use of org.jfree.chart.entity.PieSectionEntity in project adempiere by adempiere.
the class Graph method getGraphColumn.
// setY_TargetLabel
/**
* Get BarGraphColumn for ChartEntity
* @param event
* @return BarGraphColumn or null if not found
*/
private GraphColumn getGraphColumn(ChartMouseEvent event) {
ChartEntity entity = event.getEntity();
String key = null;
if (entity instanceof CategoryItemEntity) {
Comparable<?> colKey = ((CategoryItemEntity) entity).getColumnKey();
if (colKey != null) {
key = colKey.toString();
}
} else if (entity instanceof PieSectionEntity) {
Comparable<?> sectionKey = ((PieSectionEntity) entity).getSectionKey();
if (sectionKey != null) {
key = sectionKey.toString();
}
}
if (key == null) {
return null;
}
for (int i = 0; i < list.size(); i++) {
final String label = list.get(i).getLabel();
if (key.equals(label)) {
return list.get(i);
}
}
//
return null;
}
use of org.jfree.chart.entity.PieSectionEntity in project SIMVA-SoS by SESoS.
the class RingPlot method drawItem.
/**
* Draws a single data item.
*
* @param g2 the graphics device (<code>null</code> not permitted).
* @param section the section index.
* @param dataArea the data plot area.
* @param state state information for one chart.
* @param currentPass the current pass index.
*/
@Override
protected void drawItem(Graphics2D g2, int section, Rectangle2D dataArea, PiePlotState state, int currentPass) {
PieDataset dataset = getDataset();
Number n = dataset.getValue(section);
if (n == null) {
return;
}
double value = n.doubleValue();
double angle1 = 0.0;
double angle2 = 0.0;
Rotation direction = getDirection();
if (direction == Rotation.CLOCKWISE) {
angle1 = state.getLatestAngle();
angle2 = angle1 - value / state.getTotal() * 360.0;
} else if (direction == Rotation.ANTICLOCKWISE) {
angle1 = state.getLatestAngle();
angle2 = angle1 + value / state.getTotal() * 360.0;
} else {
throw new IllegalStateException("Rotation type not recognised.");
}
double angle = (angle2 - angle1);
if (Math.abs(angle) > getMinimumArcAngleToDraw()) {
Comparable key = getSectionKey(section);
double ep = 0.0;
double mep = getMaximumExplodePercent();
if (mep > 0.0) {
ep = getExplodePercent(key) / mep;
}
Rectangle2D arcBounds = getArcBounds(state.getPieArea(), state.getExplodedPieArea(), angle1, angle, ep);
Arc2D.Double arc = new Arc2D.Double(arcBounds, angle1, angle, Arc2D.OPEN);
// create the bounds for the inner arc
double depth = this.sectionDepth / 2.0;
RectangleInsets s = new RectangleInsets(UnitType.RELATIVE, depth, depth, depth, depth);
Rectangle2D innerArcBounds = new Rectangle2D.Double();
innerArcBounds.setRect(arcBounds);
s.trim(innerArcBounds);
// calculate inner arc in reverse direction, for later
// GeneralPath construction
Arc2D.Double arc2 = new Arc2D.Double(innerArcBounds, angle1 + angle, -angle, Arc2D.OPEN);
GeneralPath path = new GeneralPath();
path.moveTo((float) arc.getStartPoint().getX(), (float) arc.getStartPoint().getY());
path.append(arc.getPathIterator(null), false);
path.append(arc2.getPathIterator(null), true);
path.closePath();
Line2D separator = new Line2D.Double(arc2.getEndPoint(), arc.getStartPoint());
if (currentPass == 0) {
Paint shadowPaint = getShadowPaint();
double shadowXOffset = getShadowXOffset();
double shadowYOffset = getShadowYOffset();
if (shadowPaint != null && getShadowGenerator() == null) {
Shape shadowArc = ShapeUtilities.createTranslatedShape(path, (float) shadowXOffset, (float) shadowYOffset);
g2.setPaint(shadowPaint);
g2.fill(shadowArc);
}
} else if (currentPass == 1) {
Paint paint = lookupSectionPaint(key);
g2.setPaint(paint);
g2.fill(path);
Paint outlinePaint = lookupSectionOutlinePaint(key);
Stroke outlineStroke = lookupSectionOutlineStroke(key);
if (getSectionOutlinesVisible() && outlinePaint != null && outlineStroke != null) {
g2.setPaint(outlinePaint);
g2.setStroke(outlineStroke);
g2.draw(path);
}
if (section == 0) {
String nstr = null;
if (this.centerTextMode.equals(CenterTextMode.VALUE)) {
nstr = this.centerTextFormatter.format(n);
} else if (this.centerTextMode.equals(CenterTextMode.FIXED)) {
nstr = this.centerText;
}
if (nstr != null) {
g2.setFont(this.centerTextFont);
g2.setPaint(this.centerTextColor);
TextUtilities.drawAlignedString(nstr, g2, (float) dataArea.getCenterX(), (float) dataArea.getCenterY(), TextAnchor.CENTER);
}
}
// add an entity for the pie section
if (state.getInfo() != null) {
EntityCollection entities = state.getEntityCollection();
if (entities != null) {
String tip = null;
PieToolTipGenerator toolTipGenerator = getToolTipGenerator();
if (toolTipGenerator != null) {
tip = toolTipGenerator.generateToolTip(dataset, key);
}
String url = null;
PieURLGenerator urlGenerator = getURLGenerator();
if (urlGenerator != null) {
url = urlGenerator.generateURL(dataset, key, getPieIndex());
}
PieSectionEntity entity = new PieSectionEntity(path, dataset, getPieIndex(), section, key, tip, url);
entities.add(entity);
}
}
} else if (currentPass == 2) {
if (this.separatorsVisible) {
Line2D extendedSeparator = LineUtilities.extendLine(separator, this.innerSeparatorExtension, this.outerSeparatorExtension);
g2.setStroke(this.separatorStroke);
g2.setPaint(this.separatorPaint);
g2.draw(extendedSeparator);
}
}
}
state.setLatestAngle(angle2);
}
Aggregations