private void drawRebootSuspectLine(XYChart<Number, ? extends Number> target) {
if (target.getData().isEmpty() || target.getData().get(0).getData().isEmpty()) {
return;
}
AnchorPane anchor =
(AnchorPane)
target
.getParent()
.getChildrenUnmodifiable()
.stream()
.filter(n -> n instanceof AnchorPane)
.findAny()
.get();
ObservableList<Node> anchorChildren = anchor.getChildren();
anchorChildren.clear();
NumberAxis xAxis = (NumberAxis) target.getXAxis();
Axis yAxis = target.getYAxis();
Label chartTitle =
(Label)
target
.getChildrenUnmodifiable()
.stream()
.filter(n -> n.getStyleClass().contains("chart-title"))
.findFirst()
.get();
double startX = xAxis.getLayoutX() + 4.0d;
double yPos = yAxis.getLayoutY() + chartTitle.getLayoutY() + chartTitle.getHeight();
List<Rectangle> rectList =
summaryData
.get()
.getRebootSuspectList()
.stream()
.map(d -> d.atZone(ZoneId.systemDefault()).toEpochSecond())
.map(
s ->
new Rectangle(
xAxis.getDisplayPosition(s) + startX, yPos, 4d, yAxis.getHeight()))
.peek(r -> ((Rectangle) r).setStyle("-fx-fill: yellow;"))
.collect(Collectors.toList());
anchorChildren.addAll(rectList);
}
@Override
public Iterable<Data<X, Y>> getVisibleData() {
final Axis<X> xAxis = getChart().getXAxis();
final double width = xAxis.getWidth();
List<Data<X, Y>> visible =
getData()
.filtered(
new Predicate<Data<X, Y>>() {
@Override
public boolean test(Data<X, Y> item) {
final double p = xAxis.getDisplayPosition(item.getXValue());
return p >= 0 && p <= width;
}
});
return visible;
}
/**
* Render image consisting of computation result. This method will be run in background thread, so
* it can have a while. Implementation should periodically check if status.isCancelled() and abort
* (return null) if so.
*
* @param xAxis values for x dimension
* @param yAxis values for y dimension
* @param status status to be checked periodically
* @return computation result as two-dimensional array
* @throws Exception if computational error occurs
*/
public BufferedImage renderImage(
Axis<Number> xAxis, Axis<Number> yAxis, ImageRendererStatus status) throws Exception {
ImageResult result;
int width = (int) xAxis.getWidth();
int height = (int) yAxis.getHeight();
double xMin = xAxis.getValueForDisplay(0.0).doubleValue();
double xMax = xAxis.getValueForDisplay(width - 1).doubleValue();
double yMin = yAxis.getValueForDisplay(0.0).doubleValue();
double yMax = yAxis.getValueForDisplay(height - 1).doubleValue();
PreferencesWithAxes<P> pax =
new PreferencesWithAxes<P>(getPreferences(), width, height, xMin, xMax, yMin, yMax);
CachedImageResult<PreferencesWithAxes<P>> cache = cache_;
if (cache != null && cache.preferences.equals(pax)) {
result = cache.result;
} else {
result = compute(pax, status);
if (result == null) {
return null;
}
cache_ = new CachedImageResult<PreferencesWithAxes<P>>(pax, result);
}
BufferedImage image = new BufferedImage(pax.width, pax.height, BufferedImage.TYPE_INT_RGB);
if (result == null) {
return null;
}
double max = 0;
for (int ix = 0; ix < pax.width; ++ix) {
for (int iy = 0; iy < pax.height; ++iy) {
max = Math.max(max, result.values[ix][iy].abs());
}
}
int[] palette = palette_.getPalette();
boolean inverted = inverted_;
for (int ix = 0; ix < pax.width; ++ix) {
if (status.isCancelled()) {
return null;
}
for (int iy = 0; iy < pax.height; ++iy) {
double t = result.values[ix][iy].abs() / max;
if (inverted) {
t = 1.0 - t;
}
int value = palette[Math.min((int) Math.floor(t * palette.length), palette.length - 1)];
image.setRGB(ix, iy, value);
}
}
return image;
}
/**
* This is called when the range has been invalidated and we need to update it. If the axis are
* auto ranging then we compile a list of all data that the given axis has to plot and call
* invalidateRange() on the axis passing it that data.
*/
@Override
protected void updateAxisRange() {
// For candle stick chart we need to override this method as we need to let the axis know that
// they need to be able
// to cover the whole area occupied by the high to low range not just its center data value
final Axis<String> xa = getXAxis();
final Axis<Number> ya = getYAxis();
List<String> xData = null;
List<Number> yData = null;
if (xa.isAutoRanging()) {
xData = new ArrayList<>();
}
if (ya.isAutoRanging()) {
yData = new ArrayList<>();
}
if (xData != null || yData != null) {
for (Series<String, Number> series : getData()) {
for (Data<String, Number> data : series.getData()) {
if (xData != null) {
xData.add(data.getXValue());
}
if (yData != null) {
BarData extras = (BarData) data.getExtraValue();
if (extras != null) {
yData.add(extras.getHigh());
yData.add(extras.getLow());
} else {
yData.add(data.getYValue());
}
}
}
}
if (xData != null) {
xa.invalidateRange(xData);
}
if (yData != null) {
ya.invalidateRange(yData);
}
}
}
