示例#1
0
 public static void drawImage(int[][][] pixels, int startX, int startY) {
   // Key idea: draw a bunch (lots of rectangles) with the appropriate color
   DrawObject R = new DrawObject();
   R.pixels = pixels;
   R.startX = startX;
   R.startY = startY;
   R.sequenceNum = currentSequenceNum;
   images.add(R);
   // Rescale if needed.
   int leftX = startX;
   int rightX = startX + pixels.length;
   int lowY = startY;
   int highY = startY + pixels[0].length;
   if (minX > leftX) {
     minX = leftX;
   }
   if (maxX < rightX) {
     maxX = rightX;
   }
   if (minY > lowY) {
     minY = lowY;
   }
   if (maxY < highY) {
     maxY = highY;
   }
   drawArea.repaint();
 }
示例#2
0
 static void handleMouseDragged(MouseEvent e) {
   DrawObject L = new DrawObject();
   L.scribbleX = e.getX();
   L.scribbleY = e.getY();
   L.scribbleNum = currentScribbleNum;
   scribbles.add(L);
   drawArea.repaint();
 }
示例#3
0
 public static void drawLabel(double x, double y, String str) {
   DrawObject L = new DrawObject();
   L.color = labelColor;
   L.x = x;
   L.y = y;
   L.str = str;
   L.sequenceNum = currentSequenceNum;
   if (animationMode) {
     synchronized (animLabels) {
       animLabels.add(L);
     }
   } else {
     synchronized (labels) {
       labels.add(L);
     }
   }
   drawArea.repaint();
 }
示例#4
0
 public static void drawPoint(double x, double y) {
   DrawObject p = new DrawObject();
   p.color = pointColor;
   p.x = x;
   p.y = y;
   p.diameter = pointDiameter;
   p.sequenceNum = currentSequenceNum;
   if (animationMode) {
     synchronized (animPoints) {
       animPoints.add(p);
     }
   } else {
     synchronized (points) {
       points.add(p);
     }
   }
   drawArea.repaint();
 }
示例#5
0
 public static void drawRectangle(double x1, double y1, double width, double height) {
   DrawObject R = new DrawObject();
   R.color = rectangleColor;
   R.x = x1;
   R.y = y1;
   R.width = width;
   R.height = height;
   R.sequenceNum = currentSequenceNum;
   R.drawStroke = drawStroke;
   if (animationMode) {
     synchronized (animRectangles) {
       animRectangles.add(R);
     }
   } else {
     synchronized (rectangles) {
       rectangles.add(R);
     }
   }
   drawArea.repaint();
 }
示例#6
0
 public static void animationPause(int pauseTime) {
   if ((pauseTime < 1) || (pauseTime > 1000)) {
     pauseTime = 100;
   }
   try {
     Thread.sleep(pauseTime);
     synchronized (animPoints) {
       animPoints.clear();
     }
     synchronized (animLines) {
       animLines.clear();
     }
     synchronized (animOvals) {
       animOvals.clear();
     }
     synchronized (animRectangles) {
       animRectangles.clear();
     }
   } catch (InterruptedException e) {
   }
 }
示例#7
0
  /**
   * parses the segment string and initializes this segment properties
   *
   * @param segmentString the string representation of a segment
   */
  protected void parseString(String segmentString) {

    segmentString = segmentString.trim();

    // whether the command is a relative one
    boolean isRelative = isRelativeCommand(segmentString);

    // getting the list of the points corresponding to the segment string
    java.util.List<Point2D> pointsList =
        getPoints(segmentString.substring(1, segmentString.length()));

    if (pointsList.size() > 0) {

      point = pointsList.get(0);

      // if the segment is relative, it is transformed into an absolute one
      if (isRelative && previousSegment != null) {

        point = computeAbsolute(point, previousSegment.getEndPoint());
      }
    }
  }
示例#8
0
 public static void drawLineFromEquation(double a, double b, double c) {
   // Draw the equation ax+by+c=0 in the available range.
   DrawObject L = new DrawObject();
   L.color = lineEqnColor;
   L.a = a;
   L.b = b;
   L.c = c;
   L.sequenceNum = currentSequenceNum;
   L.drawStroke = drawStroke;
   synchronized (eqnLines) {
     eqnLines.add(L);
   }
   drawArea.repaint();
 }
示例#9
0
 void drawScribbles(Graphics g) {
   if ((scribbles == null) || (scribbles.size() == 0)) {
     return;
   }
   DrawObject L = (DrawObject) scribbles.get(0);
   int scribbleCounter = L.scribbleNum;
   g.setColor(scribbleColor);
   ((Graphics2D) g).setStroke(new BasicStroke(2f));
   int prevX = L.scribbleX;
   int prevY = L.scribbleY;
   for (int i = 1; i < scribbles.size(); i++) {
     L = (DrawObject) scribbles.get(i);
     if (L.scribbleNum == scribbleCounter) {
       // Keep drawing.
       g.drawLine(prevX, prevY, L.scribbleX, L.scribbleY);
       prevX = L.scribbleX;
       prevY = L.scribbleY;
     } else {
       scribbleCounter = L.scribbleNum;
       prevX = L.scribbleX;
       prevY = L.scribbleY;
     }
   }
 }
示例#10
0
 public static void drawLine(double x1, double y1, double x2, double y2, boolean isArrow) {
   DrawObject L = new DrawObject();
   L.color = lineColor;
   L.x = x1;
   L.y = y1;
   L.x2 = x2;
   L.y2 = y2;
   if (isArrow) {
     L.color = arrowColor;
     L.isArrow = true;
   }
   L.sequenceNum = currentSequenceNum;
   L.drawStroke = drawStroke;
   if (animationMode) {
     synchronized (animLines) {
       animLines.add(L);
     }
   } else {
     synchronized (lines) {
       lines.add(L);
     }
   }
   drawArea.repaint();
 }
示例#11
0
 public void moveKnot(int index, double x, double y) {
   java.util.List knotlist = getControlPoints();
   knotlist.set(index, new Point2D.Double(x, y));
   updateLookupTable();
 }
  public boolean execute() {
    if (CDState.getCycle() % period != 0) return false;

    MycoCast mycocast = (MycoCast) Network.get(0).getProtocol(mycocastPid);

    int bio = mycocast.countBiomass();
    int ext = mycocast.countExtending();
    int bra = mycocast.countBranching();
    int imm = mycocast.countImmobile();

    // Update vertices
    Set<MycoNode> activeNodes = new HashSet<MycoNode>();
    for (int i = 0; i < Network.size(); i++) {
      MycoNode n = (MycoNode) Network.get(i);
      activeNodes.add(n);
      HyphaData data = n.getHyphaData();
      // if (data.isBiomass()) { continue; }
      if (graph.containsVertex(n)) {
        graph.removeVertex(n);
      }
      if (!graph.containsVertex(n)) {
        graph.addVertex(n);
      }
    }
    Set<MycoNode> jungNodes = new HashSet<MycoNode>(graph.getVertices());
    jungNodes.removeAll(activeNodes);

    for (MycoNode n : jungNodes) {
      graph.removeVertex(n);
    }

    // Update edges
    for (int i = 0; i < Network.size(); i++) {
      MycoNode n = (MycoNode) Network.get(i);
      HyphaData data = n.getHyphaData();
      HyphaLink link = n.getHyphaLink();

      synchronized (graph) {

        // We now add in all links and tune out display in Visualizer
        java.util.List<MycoNode> neighbors = (java.util.List<MycoNode>) link.getNeighbors();

        //// Adding only links to hypha thins out links to biomass
        //    (java.util.List<MycoNode>) link.getHyphae();

        Collection<MycoNode> jungNeighbors = graph.getNeighbors(n);

        // Remove edges from Jung graph that are not in peersim graph
        for (MycoNode o : jungNeighbors) {
          if (!neighbors.contains(o)) {
            MycoEdge edge = graph.findEdge(n, o);
            while (edge != null) {
              graph.removeEdge(edge);
              edge = graph.findEdge(n, o);
            }
          }
        }

        // Add missing edges to Jung graph that are in peersim graph
        for (MycoNode o : neighbors) {
          if (graph.findEdge(n, o) == null) {
            MycoEdge edge = new MycoEdge();
            graph.addEdge(edge, n, o, EdgeType.DIRECTED);
          }
        }
      }

      // log.finest("VERTICES: " + graph.getVertices());
      // log.finest("EDGES: " + graph.getEdges());
    }

    for (ChangeListener cl : changeListeners) {
      cl.stateChanged(new ChangeEvent(graph));
    }
    if (walking) {
      try {
        Thread.sleep(walkDelay);
      } catch (InterruptedException e) {
      }
      stepBlocked = false;
    }

    try {
      while (stepBlocked && !noBlock) {
        synchronized (JungGraphObserver.class) {
          JungGraphObserver.class.wait();
        }
      }
    } catch (InterruptedException e) {
      stepBlocked = true;
    }
    stepBlocked = true;
    // System.out.println(graph.toString());
    return false;
  }