예제 #1
0
 public void shuffle() {
   for (ManModel man : dots) {
     int randX = rgen.nextInt(Constants.MAN_WIDTH / 2, getWidth() - Constants.MAN_WIDTH / 2);
     int randY = rgen.nextInt(Constants.MAN_HEIGHT / 2, getHeight() - Constants.MAN_HEIGHT / 2);
     man.setXY(randX, randY);
     //			Debug.println(randX + ", " + randY);
     //			Debug.println("width" + getWidth() + ": height" + getHeight());
   }
   repaint();
 }
예제 #2
0
 private double calculatePersonDistance2(int sep) {
   return Constants.MAN_HEIGHT
       + rgen.nextDouble(
           0, Math.min(getHeight() / 2 - Constants.MAN_HEIGHT, sep * Constants.MAN_HEIGHT));
 }
예제 #3
0
 private double calculateOffsetAngle(double wideAngle) {
   double angleMargin = wideAngle / 5;
   return rgen.nextDouble(angleMargin, (int) wideAngle - angleMargin);
 }
예제 #4
0
public class ManPanel extends JPanel {
  /** */
  private static final long serialVersionUID = -5043717894855235511L;
  // our data model is a list of DotModel objects
  // (java.util is specified here to distinguish vs.
  //  the GUI java.awt.List)
  private java.util.List<ManModel> dots;
  private ArrayList<Line> lines;
  private ArrayList<Line> circles;
  private ArrayList<Arc> arcs;
  private static RandomGenerator rgen = RandomGenerator.getInstance();

  public static final int DRAG_VS_CLICK = 25;
  public static final int CLICKING_ON_LINE = 25;

  // remember the last dot for mouse tracking
  private int lastX, lastY;
  private ManModel lastDot;
  private DoublePoint origPoint;
  private Line newLine;

  // Booleans that control how we draw
  private boolean print;
  private boolean smartRepaint;
  private boolean oldRepaint;
  private boolean redPaint;
  private int pencilMode;
  private int buttonPressed;
  private Image img;
  private JLabel numberMen;
  private JLabel message;
  private ManFrame frame;

  // dirty bit = changed from disk version
  private boolean dirty;

  /** Creates an empty ManPanel. */
  public ManPanel(int width, int height, ManFrame f) {
    setPreferredSize(new Dimension(width, height));

    // Subclasing off JPanel, these things work
    setOpaque(true);
    // optimization: set opaque true if we fill 100% of our pixels
    setBackground(Color.gray);

    frame = f;
    dots = new ArrayList<ManModel>();
    lines = new ArrayList<Line>();
    circles = new ArrayList<Line>();
    arcs = new ArrayList<Arc>();
    clear();

    ClassLoader cl = Thread.currentThread().getContextClassLoader();
    InputStream imageURL = cl.getResourceAsStream(Constants.MAN_IMG_PATH);
    try {
      img = ImageIO.read(imageURL);
    } catch (IOException e) {
      e.printStackTrace();
    }
    // Controls for debugging options
    print = Constants.DEBUG_MODE;
    smartRepaint = true;
    oldRepaint = true;
    redPaint = false;
    pencilMode = Constants.LINE_MODE;
    origPoint = null;
    newLine = null;
    numberMen = new JLabel("0");
    message = new JLabel("");
    numberMen.setFont(Constants.FONT_LARGE);
    message.setFont(Constants.FONT_LARGE);
    message.setAlignmentX(JLabel.CENTER_ALIGNMENT);
    setLayout(new BorderLayout());
    add(numberMen, BorderLayout.SOUTH);
    add(message, BorderLayout.NORTH);

    /*
    Mouse Strategy:
    -if the click is not on an existing dot, then make a dot
    -note where the first click is into lastX, lastY
    -then in MouseMotion: compute the delta of this position
    vs. the last
    -Use the delta to change things (not the abs coordinates)
    */

    addMouseListener(
        new MouseAdapter() {
          public void mousePressed(MouseEvent e) {
            if (print) {
              System.out.println("press:" + e.getX() + " " + e.getY() + ", " + e.getButton());
            }
            if (buttonPressed != 0) {
              return;
            }
            origPoint = new DoublePoint(e.getX(), e.getY());
            lastDot = findDot(e.getX(), e.getY());
            buttonPressed = e.getButton();
            if (buttonPressed == MouseEvent.BUTTON3) {
              rightPress(e, lastDot);
            } else {
              leftPress(e, lastDot);
            }
          }

          private void rightPress(MouseEvent e, ManModel dotModel) {
            if (dotModel == null) {
              newLine = findClosestLine(origPoint);
            }
          }

          private void leftPress(MouseEvent e, ManModel dotModel) {
            // invariant -- dotModel var is now set,
            // one way or another

            // Note the starting setup to compute deltas later
            // lastDot = origDot;
            lastX = e.getX();
            lastY = e.getY();

            // Change color of dot in some cases
            // shift -> change to black
            // double-click -> change to red
            //				if(dotModel != null) {
            //					if (e.isShiftDown()) {
            //						doSetColor(dotModel, Color.BLACK);
            //					}
            //					else if (e.getClickCount() == 2) {
            //						doSetColor(dotModel, Color.RED);
            //					}
            //				}
          }

          public void mouseReleased(MouseEvent e) {
            if (print) {
              System.out.println("release: " + e.getX() + " " + e.getY());
            }
            if (buttonPressed == MouseEvent.BUTTON3) {
              rightRelease(e);
            } else {
              leftRelease(e);
            }
            buttonPressed = 0;
            newLine = null;
            lastDot = null;
          }

          private void leftRelease(MouseEvent e) {
            if (lastDot == null && newLine == null) { // make a dot if nothing there
              doAdd(e.getX(), e.getY());
            }
          }

          private void rightRelease(MouseEvent e) {
            if (newLine != null && lastDot == null) {
              lines.remove(newLine);
              repaintLine(newLine);
            } else if (lastDot != null) {
              dots.remove(lastDot);
              repaintDot(lastDot);
            }
          }
        });

    addMouseMotionListener(
        new MouseMotionAdapter() {
          public void mouseDragged(MouseEvent e) {
            if (print) {
              System.out.println("drag:" + e.getX() + " " + e.getY() + ", " + e.getButton());
            }
            DoublePoint latestPoint = new DoublePoint(e.getX(), e.getY());

            if (buttonPressed == MouseEvent.BUTTON3) {
              rightDrag(e, latestPoint);
            } else {
              leftDrag(e, latestPoint);
            }
          }

          private void leftDrag(MouseEvent e, DoublePoint latestPoint) {
            if (lastDot == null) {
              if (pencilMode == 1) {
                if (newLine == null) {
                  createLine(origPoint, latestPoint);
                  return;
                }
                DoublePoint start = newLine.getEnd();
                if (start.distance(latestPoint) > (DRAG_VS_CLICK * 2)) {
                  createLine(start, latestPoint);
                } else {
                  // changeLine(newLine, latestPoint);
                }
              } else if (pencilMode == 0) {
                if (newLine != null) {
                  changeLine(newLine, latestPoint);
                } else if (origPoint.distance(latestPoint) > DRAG_VS_CLICK && newLine == null) {
                  newLine = addLine(origPoint, latestPoint, lines);
                }
              }
            }

            if (lastDot != null) {
              // compute delta from last point
              int dx = e.getX() - lastX;
              int dy = e.getY() - lastY;
              lastX = e.getX();
              lastY = e.getY();

              // apply the delta to that dot model
              doMove(lastDot, dx, dy);
            }
          }

          private void rightDrag(MouseEvent e, DoublePoint latestPoint) {
            if (newLine != null) {
              moveLine(newLine, latestPoint);
            }
            lastDot = new ManModel();
          }

          private void createLine(DoublePoint start, DoublePoint end) {
            newLine = new Line(start, end);
            newLine.setPencil(pencilMode);
            lines.add(newLine);
            repaintLine(newLine);
          }
        });
  }

  // Clears out all the data (used by new docs, and for opening docs)
  public void clear() {
    dots.clear();
    lines.clear();
    circles.clear();
    arcs.clear();
    dirty = false;
    repaint();
  }

  // Default ctor, uses a default size
  public ManPanel() {
    this(300, 300, null);
  }

  public void placeDivider(int num) {
    if (num < 2 || num > 5) {
      return;
    }
    if (num == 2) {}
  }
  /**
   * Moves a dot from one place to another. Does the necessary repaint. This animation can repaint
   * two ways. Plain repaint: repaint the whole panel Smart repaint: repaint just the old+new bounds
   * of the dot
   */
  public void doMove(ManModel dotModel, int dx, int dy) {
    if (!smartRepaint) {
      // Change the data model, then repaint the whole panel
      dotModel.moveBy(dx, dy);
      repaint();
    } else {
      // Smart repaint: old + new
      // Repaint the "old" rectangle
      if (oldRepaint) {
        repaintDot(dotModel);
      }
      // Change the model
      dotModel.moveBy(dx, dy);
      // Repaint the "new" rectangle
      repaintDot(dotModel);
    }

    setDirty(true);
  }

  private void moveLine(Line l, DoublePoint latestPoint) {
    DoublePoint origEndPoint = l.getEnd();
    DoublePoint origStartPoint = l.getStart();
    // repaintRegion(origStartPoint, origEndPoint);
    repaint();
    int dx = (int) (latestPoint.getX() - origPoint.getX());
    int dy = (int) (latestPoint.getY() - origPoint.getY());
    origPoint = latestPoint;
    l.moveBy(dx, dy);
    DoublePoint newStartPoint = l.getStart();
    DoublePoint newEndPoint = l.getEnd();
    repaintRegion(newStartPoint, newEndPoint);
    repaint();
  }

  private void changeLine(Line l, DoublePoint latestPoint) {
    DoublePoint origEndPoint = l.getEnd();
    repaintRegion(l.getStart(), origEndPoint);
    l.setEndPoint(latestPoint);
    repaintRegion(origEndPoint, l.getEnd());
  }

  /**
   * Utility -- change the color of the given dot model, and then do the needed repaint/setDirty.
   */
  private void doSetColor(ManModel dot, Color color) {
    repaint(); // bookeeping for the view: repaint and set dirty
    setDirty(true);
  }

  /**
   * Utility -- does a repaint rect just around one dot. Used by smart repaint when dragging a dot.
   */
  private void repaintDot(ManModel dot) {
    repaint(
        dot.getX() - Constants.MAN_WIDTH / 2,
        dot.getY() - Constants.MAN_HEIGHT / 2,
        Constants.MAN_WIDTH + 1,
        Constants.MAN_HEIGHT + 1);
  }

  private void repaintLine(Line l) {
    repaintRegion(l.getStart(), l.getEnd());
  }

  /**
   * Utility -- does a repaint rect around a region specified by two points. Used by smart repaint
   * when dragging a dot.
   */
  private void repaintRegion(DoublePoint start, DoublePoint end) {
    int smallX = Math.min((int) start.getX(), (int) end.getX());
    int smallY = Math.min((int) start.getY(), (int) end.getY());
    int width = (int) Math.abs(end.getX() - start.getX());
    int height = (int) Math.abs(end.getY() - start.getY());
    repaint(smallX - 2, smallY - 2, width + 5, height + 5);
  }

  /**
   * Utility -- given a completed dot model, adds it and sets things up. This is the bottleneck for
   * adding a dot.
   */
  public void doAdd(ManModel dotModel) {
    dots.add(dotModel);
    repaint();
    setDirty(true);
  }

  /** Convenience doAdd() that takes an int x,y, adds and returns a dot model for it. */
  public ManModel doAdd(int x, int y) {
    ManModel dotModel = new ManModel();
    dotModel.setXY(x, y);
    //		Debug.println("MAN_WIDTH is " + MAN_WIDTH + "  and MAN_HEIGHT is " + MAN_HEIGHT);
    doAdd(dotModel);
    return dotModel;
  }

  private Line findClosestLine(DoublePoint p) {
    Line closest = null;
    double smallestDistance = 0;
    for (int i = 0; i < lines.size(); i++) {
      Line l = lines.get(i);
      double distance = calculateDistance(l, p);
      if (i == 0 || distance < smallestDistance) {
        closest = l;
        smallestDistance = distance;
      }
    }
    if (smallestDistance < CLICKING_ON_LINE) {
      return closest;
    } else {
      return null;
    }
  }

  /* Going to use Heron's Formula to for calculating the distance
   * first we calculate the distance of each of the sides,
   * and use that info to calcualate the height of the triangle, giving us back the
   * distance
   */
  private double calculateDistance(Line l, DoublePoint p) {
    double side1 = l.getStart().distance(l.getEnd());
    double side2 = l.getStart().distance(p);
    double side3 = l.getEnd().distance(p);
    double hS = (side1 + side2 + side3) / 2;
    double triangleArea = Math.sqrt(hS * (hS - side1) * (hS - side2) * (hS - side3));
    double distance = (2 * triangleArea) / side1;
    return distance;
  }

  /** Finds a dot in the data model that contains the given x,y or returns null. */
  public ManModel findDot(int x, int y) {
    // Search through the dots in reverse order, so
    // hit topmost ones first.
    for (int i = dots.size() - 1; i >= 0; i--) {
      ManModel dotModel = dots.get(i);
      int centerX = dotModel.getX();
      int centerY = dotModel.getY();

      // figure x-squared + y-squared, see if it's
      // less than radius squared.
      // trick: don't need to take square root this way
      if (x > (centerX - Constants.MAN_WIDTH / 2)
          && x < (centerX + Constants.MAN_WIDTH / 2)
          && y > (centerY - Constants.MAN_HEIGHT / 2)
          && y < (centerY + Constants.MAN_HEIGHT / 2)) {
        return dotModel;
      }
    }
    return null;
  }

  /** Standard override -- draws all the dots. */
  public void paintComponent(Graphics g) {
    // As a JPanel subclass we need call super.paintComponent()
    // so JPanel will draw the white background for us.
    super.paintComponent(g);
    Color origColor = g.getColor();
    for (Line l : lines) {
      if (l.isPencil()) {
        g.setColor(Color.RED);
      } else {
        g.setColor(Color.BLACK);
      }
      g.drawLine((int) l.getX1(), (int) l.getY1(), (int) l.getX2(), (int) l.getY2());
    }
    g.setColor(origColor);

    // Go through all the dots, drawing a circle for each
    for (ManModel dotModel : dots) {
      // g.drawImage(img, dotModel.getX() - MAN_WIDTH/2, dotModel.getY() - MAN_HEIGHT/2, MAN_WIDTH,
      // MAN_HEIGHT, null);
      g.drawImage(
          img,
          dotModel.getX() - Constants.MAN_WIDTH / 2,
          dotModel.getY() - Constants.MAN_HEIGHT / 2,
          null);
    }

    numberMen.setText("" + dots.size());

    // Draw the "requested" clip rect in red
    // (this just shows off smart-repaint)
    if (redPaint) {
      Rectangle clip = g.getClipBounds();
      if (clip != null) {
        g.setColor(Color.red);
        g.drawRect(clip.x, clip.y, clip.width - 1, clip.height - 1);
        g.setColor(origColor);
      }
    }

    g.setColor(Color.RED);
    for (Line l : circles) {
      g.drawLine((int) l.getX1(), (int) l.getY1(), (int) l.getX2(), (int) l.getY2());
    }

    for (Arc l : arcs) {
      g.drawArc(
          (int) l.getX1(),
          (int) l.getY1(),
          (int) l.getWidth(),
          (int) l.getHeight(),
          (int) l.getStartAngle(),
          (int) l.getSweep());
      // g.drawArc((int) l.getX1(), (int) l.getY1(), (int) l.getWidth()+1, (int) l.getHeight()+1,
      // l.getStartAngle()-1, l.getSweep());

    }
    g.setColor(Color.BLACK);
  }

  // Setters used by checkboxes
  public void setPrint(boolean print) {
    this.print = print;
  }

  public void setSmart(boolean smart) {
    smartRepaint = smart;
  }

  public void setOld(boolean old) {
    oldRepaint = old;
  }

  public void setRed(boolean red) {
    redPaint = red;
  }

  /** --File Saving Stuff-- from here down. */

  /** Accessors for the dirty bit. */
  public boolean getDirty() {
    return dirty;
  }

  public void setDirty(boolean dirty) {
    this.dirty = dirty;
  }

  public void shuffle() {
    for (ManModel man : dots) {
      int randX = rgen.nextInt(Constants.MAN_WIDTH / 2, getWidth() - Constants.MAN_WIDTH / 2);
      int randY = rgen.nextInt(Constants.MAN_HEIGHT / 2, getHeight() - Constants.MAN_HEIGHT / 2);
      man.setXY(randX, randY);
      //			Debug.println(randX + ", " + randY);
      //			Debug.println("width" + getWidth() + ": height" + getHeight());
    }
    repaint();
  }

  public void clearAll() {
    clear();
  }

  public void setPencilMode(boolean actAsPencil) {
    int mode = Constants.LINE_MODE;
    if (actAsPencil) {
      mode = Constants.PENCIL_MODE;
    }
    pencilMode = mode;
  }

  public void setPplMode(boolean drawMen) {
    if (drawMen) {
      pencilMode = Constants.PPL_MODE;
    } else {
      pencilMode = Constants.LINE_MODE;
    }
  }

  public void enableControls() {
    frame.enableControls();
  }

  public void displayMessage(String s) {
    message.setText(s);
  }

  public void launchDividingAnimation(int den, int ppl, int numer, int ans) {
    clearAll();
    PageDivider pDiv = new PageDivider(this, den, ppl, numer, ans);
    Timer divTimer = new Timer(1500, pDiv);
    displayMessage("Make " + den + " equal area" + ((den == 1) ? "" : "s"));
    divTimer.setInitialDelay(3000);
    pDiv.setTimer(divTimer);
    divTimer.start();
  }

  public void launchPeopleAddAnimation(int ppl, int den, int numer, int ans) {
    ManipAdder mAdd = new ManipAdder(this, ppl, den, numer, ans);
    Timer manipTimer = new Timer(1000, mAdd);
    displayMessage("Count off " + ppl + " " + ((ppl == 1) ? "person" : "people") + ".");
    manipTimer.setInitialDelay(3000);
    mAdd.setTimer(manipTimer);
    manipTimer.start();
  }

  public void launchCirclerAnimation(int ppl, int den, int numer, int ans) {
    GroupCircler gCir = new GroupCircler(this, ppl, den, numer, ans);
    Timer manipTimer = new Timer(1000, gCir);
    if (ans == -1) {
      displayMessage(Constants.MAN_MSG_GROUPS_NOT_EQUAL);
    } else {
      displayMessage("Circle " + numer + " group" + ((numer == 1) ? "" : "s") + ".");
    }
    manipTimer.setInitialDelay(3000);
    gCir.setTimer(manipTimer);
    manipTimer.start();
  }

  public void clearMessage() {
    message.setText("");
  }

  public void drawLines(int n) {
    String s = "Make " + n + " equal area" + ((n == 1) ? "" : "s");
    addLines(lines, n, n);
    displayMessage(s);
    repaint();
  }

  public void addLines(ArrayList<Line> list, int n, int divs) {
    double theta = calculateTheta(divs);
    double r = calculateLineLength();
    DoublePoint center = getCenter();
    Debug.println("Center pt:" + center);
    for (int i = 0; i < n; i++) {
      DoublePoint offShoot = getPolarProjectedPoint(center, r, theta * i);
      Debug.println("offshoot" + i + ": " + offShoot + " theta: " + theta * i);
      addLine(center, offShoot, list);
    }
  }

  public void addALine(int i, double theta, double r, DoublePoint center) {
    DoublePoint offShoot = getPolarProjectedPoint(center, r, theta * i);
    addLine(center, offShoot, lines);
  }

  public void addACircle(int i, double theta, double r, DoublePoint center, int den) {
    addASide(i, theta, r, center);
    addASide((i + 1) % den, theta, r, center);
    addAnArc(i, theta);
  }

  public void addASide(int i, double theta, double r, DoublePoint center) {
    DoublePoint offShoot = getPolarProjectedPoint(center, r, theta * i);
    addLine(center, offShoot, circles);
  }

  public void addAnArc(int i, double theta) {
    Arc temp =
        new Arc(
            new DoublePoint(0, 0),
            new DoublePoint(getWidth(), getHeight()),
            -90 + (int) (i * theta),
            (int) theta);
    arcs.add(temp);
  }

  public void drawPeopleOld(int num, int divs) {
    //		if(divs == 2) {
    //			divs = 4;
    //		}
    double theta = calculateTheta(divs);
    double offset = theta / 2;
    boolean quarter = true;
    DoublePoint center = getCenter();
    for (int i = 0; i < num; i++) {
      double r = calculatePersonDistance(i / divs);
      if (divs <= 3 && i % divs == 0) {
        if (quarter) {
          offset = theta / 4;
        } else {
          offset = (3 * theta) / 4;
        }
        quarter = !quarter;
      }
      if (divs <= 3) {
        r = calculatePersonDistance(i / (divs * 2));
      }
      double angle = theta * i + offset;
      DoublePoint pos = getPolarProjectedPoint(center, r, angle);
      doAdd((int) pos.getX(), (int) pos.getY());
    }
    repaint();
  }

  public void drawPeople(int num, int divs) {
    double theta = calculateTheta(divs);
    DoublePoint center = getCenter();
    for (int i = 0; i < num; i++) {
      addAManip(i, theta, center, divs);
    }
    repaint();
  }

  public void addAManip(int ithPerson, double theta, DoublePoint center, int divs) {
    DoublePoint pos = null;
    while (true) {
      double offset = calculateOffsetAngle(theta);
      double r = calculatePersonDistance2(ithPerson / divs);
      double angle = theta * ithPerson + offset;
      pos = getPolarProjectedPoint(center, r, angle);
      if (findDotArea((int) pos.getX(), (int) pos.getY()) == null) {
        break;
      }
    }
    doAdd((int) pos.getX(), (int) pos.getY());
  }

  public void drawOvals(int num, int divs) {
    addLines(circles, num + 1, divs);
    addArcs(divs);
  }

  private void addArcs(int divs) {
    double theta = calculateTheta(divs);
    for (int i = 0; i < circles.size() - 1; i++) {
      Line nextLine = circles.get((i + 1) % circles.size());
      DoublePoint start = circles.get(i).getEnd();
      Arc temp =
          new Arc(
              new DoublePoint(0, 0),
              new DoublePoint(getWidth(), getHeight()),
              -90 + (int) (i * theta),
              (int) theta + 5);
      Debug.println(
          start + ", " + nextLine.getEnd() + "start: " + (i * theta) + ", with sweep: " + theta);
      arcs.add(temp);
    }
  }

  private ManModel findDotArea(int x, int y) {
    return findOverlap(x, y);
    //		if(Constants.MANIPS_OVERLAP) {
    //			return null;
    //		}
    //		if(findDot(x, y) != null) {
    //			return findDot(x, y);
    //		}
    //		double manW = Constants.MAN_WIDTH/2;
    //		double manH = Constants.MAN_HEIGHT/2;
    //		double[] xS = {x - manW, x - manW, x + manW, x + manW};
    //		double[] yS = {y - manH, y + manH, y - manH, y + manH};
    //		for(int i = 0; i < xS.length; i++) {
    //			ManModel m = findDot((int) xS[i], (int) yS[i]);
    //			if(m != null) {
    //				return m;
    //			}
    //		}
    //		return null;
  }

  // new model based on web search for rectangle overlap.
  private ManModel findOverlap(int x, int y) {
    if (Constants.MANIPS_OVERLAP) {
      return null;
    }
    if (findDot(x, y) != null) {
      return findDot(x, y);
    }
    double manW = Constants.MAN_WIDTH / 2;
    double manH = Constants.MAN_HEIGHT / 2;
    double pLeftX = x - manW;
    double pRightX = x + manW;
    double pTopY = y - manH;
    double pBotY = y + manH;
    return findOverlap(pLeftX, pTopY, pRightX, pBotY);
  }

  private ManModel findOverlap(double x1, double y1, double x2, double y2) {
    double manW = Constants.MAN_WIDTH / 2;
    double manH = Constants.MAN_HEIGHT / 2;
    for (ManModel dot : dots) {
      double leftX = dot.getX() - manW;
      double topY = dot.getY() - manH;
      double rightX = dot.getX() + manW;
      double botY = dot.getY() + manH;
      if (x1 < rightX && y1 < botY && x2 > leftX && y2 > topY) {
        return dot;
      }
    }
    return null;
  }

  public double calculateTheta(int n) {
    return 360.0 / (n);
  }

  public double calculateLineLength() {
    double l = Math.max(getWidth(), getHeight());
    return l / Math.sqrt(2);
  }

  private double calculatePersonDistance(double sep) {
    return Constants.MAN_HEIGHT + sep * Constants.MAN_HEIGHT;
  }

  private double calculateOffsetAngle(double wideAngle) {
    double angleMargin = wideAngle / 5;
    return rgen.nextDouble(angleMargin, (int) wideAngle - angleMargin);
  }

  private double calculatePersonDistance2(int sep) {
    return Constants.MAN_HEIGHT
        + rgen.nextDouble(
            0, Math.min(getHeight() / 2 - Constants.MAN_HEIGHT, sep * Constants.MAN_HEIGHT));
  }

  public DoublePoint getCenter() {
    return new DoublePoint(getWidth() / 2, getHeight() / 2);
  }

  private DoublePoint getPolarProjectedPoint(DoublePoint orig, double r, double theta) {
    double x = r * Math.sin(Math.toRadians(theta));
    double y = r * Math.cos(Math.toRadians(theta));
    return new DoublePoint((orig.getX() + x), (orig.getY() + y));
  }

  public Line addLine(DoublePoint p1, DoublePoint p2, ArrayList<Line> list) {
    Line temp = new Line(p1, p2);
    list.add(temp);
    return temp;
  }

  /** Saves out our state (all the dot models) to the given file. Uses Java built-in XMLEncoder. */
  public void save(File file) {
    try {
      XMLEncoder xmlOut = new XMLEncoder(new BufferedOutputStream(new FileOutputStream(file)));

      // Could do something like this to control which
      // properties are sent. By default, it just sends
      // all of them with getters/setters, which is fine in this case.
      //  xmlOut.setPersistenceDelegate(ManModel.class,
      //       new DefaultPersistenceDelegate(
      //           new String[]{ "x", "y", "color" }) );

      // Make a ManModel array of everything
      ManModel[] dotArray = dots.toArray(new ManModel[0]);

      // Dump that whole array
      xmlOut.writeObject(dotArray);

      // And we're done!
      xmlOut.close();
      setDirty(false);
      // cute: only clear dirty bit *after* all the things that
      // could fail/throw an exception
    } catch (IOException e) {
      e.printStackTrace();
    }
  }

  /** Reads in all the dots from the file and set the panel to show them. */
  public void open(File file) {
    ManModel[] dotArray = null;
    try {
      XMLDecoder xmlIn = new XMLDecoder(new BufferedInputStream(new FileInputStream(file)));

      dotArray = (ManModel[]) xmlIn.readObject();
      xmlIn.close();

      // now we have the data, so go ahead and wipe out the old state
      // and put in the new. Goes through the same doAdd() bottleneck
      // used by the UI to add dots.
      // Note that we do this after the operations that might throw.
      clear();
      for (ManModel dm : dotArray) {
        doAdd(dm);
      }
      setDirty(false);

    } catch (IOException e) {
      e.printStackTrace();
    }
  }

  /** Saves the current appearance of the ManPanel out as a PNG in the given file. */
  public void saveImage(File file) {
    // Create an image bitmap, same size as ourselves
    BufferedImage image = (BufferedImage) createImage(getWidth(), getHeight());

    // Get Graphics pointing to the bitmap, and call paintAll()
    // This is the RARE case where calling paint() is appropriate
    // (normally the system calls paint()/paintComponent())
    Graphics g = image.getGraphics();
    paintAll(g);
    g.dispose(); // Good but not required--
    // dispose() Graphics you create yourself when done with them.

    try {
      javax.imageio.ImageIO.write(image, "PNG", file);
    } catch (IOException ex) {
      ex.printStackTrace();
    }
  }

  // For testing, also have a main that makes
  // a ManPanel but with no controls around it
  public static void main(String[] args) {
    JFrame frame = new JFrame("ManPanel");
    ManPanel manPanel = new ManPanel(800, 600, null);
    frame.add(manPanel);
    frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
    frame.pack();
    frame.setVisible(true);
  }
}