eu.hansolo.steelseries.tools.EllipticGradientPaint Maven / Gradle / Ivy
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The SteelSeries is a javabeans component library that contains gauges.
You will find linear and radial gauges. In addition you will also find
digital displays.
The newest version!
package eu.hansolo.steelseries.tools;
import java.awt.Color;
import java.awt.Paint;
import java.awt.PaintContext;
import java.awt.Rectangle;
import java.awt.RenderingHints;
import java.awt.geom.AffineTransform;
import java.awt.geom.Ellipse2D;
import java.awt.geom.Line2D;
import java.awt.geom.Point2D;
import java.awt.geom.Rectangle2D;
import java.awt.Transparency;
import java.awt.image.ColorModel;
import java.awt.image.Raster;
import java.awt.image.WritableRaster;
import java.util.HashMap;
import java.util.Map;
/**
* @author Gerrit Grunwald
*/
public class EllipticGradientPaint implements Paint {
private final Point2D CENTER;
private final Point2D RADIUS_X_Y;
private final float[] FRACTIONS;
private final Color[] COLORS;
private final GradientWrapper COLOR_LOOKUP;
public EllipticGradientPaint(final Point2D GIVEN_CENTER, Point2D GIVEN_RADIUS_X_Y, final float[] GIVEN_FRACTIONS, final Color[] GIVEN_COLORS) {
if (GIVEN_RADIUS_X_Y.distance(0, 0) <= 0) {
throw new IllegalArgumentException("Radius must be greater than 0.");
}
// Check that fractions and colors are of the same size
if (GIVEN_FRACTIONS.length != GIVEN_COLORS.length) {
throw new IllegalArgumentException("Fractions and colors must be equal in size");
}
CENTER = GIVEN_CENTER;
RADIUS_X_Y = GIVEN_RADIUS_X_Y;
FRACTIONS = GIVEN_FRACTIONS.clone();
COLORS = GIVEN_COLORS.clone();
COLOR_LOOKUP = new GradientWrapper(new Point2D.Double(0, 0), new Point2D.Double(100, 0), FRACTIONS, COLORS);
}
@Override
public java.awt.PaintContext createContext(final ColorModel COLOR_MODEL,
final Rectangle DEVICE_BOUNDS,
final Rectangle2D USER_BOUNDS,
final AffineTransform TRANSFORM,
final RenderingHints RENDERING_HINTS) {
final Point2D TRANSFORMED_CENTER = TRANSFORM.transform(CENTER, null);
final Point2D TRANSFORMED_RADIUS_XY = TRANSFORM.deltaTransform(RADIUS_X_Y, null);
return new OvalGradientContext(TRANSFORMED_CENTER, TRANSFORMED_RADIUS_XY, FRACTIONS, COLORS);
}
@Override
public int getTransparency() {
return Transparency.TRANSLUCENT;
}
private final class OvalGradientContext implements PaintContext {
private final Point2D CENTER;
private final Ellipse2D.Double ELLIPSE;
private final Line2D.Double LINE;
private Map lookup;
private double R;
public OvalGradientContext(final Point2D CENTER, final Point2D RADIUS_X_Y, final float[] FRACTIONS, final Color[] COLORS) {
this.CENTER = CENTER;
final double X = CENTER.getX() - RADIUS_X_Y.getX();
final double Y = CENTER.getY() - RADIUS_X_Y.getY();
final double WIDTH = 2 * RADIUS_X_Y.getX();
final double HEIGHT = 2 * RADIUS_X_Y.getY();
ELLIPSE = new Ellipse2D.Double(X, Y, WIDTH, HEIGHT);
LINE = new Line2D.Double();
R = Point2D.distance(0, 0, RADIUS_X_Y.getX(), RADIUS_X_Y.getY());
initLookup();
}
@Override
public void dispose() {
}
@Override
public ColorModel getColorModel() {
return ColorModel.getRGBdefault();
}
@Override
public Raster getRaster(final int X, final int Y, final int TILE_WIDTH, final int TILE_HEIGHT) {
final WritableRaster RASTER = getColorModel().createCompatibleWritableRaster(TILE_WIDTH, TILE_HEIGHT);
int[] data = new int[TILE_WIDTH * TILE_HEIGHT * 4];
double distance;
double dx;
double dy;
double alpha;
double roundDegrees;
double radius;
float ratio;
for (int tileY = 0; tileY < TILE_HEIGHT; tileY++) {
for (int tileX = 0; tileX < TILE_WIDTH; tileX++) {
distance = CENTER.distance(X + tileX, Y + tileY);
dy = Y + tileY - CENTER.getY();
dx = X + tileX - CENTER.getX();
alpha = Math.atan2(dy, dx);
roundDegrees = Math.round(Math.toDegrees(alpha));
radius = lookup.get(roundDegrees);
ratio = (float) (distance / radius);
if (Float.compare(ratio, 1.0f) > 0) {
ratio = 1.0f;
}
final int BASE = (tileY * TILE_WIDTH + tileX) * 4;
data[BASE + 0] = (COLOR_LOOKUP.getColorAt(ratio).getRed());
data[BASE + 1] = (COLOR_LOOKUP.getColorAt(ratio).getGreen());
data[BASE + 2] = (COLOR_LOOKUP.getColorAt(ratio).getBlue());
data[BASE + 3] = (COLOR_LOOKUP.getColorAt(ratio).getAlpha());
}
}
RASTER.setPixels(0, 0, TILE_WIDTH, TILE_HEIGHT, data);
return RASTER;
}
private void initLookup() {
lookup = new HashMap(360);
double alpha;
double xp;
double yp;
for (int angle = -180; angle <= 180; angle++) {
Double key = Double.valueOf(angle);
alpha = Math.toRadians(angle);
xp = CENTER.getX() + R * Math.cos(alpha);
yp = CENTER.getY() + R * Math.sin(alpha);
LINE.setLine(CENTER.getX(), CENTER.getY(), xp, yp);
Double value = Double.valueOf(getRadius());
lookup.put(key, value);
}
lookup.put(0.0, getRadius());
}
private double getRadius() {
final double[] COORDINATES = new double[6];
final Point2D.Double P = new Point2D.Double();
double minDistance = Double.MAX_VALUE;
final double FLATNESS = 0.005;
final java.awt.geom.PathIterator PATH_ITERATOR = ELLIPSE.getPathIterator(null, FLATNESS);
while (!PATH_ITERATOR.isDone()) {
int segment = PATH_ITERATOR.currentSegment(COORDINATES);
switch (segment) {
case java.awt.geom.PathIterator.SEG_CLOSE:
case java.awt.geom.PathIterator.SEG_MOVETO:
case java.awt.geom.PathIterator.SEG_LINETO:
break;
default:
break;
}
final double DISTANCE = LINE.ptSegDist(COORDINATES[0], COORDINATES[1]);
if (DISTANCE < minDistance) {
minDistance = DISTANCE;
P.x = COORDINATES[0];
P.y = COORDINATES[1];
}
PATH_ITERATOR.next();
}
return CENTER.distance(P);
}
}
}
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