private void adjustPlotAxes() {
if (!axisAdjusting) {
axisAdjusting = true;
try {
xAxisRangeControl.adjustAxis(chart.getXYPlot().getDomainAxis(), 0);
yAxisRangeControl.adjustAxis(chart.getXYPlot().getRangeAxis(), 2);
} finally {
axisAdjusting = false;
}
}
}
private void updateUIState() {
if (!isInitialized) {
return;
}
xAxisRangeControl
.getBindingContext()
.setComponentsEnabled(
PROPERTY_NAME_MARK_SEGMENTS,
profileData != null && profileData.getShapeVertices().length > 2);
xAxisRangeControl.setComponentsEnabled(profileData != null);
yAxisRangeControl.setComponentsEnabled(profileData != null);
adjustPlotAxes();
if (dataSourceConfig.computeInBetweenPoints) {
chart.getXYPlot().setRenderer(deviationRenderer);
} else {
chart.getXYPlot().setRenderer(pointRenderer);
}
chart
.getXYPlot()
.getRangeAxis()
.setLabel(
StatisticChartStyling.getAxisLabel(getRaster(), DEFAULT_SAMPLE_DATASET_NAME, false));
boolean markSegments =
(Boolean)
(xAxisRangeControl
.getBindingContext()
.getPropertySet()
.getValue(PROPERTY_NAME_MARK_SEGMENTS));
if (markSegments && profileData != null && profileData.getNumShapeVertices() > 1) {
final int[] shapeVertexIndexes = profileData.getShapeVertexIndexes();
removeIntervalMarkers();
for (int i = 0; i < shapeVertexIndexes.length - 1; i++) {
if (i % 2 != 0) {
final IntervalMarker marker =
new IntervalMarker(shapeVertexIndexes[i], shapeVertexIndexes[i + 1]);
marker.setPaint(new Color(120, 122, 125));
marker.setAlpha(0.3F);
chart.getXYPlot().addDomainMarker(marker, Layer.BACKGROUND);
intervalMarkers.add(marker);
}
}
} else {
removeIntervalMarkers();
}
pointDataSourceEnablement.apply();
dataFieldEnablement.apply();
}
private void adjustAxisControlComponents() {
if (!axisAdjusting) {
axisAdjusting = true;
try {
if (xAxisRangeControl.isAutoMinMax()) {
xAxisRangeControl.adjustComponents(chart.getXYPlot().getDomainAxis(), 0);
}
if (yAxisRangeControl.isAutoMinMax()) {
yAxisRangeControl.adjustComponents(chart.getXYPlot().getRangeAxis(), 2);
}
} finally {
axisAdjusting = false;
}
}
}
private void updateScalingOfYAxis() {
final boolean logScaled =
(Boolean)
yAxisRangeControl
.getBindingContext()
.getBinding(PROPERTY_NAME_LOG_SCALED)
.getPropertyValue();
final XYPlot plot = chart.getXYPlot();
plot.setRangeAxis(
StatisticChartStyling.updateScalingOfAxis(logScaled, plot.getRangeAxis(), true));
}
private void updateDataSet() {
if (!isInitialized) {
return;
}
dataset.removeAllSeries();
double dx = 0.5 * dataSourceConfig.boxSize;
if (profileData != null) {
final float[] sampleValues = profileData.getSampleValues();
final float[] sampleSigmas = profileData.getSampleSigmas();
XYIntervalSeries series =
new XYIntervalSeries(
getRaster() != null ? getRaster().getName() : DEFAULT_SAMPLE_DATASET_NAME);
for (int x = 0; x < sampleValues.length; x++) {
final float y = sampleValues[x];
final float dy = sampleSigmas[x];
series.add(x, x - dx, x + dx, y, y - dy, y + dy);
}
dataset.addSeries(series);
if (dataSourceConfig.useCorrelativeData
&& dataSourceConfig.pointDataSource != null
&& dataSourceConfig.dataField != null) {
XYIntervalSeries corrSeries =
new XYIntervalSeries(
getCorrelativeDataLabel(
dataSourceConfig.pointDataSource, dataSourceConfig.dataField));
int[] shapeVertexIndexes = profileData.getShapeVertexIndexes();
SimpleFeature[] simpleFeatures =
dataSourceConfig.pointDataSource.getFeatureCollection().toArray(new SimpleFeature[0]);
if (shapeVertexIndexes.length == simpleFeatures.length) {
int fieldIndex =
getAttributeIndex(dataSourceConfig.pointDataSource, dataSourceConfig.dataField);
if (fieldIndex != -1) {
for (int i = 0; i < simpleFeatures.length; i++) {
Number attribute = (Number) simpleFeatures[i].getAttribute(fieldIndex);
if (attribute != null) {
final double x = shapeVertexIndexes[i];
final double y = attribute.doubleValue();
corrSeries.add(x, x, x, y, y, y);
}
}
dataset.addSeries(corrSeries);
}
} else {
System.out.println("Weird things happened:");
System.out.println(" shapeVertexIndexes.length = " + shapeVertexIndexes.length);
System.out.println(" simpleFeatures.length = " + simpleFeatures.length);
}
}
profilePlotDisplay.restoreAutoBounds();
xAxisRangeControl
.getBindingContext()
.setComponentsEnabled(
PROPERTY_NAME_MARK_SEGMENTS, profileData.getShapeVertices().length > 2);
}
}
protected JPanel createMiddlePanel(BindingContext bindingContext) {
final JLabel boxSizeLabel = new JLabel("Box size: ");
final JSpinner boxSizeSpinner = new JSpinner();
final JCheckBox computeInBetweenPoints = new JCheckBox("Compute in-between points");
final JCheckBox useCorrelativeData = new JCheckBox("Use correlative data");
correlativeFieldSelector = new CorrelativeFieldSelector(bindingContext);
final PropertyDescriptor boxSizeDescriptor =
bindingContext.getPropertySet().getProperty("boxSize").getDescriptor();
boxSizeDescriptor.setValueRange(new ValueRange(1, 101));
boxSizeDescriptor.setAttribute("stepSize", 2);
boxSizeDescriptor.setValidator(
new Validator() {
@Override
public void validateValue(Property property, Object value) throws ValidationException {
if (((Number) value).intValue() % 2 == 0) {
throw new ValidationException("Only odd values allowed as box size.");
}
}
});
bindingContext.bind("boxSize", boxSizeSpinner);
bindingContext.bind("computeInBetweenPoints", computeInBetweenPoints);
bindingContext.bind("useCorrelativeData", useCorrelativeData);
EnablePointDataCondition condition = new EnablePointDataCondition();
pointDataSourceEnablement = bindingContext.bindEnabledState("pointDataSource", true, condition);
dataFieldEnablement = bindingContext.bindEnabledState("dataField", true, condition);
bindingContext.addPropertyChangeListener(
new PropertyChangeListener() {
@Override
public void propertyChange(PropertyChangeEvent evt) {
updateDataSource();
updateDataSet();
updateUIState();
}
});
JPanel dataSourceOptionsPanel = GridBagUtils.createPanel();
GridBagConstraints dataSourceOptionsConstraints =
GridBagUtils.createConstraints("anchor=NORTHWEST,fill=HORIZONTAL,insets.top=2");
GridBagUtils.addToPanel(
dataSourceOptionsPanel,
boxSizeLabel,
dataSourceOptionsConstraints,
"gridwidth=1,gridy=0,gridx=0,weightx=0,insets.left=4");
GridBagUtils.addToPanel(
dataSourceOptionsPanel,
boxSizeSpinner,
dataSourceOptionsConstraints,
"gridwidth=1,gridy=0,gridx=1,weightx=1,insets.left=0");
GridBagUtils.addToPanel(
dataSourceOptionsPanel,
computeInBetweenPoints,
dataSourceOptionsConstraints,
"gridwidth=2,gridy=1,gridx=0,weightx=2");
GridBagUtils.addToPanel(
dataSourceOptionsPanel,
useCorrelativeData,
dataSourceOptionsConstraints,
"gridy=2,insets.top=16");
GridBagUtils.addToPanel(
dataSourceOptionsPanel,
correlativeFieldSelector.pointDataSourceLabel,
dataSourceOptionsConstraints,
"gridy=3,insets.top=0,insets.left=4");
GridBagUtils.addToPanel(
dataSourceOptionsPanel,
correlativeFieldSelector.pointDataSourceList,
dataSourceOptionsConstraints,
"gridy=4,insets.left=4");
GridBagUtils.addToPanel(
dataSourceOptionsPanel,
correlativeFieldSelector.dataFieldLabel,
dataSourceOptionsConstraints,
"gridy=5,insets.left=4");
GridBagUtils.addToPanel(
dataSourceOptionsPanel,
correlativeFieldSelector.dataFieldList,
dataSourceOptionsConstraints,
"gridy=6,insets.left=4");
xAxisRangeControl
.getBindingContext()
.bind(PROPERTY_NAME_MARK_SEGMENTS, new JCheckBox("Mark segments"));
yAxisRangeControl
.getBindingContext()
.bind(PROPERTY_NAME_LOG_SCALED, new JCheckBox("Log10 scaled"));
JPanel displayOptionsPanel = GridBagUtils.createPanel();
GridBagConstraints displayOptionsConstraints =
GridBagUtils.createConstraints("anchor=SOUTH,fill=HORIZONTAL,weightx=1");
GridBagUtils.addToPanel(
displayOptionsPanel, xAxisRangeControl.getPanel(), displayOptionsConstraints, "gridy=0");
GridBagUtils.addToPanel(
displayOptionsPanel,
xAxisRangeControl
.getBindingContext()
.getBinding(PROPERTY_NAME_MARK_SEGMENTS)
.getComponents()[0],
displayOptionsConstraints,
"gridy=1");
GridBagUtils.addToPanel(
displayOptionsPanel, yAxisRangeControl.getPanel(), displayOptionsConstraints, "gridy=2");
GridBagUtils.addToPanel(
displayOptionsPanel,
yAxisRangeControl
.getBindingContext()
.getBinding(PROPERTY_NAME_LOG_SCALED)
.getComponents()[0],
displayOptionsConstraints,
"gridy=3");
JPanel middlePanel = GridBagUtils.createPanel();
GridBagConstraints middlePanelConstraints =
GridBagUtils.createConstraints("anchor=NORTHWEST,fill=HORIZONTAL,insets.top=2,weightx=1");
GridBagUtils.addToPanel(middlePanel, dataSourceOptionsPanel, middlePanelConstraints, "gridy=0");
GridBagUtils.addToPanel(
middlePanel, new JPanel(), middlePanelConstraints, "gridy=1,fill=VERTICAL,weighty=1");
GridBagUtils.addToPanel(
middlePanel,
displayOptionsPanel,
middlePanelConstraints,
"gridy=2,fill=HORIZONTAL,weighty=0");
return middlePanel;
}
@Override
protected void initComponents() {
getAlternativeView().initComponents();
dataset = new XYIntervalSeriesCollection();
this.chart =
ChartFactory.createXYLineChart(
CHART_TITLE,
"Path in pixels",
DEFAULT_SAMPLE_DATASET_NAME,
dataset,
PlotOrientation.VERTICAL,
true,
true,
false);
final XYPlot plot = chart.getXYPlot();
deviationRenderer = new DeviationRenderer();
deviationRenderer.setUseFillPaint(true);
deviationRenderer.setBaseToolTipGenerator(new XYPlotToolTipGenerator());
deviationRenderer.setSeriesLinesVisible(0, true);
deviationRenderer.setSeriesShapesVisible(0, false);
deviationRenderer.setSeriesStroke(0, new BasicStroke(1.0f));
deviationRenderer.setSeriesPaint(0, StatisticChartStyling.SAMPLE_DATA_PAINT);
deviationRenderer.setSeriesFillPaint(0, StatisticChartStyling.SAMPLE_DATA_FILL_PAINT);
pointRenderer = new XYErrorRenderer();
pointRenderer.setUseFillPaint(true);
pointRenderer.setBaseToolTipGenerator(new XYPlotToolTipGenerator());
pointRenderer.setSeriesLinesVisible(0, false);
pointRenderer.setSeriesShapesVisible(0, true);
pointRenderer.setSeriesStroke(0, new BasicStroke(1.0f));
pointRenderer.setSeriesPaint(0, StatisticChartStyling.SAMPLE_DATA_PAINT);
pointRenderer.setSeriesFillPaint(0, StatisticChartStyling.SAMPLE_DATA_FILL_PAINT);
pointRenderer.setSeriesShape(0, StatisticChartStyling.SAMPLE_DATA_POINT_SHAPE);
configureRendererForCorrelativeData(deviationRenderer);
configureRendererForCorrelativeData(pointRenderer);
plot.setNoDataMessage(NO_DATA_MESSAGE);
plot.setAxisOffset(new RectangleInsets(5, 5, 5, 5));
plot.setRenderer(deviationRenderer);
final AxisChangeListener axisListener =
new AxisChangeListener() {
@Override
public void axisChanged(AxisChangeEvent event) {
adjustAxisControlComponents();
}
};
final ValueAxis domainAxis = plot.getDomainAxis();
final ValueAxis rangeAxis = plot.getRangeAxis();
// allow transfer from bounds into min/max fields, if auto min/maxis enabled
domainAxis.setAutoRange(true);
rangeAxis.setAutoRange(true);
domainAxis.addChangeListener(axisListener);
rangeAxis.addChangeListener(axisListener);
intervalMarkers = new HashSet<IntervalMarker>();
xAxisRangeControl = new AxisRangeControl("X-Axis");
yAxisRangeControl = new AxisRangeControl("Y-Axis");
final PropertyChangeListener changeListener =
new PropertyChangeListener() {
@Override
public void propertyChange(PropertyChangeEvent evt) {
if (evt.getPropertyName().equals(PROPERTY_NAME_MARK_SEGMENTS)) {
updateDataSet();
}
if (evt.getPropertyName().equals(PROPERTY_NAME_LOG_SCALED)) {
updateScalingOfYAxis();
}
updateUIState();
}
};
xAxisRangeControl.getBindingContext().addPropertyChangeListener(changeListener);
xAxisRangeControl
.getBindingContext()
.getPropertySet()
.addProperty(Property.create(PROPERTY_NAME_MARK_SEGMENTS, false));
xAxisRangeControl
.getBindingContext()
.getPropertySet()
.getDescriptor(PROPERTY_NAME_MARK_SEGMENTS)
.setDescription("Toggle whether to mark segments");
yAxisRangeControl.getBindingContext().addPropertyChangeListener(changeListener);
yAxisRangeControl
.getBindingContext()
.getPropertySet()
.addProperty(Property.create(PROPERTY_NAME_LOG_SCALED, false));
yAxisRangeControl
.getBindingContext()
.getPropertySet()
.getDescriptor(PROPERTY_NAME_LOG_SCALED)
.setDescription("Toggle whether to use a logarithmic axis");
dataSourceConfig = new DataSourceConfig();
final BindingContext bindingContext =
new BindingContext(PropertyContainer.createObjectBacked(dataSourceConfig));
JPanel middlePanel = createMiddlePanel(bindingContext);
createUI(createChartPanel(chart), middlePanel, bindingContext);
isInitialized = true;
updateComponents();
}