@SuppressWarnings("unchecked")
 @Override
 public int loop() {
   synchronized (lock) {
     try {
       if (!ui.isVisible()) handler.stopMod(getName());
       World world = minecraft.getWorld();
       JTable list = ui.getList();
       DefaultTableModel model = (DefaultTableModel) list.getModel();
       TableRowSorter<TableModel> sorter = (TableRowSorter<TableModel>) list.getRowSorter();
       if (world != null) {
         Player currentPlayer = minecraft.getPlayer();
         int playerX = (int) java.lang.Math.round(currentPlayer.getX());
         int playerY = (int) java.lang.Math.round(currentPlayer.getY());
         int playerZ = (int) java.lang.Math.round(currentPlayer.getZ());
         ArrayList<Block> blocks = new ArrayList<Block>();
         for (int x = playerX - radius; x < playerX + radius; x++)
           for (int y = playerY - radius; y < playerY + radius; y++)
             for (int z = playerZ - radius; z < playerZ + radius; z++)
               if (world.getBlockIDAt(x, y, z) == blockID) blocks.add(new Block(x, y, z));
         label:
         for (int row = 0; row < model.getRowCount(); row++) {
           int x = (Integer) model.getValueAt(row, 1);
           int y = (Integer) model.getValueAt(row, 2);
           int z = (Integer) model.getValueAt(row, 3);
           for (Block block : blocks) {
             if (x == block.getX() && y == block.getY() && z == block.getZ()) {
               model.setValueAt(getDistanceTo(x, y, z, currentPlayer), row, 0);
               continue label;
             }
           }
           model.removeRow(row);
         }
         label:
         for (Block block : blocks) {
           for (int row = 0; row < model.getRowCount(); row++) {
             int x = (Integer) model.getValueAt(row, 1);
             int y = (Integer) model.getValueAt(row, 2);
             int z = (Integer) model.getValueAt(row, 3);
             if (x == block.getX() && y == block.getY() && z == block.getZ()) continue label;
           }
           model.addRow(
               new Object[] {
                 getDistanceTo(block.getX(), block.getY(), block.getZ(), minecraft.getPlayer()),
                 block.getX(),
                 block.getY(),
                 block.getZ()
               });
         }
         sorter.sort();
         list.repaint();
       } else {
         for (int i = model.getRowCount() - 1; i >= 0; i--) model.removeRow(i);
       }
     } catch (Exception exception) {
     }
   }
   return 500;
 }
 private double getDistanceTo(double x, double y, double z, Player player) {
   double x2 = player.getX();
   double y2 = player.getY();
   double z2 = player.getZ();
   double xResult = java.lang.Math.pow(java.lang.Math.max(x, x2) - java.lang.Math.min(x, x2), 2);
   double yResult = java.lang.Math.pow(java.lang.Math.max(y, y2) - java.lang.Math.min(y, y2), 2);
   double zResult = java.lang.Math.pow(java.lang.Math.max(z, z2) - java.lang.Math.min(z, z2), 2);
   return java.lang.Math.sqrt(xResult + yResult + zResult);
 }
Beispiel #3
0
 /**
  * Pushes a new Construct onto the end of the array. If the index is specified, this works like a
  * "insert" operation, in that all values are shifted to the right, starting with the value at
  * that index. If the array is associative though, you MUST send null, otherwise an {@link
  * IllegalArgumentException} is thrown. Ideally, you should use {@link #set} anyways for an
  * associative array.
  *
  * @param c The Construct to add to the array
  * @throws IllegalArgumentException If index is not null, and this is an associative array.
  * @throws IndexOutOfBoundsException If the index is not null, and the index specified is out of
  *     range.
  */
 public void push(Construct c, Integer index)
     throws IllegalArgumentException, IndexOutOfBoundsException {
   if (!associative_mode) {
     if (index != null) {
       array.add(index, c);
     } else {
       array.add(c);
     }
     next_index++;
   } else {
     if (index != null) {
       throw new IllegalArgumentException("Cannot insert into an associative array");
     }
     int max = 0;
     for (String key : associative_array.keySet()) {
       try {
         int i = Integer.parseInt(key);
         max = java.lang.Math.max(max, i);
       } catch (NumberFormatException e) {
       }
     }
     if (c instanceof CEntry) {
       associative_array.put(Integer.toString(max + 1), ((CEntry) c).construct());
     } else {
       associative_array.put(Integer.toString(max + 1), c);
     }
   }
   if (c instanceof CArray) {
     ((CArray) c).parent = this;
   }
   regenValue(new HashSet<CArray>());
 }
Beispiel #4
0
 // 计算用户组权限
 public String parseRight(String s_right) {
   int i_Right, i_RightNum;
   String s_rtnRight;
   i_Right = 0;
   i_RightNum = Integer.parseInt(s_right);
   if (i_RightNum != 0) i_Right = i_Right + (int) java.lang.Math.pow(2, i_RightNum - 1);
   s_rtnRight = Integer.toString(i_Right);
   return s_rtnRight;
 }
Beispiel #5
0
 // 计算用户和菜单权限
 public String parseRight(String[] s_right) {
   int i_Right, i_RightNum;
   String s_rtnRight;
   i_Right = 0;
   for (int i = 0; i < s_right.length; i++) {
     i_RightNum = Integer.parseInt(s_right[i]);
     if (i_RightNum != 0) i_Right = i_Right + (int) java.lang.Math.pow(2, i_RightNum - 1);
   }
   s_rtnRight = Integer.toString(i_Right);
   return s_rtnRight;
 }
Beispiel #6
0
 public CArray(Target t, Construct... items) {
   super("{}", ConstructType.ARRAY, t);
   if (items != null) {
     for (Construct item : items) {
       if (item instanceof CEntry) {
         // it's an associative array
         associative_mode = true;
         break;
       }
     }
   }
   associative_array = new TreeMap<String, Construct>(comparator);
   array = new ArrayList<Construct>();
   if (associative_mode) {
     if (items != null) {
       for (Construct item : items) {
         if (item instanceof CEntry) {
           associative_array.put(
               normalizeConstruct(((CEntry) item).ckey), ((CEntry) item).construct);
         } else {
           int max = Integer.MIN_VALUE;
           for (String key : associative_array.keySet()) {
             try {
               int i = Integer.parseInt(key);
               max = java.lang.Math.max(max, i);
             } catch (NumberFormatException e) {
             }
           }
           if (max == Integer.MIN_VALUE) {
             max = -1; // Special case, there are no integer indexes in here yet.
           }
           associative_array.put(Integer.toString(max + 1), item);
           if (item instanceof CArray) {
             ((CArray) item).parent = this;
           }
         }
       }
     }
   } else {
     if (items != null) {
       for (Construct item : items) {
         array.add(item);
         if (item instanceof CArray) {
           ((CArray) item).parent = this;
         }
       }
     }
     this.next_index = array.size();
   }
   regenValue(new HashSet<CArray>());
 }
 private static int readInputStreamWithTimeout(InputStream is, byte[] b, int timeoutMillis)
     throws IOException {
   try {
     int bufferOffset = 0;
     long maxTimeMillis = System.currentTimeMillis() + timeoutMillis;
     while (System.currentTimeMillis() < maxTimeMillis && bufferOffset < b.length) {
       int readLength = java.lang.Math.min(is.available(), b.length - bufferOffset);
       int readResult = is.read(b, bufferOffset, readLength);
       if (readResult == -1) break;
       bufferOffset += readResult;
     }
     return bufferOffset;
   } catch (IOException ex) {
     Loggers.SERVER.error("Error reading stream. Stream closed: " + ex);
     return -1;
   }
 }
Beispiel #8
0
 /** calculate the difference between two basic emotions in Plutchik's theory */
 public static double offsetEmotion(
     PlutchikBasicEmotion e1, PlutchikBasicEmotion e2, double v1, double v2) {
   assert (e1 == PlutchikInverseBasicEmotion(e2));
   double val = java.lang.Math.abs(v1 - v2);
   return val;
 }
  // Here some legacy code makes use of generics. They are tested, so there
  // is no risk of an actual error, but Java issues a warning.
  @SuppressWarnings("unchecked")
  public DialogParameters(
      JFrame parent, Vector<ParameterDescription> vec, boolean strict, Vector<LayerDesc> layers) {
    super(parent, Globals.messages.getString("Param_opt"), true);

    keyb1 = new OSKeybPanel(KEYBMODES.GREEK);
    keyb2 = new OSKeybPanel(KEYBMODES.MISC);
    keyb1.setField(this);
    keyb2.setField(this);
    keyb.addTab("Greek", keyb1);
    keyb.addTab("Misc", keyb2);
    keyb.setVisible(false);
    v = vec;

    int ycount = 0;

    // We create dynamically all the needed elements.
    // For this reason, we work on arrays of the potentially useful Swing
    // objects.

    jtf = new JTextField[MAX_ELEMENTS];
    jcb = new JCheckBox[MAX_ELEMENTS];
    jco = new JComboBox[MAX_ELEMENTS];

    active = false;
    addComponentListener(this);

    GridBagLayout bgl = new GridBagLayout();
    GridBagConstraints constraints = new GridBagConstraints();
    Container contentPane = getContentPane();
    contentPane.setLayout(bgl);
    boolean extStrict = strict;

    ParameterDescription pd;

    int top = 0;

    JLabel lab;

    tc = 0;
    cc = 0;
    co = 0;

    // We process all parameter passed. Depending on its type, a
    // corresponding interface element will be created.
    // A symmetrical operation is done when validating parameters.

    for (ycount = 0; ycount < v.size(); ++ycount) {
      if (ycount > MAX) break;

      pd = (ParameterDescription) v.elementAt(ycount);

      // We do not need to store label objects, since we do not need
      // to retrieve data from them.

      lab = new JLabel(pd.description);
      constraints.weightx = 100;
      constraints.weighty = 100;
      constraints.gridx = 1;
      constraints.gridy = ycount;
      constraints.gridwidth = 1;
      constraints.gridheight = 1;

      // The first element needs a little bit more space at the top.
      if (ycount == 0) top = 10;
      else top = 0;

      // Here we configure the grid layout

      constraints.insets = new Insets(top, 20, 0, 6);

      constraints.fill = GridBagConstraints.VERTICAL;
      constraints.anchor = GridBagConstraints.EAST;
      lab.setEnabled(!(pd.isExtension && extStrict));

      if (!(pd.parameter instanceof Boolean)) contentPane.add(lab, constraints);

      constraints.anchor = GridBagConstraints.WEST;
      constraints.insets = new Insets(top, 0, 0, 0);
      constraints.fill = GridBagConstraints.HORIZONTAL;

      // Now, depending on the type of parameter we create interface
      // elements and we populate the dialog.

      if (pd.parameter instanceof PointG) {
        jtf[tc] = new JTextField(10);
        jtf[tc].setText("" + ((PointG) (pd.parameter)).x);
        constraints.weightx = 100;
        constraints.weighty = 100;
        constraints.gridx = 2;
        constraints.gridy = ycount;
        constraints.gridwidth = 1;
        constraints.gridheight = 1;
        // Disable FidoCadJ extensions in the strict compatibility mode
        jtf[tc].setEnabled(!(pd.isExtension && extStrict));

        contentPane.add(jtf[tc++], constraints);

        jtf[tc] = new JTextField(10);
        jtf[tc].setText("" + ((PointG) (pd.parameter)).y);
        constraints.weightx = 100;
        constraints.weighty = 100;
        constraints.gridx = 3;
        constraints.gridy = ycount;
        constraints.gridwidth = 1;
        constraints.gridheight = 1;
        constraints.insets = new Insets(top, 6, 0, 20);
        constraints.fill = GridBagConstraints.HORIZONTAL;
        jtf[tc].setEnabled(!(pd.isExtension && extStrict));
        contentPane.add(jtf[tc++], constraints);
      } else if (pd.parameter instanceof String) {
        jtf[tc] = new JTextField(24);
        jtf[tc].setText((String) (pd.parameter));
        // If we have a String text field in the first position, its
        // contents should be evidenced, since it is supposed to be
        // the most important field (e.g. for the AdvText primitive)
        if (ycount == 0) jtf[tc].selectAll();
        constraints.weightx = 100;
        constraints.weighty = 100;
        constraints.gridx = 2;
        constraints.gridy = ycount;
        constraints.gridwidth = 2;
        constraints.gridheight = 1;
        constraints.insets = new Insets(top, 0, 0, 20);
        constraints.fill = GridBagConstraints.HORIZONTAL;
        jtf[tc].setEnabled(!(pd.isExtension && extStrict));

        contentPane.add(jtf[tc++], constraints);

      } else if (pd.parameter instanceof Boolean) {
        jcb[cc] = new JCheckBox(pd.description);
        jcb[cc].setSelected(((Boolean) (pd.parameter)).booleanValue());
        constraints.weightx = 100;
        constraints.weighty = 100;
        constraints.gridx = 2;
        constraints.gridy = ycount;
        constraints.gridwidth = 2;
        constraints.gridheight = 1;
        constraints.insets = new Insets(top, 0, 0, 20);
        constraints.fill = GridBagConstraints.HORIZONTAL;
        jcb[cc].setEnabled(!(pd.isExtension && extStrict));
        contentPane.add(jcb[cc++], constraints);
      } else if (pd.parameter instanceof Integer) {
        jtf[tc] = new JTextField(24);
        jtf[tc].setText(((Integer) pd.parameter).toString());
        constraints.weightx = 100;
        constraints.weighty = 100;
        constraints.gridx = 2;
        constraints.gridy = ycount;
        constraints.gridwidth = 2;
        constraints.gridheight = 1;
        constraints.insets = new Insets(top, 0, 0, 20);
        constraints.fill = GridBagConstraints.HORIZONTAL;
        jtf[tc].setEnabled(!(pd.isExtension && extStrict));
        contentPane.add(jtf[tc++], constraints);
      } else if (pd.parameter instanceof Float) {
        // TODO.
        // WARNING: (DB) this is supposed to be temporary. In fact, I
        // am planning to upgrade some of the parameters from int
        // to float. But for a few months, the users should not be
        // aware of that, even if the internal representation is
        // slowing being adapted.
        jtf[tc] = new JTextField(24);
        int dummy = java.lang.Math.round((Float) pd.parameter);
        jtf[tc].setText("" + dummy);
        constraints.weightx = 100;
        constraints.weighty = 100;
        constraints.gridx = 2;
        constraints.gridy = ycount;
        constraints.gridwidth = 2;
        constraints.gridheight = 1;
        constraints.insets = new Insets(top, 0, 0, 20);
        constraints.fill = GridBagConstraints.HORIZONTAL;
        jtf[tc].setEnabled(!(pd.isExtension && extStrict));
        contentPane.add(jtf[tc++], constraints);
      } else if (pd.parameter instanceof FontG) {
        GraphicsEnvironment gE;
        gE = GraphicsEnvironment.getLocalGraphicsEnvironment();
        String[] s = gE.getAvailableFontFamilyNames();
        jco[co] = new JComboBox();

        for (int i = 0; i < s.length; ++i) {
          jco[co].addItem(s[i]);
          if (s[i].equals(((FontG) pd.parameter).getFamily())) jco[co].setSelectedIndex(i);
        }
        constraints.weightx = 100;
        constraints.weighty = 100;
        constraints.gridx = 2;
        constraints.gridy = ycount;
        constraints.gridwidth = 2;
        constraints.gridheight = 1;
        constraints.insets = new Insets(top, 0, 0, 20);
        constraints.fill = GridBagConstraints.HORIZONTAL;
        jco[co].setEnabled(!(pd.isExtension && extStrict));
        contentPane.add(jco[co++], constraints);
      } else if (pd.parameter instanceof LayerInfo) {
        jco[co] = new JComboBox(new Vector<LayerDesc>(layers));
        jco[co].setSelectedIndex(((LayerInfo) pd.parameter).layer);
        jco[co].setRenderer(new LayerCellRenderer());

        constraints.weightx = 100;
        constraints.weighty = 100;
        constraints.gridx = 2;
        constraints.gridy = ycount;
        constraints.gridwidth = 2;
        constraints.gridheight = 1;
        constraints.insets = new Insets(top, 0, 0, 20);
        constraints.fill = GridBagConstraints.HORIZONTAL;
        jco[co].setEnabled(!(pd.isExtension && extStrict));
        contentPane.add(jco[co++], constraints);

      } else if (pd.parameter instanceof ArrowInfo) {
        jco[co] = new JComboBox<ArrowInfo>();
        jco[co].addItem(new ArrowInfo(0));
        jco[co].addItem(new ArrowInfo(1));
        jco[co].addItem(new ArrowInfo(2));
        jco[co].addItem(new ArrowInfo(3));

        jco[co].setSelectedIndex(((ArrowInfo) pd.parameter).style);
        jco[co].setRenderer(new ArrowCellRenderer());

        constraints.weightx = 100;
        constraints.weighty = 100;
        constraints.gridx = 2;
        constraints.gridy = ycount;
        constraints.gridwidth = 2;
        constraints.gridheight = 1;
        constraints.insets = new Insets(top, 0, 0, 20);
        constraints.fill = GridBagConstraints.HORIZONTAL;
        jco[co].setEnabled(!(pd.isExtension && extStrict));
        contentPane.add(jco[co++], constraints);

      } else if (pd.parameter instanceof DashInfo) {

        jco[co] = new JComboBox<DashInfo>();

        for (int k = 0; k < Globals.dashNumber; ++k) {
          jco[co].addItem(new DashInfo(k));
        }

        jco[co].setSelectedIndex(((DashInfo) pd.parameter).style);
        jco[co].setRenderer(new DashCellRenderer());

        constraints.weightx = 100;
        constraints.weighty = 100;
        constraints.gridx = 2;
        constraints.gridy = ycount;
        constraints.gridwidth = 2;
        constraints.gridheight = 1;
        constraints.insets = new Insets(top, 0, 0, 20);
        constraints.fill = GridBagConstraints.HORIZONTAL;
        jco[co].setEnabled(!(pd.isExtension && extStrict));
        contentPane.add(jco[co++], constraints);
      }
    }
    // Put the OK and Cancel buttons and make them active.
    JButton ok = new JButton(Globals.messages.getString("Ok_btn"));
    JButton cancel = new JButton(Globals.messages.getString("Cancel_btn"));
    JButton keybd = new JButton("\u00B6\u2211\u221A"); // phylum
    keybd.setFocusable(false);
    keybd.addActionListener(
        new ActionListener() {
          public void actionPerformed(ActionEvent e) {
            // If at this point, the keyboard is not visible, this means
            // that it will become visible in a while. It is better to
            // resize first and then show up the keyboard.
            if (keyb.isVisible()) {
              MIN_WIDTH = 400;
              MIN_HEIGHT = 350;
            } else {
              MIN_WIDTH = 400;
              MIN_HEIGHT = 500;
            }
            // setSize(MIN_WIDTH, MIN_HEIGHT);
            keyb.setVisible(!keyb.isVisible());
            pack();
          }
        });

    constraints.gridx = 0;
    constraints.gridy = ycount++;
    constraints.gridwidth = 4;
    constraints.gridheight = 1;
    constraints.anchor = GridBagConstraints.EAST;
    constraints.insets = new Insets(6, 20, 20, 20);

    // Put the OK and Cancel buttons and make them active.
    Box b = Box.createHorizontalBox();
    b.add(keybd); // phylum

    b.add(Box.createHorizontalGlue());
    ok.setPreferredSize(cancel.getPreferredSize());

    if (Globals.okCancelWinOrder) {
      b.add(ok);
      b.add(Box.createHorizontalStrut(12));
      b.add(cancel);

    } else {
      b.add(cancel);
      b.add(Box.createHorizontalStrut(12));
      b.add(ok);
    }
    // b.add(Box.createHorizontalStrut(12));
    contentPane.add(b, constraints);

    constraints.gridx = 0;
    constraints.gridy = ycount;
    constraints.gridwidth = 4;
    constraints.gridheight = 1;
    constraints.anchor = GridBagConstraints.EAST;
    constraints.insets = new Insets(6, 20, 20, 20);

    contentPane.add(keyb, constraints);

    ok.addActionListener(
        new ActionListener() {
          public void actionPerformed(ActionEvent evt) {
            try {
              int ycount;
              ParameterDescription pd;
              tc = 0;
              cc = 0;
              co = 0;

              // Here we read all the contents of the interface and we
              // update the contents of the parameter description array.

              for (ycount = 0; ycount < v.size(); ++ycount) {
                if (ycount > MAX) break;
                pd = (ParameterDescription) v.elementAt(ycount);

                if (pd.parameter instanceof PointG) {
                  ((PointG) (pd.parameter)).x = Integer.parseInt(jtf[tc++].getText());
                  ((PointG) (pd.parameter)).y = Integer.parseInt(jtf[tc++].getText());
                } else if (pd.parameter instanceof String) {
                  pd.parameter = jtf[tc++].getText();
                } else if (pd.parameter instanceof Boolean) {
                  pd.parameter = Boolean.valueOf(jcb[cc++].isSelected());
                } else if (pd.parameter instanceof Integer) {
                  pd.parameter = Integer.valueOf(Integer.parseInt(jtf[tc++].getText()));
                } else if (pd.parameter instanceof Float) {
                  pd.parameter = Float.valueOf(Float.parseFloat(jtf[tc++].getText()));
                } else if (pd.parameter instanceof FontG) {
                  pd.parameter = new FontG((String) jco[co++].getSelectedItem());
                } else if (pd.parameter instanceof LayerInfo) {
                  pd.parameter = new LayerInfo(jco[co++].getSelectedIndex());
                } else if (pd.parameter instanceof ArrowInfo) {
                  pd.parameter = new ArrowInfo(jco[co++].getSelectedIndex());
                } else if (pd.parameter instanceof DashInfo) {
                  pd.parameter = new DashInfo(jco[co++].getSelectedIndex());
                }
              }
            } catch (NumberFormatException E) {
              // Error detected. Probably, the user has entered an
              // invalid string when FidoCadJ was expecting a numerical
              // input.

              JOptionPane.showMessageDialog(
                  null,
                  Globals.messages.getString("Format_invalid"),
                  "",
                  JOptionPane.INFORMATION_MESSAGE);
              return;
            }

            active = true;
            // Globals.activeWindow.setEnabled(true);
            setVisible(false);
            keyb.setVisible(false);
          }
        });
    cancel.addActionListener(
        new ActionListener() {
          public void actionPerformed(ActionEvent evt) {
            // Globals.activeWindow.setEnabled(true);
            setVisible(false);
            keyb.setVisible(false);
          }
        });
    // Here is an action in which the dialog is closed

    AbstractAction cancelAction =
        new AbstractAction() {
          public void actionPerformed(ActionEvent e) {
            // Globals.activeWindow.setEnabled(true);
            setVisible(false);
            keyb.setVisible(false);
          }
        };
    DialogUtil.addCancelEscape(this, cancelAction);

    this.addWindowListener(
        new WindowAdapter() {
          public void windowClosing(WindowEvent e) {
            // Globals.activeWindow.setEnabled(true);
            keyb.setVisible(false);
          }
        });

    pack();
    DialogUtil.center(this);
    getRootPane().setDefaultButton(ok);
  }