/**
* Draw labels for picking.
*
* @param dc Current draw context.
* @param pickSupport the PickSupport instance to be used.
*/
protected void doPick(DrawContext dc, PickSupport pickSupport) {
GL gl = dc.getGL();
Angle heading = this.rotation;
double headingDegrees;
if (heading != null) headingDegrees = heading.degrees;
else headingDegrees = 0;
int x = this.screenPoint.x;
int y = this.screenPoint.y;
boolean matrixPushed = false;
try {
if (headingDegrees != 0) {
gl.glPushMatrix();
matrixPushed = true;
gl.glTranslated(x, y, 0);
gl.glRotated(headingDegrees, 0, 0, 1);
gl.glTranslated(-x, -y, 0);
}
for (int i = 0; i < this.lines.length; i++) {
Rectangle2D bounds = this.lineBounds[i];
double width = bounds.getWidth();
double height = bounds.getHeight();
x = this.screenPoint.x;
if (this.textAlign.equals(AVKey.CENTER)) x = x - (int) (width / 2.0);
else if (this.textAlign.equals(AVKey.RIGHT)) x = x - (int) width;
y -= this.lineHeight;
Color color = dc.getUniquePickColor();
int colorCode = color.getRGB();
PickedObject po = new PickedObject(colorCode, this.getPickedObject(), this.position, false);
pickSupport.addPickableObject(po);
// Draw line rectangle
gl.glColor3ub((byte) color.getRed(), (byte) color.getGreen(), (byte) color.getBlue());
try {
gl.glBegin(GL.GL_POLYGON);
gl.glVertex3d(x, y, 0);
gl.glVertex3d(x + width - 1, y, 0);
gl.glVertex3d(x + width - 1, y + height - 1, 0);
gl.glVertex3d(x, y + height - 1, 0);
gl.glVertex3d(x, y, 0);
} finally {
gl.glEnd();
}
y -= this.lineSpacing;
}
} finally {
if (matrixPushed) {
gl.glPopMatrix();
}
}
}
/**
* Reimplementación del método mouseReleased de Behavior.
*
* @param e MouseEvent
* @throws BehaviorException Excepción lanzada cuando el Behavior.
*/
public void mouseReleased(MouseEvent e) throws BehaviorException {
super.mouseReleased(e);
dragged = false;
if (getLayoutControl().getFirstPoint() == null) return;
Point2D p1;
Point2D p2;
Point pScreen = getLayoutControl().getLastPoint();
AffineTransform at = getLayoutControl().getAT();
p1 = FLayoutUtilities.toSheetPoint(getLayoutControl().getFirstPoint(), at);
p2 = FLayoutUtilities.toSheetPoint(pScreen, at);
if (e.getButton() == MouseEvent.BUTTON1) {
// Fijamos el nuevo extent
Rectangle2D.Double r = new Rectangle2D.Double();
r.setFrameFromDiagonal(p1, p2);
Rectangle2D rectPixel = new Rectangle();
rectPixel.setFrameFromDiagonal(getLayoutControl().getFirstPoint(), pScreen);
RectangleEvent event = new RectangleEvent(r, e, rectPixel);
listener.rectangle(event);
}
}
/**
* Compute the bounds of the text, if necessary.
*
* @param dc the current DrawContext.
*/
protected void computeBoundsIfNeeded(DrawContext dc) {
// Do not compute bounds if they are available. Computing text bounds is expensive, so only do
// this
// calculation if necessary.
if (this.bounds != null) return;
TextRenderer textRenderer =
OGLTextRenderer.getOrCreateTextRenderer(dc.getTextRendererCache(), this.getFont());
int width = 0;
int maxLineHeight = 0;
this.lineBounds = new Rectangle2D[this.lines.length];
for (int i = 0; i < this.lines.length; i++) {
Rectangle2D lineBounds = textRenderer.getBounds(lines[i]);
width = (int) Math.max(lineBounds.getWidth(), width);
double thisLineHeight = Math.abs(lineBounds.getY());
maxLineHeight = (int) Math.max(thisLineHeight, maxLineHeight);
this.lineBounds[i] = lineBounds;
}
this.lineHeight = maxLineHeight;
// Compute final height using maxLineHeight and number of lines
this.bounds =
new Rectangle(
this.lines.length,
maxLineHeight,
width,
this.lines.length * maxLineHeight + this.lines.length * this.lineSpacing);
}
@Override
public Shape getPointShape(PointData data) {
Row row = data.row;
int colLabel = getColumn();
if (colLabel >= row.size()) {
return null;
}
Comparable<?> labelValue = row.get(colLabel);
if (labelValue == null) {
return null;
}
Format format = getFormat();
Font font = getFont();
String text = format.format(labelValue);
double alignment = getAlignmentX();
Shape shape = GraphicsUtils.getOutline(text, font, 0f, alignment);
double alignX = getAlignmentX();
double alignY = getAlignmentY();
Rectangle2D bounds = shape.getBounds2D();
AffineTransform tx =
AffineTransform.getTranslateInstance(
-alignX * bounds.getWidth(), alignY * bounds.getHeight());
shape = tx.createTransformedShape(shape);
return shape;
}
public Rectangle2D getSelectedRect() {
return new Rectangle2D.Double(
rect.getX() / scale,
rect.getY() / scale,
rect.getWidth() / scale,
rect.getHeight() / scale);
}
public GraphicSet importSetFromFile(File inputFile, List<String> warnings)
throws ImportException {
Writer out = null;
try {
// Get a DOMImplementation
DOMImplementation domImpl = GenericDOMImplementation.getDOMImplementation();
// Create an instance of org.w3c.dom.Document
Document document = domImpl.createDocument(null, "svg", null);
// Create an instance of the SVG Generator
final SVGGraphics2D svgGenerator = new SVGGraphics2D(document);
svgGenerator.setTransform(new AffineTransform());
// Open input file
PSInputFile in = new PSInputFile(inputFile.getAbsolutePath());
Rectangle2D bb = this.getBoundingBox(inputFile);
svgGenerator.setTransform(AffineTransform.getTranslateInstance(-bb.getX(), -bb.getY()));
Dimension d = new Dimension((int) bb.getWidth(), (int) bb.getHeight());
// Create processor and associate to input and output file
Processor processor = new Processor(svgGenerator, d, false);
processor.setData(in);
// Process
processor.process();
File tmp = File.createTempFile("temp", "svg");
tmp.deleteOnExit();
svgGenerator.stream(new FileWriter(tmp));
GraphicSet result = new SVGImporter().importSetFromFile(tmp, warnings);
// Assume the EPS has been created with 72DPI (from Inkscape)
double px2mm = Util.inch2mm(1d / 72d);
result.setBasicTransform(AffineTransform.getScaleInstance(px2mm, px2mm));
return result;
} catch (Exception ex) {
Logger.getLogger(EPSImporter.class.getName()).log(Level.SEVERE, null, ex);
throw new ImportException(ex);
}
}
/**
* Returns the frame surrounding the specified view rectangle.
*
* @param view the view rectangle (<code>null</code> not permitted).
* @return The frame rectangle.
*/
private Rectangle2D viewToFrame(Rectangle2D view) {
double width = view.getWidth() / this.viewW;
double height = view.getHeight() / this.viewH;
double x = view.getX() - (width * this.viewX);
double y = view.getY() - (height * this.viewY);
return new Rectangle2D.Double(x, y, width, height);
}
/**
* Constructs an instance of a UTM coordinate transform with the supplied Ellipsoid, zone and
* hemisphere. The ellipsoid should be the one used as a basis for the UTM coordinates. The zone
* is the UTM zone which has positions to be converted; hemiflag is a boolean, true if points are
* northern hemisphere. You can convert points from more than one zone and hemisphere by using the
* method ConvertUtmToLatLon.
*
* <p>The reference coordinate system is RealTupleType.LatitudeLongitudeTuple; the incoming units
* are assumed to be UTM coords based on the input ellipsoid.
*
* <p>Most USGS topographic maps use the 1927 North American Datum (NAD 27); new maps are being
* slowly revised to NAD 83. To construct Ellipsoids for the first argument, import
* geotransform.jar, and do new CC_Ellipsoid() for NAD 27 (Clark 1866 ellipsoid), or new
* RF_Ellipsoid() for NAD 83 (GRS 80 ellipsoid), or new WE_Ellipsoid() for WSG 84. See
* http://www.ai.sri.com/geotransform/api.html for more details about 239 supported datums.
*
* @param ellipsoid the basis for some UTM coordinate system; many choices possible
* @param zone the UTM zone which has positions to be converted
* @param bounds Linear2DSet describing the bounds of this MapProjection
* @param hemiflag a boolean, true if points are in the northern hemisphere
* @throws VisADException
*/
public UTMCoordinateSystem(Ellipsoid ellipsoid, int zone, boolean hemiflag, Rectangle2D bounds)
throws VisADException {
super(RealTupleType.LatitudeLongitudeTuple, new Unit[] {CommonUnit.meter, CommonUnit.meter});
if (ellipsoid == null) {
throw new NullPointerException();
}
if ((zone < 1) || (zone > 60)) {
throw new IllegalArgumentException("UTM zone number not in range 1-60");
}
if (bounds != null) {
startX = bounds.getX();
startY = bounds.getY();
width = bounds.getWidth();
height = bounds.getHeight();
}
this.ellipsoid = ellipsoid;
this.onezone = zone;
this.onehemiflag = hemiflag;
// initialize the converters
Utm_To_Gdc_Converter.Init(ellipsoid);
Gdc_To_Utm_Converter.Init(ellipsoid);
}
@Override
public Rectangle2D getStringBounds(String str, Graphics context) {
lastStringMeasured = str;
Rectangle2D bounds = m.getStringBounds(str, context);
lastStringWidth = (int) bounds.getWidth();
return bounds;
}
/**
* A line wrap algorithm, which splits the given line of text into multiple lines based on the
* current font size and the available line width
*
* @param text
* @param availableWidth
* @param graphics
* @param wrap
* @return a list of strings, representing the lines
*/
private List<String> splitIntoLines(
String text, int availableWidth, Graphics2D graphics, boolean wrap) {
List<String> lines = new ArrayList<String>();
if (!wrap) {
lines.add(text);
return lines;
}
String[] words = text.split(" ");
String currentLine = "";
for (int i = 0; i < words.length; i++) {
String tryLine = (currentLine.equals("")) ? words[i] : (currentLine + " " + words[i]);
Rectangle2D lineBounds = graphics.getFontMetrics().getStringBounds(tryLine, graphics);
if (lineBounds.getWidth() > availableWidth) {
lines.add(currentLine);
currentLine = words[i];
} else {
currentLine = tryLine;
}
}
if (!currentLine.equals("")) {
lines.add(currentLine);
}
return lines;
}
/**
* Draws a grid line against the domain axis.
*
* @param g2 the graphics device.
* @param plot the plot.
* @param dataArea the area for plotting data (not yet adjusted for any 3D effect).
* @param value the Java2D value at which the grid line should be drawn.
*/
@Override
public void drawDomainGridline(
Graphics2D g2, CategoryPlot plot, Rectangle2D dataArea, double value) {
Line2D line1 = null;
Line2D line2 = null;
PlotOrientation orientation = plot.getOrientation();
if (orientation == PlotOrientation.HORIZONTAL) {
double y0 = value;
double y1 = value - getYOffset();
double x0 = dataArea.getMinX();
double x1 = x0 + getXOffset();
double x2 = dataArea.getMaxX();
line1 = new Line2D.Double(x0, y0, x1, y1);
line2 = new Line2D.Double(x1, y1, x2, y1);
} else if (orientation == PlotOrientation.VERTICAL) {
double x0 = value;
double x1 = value + getXOffset();
double y0 = dataArea.getMaxY();
double y1 = y0 - getYOffset();
double y2 = dataArea.getMinY();
line1 = new Line2D.Double(x0, y0, x1, y1);
line2 = new Line2D.Double(x1, y1, x1, y2);
}
g2.setPaint(plot.getDomainGridlinePaint());
g2.setStroke(plot.getDomainGridlineStroke());
g2.draw(line1);
g2.draw(line2);
}
public void paint(Graphics g) {
Graphics2D g_2d = (Graphics2D) g;
Ellipse2D ellipse = new Ellipse2D.Double(0, 2, 80, 80);
Rectangle2D rect = new Rectangle2D.Double(40, 2, 80, 80);
Area a1 = new Area(ellipse);
Area a2 = new Area(rect);
a1.intersect(a2); // "Óë"
g_2d.fill(a1);
ellipse.setFrame(130, 2, 80, 80);
rect.setFrame(170, 2, 80, 80);
a1 = new Area(ellipse);
a2 = new Area(rect);
a1.add(a2); // "»ò"
g_2d.draw(a1);
ellipse.setFrame(0, 90, 80, 80);
rect.setFrame(40, 90, 80, 80);
a1 = new Area(ellipse);
a2 = new Area(rect);
a1.subtract(a2); // "²î"
g_2d.draw(a1);
ellipse.setFrame(130, 90, 80, 80);
rect.setFrame(170, 90, 80, 80);
a1 = new Area(ellipse);
a2 = new Area(rect);
a1.exclusiveOr(a2); // "Òì»ò"
g_2d.fill(a1);
}
/**
* 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);
}
}
/**
* Draws the block within the specified area.
*
* @param g2 the graphics device.
* @param area the area.
* @param params ignored (<code>null</code> permitted).
* @return An {@link org.jfree.chart.block.EntityBlockResult} or <code>null</code>.
*/
public Object draw(Graphics2D g2, Rectangle2D area, Object params) {
Rectangle2D target = (Rectangle2D) area.clone();
Rectangle2D hotspot = (Rectangle2D) area.clone();
StandardEntityCollection sec = null;
if (params instanceof EntityBlockParams && ((EntityBlockParams) params).getGenerateEntities()) {
sec = new StandardEntityCollection();
sec.add(new TitleEntity(hotspot, this));
}
target = trimMargin(target);
if (this.backgroundPaint != null) {
g2.setPaint(this.backgroundPaint);
g2.fill(target);
}
BlockFrame border = getFrame();
border.draw(g2, target);
border.getInsets().trim(target);
BlockContainer container = this.wrapper;
if (container == null) {
container = this.items;
}
target = trimPadding(target);
Object val = container.draw(g2, target, params);
if (val instanceof BlockResult) {
EntityCollection ec = ((BlockResult) val).getEntityCollection();
if (ec != null && sec != null) {
sec.addAll(ec);
((BlockResult) val).setEntityCollection(sec);
}
}
return val;
}
/** {@inheritDoc } */
@Override
public double[] getResolution(final CoordinateReferenceSystem crs) {
if (CRS.equalsIgnoreMetadata(objectiveCRS, crs)) {
return getResolution();
} else {
final double[] res = new double[crs.getCoordinateSystem().getDimension()];
final Envelope env;
try {
env = CRS.transform(canvasObjectiveBBox2D, crs);
final Rectangle2D canvasCRSBounds =
new Rectangle2D.Double(0, 0, env.getSpan(0), env.getSpan(1));
res[0] = Math.abs(canvasCRSBounds.getWidth() / canvasDisplaybounds.getWidth());
res[1] = Math.abs(canvasCRSBounds.getHeight() / canvasDisplaybounds.getHeight());
for (int i = 2; i < res.length; i++) {
// other dimension are likely to be the temporal and elevation one.
// we set a hug resolution to ensure that only one slice of data will be retrived.
res[i] = Double.MAX_VALUE;
}
} catch (TransformException ex) {
LOGGER.log(Level.WARNING, null, ex);
} catch (IllegalArgumentException ex) {
LOGGER.log(Level.WARNING, null, ex);
} catch (Exception ex) {
LOGGER.log(Level.WARNING, null, ex);
}
return adjustResolutionWithDPI(res);
}
}
/**
* Creates and returns a new graphics object.
*
* @param graphicsObjectInfo the graphics object info
* @return a new graphics object
*/
public GraphicsObject createGraphic(AFPGraphicsObjectInfo graphicsObjectInfo) {
// set newly created graphics object in g2d
GraphicsObject graphicsObj = factory.createGraphicsObject();
// set data object viewport (i.e. position, rotation, dimension, resolution)
graphicsObj.setViewport(graphicsObjectInfo);
AFPGraphics2D g2d = graphicsObjectInfo.getGraphics2D();
g2d.setGraphicsObject(graphicsObj);
// set color converter (i.e. an rgb to grayscale converter)
graphicsObj.setColorConverter(g2d.getPaintingState().getColorConverter());
// paint to graphics object
Graphics2DImagePainter painter = graphicsObjectInfo.getPainter();
Rectangle2D area = graphicsObjectInfo.getArea();
g2d.scale(1, -1);
g2d.translate(0, -area.getHeight());
painter.paint(g2d, area);
graphicsObj.setComplete(true);
// return painted graphics object
return graphicsObj;
}
public void paint(Graphics g) {
Graphics2D gc = (Graphics2D) g;
// for antialiasing text
gc.setRenderingHint(
RenderingHints.KEY_TEXT_ANTIALIASING, RenderingHints.VALUE_TEXT_ANTIALIAS_ON);
gc.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
gc.setRenderingHint(RenderingHints.KEY_RENDERING, RenderingHints.VALUE_RENDER_QUALITY);
Dimension d = getSize();
// System.out.println(d.width + "x" + d.height);
// System.out.println(d.width + "," + d.height);
int w = d.width - 1;
int h = d.height - 1;
float brightness = (float) Settings.brightness.getDouble();
gc.setColor(Color.black);
gc.fillRect(0, 0, getWidth(), getHeight());
gc.setColor(new Color(brightness, brightness, brightness));
if (mouseInside) gc.drawRoundRect(0, 0, w, h, 8, 8);
else gc.drawRect(0, 0, w, h);
FontMetrics fm = gc.getFontMetrics();
Rectangle2D sb = fm.getStringBounds(text, gc);
double x = (d.width - sb.getWidth()) / 2;
double y = (d.height + sb.getHeight()) / 2 - fm.getDescent();
gc.drawString(text, (int) Math.round(x), (int) Math.round(y));
}
/**
* This method is responsible for computing the resolutions in for the provided grid geometry in
* the provided crs.
*
* <p>It is worth to note that the returned resolution array is of length of 2 and it always is
* lon, lat for the moment.<br>
* It might be worth to remove the axes reordering code when we are confident enough with the code
* to handle the north-up crs.
*
* <p>TODO use orthodromic distance?
*
* @param envelope the GeneralEnvelope
* @param dim
* @param crs
* @throws DataSourceException
*/
protected static final double[] getResolution(
GeneralEnvelope envelope, Rectangle2D dim, CoordinateReferenceSystem crs)
throws DataSourceException {
double[] requestedRes = null;
try {
if (dim != null && envelope != null && crs != null) {
// do we need to transform the originalEnvelope?
final CoordinateReferenceSystem envelopeCrs2D =
CRS.getHorizontalCRS(envelope.getCoordinateReferenceSystem());
if (envelopeCrs2D != null && !CRS.equalsIgnoreMetadata(crs, envelopeCrs2D)) {
CoordinateOperationFactory operationFactory = CRS.getCoordinateOperationFactory(true);
CoordinateOperation op = operationFactory.createOperation(envelopeCrs2D, crs);
envelope = CRS.transform(op, envelope);
envelope.setCoordinateReferenceSystem(crs);
}
requestedRes = new double[2];
requestedRes[0] = envelope.getSpan(0) / dim.getWidth();
requestedRes[1] = envelope.getSpan(1) / dim.getHeight();
}
return requestedRes;
} catch (TransformException e) {
throw new DataSourceException("Unable to get resolution", e);
} catch (FactoryException e) {
throw new DataSourceException("Unable to get resolution", e);
}
}
/**
* Reserve some space on each axis side because we draw a centered label at each extremity.
*
* @param g2 the graphics device.
* @param plot the plot.
* @param plotArea the plot area.
* @param edge the edge.
* @param space the space already reserved.
* @return The reserved space.
*/
public AxisSpace reserveSpace(
Graphics2D g2, Plot plot, Rectangle2D plotArea, RectangleEdge edge, AxisSpace space) {
this.internalMarkerCycleBoundTick = null;
AxisSpace ret = super.reserveSpace(g2, plot, plotArea, edge, space);
if (this.internalMarkerCycleBoundTick == null) {
return ret;
}
FontMetrics fm = g2.getFontMetrics(getTickLabelFont());
Rectangle2D r =
TextUtilities.getTextBounds(this.internalMarkerCycleBoundTick.getText(), g2, fm);
if (RectangleEdge.isTopOrBottom(edge)) {
if (isVerticalTickLabels()) {
space.add(r.getHeight() / 2, RectangleEdge.RIGHT);
} else {
space.add(r.getWidth() / 2, RectangleEdge.RIGHT);
}
} else if (RectangleEdge.isLeftOrRight(edge)) {
if (isVerticalTickLabels()) {
space.add(r.getWidth() / 2, RectangleEdge.TOP);
} else {
space.add(r.getHeight() / 2, RectangleEdge.TOP);
}
}
return ret;
}
/** Set the bounds */
public void setBounds(Rectangle2D bounds) {
this._bounds = bounds;
_boundsX0 = bounds.getX();
_boundsY0 = bounds.getY();
_boundsX1 = _boundsX0 + bounds.getWidth();
_boundsY1 = _boundsY0 + bounds.getHeight();
}
/**
* Converts a coordinate from Java 2D space to data space.
*
* @param java2DValue the coordinate in Java2D space.
* @param dataArea the data area.
* @param edge the edge.
* @return The data value.
*/
public double java2DToValue(double java2DValue, Rectangle2D dataArea, RectangleEdge edge) {
Range range = getRange();
double vmax = range.getUpperBound();
double vp = getCycleBound();
double jmin = 0.0;
double jmax = 0.0;
if (RectangleEdge.isTopOrBottom(edge)) {
jmin = dataArea.getMinX();
jmax = dataArea.getMaxX();
} else if (RectangleEdge.isLeftOrRight(edge)) {
jmin = dataArea.getMaxY();
jmax = dataArea.getMinY();
}
if (isInverted()) {
double jbreak = jmax - (vmax - vp) * (jmax - jmin) / this.period;
if (java2DValue >= jbreak) {
return vp + (jmax - java2DValue) * this.period / (jmax - jmin);
} else {
return vp - (java2DValue - jmin) * this.period / (jmax - jmin);
}
} else {
double jbreak = (vmax - vp) * (jmax - jmin) / this.period + jmin;
if (java2DValue <= jbreak) {
return vp + (java2DValue - jmin) * this.period / (jmax - jmin);
} else {
return vp - (jmax - java2DValue) * this.period / (jmax - jmin);
}
}
}
/**
* Method that exports the current view to a file using a specified file type.
*
* @param component Drawable that will be exported.
* @param mimeType File format as MIME type string.
* @param file File to export to.
* @param documentBounds Document boundary rectangle
*/
private void export(Drawable component, String mimeType, File file, Rectangle2D documentBounds) {
FileOutputStream destination;
try {
destination = new FileOutputStream(file);
} catch (FileNotFoundException ex) {
// TODO Auto-generated catch block
ex.printStackTrace();
return;
}
DrawableWriter writer = DrawableWriterFactory.getInstance().get(mimeType);
try {
writer.write(
component,
destination,
documentBounds.getX(),
documentBounds.getY(),
documentBounds.getWidth(),
documentBounds.getHeight());
} catch (IOException ex) {
// TODO Auto-generated catch block
ex.printStackTrace();
} finally {
try {
destination.close();
} catch (IOException ex2) {
// TODO Auto-generated catch block
ex2.printStackTrace();
}
}
}
public void fitSize() {
BufferedImage bi = new BufferedImage(5, 5, BufferedImage.TYPE_INT_RGB);
FontMetrics fm = bi.getGraphics().getFontMetrics(font);
java.awt.geom.Rectangle2D rect = fm.getStringBounds(text, bi.getGraphics());
w = rect.getWidth() + font.getSize();
h = rect.getHeight();
}
private void drawCenteredString(Graphics2D g2d, String txt) {
int width = getWidth();
int height = getHeight();
Rectangle2D bounds = g2d.getFontMetrics().getStringBounds(txt, g2d);
g2d.drawString(
txt, width / 2 - (int) bounds.getCenterX(), height / 2 - (int) bounds.getCenterY());
}
/**
* Draws the outline for the plot.
*
* @param g2 the graphics device.
* @param plot the plot.
* @param dataArea the area inside the axes.
*/
@Override
public void drawOutline(Graphics2D g2, CategoryPlot plot, Rectangle2D dataArea) {
float x0 = (float) dataArea.getX();
float x1 = x0 + (float) Math.abs(this.xOffset);
float x3 = (float) dataArea.getMaxX();
float x2 = x3 - (float) Math.abs(this.xOffset);
float y0 = (float) dataArea.getMaxY();
float y1 = y0 - (float) Math.abs(this.yOffset);
float y3 = (float) dataArea.getMinY();
float y2 = y3 + (float) Math.abs(this.yOffset);
GeneralPath clip = new GeneralPath();
clip.moveTo(x0, y0);
clip.lineTo(x0, y2);
clip.lineTo(x1, y3);
clip.lineTo(x3, y3);
clip.lineTo(x3, y1);
clip.lineTo(x2, y0);
clip.closePath();
// put an outline around the data area...
Stroke outlineStroke = plot.getOutlineStroke();
Paint outlinePaint = plot.getOutlinePaint();
if ((outlineStroke != null) && (outlinePaint != null)) {
g2.setStroke(outlineStroke);
g2.setPaint(outlinePaint);
g2.draw(clip);
}
}
public static void drawCenteredString(Graphics g, String str, int x, int y) {
FontMetrics metrics = g.getFontMetrics(g.getFont());
Rectangle2D rect = metrics.getStringBounds(str, g);
int w = (int) (rect.getWidth());
int h = (int) (rect.getHeight());
g.drawString(str, x - w / 2, y + h / 2);
}
PointsInInfinity(Rectangle2D allocation) {
x0 = allocation.getX() + BARBELL;
x1 = allocation.getX() + allocation.getWidth() - BARBELL;
y0 = allocation.getY() + BARBELL;
y1 = allocation.getY() + allocation.getHeight() - BARBELL;
resetMap();
}
@Override
public void draw(Graphics pane) {
// Next we draw the method name.
Graphics2D g = (Graphics2D) pane;
g.setColor(Color.RED);
g.setRenderingHint(
RenderingHints.KEY_TEXT_ANTIALIASING, RenderingHints.VALUE_TEXT_ANTIALIAS_ON);
g.setFont(new Font("default", Font.BOLD, 12));
FontMetrics fm = g.getFontMetrics();
Rectangle2D rect = fm.getStringBounds(method, g);
g.setColor(Color.BLACK);
g.fillRoundRect(
10,
component.getHeight() - fm.getAscent() - 5,
(int) rect.getWidth() + 10,
(int) rect.getHeight(),
2,
2);
g.setColor(Color.WHITE);
g.drawString(method, 15, component.getHeight() - 5);
super.draw(pane);
}
public void paintComponent(Graphics g) {
super.paintComponent(g);
Graphics2D g2 = (Graphics2D) g;
// draw a rectangle
double leftX = 100;
double topY = 100;
double width = 200;
double height = 150;
Rectangle2D rect = new Rectangle2D.Double(leftX, topY, width, height);
g2.draw(rect);
// draw a enclosed ellipse
Ellipse2D ellipse = new Ellipse2D.Double();
ellipse.setFrame(rect);
g2.draw(ellipse);
// draw a diagonal line
g2.draw(new Line2D.Double(leftX, topY, leftX + width, topY + height));
// draw a circle with the same center
double centerX = rect.getCenterX();
double centerY = rect.getCenterY();
double radius = 150;
Ellipse2D circle = new Ellipse2D.Double();
circle.setFrameFromCenter(centerX, centerY, centerX + radius, centerY + radius);
g2.draw(circle);
}
private void doShooting() {
PositionFinder p = new PositionFinder(enemies, this);
en = p.findNearest();
if (en == null) return;
Point2D myPos = new Point2D.Double(getX(), getY());
if (HoT) {
/* Perform head on target for gun movement */
aimingPoint = new Point2D.Double(en.getX(), en.getY());
double turnGunAmt = (getHeadingRadians() + en.getBearingRadians() - getGunHeadingRadians());
turnGunAmt = Utils.normalRelativeAngle(turnGunAmt);
setTurnGunRightRadians(turnGunAmt);
} else {
/* Perform circular targeting */
Rectangle2D battlefield =
new Rectangle2D.Double(0, 0, getBattleFieldWidth(), getBattleFieldHeight());
long when = calcTimeToReachEnemy();
aimingPoint = org.pattern.utils.Utils.getFuturePoint(en, when);
if (!battlefield.contains(aimingPoint)) {
HoT = true;
return;
}
double theta =
Utils.normalAbsoluteAngle(
Math.atan2(aimingPoint.getX() - getX(), aimingPoint.getY() - getY()));
setTurnGunRightRadians(Utils.normalRelativeAngle(theta - getGunHeadingRadians()));
}
if (getGunHeat() == 0) {
double firePower = 3.0;
fire(firePower);
}
}
