/**
* <code>getLinkPointFromPoint</code> Return a point on the edge of or inside the ellipse,
* rectangle, or diamond rather than a point on the port itself
*
* @param x - <code>int</code> -
* @param y - <code>int</code> -
* @param p - <code>Point</code> -
* @return - <code>Point</code> -
*/
public Point getLinkPointFromPoint(int x, int y, Point p) {
BasicNode node = getNode();
JGoDrawable obj = node.getDrawable();
Rectangle rect = obj.getBoundingRect();
int a = rect.width / 2;
int b = rect.height / 2;
int cx = getLeft() + getWidth() / 2;
int cy = getTop() + getHeight() / 2;
if (p == null) {
p = new Point();
}
p.x = x;
p.y = y;
// if (x,y) is inside the object, just return it instead of finding the edge intersection
if (!obj.isPointInObj(p)) {
if (node.isRectangular()) {
JGoRectangle.getNearestIntersectionPoint(
rect.x, rect.y, rect.width, rect.height, x, y, cx, cy, p);
}
if (node instanceof ConstraintNode) {
((Diamond) ((ConstraintNode) node).getDrawable())
.getNearestIntersectionPoint(x, y, cx, cy, p);
} else if (node instanceof ParamNode) {
((Diamond) ((ParamNode) node).getDrawable()).getNearestIntersectionPoint(x, y, cx, cy, p);
} else {
JGoEllipse.getNearestIntersectionPoint(rect.x, rect.y, rect.width, rect.height, x, y, p);
}
}
return p;
} // end getLinkPointFromPoint
public void mousePressed(java.awt.event.MouseEvent e) {
if (e.isPopupTrigger()) {
doPopup(e);
return;
}
if (!org.nlogo.awt.Mouse.hasButton1(e)) {
return;
}
// this is so the user can use action keys to control buttons
// - ST 8/6/04,8/31/04
this.requestFocus();
java.awt.Point p = e.getPoint();
java.awt.Rectangle rect = this.getBounds();
p.x += rect.x;
p.y += rect.y;
if (!rect.contains(p)) {
return;
}
unselectWidgets();
startDragPoint = e.getPoint();
if (widgetCreator == null) {
return;
}
Widget widget = widgetCreator.getWidget();
if (widget == null) {
return;
}
addWidget(widget, e.getX(), e.getY(), true, false);
revalidate();
}
public void displayInit(Point pickPoint) {
gl.glShadeModel(GL.GL_SMOOTH);
gl.glClear(GL.GL_COLOR_BUFFER_BIT | GL.GL_DEPTH_BUFFER_BIT);
gl.glMatrixMode(GL.GL_PROJECTION);
gl.glLoadIdentity();
if (pickPoint != null) {
int[] vp = new int[4];
gl.glGetIntegerv(GL.GL_VIEWPORT, vp, 0);
GLU glu = new GLU();
int px = (int) pickPoint.getX();
int py = (int) (vp[3] - pickPoint.getY());
glu.gluPickMatrix(px, py, 1e-2, 1e-2, vp, 0);
}
gl.glOrtho(0, bounds.getWidth(), 0, bounds.getHeight(), .1, depth);
gl.glMatrixMode(GL.GL_MODELVIEW);
gl.glLoadIdentity();
glu.gluLookAt(0, 0, depth - 0.1, 0, 0, 0, 0, 1, 0);
gl.glInitNames();
gl.glPushName(-1);
}
public boolean mouseOnButton(MouseEvent event) {
Point pt = event.getPoint();
if (pt.getX() >= button.getX() && pt.getX() <= button.getX() + button.getWidth()) {
return true;
}
return false;
}
private void drawTextToImage() {
Graphics g = image.getGraphics();
g.setFont(textFont);
g.setColor(getMainFrame().getColorBoxForeground());
g.drawString(text, (int) (start.getX() / scale), (int) (start.getY() / scale));
repaint();
}
Point pack(int s) {
if (s > w) return null;
Point ret = new Point(0, 0);
for (int y = 0; y < arr.size() - s + 1; y++) {
for (int x = 0; x < w - s + 1; x++) {
boolean fits = true;
packLoop:
for (int i = 0; i < s; i++) {
for (int j = 0; j < s; j++) {
if (arr.get(y + i)[x + j]) {
fits = false;
break packLoop;
}
}
}
if (fits) {
for (int i = 0; i < s; i++) {
for (int j = 0; j < s; j++) {
arr.get(y + i)[x + j] = true;
}
}
ret.x = x;
ret.y = y;
return ret;
}
}
}
int asize = arr.size() + 2;
for (int i = 0; i < asize; i++) arr.add(new boolean[w]);
return pack(s);
}
/**
* putWordInSlot()
*
* <p>Puts each letter from the word it's passed into the slot it's passed, and marks the word
* USED. Also increments the positions in the letterUsage array corresponding to the slot to
* indicate that one more word is now using these letters.
*/
private void putWordInSlot(CrosswordWord w, CrosswordSpace slot) {
Point position = new Point(slot.getStart());
for (int i = 0; i < slot.getLength(); i++) {
// Put each letter from the word into this slot of
// the puzzle:
puzzle[position.x][position.y] = w.getWord().charAt(i);
// Record the fact that one more word is now using the
// letter at this position:
letterUsage[position.x][position.y]++;
// Advance to the next position in the slot:
position.x += slot.getDirection().x;
position.y += slot.getDirection().y;
}
// Mark the word as USED:
w.setUsed(true);
}
public static Point CenterPoint(Dimension size) {
Point loc_p = new Point();
loc_p.setLocation(size.getWidth() / 2, size.getHeight() / 2);
return loc_p;
}
/**
* Determines which cell in the layout grid contains the point specified by <code>(x, y)
* </code>. Each cell is identified by its column index (ranging from 0 to the number of columns
* minus 1) and its row index (ranging from 0 to the number of rows minus 1).
*
* <p>If the <code>(x, y)</code> point lies outside the grid, the following rules are used.
* The column index is returned as zero if <code>x</code> lies to the left of the layout for a
* left-to-right container or to the right of the layout for a right-to-left container. The column
* index is returned as the number of columns if <code>x</code> lies to the right of the layout in
* a left-to-right container or to the left in a right-to-left container. The row index is
* returned as zero if <code>y</code> lies above the layout, and as the number of rows if <code>y
* </code> lies below the layout. The orientation of a container is determined by its <code>
* ComponentOrientation</code> property.
*
* @param x the <i>x</i> coordinate of a point
* @param y the <i>y</i> coordinate of a point
* @return an ordered pair of indexes that indicate which cell in the layout grid contains the
* point (<i>x</i>, <i>y</i>).
* @see java.awt.ComponentOrientation
* @since JDK1.1
*/
public Point location(int x, int y) {
Point loc = new Point(0, 0);
int i, d;
if (layoutInfo == null) return loc;
d = layoutInfo.startx;
if (!rightToLeft) {
for (i = 0; i < layoutInfo.width; i++) {
d += layoutInfo.minWidth[i];
if (d > x) break;
}
} else {
for (i = layoutInfo.width - 1; i >= 0; i--) {
if (d > x) break;
d += layoutInfo.minWidth[i];
}
i++;
}
loc.x = i;
d = layoutInfo.starty;
for (i = 0; i < layoutInfo.height; i++) {
d += layoutInfo.minHeight[i];
if (d > y) break;
}
loc.y = i;
return loc;
}
/**
* Function move moves head of the snake in given direction. Direction and size of of map must be
* provided
*
* @param direct directions of next move
* @param mapSize size of game board
* @return true-move was made, false-move cannot be made
*/
public boolean move(Directions direct, int mapSize) {
ListIterator<Point> it = this.body.listIterator();
Point tmp = it.next();
switch (direct) {
case UP:
if (tmp.getY() != 0) {
this.moveUp();
return true;
} else return false;
case DOWN:
if (tmp.getY() != mapSize - 1) {
moveDown();
return true;
} else return false;
case RIGHT:
if (tmp.getX() != mapSize - 1) {
moveRight();
return true;
} else return false;
case LEFT:
if (tmp.getX() != 0) {
moveLeft();
return true;
} else return false;
default:
return false;
}
}
/**
* Spusti se pri zmacknuti tlacitka. Pokud je pod mysi obraz figury, zjisti, zda se muze pohnout
* (pokud ano, upravi ho pro tahnuti, nastavi ho do figLabel) a zobrazi kontextovou napovedu.
*/
private void eCatcherMousePressed(
java.awt.event.MouseEvent evt) { // GEN-FIRST:event_eCatcherMousePressed
if (figLabel != null || finished) {
return;
}
BoardSquare bsquare = (BoardSquare) eCatcher.getComponentAt(evt.getPoint());
JPanel fsquare = (JPanel) figurePan.getComponent(bsquare.getIndex());
sourceBSquare = bsquare;
Point defLocation = fsquare.getLocation();
xAdjustment = (int) defLocation.getX() - evt.getX();
yAdjustment = (int) defLocation.getY() - evt.getY();
if (fsquare.getComponentCount() == 0) {
return;
}
figLabel = (JLabel) fsquare.getComponent(0);
setFocus(gui.getFocus(bsquare.getColumn(), bsquare.getRow()));
if (!gui.canMove(bsquare.getColumn(), bsquare.getRow())) {
figLabel = null;
return;
}
fsquare.remove(figLabel);
boardPane.add(figLabel, 0);
figLabel.setLocation(evt.getX() + xAdjustment, evt.getY() + yAdjustment);
figLabel.setSize(figLabel.getWidth(), figLabel.getHeight());
} // GEN-LAST:event_eCatcherMousePressed
@Override
public void mouseClicked(java.awt.event.MouseEvent e) {
Point cellLocation = this.mGrid.getCells()[0][0].getLocation();
int mouseX = e.getX() - (int) cellLocation.getX();
int mouseY = e.getY() - (int) cellLocation.getY();
this.mGrid.getCells()[mouseX / 12][mouseY / 12].setState(this.mCellTemp.getState());
if (this.mGrid.getCells()[mouseX / 12][mouseY / 12].getState() == 0) {
this.mGrid.getCells()[mouseX / 12][mouseY / 12].setBackground(Color.white);
this.mGrid.getCells()[mouseX / 12][mouseY / 12].repaint();
} else if (this.mGrid.getCells()[mouseX / 12][mouseY / 12].getState() == 1) {
this.mGrid.getCells()[mouseX / 12][mouseY / 12].setBackground(Color.decode("#92d050"));
this.mGrid.getCells()[mouseX / 12][mouseY / 12].repaint();
} else if (this.mGrid.getCells()[mouseX / 12][mouseY / 12].getState() == 2) {
this.mGrid.getCells()[mouseX / 12][mouseY / 12].setBackground(Color.decode("#339933"));
this.mGrid.getCells()[mouseX / 12][mouseY / 12].repaint();
} else if (this.mGrid.getCells()[mouseX / 12][mouseY / 12].getState() == 4) {
this.mGrid.getCells()[mouseX / 12][mouseY / 12].setBackground(Color.decode("#004800"));
this.mGrid.getCells()[mouseX / 12][mouseY / 12].repaint();
} else if (this.mGrid.getCells()[mouseX / 12][mouseY / 12].getState() == 5) {
this.mGrid.getCells()[mouseX / 12][mouseY / 12].setBackground(Color.decode("#ff0000"));
this.mGrid.getCells()[mouseX / 12][mouseY / 12].repaint();
} else if (this.mGrid.getCells()[mouseX / 12][mouseY / 12].getState() == 7) {
this.mGrid.getCells()[mouseX / 12][mouseY / 12].setBackground(Color.decode("#7030a0"));
this.mGrid.getCells()[mouseX / 12][mouseY / 12].repaint();
}
}
/**
* Calculates location of caret and displays the suggestion popup at the location.
*
* @param listModel
* @param subWord
*/
protected void showSuggestion(DefaultListModel<CompletionCandidate> listModel, String subWord) {
// new Exception(System.currentTimeMillis() + "").printStackTrace(System.out);
hideSuggestion();
if (listModel.size() == 0) {
Messages.log("TextArea: No suggestions to show.");
} else {
int position = getCaretPosition();
Point location = new Point();
try {
location.x = offsetToX(getCaretLine(), position - getLineStartOffset(getCaretLine()));
location.y =
lineToY(getCaretLine())
+ getPainter().getFontMetrics().getHeight()
+ getPainter().getFontMetrics().getDescent();
// log("TA position: " + location);
} catch (Exception e2) {
e2.printStackTrace();
return;
}
suggestion = new CompletionPanel(this, position, subWord, listModel, location, editor);
requestFocusInWindow();
}
}
protected void applyOffsetAmount(Point p1, Point p2, int offset, Point res) {
// slope of the line we're finding the normal to
// is slope, and the normal is the negative reciprocal
// slope is (p1.y - p2.y) / (p1.x - p2.x)
// so recip is - (p1.x - p2.x) / (p1.y - p2.y)
int recipnumerator = (p1.x - p2.x) * -1;
int recipdenominator = (p1.y - p2.y);
if (recipdenominator == 0 && recipnumerator == 0) return;
// find the point offset on the line that gives a
// correct offset
double len = Math.sqrt(recipnumerator * recipnumerator + recipdenominator * recipdenominator);
int dx = (int) ((recipdenominator * offset) / len);
int dy = (int) ((recipnumerator * offset) / len);
res.x += Math.abs(dx);
res.y -= Math.abs(dy);
int width = itemFig.getWidth() / 2;
if (recipnumerator != 0) {
double slope = (double) recipdenominator / (double) recipnumerator;
double factor = tanh(slope);
res.x += (Math.abs(factor) * width);
} else {
res.x += width;
}
}
private void showSliderMenu() {
Point location = new Point(getX(), getY() + getHeight());
SwingUtilities.convertPointToScreen(location, InputVolumeControlButton.this.getParent());
if (isFullScreen()) {
location.setLocation(
location.getX(),
location.getY() - sliderMenu.getPreferredSize().getHeight() - getHeight());
}
sliderMenu.setLocation(location);
sliderMenu.addPopupMenuListener(
new PopupMenuListener() {
public void popupMenuWillBecomeVisible(PopupMenuEvent ev) {
sliderMenuIsVisible = true;
}
public void popupMenuWillBecomeInvisible(PopupMenuEvent ev) {
sliderMenuIsVisible = false;
}
public void popupMenuCanceled(PopupMenuEvent ev) {}
});
sliderMenu.setVisible(!sliderMenu.isVisible());
}
private void showJPopupMenu(MouseEvent e) {
try {
if (e.isPopupTrigger() && menu != null) {
if (window == null) {
if (isWindows) {
window = new JDialog((Frame) null);
((JDialog) window).setUndecorated(true);
} else {
window = new JWindow((Frame) null);
}
window.setAlwaysOnTop(true);
Dimension size = menu.getPreferredSize();
Point centerPoint = GraphicsEnvironment.getLocalGraphicsEnvironment().getCenterPoint();
if (e.getY() > centerPoint.getY()) window.setLocation(e.getX(), e.getY() - size.height);
else window.setLocation(e.getX(), e.getY());
window.setVisible(true);
menu.show(((RootPaneContainer) window).getContentPane(), 0, 0);
// popup works only for focused windows
window.toFront();
}
}
} catch (Exception ignored) {
}
}
/**
* Changes the frame's location to a more central screen location
*
* @param frame the frame to be moved
* @param X how far right to move the frame
* @param Y how far down to move the frame
*/
public static void changeFrameLocation(Component frame, int X, int Y) {
Point location = frame.getLocation(); // the window's current location
// move the window over and down a certain amount of pixels
location.translate(X, Y);
// set the location
frame.setLocation(location);
}
/**
* Updates the position and size of the edit panel relative to the given location.
*
* @param loc the location the edit panel should be relative to
* @param absolute if {@code true} the loc is treated as absolute position on the process
* renderer; if {@code false} it is treated as relative to the current process
*/
private void updateEditPanelPosition(final Rectangle2D loc, final boolean absolute) {
int panelX = (int) loc.getCenterX() - EDIT_PANEL_WIDTH / 2;
int panelY = (int) loc.getY() - EDIT_PANEL_HEIGHT - ProcessDrawer.PADDING;
// if panel would be outside process renderer, fix it
if (panelX < WorkflowAnnotation.MIN_X) {
panelX = WorkflowAnnotation.MIN_X;
}
if (panelY < 0) {
panelY = (int) loc.getMaxY() + ProcessDrawer.PADDING;
}
// last fallback is cramped to the bottom. If that does not fit either, don't care
if (panelY + EDIT_PANEL_HEIGHT > view.getSize().getHeight() - ProcessDrawer.PADDING * 2) {
panelY = (int) loc.getMaxY();
}
int index = view.getModel().getProcessIndex(model.getSelected().getProcess());
if (absolute) {
editPanel.setBounds(panelX, panelY, EDIT_PANEL_WIDTH, EDIT_PANEL_HEIGHT);
} else {
Point absoluteP =
ProcessDrawUtils.convertToAbsoluteProcessPoint(
new Point(panelX, panelY), index, rendererModel);
editPanel.setBounds(
(int) absoluteP.getX(), (int) absoluteP.getY(), EDIT_PANEL_WIDTH, EDIT_PANEL_HEIGHT);
}
}
public TabSpawnable spawn() {
JFrame f = new JFrame();
f.getContentPane().setLayout(new BorderLayout());
f.setTitle(_title);
TabSpawnable newPanel = (TabSpawnable) clone();
if (newPanel == null) return null; // failed to clone
newPanel.setTitle(_title);
if (newPanel instanceof TabToDoTarget) {
TabToDoTarget me = (TabToDoTarget) this;
TabToDoTarget it = (TabToDoTarget) newPanel;
it.setTarget(me.getTarget());
} else if (newPanel instanceof TabModelTarget) {
TabModelTarget me = (TabModelTarget) this;
TabModelTarget it = (TabModelTarget) newPanel;
it.setTarget(me.getTarget());
}
f.getContentPane().add(newPanel, BorderLayout.CENTER);
Rectangle bounds = getBounds();
bounds.height += OVERLAPP * 2;
f.setBounds(bounds);
Point loc = new Point(0, 0);
SwingUtilities.convertPointToScreen(loc, this);
loc.y -= OVERLAPP;
f.setLocation(loc);
f.setVisible(true);
if (_tear && (getParent() instanceof JTabbedPane)) ((JTabbedPane) getParent()).remove(this);
return newPanel;
}
/** make new shape polygon */
private void reMakePolygonShape() {
ConvexHull convexHull;
List<Point> newPoints = new ArrayList<Point>();
for (int j = 0; j < polygon.npoints; j++) {
if (mainClusterShape.contains(polygon.xpoints[j], polygon.ypoints[j])) {
newPoints.add(new Point(polygon.xpoints[j], polygon.ypoints[j]));
}
}
for (Point2D point2D : getIntersectPoint()) {
newPoints.add(new Point((int) point2D.getX(), (int) point2D.getY()));
}
for (int i = 0; i < mainClusterShape.npoints; i++) {
if (polygon.contains(mainClusterShape.xpoints[i], mainClusterShape.ypoints[i])) {
Point point = new Point(mainClusterShape.xpoints[i], mainClusterShape.ypoints[i]);
newPoints.add(point);
}
}
convexHull = new ConvexHull();
for (Point point : newPoints) {
convexHull.addPoint((int) point.getX(), (int) point.getY());
}
setPolygon(convexHull.convex());
newPoints.clear();
}
/**
* removeWordFromSlot()
*
* <p>Clears each position in the slot it's passed, but ONLY those positions containing letters
* NOT used by any other words according to the letterUsage array. Also marks the word that used
* to be in the slot as UNUSED.
*/
private void removeWordFromSlot(CrosswordWord w, CrosswordSpace slot) {
Point position = new Point(slot.getStart());
for (int i = 0; i < slot.getLength(); i++) {
// One fewer word is now using the letter at this position:
letterUsage[position.x][position.y]--;
// If no words are now using this letter, clear it:
if (letterUsage[position.x][position.y] == 0) {
puzzle[position.x][position.y] = BLANK;
}
// Advance to the next position in the slot:
position.x += slot.getDirection().x;
position.y += slot.getDirection().y;
}
// Mark the word as UNUSED -- ie., available to be placed
// elsewhere in the puzzle:
w.setUsed(false);
}
/** Allows the user to edit all the parameters of an ABug by typing into the console */
public void edit() {
System.out.println("Name: ");
try {
name = bufferedReader.readLine();
} catch (IOException e) {
e.printStackTrace();
}
System.out.println("Energy: ");
energy = InputHelper.readInteger(bufferedReader);
System.out.println("Symbol: ");
try {
try {
symbol = bufferedReader.readLine().charAt(0);
} catch (IOException e) {
e.printStackTrace();
}
} catch (IndexOutOfBoundsException ex) {
}
position = new Point();
System.out.println("X Position: ");
position.x = InputHelper.readInteger(bufferedReader);
System.out.println("Y Position: ");
position.y = InputHelper.readInteger(bufferedReader);
System.out.println("Sensing Distance: ");
maxSensingDistance = InputHelper.readInteger(bufferedReader);
}
public void mergePastedImage() {
if (pastedImage != null) {
Graphics g = image.getGraphics();
g.drawImage(pastedImage, (int) (start.getX() / scale), (int) (start.getY() / scale), this);
repaint();
}
}
/*
* This method is called every time:
* - to make sure the viewport is returned to its default position
* - to remove the horizontal scrollbar when it is not wanted
*/
private void checkHorizontalScrollBar(BasicComboPopup popup) {
// Reset the viewport to the left
JViewport viewport = scrollPane.getViewport();
Point p = viewport.getViewPosition();
p.x = 0;
viewport.setViewPosition(p);
// Remove the scrollbar so it is never painted
if (!scrollBarRequired) {
scrollPane.setHorizontalScrollBar(null);
return;
}
// Make sure a horizontal scrollbar exists in the scrollpane
JScrollBar horizontal = scrollPane.getHorizontalScrollBar();
if (horizontal == null) {
horizontal = new JScrollBar(JScrollBar.HORIZONTAL);
scrollPane.setHorizontalScrollBar(horizontal);
scrollPane.setHorizontalScrollBarPolicy(JScrollPane.HORIZONTAL_SCROLLBAR_AS_NEEDED);
}
// Potentially increase height of scroll pane to display the scrollbar
if (horizontalScrollBarWillBeVisible(popup, scrollPane)) {
Dimension scrollPaneSize = scrollPane.getPreferredSize();
scrollPaneSize.height += horizontal.getPreferredSize().height;
scrollPane.setPreferredSize(scrollPaneSize);
scrollPane.setMaximumSize(scrollPaneSize);
scrollPane.revalidate();
}
}
public UserInfoDialog(Frame parent) {
super(parent, "Input", true);
setLayout(null);
l.setFont(default_font);
l.setSize(50, 30);
l.setLocation(30, 50);
name.setFont(default_font);
name.setSize(150, 30);
name.setLocation(90, 50);
// name.selectAll();
ok.setFont(default_font);
ok.setSize(50, 30);
ok.setLocation(30, 90);
add(l);
add(name);
add(ok);
ok.addActionListener(this);
setSize(300, 150);
Point my_loc = parent.getLocation();
my_loc.x += 50;
my_loc.y += 150;
setLocation(my_loc);
show();
}
@Override
public void mouseDragged(MouseEvent e) {
Canvas c = context.getTabbedPaneController().getCurrentTabContent();
SelectionModel selectionModel = c.getSelectionModel();
if (!selectionModel.prepareForMove()) {
moved = false;
return;
}
Point thisCoord = e.getPoint();
int dx = thisCoord.x - previousPosition.x;
int dy = thisCoord.y - previousPosition.y;
if (selectionRec == null) {
selectionRec = selectionModel.getSelectionBounds();
}
selectionRec.setRect(
selectionRec.getX() + dx,
selectionRec.getY() + dy,
selectionRec.getWidth(),
selectionRec.getHeight());
c.setSelectionRectangleBounds(
selectionRec.getX(),
selectionRec.getY(),
selectionRec.getWidth(),
selectionRec.getHeight());
c.setShowSelectionRectangle(true);
c.repaint();
previousPosition = (Point) thisCoord.clone();
moved = true;
}
public void mouseReleased(java.awt.event.MouseEvent e) {
if (e.isPopupTrigger()) {
doPopup(e);
return;
}
if (org.nlogo.awt.Mouse.hasButton1(e)) {
java.awt.Point p = e.getPoint();
java.awt.Rectangle rect = this.getBounds();
p.x += rect.x;
p.y += rect.y;
selectionRect = null;
glassPane.setVisible(false);
if (newWidget != null) {
newWidget.selected(true);
newWidget.foreground();
newWidget.isNew(true);
new org.nlogo.window.Events.EditWidgetEvent(null).raise(this);
newWidget.setCursor(java.awt.Cursor.getPredefinedCursor(java.awt.Cursor.DEFAULT_CURSOR));
newWidget.isNew(false);
newWidget = null;
}
}
}
/** Sets the location for predicted pentomino */
public void predictDrop() {
predictedLocation = (Point) pentominoLocation.clone();
while (nextDropLegal(activePentomino, gameBoard.getBoard(), predictedLocation)) {
predictedLocation.setLocation(predictedLocation.getX(), predictedLocation.getY() + 1);
}
}
@Override
protected RelativePoint getPointToShowResults() {
Rectangle rect = myEntryTable.getCellRect(myEntryTable.getSelectedRow(), 1, false);
Point location = rect.getLocation();
location.y += rect.height;
return new RelativePoint(myEntryTable, location);
}
@FXML
private void handleExportItemAction(ActionEvent event) {
try {
BufferedWriter bw =
new BufferedWriter(
new OutputStreamWriter(new FileOutputStream("imageInformation.csv"), "UTF-8"));
for (ImageInformation img : imgMan.images) {
StringBuffer oneLine = new StringBuffer();
oneLine.append(img.getPath());
oneLine.append(";");
for (Point p : img.getPoints()) {
oneLine.append(p.getX() + "," + p.getY());
}
oneLine.append(";");
for (ImageInformation.Type t : img.getTypes()) {
oneLine.append(t.toString());
}
oneLine.append(";");
for (double d : img.getFrequency()) {
oneLine.append(d + ",");
}
oneLine.append(";");
bw.write(oneLine.toString());
bw.newLine();
}
bw.flush();
bw.close();
} catch (UnsupportedEncodingException e) {
} catch (FileNotFoundException e) {
} catch (IOException e) {
}
}