(i);
      xMax = Math.max(xMax, p.position().x());
      xMin = Math.min(xMin, p.position().x());
      yMin = Math.min(yMin, p.position().y());
      yMax = Math.max(yMax, p.position().y());
    }

    float xRange = xMax - xMin;
    float yRange = yMax - yMin;

    if ((xRange == 0) && (yRange == 0)) {
      xRange = Math.max(1, xMax);
      yRange = Math.max(1, yMax);
    }
    float zScale = (float) Math.min(height / (yRange * 1.2), width / (xRange * 1.2));
    centroid.setTarget(xMin + 0.5f * xRange, yMin + 0.5f * yRange, zScale);
  }
Exemplo n.º 5
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  /**
   * Tethers the given node to its location with the given strength.
   *
   * @param node The node to be tethered.
   * @param strength Strength of the tether.
   * @return True if the viewer contains the given node and it was tethered successfully.
   */
  public boolean tether(N node, float strength) {
    Particle p1 = nodes.get(node);
    if (p1 == null) {
      return false;
    }

    // Grab the tethering stake if it has already been created, otherwise create a new one.
    Particle stake = stakes.get(node);
    if (stake == null) {
      stake = physics.makeParticle(1, node.getLocation().x, node.getLocation().y, 0);
      stake.makeFixed();
      stakes.put(node, stake);
    }

    // Grab the tether if it has already been created, otherwise create a new one.
    Spring tether = tethers.get(stake);
    if (tether == null) {
      tether = physics.makeSpring(stake, p1, strength, DAMPING, Float.MIN_VALUE);
      tethers.put(stake, tether);
    } else {
      tether.setStrength(strength);
    }
    return true;
  }
Exemplo n.º 6
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  /**
   * Adds the given edge to those to be displayed in the viewer. Note that the edge must connect
   * nodes that have already been added to the viewer. This version will fix the distance of
   * separation between nodes to the given value
   *
   * @param edge Edge to add to the display.
   * @return True if edge was added successfully. False if edge contains nodes that have not been
   *     added to the viewer.
   */
  public boolean addEdge(E edge, float distance) {
    Particle p1 = nodes.get(edge.getNode1());
    if (p1 == null) {
      System.err.println("Warning: Node1 not found when creating edge.");
      return false;
    }
    Particle p2 = nodes.get(edge.getNode2());
    if (p2 == null) {
      System.err.println("Warning: Node2 not found when creating edge.");
      return false;
    }

    // Only add edge if it does not already exist in the collection
    if (!edges.containsKey(edge)) {
      // Strength, damping, reset length
      edges.put(edge, physics.makeSpring(p1, p2, EDGE_STRENGTH, DAMPING, distance));
    }
    return true;
  }
Exemplo n.º 7
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  /**
   * Attempts to space out non-connected nodes from one another. This is achieved by adding a strong
   * repulsive force between non-connected nodes. Note that this produces n-squared forces so can be
   * slow for large networks where many nodes are not connected to each other.
   */
  public void spaceNodes() {
    ArrayList<Particle> pList = new ArrayList<Particle>(nodes.values());
    for (int i = 0; i < pList.size(); i++) {
      for (int j = 0; j < pList.size(); j++) {
        if (i > j) {
          Particle p1 = pList.get(i);
          Particle p2 = pList.get(j);

          // See if we have a connection between nodes
          for (Spring spring : edges.values()) {
            if (((spring.getOneEnd() == p1) && (spring.getTheOtherEnd() == p2))
                || ((spring.getOneEnd() == p2) && (spring.getTheOtherEnd() == p1))) {
              // Do nothing as we already have an edge connecting these two particles
            } else {
              // Add a small repulsive force
              physics.makeAttraction(p1, p2, -1000, 0.1f);
            }
          }
        }
      }
    }
  }
Exemplo n.º 8
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 /**
  * Adds a node to those to be displayed in the viewer.
  *
  * @param node Node to add to the viewer.
  */
 public void addNode(N node) {
   Particle p = physics.makeParticle(1, node.getLocation().x, node.getLocation().y, 0);
   nodes.put(node, p);
 }
Exemplo n.º 9
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 /**
  * Sets the drag on all particles in the system. By default drag is set to 0.75 which is enough to
  * allow particles to move smoothly.
  *
  * @param drag Drag effect (larger numbers slow down movement).
  */
 public void setDrag(float drag) {
   physics.setDrag(drag);
 }
Exemplo n.º 10
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 /**
  * Updates the positions of nodes and edges in the viewer. This method does not normally need to
  * be called as update happens every time draw() is called. Calling this method can be useful if
  * you wish to speed up the movement of nodes and edges by updating their position more than once
  * every draw cycle.
  */
 public void updateParticles() {
   physics.tick(0.3f); // Advance time in the physics engine.
 }