Exemple #1
0
 /** Handle menu events. */
 public void actionPerformed(ActionEvent e) {
   if ((e.getSource() instanceof MenuItem)) {
     MenuItem item = (MenuItem) e.getSource();
     String cmd = e.getActionCommand();
     commandName = cmd;
     ImagePlus imp = null;
     if (item.getParent() == Menus.getOpenRecentMenu()) {
       new RecentOpener(cmd); // open image in separate thread
       return;
     } else if (item.getParent() == Menus.getPopupMenu()) {
       Object parent = Menus.getPopupMenu().getParent();
       if (parent instanceof ImageCanvas) imp = ((ImageCanvas) parent).getImage();
     }
     int flags = e.getModifiers();
     hotkey = false;
     actionPerformedTime = System.currentTimeMillis();
     long ellapsedTime = actionPerformedTime - keyPressedTime;
     if (cmd != null && (ellapsedTime >= 200L || !cmd.equals(lastKeyCommand))) {
       if ((flags & Event.ALT_MASK) != 0) IJ.setKeyDown(KeyEvent.VK_ALT);
       if ((flags & Event.SHIFT_MASK) != 0) IJ.setKeyDown(KeyEvent.VK_SHIFT);
       new Executer(cmd, imp);
     }
     lastKeyCommand = null;
     if (IJ.debugMode) IJ.log("actionPerformed: time=" + ellapsedTime + ", " + e);
   }
 }
Exemple #2
0
  public void actionPerformed(ActionEvent e) {
    if (e.getSource() == easy) {
      invSpeed = 50000;
      bombN = 1;
      timeDifficulty1 = 1000;
      distanceLimit = 400;
      monsterMultiplier = 1;
      multiplier = 1;
      setup();
    } else if (e.getSource() == hard) {
      invSpeed = 30000;
      bombN = 4;
      timeDifficulty1 = 500;
      distanceLimit = 200;
      monsterMultiplier = 2;
      multiplier = 2;
      setup();
    } else if (e.getSource() == back) {
      r = null;
      menu.setVisible(true);
      back.setVisible(false);
      this.revalidate();
      repaint();
    } else if (e.getSource() == howTo) {
      menu.removeAll();

      menu.add(howToBack);
      menu.add(howToIMGL);

      menu.revalidate();
      menu.repaint();
    } else if (e.getSource() == howToBack) {
      menu.remove(howToIMGL);
      menu.remove(howToBack);

      menu.add(keyboardSpeedL1);
      menu.add(keyboardSpeedL2);
      menu.add(easy);
      menu.add(hard);
      menu.add(howTo);
      menu.add(onePlayerRB);
      menu.add(twoPlayerRB);
      menu.add(mouseRB);
      menu.add(keyboardRB);
      menu.add(keyboardSpeedS1);
      menu.add(keyboardSpeedS2);
      menu.add(musicCB);
      menu.add(highscoreL);
      menu.add(menuIMGL);

      menu.revalidate();
      menu.repaint();
    }
  }
  public void actionPerformed(ActionEvent evt) {
    String arg = evt.getActionCommand();

    if (arg.equals("Ok")) {
      dispose();
    }
  }
 public void actionPerformed(ActionEvent ae) {
   String action = ae.getActionCommand();
   if (action.equals("refresh")) {
     routerThread = new Thread(this);
     routerThread.start();
   }
 }
  public void actionPerformed(ActionEvent event) {
    JMenuItem source = (JMenuItem) (event.getSource());

    for (GraphView v : gp.getGraphViewList()) {
      if (v.getMenuText().equals(source.getText())) {
        v.view();
        repaint();
        return;
      }
    }

    for (GraphDrawer d : gp.getGraphDrawerList()) {
      if (d.getMenuText().equals(source.getText())) {
        d.layout();
        repaint();
        return;
      }
    }

    for (GraphUtility u : gp.getGraphUtilityList()) {
      if (u.getMenuText().equals(source.getText())) {
        u.apply();
        repaint();
        return;
      }
    }

    for (GraphExperiment ge : gp.getGraphExperimentList()) {
      if (ge.getMenuText().equals(source.getText())) {
        ge.experiment();
        repaint();
        return;
      }
    }
  }
Exemple #6
0
 /** handle button events. */
 public void actionPerformed(ActionEvent e) {
   String cmd = e.getActionCommand();
   if (cmd.equals("run")) {
     if (animator.isAnimating()) stop();
     else start();
   } else if (cmd.equals("transparancy")) {
     if (drawable != null) drawable.setOpaque(!checkBox.isSelected());
   }
 }
Exemple #7
0
    public void actionPerformed(ActionEvent e) {
      String command = e.getActionCommand();
      if (command.equals("standard")) setColorModelWRBB();
      else if (command.equals("invert")) invertCM();
      else if (command.equals("rainbow")) setColorModelRainbow();
      else if (command.equals("grey")) setColorModelGrey();
      else if (command.equals("swapBackground")) swapBackground();

      updateColors();
    }
 public void actionPerformed(ActionEvent e) {
   // Invoked when an action occurs.
   if (e.getSource().equals(singleSizeUp)) {
     singleSize = singleSize * 2;
     singleSizeLabel.setText("Image height=" + singleSize);
   }
   if (e.getSource().equals(singleSizeDown)) {
     singleSize = Math.max(64, singleSize / 2);
     singleSizeLabel.setText("Image height=" + singleSize);
   }
   if (e.getSource().equals(seqSizeUp)) {
     seqSize = seqSize * 2;
     seqSizeLabel.setText("Image height=" + seqSize);
   }
   if (e.getSource().equals(seqSizeDown)) {
     seqSize = Math.max(64, seqSize / 2);
     seqSizeLabel.setText("Image height=" + seqSize);
   }
 }
 public void actionPerformed(ActionEvent e) {
   if (e.getSource().equals(opsCombo)) {
     demo.opsIndex = opsCombo.getSelectedIndex();
     if (demo.opsIndex == 0) {
       demo.slider1.setValue(demo.low);
       demo.slider2.setValue(demo.high);
       demo.slider1.setEnabled(true);
       demo.slider2.setEnabled(true);
     } else if (demo.opsIndex == 1) {
       demo.slider1.setValue(demo.rescaleFactor);
       demo.slider2.setValue((int) demo.rescaleOffset);
       demo.slider1.setEnabled(true);
       demo.slider2.setEnabled(true);
     } else {
       demo.slider1.setEnabled(false);
       demo.slider2.setEnabled(false);
     }
   } else if (e.getSource().equals(imgCombo)) {
     demo.imgIndex = imgCombo.getSelectedIndex();
   }
   demo.repaint(10);
 }
  /**
   * Controls the zoom menu bar
   *
   * @param a the ActionEvent
   */
  public void actionPerformed(ActionEvent a) {

    if (a.getActionCommand().equals("Update")) {
      this.repaint();
    }

    if (a.getActionCommand().equals("25%")) {
      this.zoom(.25);
      enableZoomItems();
      twentyFive.setEnabled(false);
    }

    if (a.getActionCommand().equals("50%")) {
      this.zoom(.50);
      enableZoomItems();
      fifty.setEnabled(false);
    }

    if (a.getActionCommand().equals("75%")) {
      this.zoom(.75);
      enableZoomItems();
      seventyFive.setEnabled(false);
    }

    if (a.getActionCommand().equals("100%")) {
      this.zoom(1.0);
      enableZoomItems();
      hundred.setEnabled(false);
    }

    if (a.getActionCommand().equals("150%")) {
      this.zoom(1.5);
      enableZoomItems();
      hundredFifty.setEnabled(false);
    }

    if (a.getActionCommand().equals("200%")) {
      this.zoom(2.0);
      enableZoomItems();
      twoHundred.setEnabled(false);
    }

    if (a.getActionCommand().equals("500%")) {
      this.zoom(5.0);
      enableZoomItems();
      fiveHundred.setEnabled(false);
    }
  }
  /*----------------------------------------------------*/
  public void actionPerformed(ActionEvent evt) {
    String arg = evt.getActionCommand();

    if (arg.equals("Next>")) {
      // 98/9/11 aa
      nsl_display_frame.addDisplayCanvas(
          var_sel_full_name, var_sel_info, plot_type_name, replace_canvas);
    } else if (arg.equals("Cancel")) {
      dispose();
    } else if (arg.equals("<Back")) {
      /* TODO - bring back NslDimInput Window */
      dispose();
    }
  }
    public void actionPerformed(ActionEvent e) {
      Button b = (Button) e.getSource();
      if (b == null) return;

      boolean imageThere = checkImage();

      if (imageThere) {
        if (b == originalB) {
          reset(imp, ip);
          filteredB.setEnabled(true);
        } else if (b == filteredB) {
          apply(imp, ip);
        } else if (b == sampleB) {
          reset(imp, ip);
          sample();
          apply(imp, ip);
        } else if (b == stackB) {
          applyStack();
        } else if (b == helpB) {
          IJ.showMessage(
              "Help",
              "Threshold Colour  v1.0\n \n"
                  + "Modification of Bob Dougherty's BandPass2 plugin by G.Landini to\n"
                  + "threshold 24 bit RGB images based on Hue, Saturation and Brightness\n"
                  + "or Red, Green and Blue components.\n \n"
                  + "Pass: Band-pass filter (anything within range is displayed).\n \n"
                  + "Stop: Band-reject filter (anything within range is NOT displayed).\n \n"
                  + "Original: Shows the original image and updates the buffer when\n"
                  + " switching to another image.\n \n"
                  + "Filtered: Shows the filtered image.\n \n"
                  + "Stack: Processes the rest of the slices in the stack (if any)\n"
                  + " using the current settings.\n \n"
                  + "Threshold: Shows the object/background in the foreground and\n"
                  + " background colours selected in the ImageJ toolbar.\n \n"
                  + "Invert: Swaps the fore/background colours.\n \n"
                  + "Sample: (experimental) Sets the ranges of the filters based on the\n"
                  + " pixel value componentd in a rectangular, user-defined, ROI.\n \n"
                  + "HSB RGB: Selects HSB or RGB space and resets all the filters.\n \n"
                  + "Note that the \'thresholded\' image is RGB, not 8 bit grey.");
        }
        updatePlot();
        updateLabels();
        imp.updateAndDraw();
      } else {
        IJ.beep();
        IJ.showStatus("No Image");
      }
      notify();
    }
Exemple #13
0
  /**
   * Action performed on various action links(buttons).
   *
   * @param e the action.
   */
  public void actionPerformed(ActionEvent e) {
    JButton src = (JButton) e.getSource();

    if (src instanceof SIPCommButton) {
      // Load image
      int index = Integer.parseInt(src.getName());
      BufferedImage image = AvatarStackManager.loadImage(index);

      // Set the new image
      setNewImage(image);
    } else if (src.getName().equals("chooseButton")) {
      // Open the image picker
      Image currentImage = this.avatarImage.getAvatar();

      ImagePickerDialog dialog = new ImagePickerDialog(96, 96);

      byte[] bimage = dialog.showDialog(currentImage);

      if (bimage == null) return;

      // New image
      BufferedImage image = ImageUtils.getBufferedImage(new ImageIcon(bimage).getImage());

      // Store image
      if (this.nextImageIndex == MAX_STORED_IMAGES) {
        // No more place to store images
        // Pop the first element (index 0)
        AvatarStackManager.popFirstImage(MAX_STORED_IMAGES);

        this.nextImageIndex = MAX_STORED_IMAGES - 1;
      }

      // Store the new image on hard drive
      AvatarStackManager.storeImage(image, this.nextImageIndex);

      // Inform protocols about the new image
      setNewImage(image);
    } else if (src.getName().equals("removeButton")) {
      // Removes the current photo.
      setNewImage(null);
    } else if (src.getName().equals("clearButton")) {
      clearRecentImages();
    }

    setVisible(false);
  }
 // ActionListener for events
 @Override
 public void actionPerformed(ActionEvent ae) {
   String actionCommand = ae.getActionCommand().toLowerCase();
   if (actionCommand.equals("save")) {
     savePlotAsImage();
   } else if (actionCommand.equals("print")) {
     printPlot();
   } else if (actionCommand.equals("grid")) {
     if (gridOn) {
       gridOn = false;
       gridMi.setText("Turn On Grid");
     } else if (!gridOn) {
       gridOn = true;
       gridMi.setText("Turn Off Grid");
     }
     refresh();
   }
 }
 /** @param e It is the type of action event the user pursues. */
 public void actionPerformed(ActionEvent e) {
   if (e.getSource() == apply) apply();
   else if (e.getSource() == close) close();
 }
Exemple #16
0
    public void actionPerformed(ActionEvent evt)
    {
    	Graphics graph = getGraphics();
    	MediaTracker tracker = new MediaTracker(this);
    	      	  
        if (evt.getSource() == openItem) 
        {
            JFileChooser chooser = new JFileChooser();
            common.chooseFile(chooser, "./images", 0);
            int r = chooser.showOpenDialog(null);                    
            
            if(r == JFileChooser.APPROVE_OPTION) 
            {  
                String name = chooser.getSelectedFile().getAbsolutePath();
                
                if(runflag)
                { 
                    loadflag  = false;
                    runflag   = false;
                }   
			    if(!loadflag)
			    {
				    iImage = common.openImage(name, tracker);    
				    iw = iImage.getWidth(null);
				    ih = iImage.getHeight(null);				    
				    repaint();
			    }
			    else if(loadflag && (!runflag))
			    {			        
				    iImage2 = common.openImage(name, tracker);    
				    common.draw(graph, iImage, "pic 1", iImage2, "pic 2");
				    repaint();			    	
			    }				               
            }
            loadflag = true;
        }
        else if (evt.getSource() == grayItem)
        {
        	setTitle("图像预处理");
        	if(loadflag)        	
        	{ 
        	    pixels = common.grabber(iImage, iw, ih);
				
				pixels = elements.toGray(pixels, iw, ih);
				
				showPix(graph, pixels, "gray pic");
				repaint();				
			}
        }
        else if (evt.getSource() == contrastItem)
        {
            setTitle("图像预处理");
            if(loadflag)
            {	
            	pixels = common.grabber(iImage, iw, ih);
            	int con = common.getParam("type in contrast level(-100~100)","0");
                double contrast = (double)con/100.0;
                pixels = doContrast(pixels, iw, ih, contrast);
                showPix(graph, pixels, "contrast pic");
                repaint();
            }
        }
        else if (evt.getSource() == exitItem) 
            System.exit(0);       
    }
  public void actionPerformed(ActionEvent evt) {
    Graphics g = getGraphics();
    if (evt.getSource() == openItem) {
      JFileChooser chooser = new JFileChooser();
      common.chooseFile(chooser, "./images", 0); // 设置默认目录,过滤文件
      int r = chooser.showOpenDialog(null);

      if (r == JFileChooser.APPROVE_OPTION) {
        String name = chooser.getSelectedFile().getAbsolutePath();

        // 装载图像
        iImage = common.openImage(name, new MediaTracker(this));

        // 取载入图像的宽和高
        iw = iImage.getWidth(null);
        ih = iImage.getHeight(null);
        bImage = new BufferedImage(iw, ih, BufferedImage.TYPE_INT_RGB);
        Graphics2D g2 = bImage.createGraphics();
        g2.drawImage(iImage, 0, 0, null);
        loadflag = true;
        repaint();
      }
    } else if (evt.getSource() == rotateItem) // 内置旋转
    {
      setTitle("第4章 图像几何变换 内置旋转 作者 孙燮华");
      common.draw(g, iImage, bImage, common.getParam("旋转角(度):", "30"), 0, 0);
    } else if (evt.getSource() == scaleItem) // 内置缩放
    {
      setTitle("第4章 图像几何变换 内置缩放 作者 孙燮华");
      // 参数选择面板
      Parameters pp = new Parameters("参数", "x方向:", "y方向:", "1.5", "1.5");
      setPanel(pp, "内置缩放");
      float x = pp.getPadx();
      float y = pp.getPady();
      common.draw(g, iImage, bImage, x, y, 1);
    } else if (evt.getSource() == shearItem) // 内置错切
    {
      setTitle("第4章 图像几何变换 内置错切 作者 孙燮华");
      Parameters pp = new Parameters("参数", "x方向:", "y方向:", "0.5", "0.5");
      setPanel(pp, "内置错切");
      float x = pp.getPadx();
      float y = pp.getPady();
      common.draw(g, iImage, bImage, x, y, 2);
    } else if (evt.getSource() == transItem) // 内置平移
    {
      setTitle("第4章 图像几何变换 内置平移 作者 孙燮华");
      Parameters pp = new Parameters("参数", "x方向:", "y方向:", "100", "50");
      setPanel(pp, "内置平移");
      float x = pp.getPadx();
      float y = pp.getPady();
      common.draw(g, iImage, bImage, x, y, 3);
    } else if (evt.getSource() == rotItem) // 旋转算法
    {
      setTitle("第4章 图像几何变换 旋转算法 作者 孙燮华");
      pix = common.grabber(iImage, iw, ih);

      // 旋转,输出图像宽高
      int owh = (int) (Math.sqrt(iw * iw + ih * ih + 0.5));
      opix = geom.imRotate(pix, common.getParam("旋转角(度):", "30"), iw, ih, owh);

      // 将数组中的象素产生一个图像
      MemoryImageSource memoryImage =
          new MemoryImageSource(owh, owh, ColorModel.getRGBdefault(), opix, 0, owh);
      oImage = createImage(memoryImage);
      common.draw(g, iImage, oImage, iw, ih, owh, 4);
    } else if (evt.getSource() == mirItem) // 镜象算法(type:5)
    {
      setTitle("第4章 图像几何变换 镜象算法 作者 孙燮华");
      Parameters pp = new Parameters("选择镜象类型", "水平", "垂直");
      setPanel(pp, "镜象算法");

      pix = common.grabber(iImage, iw, ih);
      opix = geom.imMirror(pix, iw, ih, pp.getRadioState());
      ImageProducer ip = new MemoryImageSource(iw, ih, opix, 0, iw);
      oImage = createImage(ip);
      common.draw(g, iImage, oImage, iw, ih, 0, 5);
    } else if (evt.getSource() == shrItem) // 错切算法(type:6)
    {
      setTitle("第4章 图像几何变换 错切算法 作者 孙燮华");
      Parameters pp = new Parameters("参数", "x方向:", "y方向:", "0.5", "0.5");
      setPanel(pp, "错切算法");

      pix = common.grabber(iImage, iw, ih);

      float shx = pp.getPadx();
      float shy = pp.getPady();

      // 计算包围盒的宽和高
      int ow = (int) (iw + (ih - 1) * shx);
      int oh = (int) ((iw - 1) * shy + ih);

      if (shx > 0 && shy > 0) {
        opix = geom.imShear(pix, shx, shy, iw, ih, ow, oh);
        ImageProducer ip = new MemoryImageSource(ow, oh, opix, 0, ow);
        oImage = createImage(ip);
        common.draw(g, iImage, oImage, iw, ih, 0, 6);
      } else JOptionPane.showMessageDialog(null, "参数必须为正数!");
    } else if (evt.getSource() == trnItem) {
      setTitle("第4章 图像几何变换 平移算法 作者 孙燮华");
      Parameters pp = new Parameters("参数", "x方向:", "y方向:", "100", "50");
      setPanel(pp, "平移算法");
      pix = common.grabber(iImage, iw, ih);
      int tx = (int) pp.getPadx();
      int ty = (int) pp.getPady();

      if (tx > 0 && ty > 0) {
        int ow = iw + tx;
        int oh = ih + ty;
        opix = geom.imTrans(pix, tx, ty, iw, ih, ow, oh);
        ImageProducer ip = new MemoryImageSource(ow, oh, opix, 0, ow);
        oImage = createImage(ip);
        common.draw(g, iImage, oImage, iw, ih, 0, 7);
      } else JOptionPane.showMessageDialog(null, "参数必须为正数!");
    } else if (evt.getSource() == nearItem) {
      setTitle("第4章 图像几何变换 最邻近插值算法 作者 孙燮华");
      pix = common.grabber(iImage, iw, ih);

      float p =
          (Float.valueOf(JOptionPane.showInputDialog(null, "输入缩放参数(0.1-3.0)", "1.50")))
              .floatValue();
      int ow = (int) (p * iw); // 计算目标图宽高
      int oh = (int) (p * ih);
      opix = geom.nearNeighbor(pix, iw, ih, ow, oh, p);
      ImageProducer ip = new MemoryImageSource(ow, oh, opix, 0, ow);
      oImage = createImage(ip);
      common.draw(g, oImage, "最邻近插值", p);
    } else if (evt.getSource() == linrItem) {
      setTitle("第4章 图像几何变换 双线性插值算法 作者 孙燮华");
      pix = common.grabber(iImage, iw, ih);

      float p =
          (Float.valueOf(JOptionPane.showInputDialog(null, "输入缩放参数(0.1-3.0)", "1.50")))
              .floatValue();
      int ow = (int) (p * iw); // 计算目标图宽高
      int oh = (int) (p * ih);
      opix = geom.bilinear(pix, iw, ih, ow, oh, p);
      ImageProducer ip = new MemoryImageSource(ow, oh, opix, 0, ow);
      oImage = createImage(ip);
      common.draw(g, oImage, "双线性插值", p);
    } else if (evt.getSource() == cubicItem) {
      setTitle("第4章 图像几何变换 三次卷积插值算法 作者 孙燮华");
      pix = common.grabber(iImage, iw, ih);

      float p =
          (Float.valueOf(JOptionPane.showInputDialog(null, "输入缩放参数(1.1-3.0)", "1.50")))
              .floatValue();
      if (p < 1) {
        JOptionPane.showMessageDialog(null, "参数p必须大于1!");
        return;
      }
      int ow = (int) (p * iw); // 计算目标图宽高
      int oh = (int) (p * ih);
      opix = geom.scale(pix, iw, ih, ow, oh, p, p);
      ImageProducer ip = new MemoryImageSource(ow, oh, opix, 0, ow);
      oImage = createImage(ip);
      common.draw(g, oImage, "三次卷积插值", p);
    } else if (evt.getSource() == okButton) dialog.dispose();
    else if (evt.getSource() == exitItem) System.exit(0);
  }
Exemple #18
0
 public void actionPerformed(ActionEvent e) {
   atc_obj.getInputhandler().processActionCommand(e.getActionCommand());
 }
  /**
   * Method declaration
   *
   * @param ev
   */
  public void actionPerformed(ActionEvent ev) {

    String s = ev.getActionCommand();

    if (s == null) {
      if (ev.getSource() instanceof MenuItem) {
        MenuItem i;

        s = ((MenuItem) ev.getSource()).getLabel();
      }
    }

    if (s.equals("Execute")) {
      execute();
    } else if (s.equals("Exit")) {
      windowClosing(null);
    } else if (s.equals("Transfer")) {
      Transfer.work(null);
    } else if (s.equals("Dump")) {
      Transfer.work(new String[] {"-d"});

      /* NB - 26052002 Restore is not implemented yet in the transfer tool */
      /*
              } else if (s.equals("Restore")) {
                  Transfer.work(new String[]{"-r"});
      */
    } else if (s.equals("Logging on")) {
      jdbcSystem.setLogToSystem(true);
    } else if (s.equals("Logging off")) {
      jdbcSystem.setLogToSystem(false);
    } else if (s.equals("Refresh Tree")) {
      refreshTree();
    } else if (s.startsWith("#")) {
      int i = Integer.parseInt(s.substring(1));

      txtCommand.setText(sRecent[i]);
    } else if (s.equals("Connect...")) {
      connect(ConnectionDialog.createConnection(fMain, "Connect"));
      refreshTree();
    } else if (s.equals("Results in Grid")) {
      iResult = 0;

      pResult.removeAll();
      pResult.add("Center", gResult);
      pResult.doLayout();
    } else if (s.equals("Open Script...")) {
      FileDialog f = new FileDialog(fMain, "Open Script", FileDialog.LOAD);

      // (ulrivo): set default directory if set from command line
      if (defDirectory != null) {
        f.setDirectory(defDirectory);
      }

      f.show();

      String file = f.getFile();

      if (file != null) {
        txtCommand.setText(DatabaseManagerCommon.readFile(f.getDirectory() + file));
      }
    } else if (s.equals("Save Script...")) {
      FileDialog f = new FileDialog(fMain, "Save Script", FileDialog.SAVE);

      // (ulrivo): set default directory if set from command line
      if (defDirectory != null) {
        f.setDirectory(defDirectory);
      }

      f.show();

      String file = f.getFile();

      if (file != null) {
        DatabaseManagerCommon.writeFile(f.getDirectory() + file, txtCommand.getText());
      }
    } else if (s.equals("Save Result...")) {
      FileDialog f = new FileDialog(fMain, "Save Result", FileDialog.SAVE);

      // (ulrivo): set default directory if set from command line
      if (defDirectory != null) {
        f.setDirectory(defDirectory);
      }

      f.show();

      String file = f.getFile();

      if (file != null) {
        showResultInText();
        DatabaseManagerCommon.writeFile(f.getDirectory() + file, txtResult.getText());
      }
    } else if (s.equals("Results in Text")) {
      iResult = 1;

      pResult.removeAll();
      pResult.add("Center", txtResult);
      pResult.doLayout();
      showResultInText();
    } else if (s.equals("AutoCommit on")) {
      try {
        cConn.setAutoCommit(true);
      } catch (SQLException e) {
      }
    } else if (s.equals("AutoCommit off")) {
      try {
        cConn.setAutoCommit(false);
      } catch (SQLException e) {
      }
    } else if (s.equals("Enlarge Tree")) {
      Dimension d = tTree.getMinimumSize();

      d.width += 20;

      tTree.setMinimumSize(d);
      fMain.pack();
    } else if (s.equals("Shrink Tree")) {
      Dimension d = tTree.getMinimumSize();

      d.width -= 20;

      if (d.width >= 0) {
        tTree.setMinimumSize(d);
      }

      fMain.pack();
    } else if (s.equals("Enlarge Command")) {
      txtCommand.setRows(txtCommand.getRows() + 1);
      fMain.pack();
    } else if (s.equals("Shrink Command")) {
      int i = txtCommand.getRows() - 1;

      txtCommand.setRows(i < 1 ? 1 : i);
      fMain.pack();
    } else if (s.equals("Commit")) {
      try {
        cConn.commit();
      } catch (SQLException e) {
      }
    } else if (s.equals("Insert test data")) {
      insertTestData();
    } else if (s.equals("Rollback")) {
      try {
        cConn.rollback();
      } catch (SQLException e) {
      }
    } else if (s.equals("Disable MaxRows")) {
      try {
        sStatement.setMaxRows(0);
      } catch (SQLException e) {
      }
    } else if (s.equals("Set MaxRows to 100")) {
      try {
        sStatement.setMaxRows(100);
      } catch (SQLException e) {
      }
    } else if (s.equals("SELECT")) {
      showHelp(DatabaseManagerCommon.selectHelp);
    } else if (s.equals("INSERT")) {
      showHelp(DatabaseManagerCommon.insertHelp);
    } else if (s.equals("UPDATE")) {
      showHelp(DatabaseManagerCommon.updateHelp);
    } else if (s.equals("DELETE")) {
      showHelp(DatabaseManagerCommon.deleteHelp);
    } else if (s.equals("CREATE TABLE")) {
      showHelp(DatabaseManagerCommon.createTableHelp);
    } else if (s.equals("DROP TABLE")) {
      showHelp(DatabaseManagerCommon.dropTableHelp);
    } else if (s.equals("CREATE INDEX")) {
      showHelp(DatabaseManagerCommon.createIndexHelp);
    } else if (s.equals("DROP INDEX")) {
      showHelp(DatabaseManagerCommon.dropIndexHelp);
    } else if (s.equals("CHECKPOINT")) {
      showHelp(DatabaseManagerCommon.checkpointHelp);
    } else if (s.equals("SCRIPT")) {
      showHelp(DatabaseManagerCommon.scriptHelp);
    } else if (s.equals("SHUTDOWN")) {
      showHelp(DatabaseManagerCommon.shutdownHelp);
    } else if (s.equals("SET")) {
      showHelp(DatabaseManagerCommon.setHelp);
    } else if (s.equals("Test Script")) {
      showHelp(DatabaseManagerCommon.testHelp);
    }
  }
Exemple #20
0
  public void actionPerformed(ActionEvent e) {
    Object src = e.getSource();
    if (src == timer) {
      for (int i = 0; i < speed; i++) // integrate a few steps
      md.vv();
      repaint();
      return;
    }

    boolean adjCanvasScale = false;

    if (src == bTstat) md.thermostat = !md.thermostat;

    if (src == bPot) {
      md.ljPotential = !md.ljPotential;
      md.clearData();

      if (timer.isRunning()) timer.stop();
      bStart.setSelected(false);
      bStart.setText("Start");
      md.init(md.rho);
    }

    if (src == tTemp || src == bReset) {
      double kT = Double.parseDouble(tTemp.getText().trim());
      if (kT < 1e-8) {
        kT = 1e-8;
        tTemp.setText("  " + kT);
      }
      md.kT = kT;
      md.clearData();
    }

    if (src == tRho || src == bReset) {
      double rho = Double.parseDouble(tRho.getText().trim());
      if (rho < 1e-3) {
        rho = 1e-3;
        tRho.setText("   " + rho);
      }
      if (rho > 1.2) {
        rho = 1.2;
        tRho.setText("   " + rho);
      }
      md.setDensity(rho);
      md.clearData();
      adjCanvasScale = true;
    }

    if (src == tSpeed || src == bReset) {
      speed = Integer.parseInt(tSpeed.getText().trim());
      if (speed < 1) {
        speed = 1;
        tSpeed.setText("   " + speed);
      }
    }

    if (src == bRetime) md.clearData();

    if (src == bStart) {
      boolean on = bStart.isSelected();
      if (on) {
        timer.restart();
        bStart.setText("Pause");
      } else {
        timer.stop();
        bStart.setText("Resume");
      }
    }

    if (src == tNum) {
      int n = Integer.parseInt(tNum.getText().trim());
      if (n < 2) {
        n = 2;
        tNum.setText(" " + n);
      }
      md.N = n;
      md.init(md.rho);
      adjCanvasScale = true;
    }

    if (src == bReset) {
      if (timer.isRunning()) timer.stop();
      bStart.setSelected(false);
      bStart.setText("Start");
      md.init(md.rho);
    }

    canvas.refresh(md.getXWrap(), md.N, true, adjCanvasScale);

    repaint();
  }
  public void actionPerformed(ActionEvent e) {
    if (e.getSource() == b) {
      JFrame frame2 = new JFrame();
      JFileChooser chooser = new JFileChooser(".");
      int option =
          chooser.showOpenDialog(
              frame2); // parentComponent must a component like JFrame, JDialog...
      if (option == JFileChooser.APPROVE_OPTION) {
        File selectedFile = chooser.getSelectedFile();
        path = selectedFile.getAbsolutePath();
      }
      try {
        loadImage();
      } catch (IOException ioe) {
        System.out.println(ioe.getMessage());
      }
    } else if (e.getSource() == c) {

      gaussianBlur();
      // filtered = grayscale.filter(filtered, null);
      sobel();
      // thinImage();
      nonMax();
      float lowThreshold = 2.5f;
      float highThreshold = 7.5f;
      int low = Math.round(lowThreshold * MAGNITUDE_SCALE);
      int high = Math.round(highThreshold * MAGNITUDE_SCALE);
      performHysteresis(low, high);
      thresholdEdges();
      writeEdges(data);
      Hough();
      ImageIcon icon1 = new ImageIcon(res);
      lbl1.setIcon(icon1);
      ImageIcon icon2 = new ImageIcon(filtered);
      lbl2.setIcon(icon2);
      filterBtn.setSelected(true);
    }
    if (e.getSource() == findCircles) {
      try {
        accSize = Integer.parseInt(inputCircles.getText());
        res = new BufferedImage(width, height, BufferedImage.TYPE_INT_RGB);
        Graphics g = res.getGraphics();
        g.drawImage(img, 0, 0, null);
        g.dispose();
        findMaxima();
        ImageIcon icon1 = new ImageIcon(res);
        lbl1.setIcon(icon1);
      } catch (Exception err) {
        System.out.println("Not a valid integer");
      }
    } else if (e.getSource() == filterBtn) {
      ImageIcon icon2 = new ImageIcon(filtered);
      lbl2.setIcon(icon2);
    } else if (e.getSource() == sobelBtn) {
      ImageIcon icon2 = new ImageIcon(sobel);
      lbl2.setIcon(icon2);
    } else if (e.getSource() == nonMaxBtn) {
      ImageIcon icon2 = new ImageIcon(nonMax);
      lbl2.setIcon(icon2);
    } else if (e.getSource() == accumulator) {
      buildAccumulator(whichRadius.getValue());
    }
  }
Exemple #22
0
  public void actionPerformed(ActionEvent e) {
    String arg = (String) e.getActionCommand();

    /** ******************** Open an Image **************** */
    if (e.getSource() == m_Open) {
      int returnVal = jfc.showOpenDialog(IPToolKit.this);
      if (returnVal == JFileChooser.APPROVE_OPTION) {
        file = jfc.getSelectedFile();
        String path = file.getAbsolutePath();
        //	image = Toolkit.getDefaultToolkit().getImage(path);

        try {
          try {
            inImage = new FileImageInputStream(file);
            len = (int) inImage.length();
            byteArray = new byte[len];
            // System.out.println(len);
            inImage.read(byteArray, 0, len);
            image = Toolkit.getDefaultToolkit().createImage(byteArray);
            MediaTracker t = new MediaTracker(this);
            t.addImage(image, 0);

            try {
              t.waitForID(0);
            } catch (Exception eeee) {
              System.out.println(eeee);
            }

            w = image.getWidth(null);
            h = image.getHeight(null);

            // System.out.println(w+"\t"+h);

          } catch (Exception fnfe) {
            JOptionPane.showMessageDialog(this, "File: Not Found");
          }
        } catch (Exception ice) {

          JOptionPane.showMessageDialog(this, "File I/O Error");
        }
      }
      if (image != null) {

        pix_temp = new int[h * w];
        ImageIcon icon = new ImageIcon(image);
        lbl_img.setIcon(icon);
        setVisible(true);
      }

      pix_temp = pixel_grab(image, w, h);
      pix_temp = pix_pack(pix_temp, w, h);
      grayImageDisplay(w, h, pix_temp);
    }

    /** ****************** Add one image to another ************** */
    if (e.getSource() == mAddImg) {
      OpenImage2();
      pix_temp1 = new int[w * h];
      pix_res = new int[w * h];

      pix_temp1 = pixel_grab(image1, w1, h1);
      pix_temp1 = pix_pack(pix_temp1, w1, h1);

      for (int s = 0; s < w * h; s++) {

        pix_res[s] = pix_temp[s] + pix_temp1[s];
      }
      ;

      pix_temp1 = saturate(pix_temp1, w, h);
      imageResultDisplay(w, h, pix_res);
    }

    /**
     * *********************** Add Constant value and then use Satuartion technique ***************
     */
    if (e.getSource() == mAddSat) {
      String add_value;
      Image img_add = image;
      pixel_add = new int[w * h];

      pixel_result = pixel_grab(img_add, w, h);

      add_value = JOptionPane.showInputDialog("Enter Value you wish to add to the image");
      int number = Integer.parseInt(add_value);
      for (int r = 0; r < w * h; r++) {
        pixel_add[r] = number + pixel_result[r];
      }
      pixel_add = saturate(pixel_add, w, h);
      pixel_add = pix_pack(pixel_add, w, h);
      imageResultDisplay(w, h, pixel_add);
    }

    /** ************ Add constant by Wrap Around technique ********** */
    if (e.getSource() == mAddWrap) {
      String add_value;
      Image img_add = image;
      pixel_add = new int[w * h];

      pixel_result = pixel_grab(img_add, w, h);

      add_value = JOptionPane.showInputDialog("Enter Value you wish to add to the image");
      int number = Integer.parseInt(add_value);
      for (int r = 0; r < w * h; r++) {
        pixel_add[r] = number + pixel_result[r];
      }
      pixel_add = WrapAround(pixel_add, w, h);
      pixel_add = pix_pack(pixel_add, w, h);
      imageResultDisplay(w, h, pixel_add);
    }

    /** ****************** Subtract one image from another ************** */
    if (e.getSource() == mSubImg) {
      OpenImage2();
      pix_temp1 = new int[w * h];
      pix_res = new int[w * h];

      pix_temp1 = pixel_grab(image1, w1, h1);
      pix_temp1 = pix_pack(pix_temp1, w1, h1);

      for (int s = 0; s < w * h; s++) {
        pix_res[s] = pix_temp[s] - pix_temp1[s];
      }

      pix_temp1 = saturate(pix_temp1, w1, h1);
      imageResultDisplay(w1, h1, pix_res);
    }

    /**
     * *********************** Subtract Constant value and then use Satuartion technique
     * ***************
     */
    if (e.getSource() == mSubSat) {
      String sub_value;
      Image img_add = image;
      pixel_sub = new int[w * h];

      pixel_result = pixel_grab(img_add, w, h);

      sub_value = JOptionPane.showInputDialog("Enter Value you wish to subtract from the image");
      int number = Integer.parseInt(sub_value);

      for (int r = 0; r < w * h; r++) {
        pixel_sub[r] = pixel_result[r] - number;
      }

      pixel_sub = saturate(pixel_sub, w, h);
      pixel_sub = pix_pack(pixel_sub, w, h);
      imageResultDisplay(w, h, pixel_sub);
    }

    /** ************ Subtract constant by Wrap Around technique ********** */
    if (e.getSource() == mSubWrap) {
      String sub_value;
      Image img_add = image;
      pixel_sub = new int[w * h];

      pixel_result = pixel_grab(img_add, w, h);

      sub_value = JOptionPane.showInputDialog("Enter Value you wish to add to the image");
      int number = Integer.parseInt(sub_value);

      for (int r = 0; r < w * h; r++) {
        pixel_sub[r] = pixel_result[r] - number;
      }
      pixel_sub = WrapAround(pixel_sub, w, h);
      pixel_sub = pix_pack(pixel_sub, w, h);
      imageResultDisplay(w, h, pixel_sub);
    }

    /** ****************** Multiply one image with another ************** */
    if (e.getSource() == mMulImg) {
      OpenImage2();
      pix_temp1 = new int[w * h];
      pix_res = new int[w * h];

      pix_temp1 = pixel_grab(image1, w1, h1);
      pix_temp1 = pix_pack(pix_temp1, w1, h1);

      for (int s = 0; s < w * h; s++) {
        pix_res[s] = pix_temp[s] * pix_temp1[s];
      }

      pix_temp1 = saturate(pix_temp1, w1, h1);
      imageResultDisplay(w1, h1, pix_res);
    }

    /**
     * *********************** Multiply Constant value and then use Satuartion technique
     * ***************
     */
    if (e.getSource() == mMulSat) {
      String mul_value;
      Image img_mul = image;
      pixel_mul = new int[w * h];

      pixel_result = pixel_grab(img_mul, w, h);

      mul_value = JOptionPane.showInputDialog("Enter Value you wish to multiply to the image");
      int number = Integer.parseInt(mul_value);

      for (int r = 0; r < w * h; r++) {
        pixel_mul[r] = pixel_result[r] * number;
      }

      pixel_mul = saturate(pixel_mul, w, h);
      pixel_mul = pix_pack(pixel_mul, w, h);
      imageResultDisplay(w, h, pixel_mul);
    }

    /** ************ Multiply constant by Wrap Around technique ********** */
    if (e.getSource() == mMulWrap) {
      String mul_value;
      Image img_mul = image;
      pixel_mul = new int[w * h];

      pixel_result = pixel_grab(img_mul, w, h);

      mul_value = JOptionPane.showInputDialog("Enter Value you wish to multiply to the image");
      int number = Integer.parseInt(mul_value);
      for (int r = 0; r < w * h; r++) {
        pixel_mul[r] = pixel_result[r] * number;
      }
      pixel_mul = WrapAround(pixel_mul, w, h);
      pixel_mul = pix_pack(pixel_mul, w, h);
      imageResultDisplay(w, h, pixel_mul);
    }

    /** ****************** Divide one image by another ************** */
    if (e.getSource() == mDivImg) {

      OpenImage2();
      pix_temp1 = new int[w * h];
      pix_res = new int[w * h];

      pix_temp1 = pixel_grab(image1, w1, h1);
      pix_temp1 = pix_pack(pix_temp1, w1, h1);

      for (int s = 0; s < w * h; s++) {
        pix_res[s] = pix_temp1[s] / pix_temp[s];
      }

      // pix_temp1 = saturate(pix_temp1,w1,h1);
      pix_temp1 = WrapAround(pix_temp1, w, h);
      imageResultDisplay(w1, h1, pix_res);
    }

    /**
     * *********************** Divide by Constant value and then use Saturation technique
     * ***************
     */
    if (e.getSource() == mDivSat) {
      String div_value;
      Image img_add = image;
      pixel_div = new int[w * h];

      pixel_result = pixel_grab(img_add, w, h);

      div_value = JOptionPane.showInputDialog("Enter value to divide the image by");
      int number = Integer.parseInt(div_value);

      for (int r = 0; r < w * h; r++) {
        pixel_div[r] = pixel_result[r] / number;
      }

      pixel_div = saturate(pixel_div, w, h);
      pixel_div = pix_pack(pixel_div, w, h);
      imageResultDisplay(w, h, pixel_div);
    }

    /** ************ Divide constant by Wrap Around technique ********** */
    if (e.getSource() == mDivWrap) {
      String div_value;
      Image img_add = image;
      pixel_div = new int[w * h];

      pixel_result = pixel_grab(img_add, w, h);

      div_value = JOptionPane.showInputDialog("Enter value to divide image by");
      int number = Integer.parseInt(div_value);
      for (int r = 0; r < w * h; r++) {

        pixel_div[r] = pixel_result[r] / number;
      }
      pixel_div = WrapAround(pixel_div, w, h);
      pixel_div = pix_pack(pixel_div, w, h);
      imageResultDisplay(w, h, pixel_div);
    }

    /** ******************** Thresholding ************* */
    if (e.getSource() == mThreshold) {
      String thresh_value;
      Image img_add = image;

      pixel_result = pixel_grab(img_add, w, h);

      thresh_value = JOptionPane.showInputDialog("Enter value to threshold the image");
      int number = Integer.parseInt(thresh_value);

      for (int r = 0; r < w * h; r++) {
        if (pixel_result[r] >= number) pixel_result[r] = 255;
        else if (pixel_result[r] <= number) pixel_result[r] = 0;
      }

      pixel_result = pix_pack(pixel_result, w, h);
      imageResultDisplay(w, h, pixel_result);
    }

    if (e.getSource() == m_Save) {
      FileImageOutputStream src_img;

      int returnVal = jfc.showSaveDialog(IPToolKit.this);
      if (returnVal == JFileChooser.APPROVE_OPTION) {
        File fileR = jfc.getSelectedFile();
        String fileToSave = file.getAbsolutePath();

        if (!fileToSave.toLowerCase().endsWith(".jpg")) {
          fileR = new File(fileToSave + ".jpg");
        }

        try {
          src_img = new FileImageOutputStream(fileR);
          buf_img = getImageFromArray(pixel_result, w, h);
          ImageIO.write(buf_img, "jpg", src_img);

        } catch (IOException ex8) {
          System.out.println(ex8);
        }
      }

      //	}

    }

    /** ***************************** Increase brightness **************** */
    if (e.getSource() == mBright) {
      String bright_value;
      Image img_add = image;

      pixel_result = pixel_grab(img_add, w, h);

      bright_value = JOptionPane.showInputDialog("Enter value to increase brightness");
      int number = Integer.parseInt(bright_value);

      for (int r = 0; r < w * h; r++) {
        pixel_result[r] = pixel_result[r] + number;
      }

      pixel_result = saturate(pixel_result, w, h);
      pixel_result = pix_pack(pixel_result, w, h);
      imageResultDisplay(w, h, pixel_result);
    }

    /** ****************** Contrast Strtching *************** */
    if (e.getSource() == mContrast) {
      String cont_value1, cont_value2;
      Image img_add = image;
      pixel_cont = new int[w * h];

      pixel_result = pixel_grab(img_add, w, h);

      cont_value1 = JOptionPane.showInputDialog("Enter lower limit for contrast stretch");
      int number = Integer.parseInt(cont_value1);
      cont_value2 = JOptionPane.showInputDialog("Enter higher limit for contrast stretch");
      int number1 = Integer.parseInt(cont_value2);

      for (int r = 0; r < w * h; r++) {
        if (pixel_result[r] <= number1) {

          pixel_cont[r] = pixel_result[r] - 50;
          if (pixel_cont[r] < 0) pixel_cont[r] = 0;
        } else if (pixel_result[r] >= number) {
          pixel_cont[r] = pixel_result[r] + 50;

          if (pixel_cont[r] > 255) pixel_cont[r] = 255;

        } else pixel_cont[r] = pixel_result[r];
      }

      pixel_cont = saturate(pixel_cont, w, h);
      pixel_cont = pix_pack(pixel_cont, w, h);
      imageResultDisplay(w, h, pixel_cont);
    }

    /** ******************* Low Pass Filter ****************** */
    if (e.getSource() == mlowPass) {
      int mask[][] = {{1, 1, 1}, {1, 1, 1}, {1, 1, 1}};

      pixel_result = pixel_grab(image, w, h);

      int pix_tempLow[][] = new int[h][w];

      pix_tempLow = OneD_ArrayToTwoD_Array(w, h, pixel_result);

      pix_tempLow = MaskOperation(w, h, pix_tempLow, mask);
      int pix_temp1D[] = new int[(w) * (h)];

      pix_temp1D = TwoD_ArrayToOneD_Array(w, h, pix_tempLow);

      pix_temp1D = restrict(pix_temp1D);
      pix_temp1D = pix_pack(pix_temp1D, w - 2, h - 2);
      imageResultDisplay(w - 2, h - 2, pix_temp1D);
    }

    /** ********************* High Pass Filter *************** */
    if (e.getSource() == mhighPass) {
      int mask[][] = {{-1, -1, -1}, {-1, 8, -1}, {-1, -1, -1}};

      pixel_result = pixel_grab(image, w, h);

      int pix_tempLow[][] = new int[h][w];

      pix_tempLow = OneD_ArrayToTwoD_Array(w, h, pixel_result);

      pix_tempLow = MaskOperation(w, h, pix_tempLow, mask);
      int pix_temp1D[] = new int[(w) * (h)];

      pix_temp1D = TwoD_ArrayToOneD_Array(w, h, pix_tempLow);

      pix_temp1D = saturate(pix_temp1D, w - 2, h - 2);
      pix_temp1D = restrict(pix_temp1D);
      pix_temp1D = pix_pack(pix_temp1D, w - 2, h - 2);
      imageResultDisplay(w - 2, h - 2, pix_temp1D);
    }

    /** *************************** High Boost Filter **************** */
    if (e.getSource() == mhighBoost) {
      int mask[][] = {{-1, -1, -1}, {-1, 9, -1}, {-1, -1, -1}};

      pixel_result = pixel_grab(image, w, h);

      int pix_tempLow[][] = new int[h][w];

      pix_tempLow = OneD_ArrayToTwoD_Array(w, h, pixel_result);

      pix_tempLow = MaskOperation(w, h, pix_tempLow, mask);
      int pix_temp1D[] = new int[(w) * (h)];

      pix_temp1D = TwoD_ArrayToOneD_Array(w, h, pix_tempLow);
      pix_temp1D = saturate(pix_temp1D, w - 2, h - 2);
      pix_temp1D = restrict(pix_temp1D);
      pix_temp1D = pix_pack(pix_temp1D, w - 2, h - 2);
      imageResultDisplay(w - 2, h - 2, pix_temp1D);
    }

    if (e.getSource() == m_Save) {

      for (int i = 0; i < w * h; i++) {
        System.out.println(pixel_result[i]);
      }

      FileImageOutputStream src_img;

      int returnVal = jfc.showSaveDialog(IPToolKit.this);
      if (returnVal == JFileChooser.APPROVE_OPTION) {
        File fileR = jfc.getSelectedFile();
        String fileToSave = file.getAbsolutePath();

        if (!fileToSave.toLowerCase().endsWith(".jpg")) {
          fileR = new File(fileToSave + ".jpg");
        }

        try {
          src_img = new FileImageOutputStream(fileR);
          buf_img = getImageFromArray(pixel_result, w, h);
          ImageIO.write(buf_img, "jpg", src_img);

        } catch (IOException ex8) {
          System.out.println(ex8);
        }
      }
    }

    /** ********************* Invert and image ************ */
    if (e.getSource() == mInvert) {

      Image img_Invert = image;
      pixel_result = new int[w * h];

      pixel_result = pixel_grab(img_Invert, w, h);

      for (int r = 0; r < w * h; r++) {
        pixel_result[r] = 255 - pixel_result[r];
      }

      //	pixel_div = saturate(pixel_div,w,h);
      pixel_result = pix_pack(pixel_result, w, h);
      imageResultDisplay(w, h, pixel_result);
    }
    /** *************************** Median Filter **************** */
    if (arg.equals("Median")) {
      int[] pix_grabed = new int[w * h];
      int[][] p2d = new int[h][w];
      int[][] pp2d = new int[h][w];
      int pix_pcked[] = new int[w * h];
      int pres[] = new int[h * w];

      pix_grabed = pixel_grab(image, w, h);
      p2d = OneD_ArrayToTwoD_Array(w, h, pix_grabed);
      pp2d = median_filter(p2d);
      pres = TwoD_ArrayToOneD_Array(w, h, pp2d);
      pix_pcked = pix_pack(pres, w - 2, h - 2);
      imageResultDisplay(w - 2, h - 2, pix_pcked);
    }

    /** ********************** Prewits Horizontal Edge Detection ******************* */
    if (arg.equals("Prewits Horizontal")) {

      int[] pix_grabed = new int[w * h];
      int[][] p2d = new int[h][w];
      int[][] pp2d = new int[h][w];
      int pix_pcked[] = new int[w * h];
      int pres[] = new int[h * w];

      int mask[][] = {{-1, -1, -1}, {0, 0, 0}, {1, 1, 1}};

      pix_grabed = pixel_grab(image, w, h);
      p2d = OneD_ArrayToTwoD_Array(w, h, pix_grabed);
      pp2d = MaskOperation(w, h, p2d, mask);

      pres = TwoD_ArrayToOneD_Array(w, h, pp2d);
      pres = saturate(pres, w - 2, h - 2);
      pres = restrict(pres);
      pix_pcked = pix_pack(pres, w - 2, h - 2);
      imageResultDisplay(w - 2, h - 2, pix_pcked);
    }

    /** ********************** Prewits Vertical Edge Detection ******************* */
    if (arg.equals("Prewits Vertical")) {

      int[] pix_grabed = new int[w * h];
      int[][] p2d = new int[h][w];
      int[][] pp2d = new int[h][w];
      int pix_pcked[] = new int[w * h];
      int pres[] = new int[h * w];

      int mask[][] = {{-1, 0, 1}, {-1, 0, 1}, {-1, 0, 1}};

      pix_grabed = pixel_grab(image, w, h);
      p2d = OneD_ArrayToTwoD_Array(w, h, pix_grabed);
      pp2d = MaskOperation(w, h, p2d, mask);

      pres = TwoD_ArrayToOneD_Array(w, h, pp2d);
      pres = saturate(pres, w - 2, h - 2);
      pres = restrict(pres);
      pix_pcked = pix_pack(pres, w - 2, h - 2);
      imageResultDisplay(w - 2, h - 2, pix_pcked);
    }

    /** ********************** Prewits Edge Detection ******************* */
    if (arg.equals("Prewits Both")) {

      int[] pix_grabed = new int[w * h];
      int[][] p2d = new int[h][w];
      int[][] pp2d = new int[h][w];
      int pix_pcked[] = new int[w * h];
      int pres1[] = new int[h * w];
      int pres2[] = new int[h * w];
      int pres[] = new int[h * w];
      int mask1[][] = {{-1, -1, -1}, {0, 0, 0}, {1, 1, 1}};

      pix_grabed = pixel_grab(image, w, h);

      p2d = OneD_ArrayToTwoD_Array(w, h, pix_grabed);
      pp2d = MaskOperation(w, h, p2d, mask1);
      pres1 = TwoD_ArrayToOneD_Array(w, h, pp2d);
      pres1 = saturate(pres1, w - 2, h - 2);
      pres1 = restrict(pres1);
      int mask2[][] = {{-1, 0, 1}, {-1, 0, 1}, {-1, 0, 1}};
      p2d = OneD_ArrayToTwoD_Array(w, h, pix_grabed);
      pp2d = MaskOperation(w, h, p2d, mask2);
      pres2 = TwoD_ArrayToOneD_Array(w, h, pp2d);
      pres2 = saturate(pres2, w - 2, h - 2);
      pres2 = restrict(pres2);
      for (int i = 0; i < ((h - 2) * (w - 2)); i++) {
        pres[i] = pres1[i] + pres2[i];
      }

      pix_pcked = pix_pack(pres, w - 2, h - 2);
      imageResultDisplay(w - 2, h - 2, pix_pcked);
    }

    /** ********************** Sobel Horizontal Edge Detection ******************* */
    if (arg.equals("Sobel Horizontal")) {

      int[] pix_grabed = new int[w * h];
      int[][] p2d = new int[h][w];
      int[][] pp2d = new int[h][w];
      int pix_pcked[] = new int[w * h];
      int pres[] = new int[h * w];

      int mask[][] = {{-1, -2, -1}, {0, 0, 0}, {1, 2, 1}};

      pix_grabed = pixel_grab(image, w, h);
      p2d = OneD_ArrayToTwoD_Array(w, h, pix_grabed);
      pp2d = MaskOperation(w, h, p2d, mask);
      pres = TwoD_ArrayToOneD_Array(w, h, pp2d);
      pres = saturate(pres, w - 2, h - 2);
      pres = restrict(pres);
      pix_pcked = pix_pack(pres, w - 2, h - 2);
      imageResultDisplay(w - 2, h - 2, pix_pcked);
    }

    /** ********************** Sobel Vertical Edge Detection ******************* */
    if (arg.equals("Sobel Vertical")) {

      int[] pix_grabed = new int[w * h];
      int[][] p2d = new int[h][w];
      int[][] pp2d = new int[h][w];
      int pix_pcked[] = new int[w * h];
      int pres[] = new int[h * w];

      int mask[][] = {{-1, 0, 1}, {-2, 0, 2}, {-1, 0, 1}};

      pix_grabed = pixel_grab(image, w, h);
      p2d = OneD_ArrayToTwoD_Array(w, h, pix_grabed);
      pp2d = MaskOperation(w, h, p2d, mask);

      pres = TwoD_ArrayToOneD_Array(w, h, pp2d);
      pres = saturate(pres, w - 2, h - 2);
      pres = restrict(pres);
      pix_pcked = pix_pack(pres, w - 2, h - 2);
      imageResultDisplay(w - 2, h - 2, pix_pcked);
    }

    /** ********************** Sobel Edge Detection ******************* */
    if (arg.equals("Sobel Both")) {

      int[] pix_grabed = new int[w * h];
      int[][] p2d = new int[h][w];
      int[][] pp2d = new int[h][w];
      int pix_pcked[] = new int[w * h];
      int pres1[] = new int[h * w];
      int pres2[] = new int[h * w];
      int pres[] = new int[h * w];

      int mask1[][] = {{-1, -2, -1}, {0, 0, 0}, {1, 2, 1}};

      pix_grabed = pixel_grab(image, w, h);

      p2d = OneD_ArrayToTwoD_Array(w, h, pix_grabed);
      pp2d = MaskOperation(w, h, p2d, mask1);
      pres1 = TwoD_ArrayToOneD_Array(w, h, pp2d);
      pres1 = saturate(pres1, w - 2, h - 2);
      pres1 = restrict(pres1);
      int mask2[][] = {{-1, 0, 1}, {-2, 0, 2}, {-1, 0, 1}};
      p2d = OneD_ArrayToTwoD_Array(w, h, pix_grabed);
      pp2d = MaskOperation(w, h, p2d, mask2);
      pres2 = TwoD_ArrayToOneD_Array(w, h, pp2d);
      pres2 = saturate(pres2, w - 2, h - 2);
      pres2 = restrict(pres2);
      for (int i = 0; i < ((h - 2) * (w - 2)); i++) {
        pres[i] = pres1[i] + pres2[i];
      }

      pix_pcked = pix_pack(pres, w - 2, h - 2);
      imageResultDisplay(w - 2, h - 2, pix_pcked);
    }

    /** ********************** Roberts Edge Detection ******************* */
    if (arg.equals("Roberts")) {

      int[] pix_grabed = new int[w * h];
      int[][] p2d = new int[h][w];
      int[][] pp2d = new int[h][w];
      int pix_pcked[] = new int[w * h];
      int pres[] = new int[h * w];

      int mask[][] = {{1, 0}, {0, -1}};
      pix_grabed = pixel_grab(image, w, h);
      p2d = OneD_ArrayToTwoD_Array(w, h, pix_grabed);

      for (int i = 1; i < h - 1; i++) {
        for (int j = 1; j < w - 1; j++) {
          pp2d[i][j] =
              ((mask[0][0] * p2d[i - 1][j - 1] + mask[1][0] * p2d[i + 1][j - 1])
                      + (mask[0][1] * p2d[i - 1][j + 1] + mask[1][1] * p2d[i + 1][j + 1]))
                  / 2;
        }
      }

      pres = TwoD_ArrayToOneD_Array(w, h, pp2d);
      pres = saturate(pres, w - 2, h - 2);
      pix_pcked = pix_pack(pres, w - 2, h - 2);
      imageResultDisplay(w - 2, h - 2, pix_pcked);
    }

    /** ********************** Mean Filter ******************* */
    if (arg.equals("Mean")) {
      int[] pix_grabed = new int[w * h];
      int[][] p2d = new int[h][w];
      int[][] pp2d = new int[h][w];
      int pix_pcked[] = new int[w * h];
      int pres[] = new int[h * w];

      pix_grabed = pixel_grab(image, w, h);
      p2d = OneD_ArrayToTwoD_Array(w, h, pix_grabed);
      pp2d = mean_filt(p2d);
      pres = TwoD_ArrayToOneD_Array(w, h, pp2d);
      pix_pcked = pix_pack(pres, w - 2, h - 2);
      imageResultDisplay(w - 2, h - 2, pix_pcked);
    }

    /** ********************** Laplacian Edge Detector ******************* */
    if (arg.equals("Laplacian")) {
      int[] pix_grabed = new int[w * h];
      int[][] p2d = new int[h][w];
      int[][] pp2d = new int[h][w];
      int pix_pcked[] = new int[w * h];
      int pres[] = new int[h * w];

      int mask[][] = {{0, -2, 0}, {-2, 8, -2}, {0, -2, 0}};

      pix_grabed = pixel_grab(image, w, h);
      p2d = OneD_ArrayToTwoD_Array(w, h, pix_grabed);
      pp2d = MaskOperation(w, h, p2d, mask);

      pres = TwoD_ArrayToOneD_Array(w, h, pp2d);
      pres = saturate(pres, w - 2, h - 2);
      pres = restrict(pres);
      pix_pcked = pix_pack(pres, w - 2, h - 2);
      imageResultDisplay(w - 2, h - 2, pix_pcked);
    }

    /** ********************** Histogram Equalization ******************* */
    if (arg.equals("Histogram Equalization")) {
      int[] pix_grabed = new int[h * w];
      int pres[] = new int[h * w];
      int cnt_pix[] = new int[256];
      int pixx[] = new int[h * w];
      int pix_pcked[] = new int[h * w];
      int pix_res[] = new int[h * w];
      int len = h * w;
      int res = 0;

      pix_grabed = pixel_grab(image, w, h);

      for (int i = 0; i < h * w; i++) {
        pixx[i] = pix_grabed[i];
      }

      for (int i = 0; i < 256; i++) {

        cnt_pix[i] = 0;
      }

      for (int i = 0; i < len; i++) {

        int ind = pixx[i];
        cnt_pix[ind]++;
      }

      for (int i = 0; i < w * h; i++) {
        float a = 0;

        for (int j = 0; j < (pixx[i] + 1); j++) {
          float b = (float) cnt_pix[j];

          float c = (float) (h * w);

          a = a + (b / c);
        }

        res = (int) (a * 255);
        if (res > 255) res = 255;

        pix_res[i] = (0xff000000 | (res << 16) | (res << 8) | res);
      }

      pix_pcked = pix_pack(pix_res, w, h);
      imageResultDisplay(w, h, pix_pcked);
    }

    if (arg.equals("Connected Component")) {
      int pix_grabed[] = new int[h * w];
      int p2d[][] = new int[h][w];
      conect_input = new int[h][w];
      conect_output = new int[h][w];

      int x1 = x_cor;
      int y1 = y_cor;

      pix_grabed = pixel_grab(image, w, h);
      p2d = OneD_ArrayToTwoD_Array(w, h, pix_grabed);
      s = 0;
      t = 0;
      obj_size = 0;
      intensity = p2d[y1][x1];

      for (int i = 0; i < h; i++) {
        for (int j = 0; j < w; j++) {
          conect_input[i][j] = p2d[i][j];
          conect_output[i][j] = 0;
        }
      }

      connect(y1, x1);
      int pixx[] = new int[h * w];
      int pp[] = new int[h * w];

      pixx = TwoD_ArrayToOneD_Array(w, h, conect_output);
      pixx = saturate(pixx, w - 2, h - 2);
      pp = pix_pack(pixx, w - 2, h - 2);
      imageResultDisplay(w - 2, h - 2, pp);
    }

    /** ********************** Blending ******************* */
    if (arg.equals("Blending")) {

      int size;
      int hei, wid;
      if (h1 > h) hei = h1;
      else hei = h;

      if (w1 > w) wid = w1;
      else wid = w;

      size = hei * wid;
      int pix_img1[] = new int[size];
      int pix_img2[] = new int[size];
      int pix_res[] = new int[size];
      int pixx[] = new int[h1 * w1];
      double x = 0.5;
      pix_img1 = pixel_grab(image, w, h);
      OpenImage2();
      pix_img2 = pixel_grab(image1, w1, h1);

      //	 grayImageDisplay(w1,h1,pixx)

      for (int i = 0; i < size; i++) {
        pix_res[i] = (int) ((x * pix_img1[i]) + ((1 - x) * (pix_img2[i])));
      }
      int pix_pcked[] = new int[size];

      pix_pcked = pix_pack(pix_res, wid, hei);
      imageResultDisplay(wid, hei, pix_pcked);
    }

    /** ****************** Quit OR Exit **************** */
    if (arg.equals("Exit")) {
      System.exit(0);
    }
  }
  public void actionPerformed(ActionEvent e) {
    Object o = e.getSource();

    for (JRadioButton u : ub) {
      if (o == u) {
        mapTM.setUnitType(u.getText());
        System.out.println("Set unit type - " + u.getText());
        return;
      }
    }

    if (o == timer) {

      /*
      mmLabel.setText("Main Menu ("+(cdTime--)+")");

      if(cdTime == 0){
      	timer.stop();
      	gsButton.setText("Game Start");
      	mmLabel.setText("Main Menu");

      	ArrayList<Building> bArr = new ArrayList<Building>();

      	String temp = "Elixir Collector-24,8-960|Elixir Collector-31,8-960|Gold Mine-17,10-960|Elixir Collector-25,21-960|Elixir Collector-11,22-960";
      	String[] bs = temp.split("\\|");
      	for(String b : bs){
      		String[] bParts = b.split("-");
      		String[] cParts = bParts[1].split(",");
      		int x = Integer.parseInt(cParts[0].trim());
      		int y = Integer.parseInt(cParts[1].trim());

      		Building tb = new Building(bParts[0], new Coordinate(x,y));
      		tb.setHp(Integer.parseInt(bParts[2].trim()));

      		bArr.add(tb);
      	}



      	mapTM.setBuildings(bArr);
      	switchCards("TM");
      }
      */

      return;
    }

    if (o == gsButton) {

      if (timer.isRunning()) {
        // timer.stop();
        gsButton.setText("Game Start");
        mmLabel.setText("Main Menu");
        // sends the leave command
        client.sendUDP("leave~" + unameUDP);
        return;
      }
      // sends the joinlobby command
      client.sendUDP("joinlobby~" + unameUDP);
      // gsButton.setText("Game Stop");
      String serverResp = client.receiveUDP();

      if (serverResp.trim().equals("false")) {

        // place false handler here

      } else {

        String[] enemies = serverResp.trim().split(",");
        ArrayList<Building> bArr = new ArrayList<Building>();
        String mapConfig = getBaseConfig(enemies[0]);
        String[] bs = mapConfig.split("\\|");
        for (String b : bs) {

          String[] bParts = b.split("-");
          String[] cParts = bParts[1].split(",");
          int x = Integer.parseInt(cParts[0].trim());
          int y = Integer.parseInt(cParts[1].trim());

          Building tb = new Building(bParts[0], new Coordinate(x, y));
          tb.setHp(Integer.parseInt(bParts[2].trim()));
          bArr.add(tb);
        }

        mapTM.setBuildings(bArr);
        switchCards("TM");
      }

      // System.out.println(serverResp);
      // cdTime = 10;
      // timer.start();
      return;
    }

    if (o == logout) {
      client.sendMessage(new ChatMessage(ChatMessage.LOGOUT, ""));
      chatArea.setText("");

      switchCards("Login");
      return;
    }

    if (o == cmButton) {
      String baseConfig = getBaseConfig();
      System.out.println("base config: " + baseConfig);

      for (int i = 0; i < mapSize; i++) {
        for (int j = 0; j < mapSize; j++) {
          tiles[i][j].setValue("");
        }
      }

      if (!baseConfig.equals("")) {

        String[] bs = baseConfig.split("\\|");
        for (String b : bs) {
          String[] bParts = b.split("-");
          String[] cParts = bParts[1].split(",");
          int x = Integer.parseInt(cParts[0].trim());
          int y = Integer.parseInt(cParts[1].trim());

          int index = 0;
          for (int i = 0; i < bb.size(); i++) {
            if (bb.get(i).getText().split("-")[0].trim().equals(bParts[0])) {
              index = i;
              break;
            }
          }
          insertBuilding(y, x, index);
        }
      }

      switchCards("CM");

      return;
    }

    if (o == tmButton) {

      ArrayList<Building> bArr = new ArrayList<Building>();

      for (int i = 0; i < 40; i++) {
        for (int j = 0; j < 40; j++) {
          if (tiles[i][j].getValue().equals("") || tiles[i][j].getValue().contains("-")) {
            continue;
          }
          // weird part here
          bArr.add(new Building(tiles[i][j].getValue(), new Coordinate(j, i)));
        }
      }

      mapTM.setBuildings(bArr);

      switchCards("TM");
      return;
    }

    // if it the who is in button
    if (o == whoIsIn) {
      client.sendMessage(new ChatMessage(ChatMessage.WHOISIN, ""));
      return;
    }

    if (o == cmBack) {
      ArrayList<Building> bArr = new ArrayList<Building>();
      for (int i = 0; i < 40; i++) {
        for (int j = 0; j < 40; j++) {
          if (tiles[i][j].getValue().equals("") || tiles[i][j].getValue().contains("-")) {
            continue;
          }
          // weird part here
          bArr.add(new Building(tiles[i][j].getValue(), new Coordinate(j, i)));
        }
      }

      String temp = "mapdata~" + unameUDP + "~";
      int tileCount = 40;
      int dim = 600;
      int tileDim = (int) (dim / tileCount);
      int counter = 0;
      for (Building b : bArr) {
        int x, y, hp;
        x = b.getPos().getX() / tileDim;
        y = b.getPos().getY() / tileDim;
        hp = b.getHp();
        temp += b.getName() + "-" + x + "," + y + "-" + hp + "|";
        counter += 1;
      }
      if (counter > 0) {
        temp = temp.substring(0, temp.length() - 1); // removes the last '|'
      } else {
        temp += "none";
      }

      client.sendUDP(temp); // allows saving of the current state of the map into the user's account

      switchCards("Menu");

      return;
    }
    if (o == tmBack) {
      switchCards("Menu");

      return;
    }

    for (int i = 0; i < 40; i++) {
      for (int j = 0; j < 40; j++) {
        if (o == tiles[i][j]) {
          for (int k = 0; k < bb.size(); k++) {
            if (bb.get(k).isSelected()) {
              if (bb.get(k).getText().equals("Remove Building")) {
                removeBuilding(i, j);
                return;
              }

              insertBuilding(i, j, k);
              // JOptionPane.showMessageDialog(null, bb.get(k).getText());
              return;
            }
          }

          // JOptionPane.showMessageDialog(null, "i-"+i+" j-"+j);
          return;
        }
      }
    }

    // ok it is coming from the JTextField
    if (connected) {
      // just have to send the message
      client.sendMessage(new ChatMessage(ChatMessage.MESSAGE, chatField.getText()));
      chatField.setText("");
      return;
    }

    if (o == login) {
      // ok it is a connection request
      String username = usernameField.getText().trim();
      String password = passwordField.getText().trim();
      // empty username ignore it
      if (username.length() == 0) return;
      // empty serverAddress ignore it
      String server = tfServer.getText().trim();
      if (server.length() == 0) return;
      // empty or invalid port numer, ignore it
      String portNumber = tfPort.getText().trim();
      if (portNumber.length() == 0) return;
      int port = 0;
      try {
        port = Integer.parseInt(portNumber);
      } catch (Exception en) {
        return; // nothing I can do if port number is not valid
      }

      // try creating a new Client with GUI
      client = new Client(server, port, username, password, this);
      // test if we can start the Client
      if (!client.start()) return;

      unameUDP = username;

      switchCards("Menu");
      // fetching of the base_config string from the database

      chatField.setText("");
      chatArea.setText("");
    }
  }
  public void actionPerformed(ActionEvent ev) {

    String s = ev.getActionCommand();

    if (s == null) {
      if (ev.getSource() instanceof JMenuItem) {
        JMenuItem i;

        s = ((JMenuItem) ev.getSource()).getText();
      }
    }

    /*
    // button replace by toolbar
            if (s.equals("Execute")) {
                execute();
            } else
    */
    if (s.equals("Exit")) {
      windowClosing(null);
    } else if (s.equals("Transfer")) {
      Transfer.work(null);
    } else if (s.equals("Dump")) {
      Transfer.work(new String[] {"-d"});
    } else if (s.equals("Restore")) {
      Transfer.work(new String[] {"-r"});
    } else if (s.equals("Logging on")) {
      javaSystem.setLogToSystem(true);
    } else if (s.equals("Logging off")) {
      javaSystem.setLogToSystem(false);
    } else if (s.equals("Refresh Tree")) {
      refreshTree();
    } else if (s.startsWith("#")) {
      int i = Integer.parseInt(s.substring(1));

      txtCommand.setText(sRecent[i]);
    } else if (s.equals("Connect...")) {
      connect(ConnectionDialogSwing.createConnection(fMain, "Connect"));
      refreshTree();
    } else if (s.equals("Results in Grid")) {
      iResult = 0;

      pResult.removeAll();
      pResult.add(gScrollPane, BorderLayout.CENTER);
      pResult.doLayout();
      gResult.fireTableChanged(null);
      pResult.repaint();
    } else if (s.equals("Open Script...")) {
      JFileChooser f = new JFileChooser(".");

      f.setDialogTitle("Open Script...");

      // (ulrivo): set default directory if set from command line
      if (defDirectory != null) {
        f.setCurrentDirectory(new File(defDirectory));
      }

      int option = f.showOpenDialog(fMain);

      if (option == JFileChooser.APPROVE_OPTION) {
        File file = f.getSelectedFile();

        if (file != null) {
          StringBuffer buf = new StringBuffer();

          ifHuge = DatabaseManagerCommon.readFile(file.getAbsolutePath());

          if (4096 <= ifHuge.length()) {
            buf.append("This huge file cannot be edited. Please execute\n");
            txtCommand.setText(buf.toString());
          } else {
            txtCommand.setText(ifHuge);
          }
        }
      }
    } else if (s.equals("Save Script...")) {
      JFileChooser f = new JFileChooser(".");

      f.setDialogTitle("Save Script");

      // (ulrivo): set default directory if set from command line
      if (defDirectory != null) {
        f.setCurrentDirectory(new File(defDirectory));
      }

      int option = f.showSaveDialog(fMain);

      if (option == JFileChooser.APPROVE_OPTION) {
        File file = f.getSelectedFile();

        if (file != null) {
          DatabaseManagerCommon.writeFile(file.getAbsolutePath(), txtCommand.getText());
        }
      }
    } else if (s.equals("Save Result...")) {
      JFileChooser f = new JFileChooser(".");

      f.setDialogTitle("Save Result...");

      // (ulrivo): set default directory if set from command line
      if (defDirectory != null) {
        f.setCurrentDirectory(new File(defDirectory));
      }

      int option = f.showSaveDialog(fMain);

      if (option == JFileChooser.APPROVE_OPTION) {
        File file = f.getSelectedFile();

        if (file != null) {
          showResultInText();
          DatabaseManagerCommon.writeFile(file.getAbsolutePath(), txtResult.getText());
        }
      }
    } else if (s.equals("Results in Text")) {
      iResult = 1;

      pResult.removeAll();
      pResult.add(txtResultScroll, BorderLayout.CENTER);
      pResult.doLayout();
      showResultInText();
      pResult.repaint();
    } else if (s.equals("AutoCommit on")) {
      try {
        cConn.setAutoCommit(true);
      } catch (SQLException e) {
      }
    } else if (s.equals("AutoCommit off")) {
      try {
        cConn.setAutoCommit(false);
      } catch (SQLException e) {
      }
    } else if (s.equals("Commit")) {
      try {
        cConn.commit();
      } catch (SQLException e) {
      }
    } else if (s.equals("Insert test data")) {
      insertTestData();
    } else if (s.equals("Rollback")) {
      try {
        cConn.rollback();
      } catch (SQLException e) {
      }
    } else if (s.equals("Disable MaxRows")) {
      try {
        sStatement.setMaxRows(0);
      } catch (SQLException e) {
      }
    } else if (s.equals("Set MaxRows to 100")) {
      try {
        sStatement.setMaxRows(100);
      } catch (SQLException e) {
      }
    } else if (s.equals("SELECT")) {
      showHelp(DatabaseManagerCommon.selectHelp);
    } else if (s.equals("INSERT")) {
      showHelp(DatabaseManagerCommon.insertHelp);
    } else if (s.equals("UPDATE")) {
      showHelp(DatabaseManagerCommon.updateHelp);
    } else if (s.equals("DELETE")) {
      showHelp(DatabaseManagerCommon.deleteHelp);
    } else if (s.equals("CREATE TABLE")) {
      showHelp(DatabaseManagerCommon.createTableHelp);
    } else if (s.equals("DROP TABLE")) {
      showHelp(DatabaseManagerCommon.dropTableHelp);
    } else if (s.equals("CREATE INDEX")) {
      showHelp(DatabaseManagerCommon.createIndexHelp);
    } else if (s.equals("DROP INDEX")) {
      showHelp(DatabaseManagerCommon.dropIndexHelp);
    } else if (s.equals("CHECKPOINT")) {
      showHelp(DatabaseManagerCommon.checkpointHelp);
    } else if (s.equals("SCRIPT")) {
      showHelp(DatabaseManagerCommon.scriptHelp);
    } else if (s.equals("SHUTDOWN")) {
      showHelp(DatabaseManagerCommon.shutdownHelp);
    } else if (s.equals("SET")) {
      showHelp(DatabaseManagerCommon.setHelp);
    } else if (s.equals("Test Script")) {
      showHelp(DatabaseManagerCommon.testHelp);
    }
  }