private void setDialogValues(MultiInputDialog dialog, PlugInContext context) {
dialog.setSideBarDescription(sideBarText);
dialog.addLayerComboBox(CLAYER, context.getCandidateLayer(0), context.getLayerManager());
List listNumAttributes =
FeatureSchemaTools.getFieldsFromLayerWithoutGeometryAndString(context.getCandidateLayer(0));
Object valAttribute = listNumAttributes.size() > 0 ? listNumAttributes.iterator().next() : null;
final JComboBox jcb_attribute =
dialog.addComboBox(this.ATTRIBUTE, valAttribute, listNumAttributes, this.ATTRIBUTE);
if (listNumAttributes.size() == 0) jcb_attribute.setEnabled(false);
List listClassifiers = Classifier1D.getAvailableClassificationMethods();
Object valClassifier =
listNumAttributes.size() > 0 ? listNumAttributes.iterator().next() : null;
final JComboBox jcb_classifier =
dialog.addComboBox(this.CLASSIFIER, valClassifier, listClassifiers, this.CLASSIFIER);
dialog.addIntegerField(T2, this.ranges, 6, T2);
dialog.addCheckBox(this.OPTIMIZEWITHKMEANS, false);
dialog.addCheckBox(this.PROCESSNULLASZERO, false);
dialog
.getComboBox(CLAYER)
.addActionListener(
new ActionListener() {
public void actionPerformed(ActionEvent e) {
List list = getFieldsFromLayerWithoutGeometryAndString();
if (list.size() == 0) {
jcb_attribute.setModel(new DefaultComboBoxModel(new String[0]));
jcb_attribute.setEnabled(false);
} else {
jcb_attribute.setModel(new DefaultComboBoxModel(list.toArray(new String[0])));
jcb_attribute.setEnabled(true);
}
}
});
}
private List getFieldsFromLayerWithoutGeometryAndString() {
return FeatureSchemaTools.getFieldsFromLayerWithoutGeometryAndString(dialog.getLayer(CLAYER));
}
private FeatureDataset classifyAndCreatePlot(TaskMonitor monitor, final PlugInContext context)
throws Exception {
monitor.report(this.sCalculateBreaks);
// =============== get DATA and prepare ==============/
FeatureSchema fs = this.fc.getFeatureSchema();
AttributeType type = null;
if ((fs.getAttributeType(this.selAttribute) == AttributeType.DOUBLE)
|| (fs.getAttributeType(this.selAttribute) == AttributeType.INTEGER)) {
// -- move on
type = fs.getAttributeType(this.selAttribute);
} else {
// System.out.println("ClassifyAttributesPlugIn: wrong datatype of chosen attribute");
context.getWorkbenchFrame().warnUser(sWrongDataType);
return null;
}
int size = getFeatureCollectionSize(this.fc, this.selAttribute, this.nullAsZero);
if (size < 3) {
return null;
}
this.ranges = Math.min(this.ranges, size);
double[] data = new double[size];
double[][] plotdata = new double[2][size]; // for drawing 1-D scatter plot
int[] fID = new int[size];
int i = 0;
for (Iterator iter = fc.iterator(); iter.hasNext(); ) {
Feature f = (Feature) iter.next();
if (f.getAttribute(this.selAttribute) == null && !nullAsZero) continue;
fID[i] = f.getID();
plotdata[1][i] = 1;
Object val = f.getAttribute(this.selAttribute);
if (type == AttributeType.DOUBLE) {
if (val == null) data[i] = 0.0;
else data[i] = ((Double) val).doubleValue();
} else if (type == AttributeType.INTEGER) {
if (val == null) data[i] = 0;
else data[i] = ((Integer) val).intValue();
}
plotdata[0][i] = data[i];
i++;
}
/*
//-- some testdata
double[][] plotdata2 = new double[2][8];
double[] data2 = { -2, 4, 6, 5, 0, 10, 7, 1 };
double[] axis2 = { 1, 1, 1, 1, 1, 1, 1, 1 };
plotdata2[0] = data2;
plotdata2[1] = axis2;
*/
if (monitor.isCancelRequested()) {
return null;
}
// =============== find breaks according to chosen method ==============/
double[] limits = null;
if (this.useKmeans == false) {
if (this.selClassifier == Classifier1D.EQUAL_NUMBER) {
limits = Classifier1D.classifyEqualNumber(data, this.ranges);
} else if (this.selClassifier == Classifier1D.EQUAL_RANGE) {
limits = Classifier1D.classifyEqualRange(data, this.ranges);
} else if (this.selClassifier == Classifier1D.MEAN_STDEV) {
limits = Classifier1D.classifyMeanStandardDeviation(data, this.ranges);
} else if (this.selClassifier == Classifier1D.MAX_BREAKS) {
limits = Classifier1D.classifyMaxBreaks(data, this.ranges);
} else if (this.selClassifier == Classifier1D.JENKS_BREAKS) {
limits = Classifier1D.classifyNaturalBreaks(data, this.ranges);
}
} else {
if (this.selClassifier == Classifier1D.EQUAL_NUMBER) {
limits = Classifier1D.classifyKMeansOnExistingBreaks(data, this.ranges, 3);
} else if (this.selClassifier == Classifier1D.EQUAL_RANGE) {
limits = Classifier1D.classifyKMeansOnExistingBreaks(data, this.ranges, 2);
} else if (this.selClassifier == Classifier1D.MEAN_STDEV) {
limits = Classifier1D.classifyKMeansOnExistingBreaks(data, this.ranges, 4);
} else if (this.selClassifier == Classifier1D.MAX_BREAKS) {
limits = Classifier1D.classifyKMeansOnExistingBreaks(data, this.ranges, 1);
} else if (this.selClassifier == Classifier1D.JENKS_BREAKS) {
limits = Classifier1D.classifyKMeansOnExistingBreaks(data, this.ranges, 5);
}
}
if (monitor.isCancelRequested()) {
return null;
}
monitor.report(this.sDisplayBreaks);
// =============== plot data and class breaks ==============/
// -- do display here - in case we later want to allow interactive editing of the limits
// -- reformat limits
double[][] limits2show = new double[2][limits.length];
// -- due to bug in jmathplot add limits twice if only three classes = 2breaks are sought
if (limits.length == 2) {
limits2show = new double[2][limits.length * 2];
}
for (int j = 0; j < limits.length; j++) {
limits2show[0][j] = limits[j]; // x-axis
limits2show[1][j] =
Math.floor(
i / (4.0 * this.ranges)); // y-axis, estimate height of "bar" from number of items
// limits2show[1][j]= 1;
// -- due to bug in jmathplot add limits twice if only three classes are sought
if (limits.length == 2) {
limits2show[0][limits.length + j] = limits[j];
limits2show[1][limits.length + j] = Math.floor(i / (4.0 * this.ranges));
}
}
// =============== plot data and class breaks ==============/
// -- create plots
/*final Plot2DPanelOJ*/ plot = new Plot2DPanelOJ();
plot.addHistogramPlotOJ(
this.selAttribute, data, this.ranges * 3, context, selLayer, this.selAttribute);
plot.addScatterPlotOJ(this.sDatapoints, plotdata, fID, context, this.selLayer);
plot.addBarPlot(this.sClassbreaks, limits2show);
plot.plotToolBar.setVisible(true);
plot.setAxisLabel(0, this.selAttribute);
plot.setAxisLabel(1, this.sCount);
plot.addLegend("SOUTH");
// [mmichaud 2012-04-09] Moved in run method after the addLayer method
// to avoid the problem of the focus change
// JInternalFrame frame = new JInternalFrame(this.sHistogram);
// frame.setLayout(new BorderLayout());
// frame.add(plot, BorderLayout.CENTER);
// frame.setClosable(true);
// frame.setResizable(true);
// frame.setMaximizable(true);
// frame.setSize(450, 450);
// frame.setVisible(true);
// context.getWorkbenchFrame().addInternalFrame(frame);
// =============== classify data ==============/
if (monitor.isCancelRequested()) {
return null;
}
monitor.report(this.sClassifying);
int[] classes = Classifier1D.classifyData(data, limits);
// double[] classes = org.math.array.StatisticSample.one(data.length);
// context.getWorkbenchFrame().warnUser("classification not yet implemented");
// =============== add field ==============/
if (monitor.isCancelRequested()) {
return null;
}
monitor.report(sAddingField);
FeatureDataset fd = null;
ArrayList outData = new ArrayList();
FeatureSchema targetFSnew = null;
int count = 0;
Iterator iterp = fc.iterator();
String attname = this.selAttribute + "_" + this.selClassifier;
while (iterp.hasNext()) {
// count=count+1;
// if(monitor != null){
// monitor.report("item: " + count + " of " + size);
// }
Feature p = (Feature) iterp.next();
Object val = p.getAttribute(this.selAttribute);
if (val == null && !this.nullAsZero) continue;
else count++;
if (count == 1) {
FeatureSchema targetFs = p.getSchema();
targetFSnew = FeatureSchemaTools.copyFeatureSchema(targetFs);
if (targetFSnew.hasAttribute(attname)) {
// attribute will be overwriten
} else {
// add attribute
targetFSnew.addAttribute(attname, AttributeType.INTEGER);
}
}
// -- evaluate value for every polygon
Feature fcopy = FeatureSchemaTools.copyFeature(p, targetFSnew);
// fcopy.setAttribute(this.selClassifier, new Integer(classes[count-1]));
fcopy.setAttribute(attname, new Integer(classes[count - 1]));
outData.add(fcopy);
}
fd = new FeatureDataset(targetFSnew);
fd.addAll(outData);
return fd;
}