Example usage for javafx.scene.chart NumberAxis setTickUnit

List of usage examples for javafx.scene.chart NumberAxis setTickUnit

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Introduction

In this page you can find the example usage for javafx.scene.chart NumberAxis setTickUnit.

Prototype

public final void setTickUnit(double value)

Source Link

Usage

From source file:Main.java

public static void setupXAxis(NumberAxis numberAxis, long min, long max) {
    numberAxis.setAutoRanging(false);/*  ww  w  .  j  a v  a 2s  .com*/
    numberAxis.setTickUnit((max - min) / 20);
    numberAxis.setLowerBound(min);
    numberAxis.setUpperBound(max);
    numberAxis.setTickLabelFormatter(new StringConverter<Number>() {
        private final SimpleDateFormat format = new SimpleDateFormat("dd.MM.yyyy\nHH:mm:ss,SSS");

        @Override
        public String toString(Number object) {
            return format.format(new Date(object.longValue()));
        }

        @Override
        public Number fromString(String string) {
            return null;
        }
    });
}

From source file:gui.accessories.BattleSimFx.java

private BarChart createBarChart() {
    CategoryAxis xAxis = new CategoryAxis();
    xAxis.setCategories(FXCollections.<String>observableArrayList(tableModel.getColumnNames()));
    xAxis.setLabel("Year");

    double tickUnit = tableModel.getTickUnit();

    NumberAxis yAxis = new NumberAxis();
    yAxis.setTickUnit(tickUnit);
    yAxis.setLabel("Units Sold");

    final BarChart aChart = new BarChart(xAxis, yAxis, tableModel.getBarChartData());
    tableModel.addTableModelListener(new TableModelListener() {

        @Override/*w ww .j  a va  2 s . c o m*/
        public void tableChanged(TableModelEvent e) {
            if (e.getType() == TableModelEvent.UPDATE) {
                final int row = e.getFirstRow();
                final int column = e.getColumn();
                final Object value = ((SampleTableModel) e.getSource()).getValueAt(row, column);

                Platform.runLater(new Runnable() {
                    @Override
                    public void run() {
                        XYChart.Series<String, Number> s = (XYChart.Series<String, Number>) aChart.getData()
                                .get(row);
                        BarChart.Data data = s.getData().get(column);
                        data.setYValue(value);
                    }
                });
            }
        }
    });
    return aChart;
}

From source file:gui.accessories.GraphPopup.java

private BarChart createBarChartDynamic() {
    SampleTableModel tableModel = new SampleTableModel();
    CategoryAxis xAxis = new CategoryAxis();
    xAxis.setCategories(FXCollections.<String>observableArrayList(tableModel.getColumnNames()));
    xAxis.setLabel("Year");

    double tickUnit = tableModel.getTickUnit();

    NumberAxis yAxis = new NumberAxis();
    yAxis.setTickUnit(tickUnit);
    yAxis.setLabel("Units Sold");

    final BarChart aChart = new BarChart(xAxis, yAxis, tableModel.getBarChartData());
    aChart.setAnimated(true);//from  w  ww  . j ava  2s .  c  om
    tableModel.addTableModelListener(new TableModelListener() {

        @Override
        public void tableChanged(TableModelEvent e) {
            if (e.getType() == TableModelEvent.UPDATE) {
                final int row = e.getFirstRow();
                final int column = e.getColumn();
                final Object value = ((SampleTableModel) e.getSource()).getValueAt(row, column);

                Platform.runLater(new Runnable() {
                    @Override
                    public void run() {
                        XYChart.Series<String, Number> s = (XYChart.Series<String, Number>) aChart.getData()
                                .get(row);
                        BarChart.Data data = s.getData().get(column);
                        data.setYValue(value);
                    }
                });
            }
        }
    });
    return aChart;
}

From source file:SampleTableModel.java

private BarChart createBarChart() {
    CategoryAxis xAxis = new CategoryAxis();
    xAxis.setCategories(FXCollections.<String>observableArrayList(tableModel.getColumnNames()));
    xAxis.setLabel("Year");

    double tickUnit = tableModel.getTickUnit();

    NumberAxis yAxis = new NumberAxis();
    yAxis.setTickUnit(tickUnit);
    yAxis.setLabel("Units Sold");

    final BarChart chart = new BarChart(xAxis, yAxis, tableModel.getBarChartData());
    tableModel.addTableModelListener(new TableModelListener() {

        public void tableChanged(TableModelEvent e) {
            if (e.getType() == TableModelEvent.UPDATE) {
                final int row = e.getFirstRow();
                final int column = e.getColumn();
                final Object value = ((SampleTableModel) e.getSource()).getValueAt(row, column);

                Platform.runLater(new Runnable() {
                    public void run() {
                        XYChart.Series<String, Number> s = (XYChart.Series<String, Number>) chart.getData()
                                .get(row);
                        BarChart.Data data = s.getData().get(column);
                        data.setYValue(value);
                    }//  w w w.j  a  v a2  s.  co m
                });
            }
        }
    });
    return chart;
}

From source file:gui.accessories.GraphPopup.java

private BarChart createBarChart() {
    final CategoryAxis xAxis = new CategoryAxis();
    final NumberAxis yAxis = new NumberAxis();

    List<Nacao> nations = new ArrayList<Nacao>(WorldFacadeCounselor.getInstance().getNacoes().values());
    ComparatorFactory.getComparatorNationVictoryPointsSorter(nations);
    xAxis.setCategories(FXCollections.<String>observableList(getNames(nations)));

    //format axis
    yAxis.setTickUnit(200);
    yAxis.setLabel(labels.getString("PONTOS.VITORIA"));
    //xAxis.setLabel(labels.getString("NACAO"));
    xAxis.setTickMarkVisible(false);/*from  www .  j  av  a 2s.  co  m*/

    //Series 1
    XYChart.Series<Number, String> series = new XYChart.Series();
    //series1.setName("XYChart.Series 1");

    for (Nacao nation : WorldFacadeCounselor.getInstance().getNacoes().values()) {
        final XYChart.Data data = new XYChart.Data(nation.getPontosVitoria(), nation.getNome());
        series.getData().add(data);
    }

    //
    final BarChart<Number, String> stackedBarChart = new BarChart<Number, String>(yAxis, xAxis);
    //        stackedBarChart.setTitle(labels.getString("PONTOS.VITORIA"));
    stackedBarChart.getData().addAll(series);
    stackedBarChart.setLegendVisible(false);
    //        stackedBarChart.setCategoryGap(0.2);

    return stackedBarChart;
}

From source file:gui.accessories.GraphPopup.java

private StackedBarChart createStackedBarChart() {
    final CategoryAxis xAxis = new CategoryAxis();
    final NumberAxis yAxis = new NumberAxis();

    List<Nacao> nations = new ArrayList<Nacao>(WorldFacadeCounselor.getInstance().getNacoes().values());
    ComparatorFactory.getComparatorNationVictoryPointsSorter(nations);
    xAxis.setCategories(FXCollections.<String>observableList(getNames(nations)));

    //format axis
    yAxis.setTickUnit(200);
    yAxis.setLabel(labels.getString("PONTOS.VITORIA"));
    //xAxis.setLabel(labels.getString("NACAO"));
    xAxis.setTickMarkVisible(false);/*from ww w.  ja  v a 2s .com*/

    //Series 1
    XYChart.Series<Number, String> series = new XYChart.Series();
    //series1.setName("XYChart.Series 1");

    for (Nacao nation : WorldFacadeCounselor.getInstance().getNacoes().values()) {
        final XYChart.Data data = new XYChart.Data(nation.getPontosVitoria(), nation.getNome());
        series.getData().add(data);
    }

    //
    final StackedBarChart<Number, String> stackedBarChart = new StackedBarChart<Number, String>(yAxis, xAxis);
    //        stackedBarChart.setTitle(labels.getString("PONTOS.VITORIA"));
    stackedBarChart.getData().addAll(series);
    stackedBarChart.setLegendVisible(false);
    //        stackedBarChart.setCategoryGap(0.2);

    return stackedBarChart;
}

From source file:qupath.lib.gui.panels.survival.KaplanMeierDisplay.java

@SuppressWarnings("unchecked")
private void generatePlot() {

    KaplanMeierDisplay.ScoreData newScoreData = scoreData;

    // If we have a hierarchy, update the scores with the most recent data
    if (hierarchy != null) {
        List<TMACoreObject> cores = PathObjectTools.getTMACoreObjects(hierarchy, false);
        double[] survival = new double[cores.size()];
        boolean[] censored = new boolean[cores.size()];
        double[] scores = new double[cores.size()];

        //            // Optionally sort by scores... helps a bit when debugging e.g. p-values, Hazard ratios etc.
        //            cores.sort((c1, c2) -> Double.compare(c1.getMeasurementList().getMeasurementValue(scoreColumn), c2.getMeasurementList().getMeasurementValue(scoreColumn)));

        //            scoreColumn = "Positive %";
        //         scoreColumn = "RoughScore";
        for (int i = 0; i < cores.size(); i++) {
            TMACoreObject core = cores.get(i);
            MeasurementList ml = core.getMeasurementList();
            survival[i] = core.getMeasurementList().getMeasurementValue(survivalColumn);
            double censoredValue = core.getMeasurementList().getMeasurementValue(censoredColumn);
            boolean hasCensoredValue = !Double.isNaN(censoredValue)
                    && (censoredValue == 0 || censoredValue == 1);
            censored[i] = censoredValue != 0;
            if (!hasCensoredValue) {
                // If we don't have a censored value, ensure we mask out everything else
                scores[i] = Double.NaN;
                survival[i] = Double.NaN;
            } else if (ml.containsNamedMeasurement(scoreColumn))
                // Get the score if we can
                scores[i] = ml.getMeasurementValue(scoreColumn);
            else {
                //               // Try to compute score if we need to
                //               Map<String, Number> map = ROIMeaningfulMeasurements.getPathClassSummaryMeasurements(core.getChildObjects(), true);
                //               Number value = map.get(scoreColumn);
                //               if (value == null)
                scores[i] = Double.NaN;
                //               else
                //                  scores[i] = value.doubleValue();
            }/*  w  ww .  j a  v a  2s. c o  m*/
        }
        // Mask out any scores that don't have associated survival data
        for (int i = 0; i < survival.length; i++) {
            if (Double.isNaN(survival[i]))
                scores[i] = Double.NaN;
        }

        newScoreData = new ScoreData(scores, survival, censored);

    }

    if (newScoreData == null || newScoreData.scores.length == 0)
        return;

    //         KaplanMeier kmHigh = new KaplanMeier("Above threshold");
    //         KaplanMeier kmLow = new KaplanMeier("Below threshold");

    double[] quartiles = StatisticsHelper.getQuartiles(newScoreData.scores);
    double q1 = quartiles[0];
    double median = quartiles[1];
    double q3 = quartiles[2];
    double[] thresholds;
    if (params != null) {
        Object thresholdMethod = params.getChoiceParameterValue("scoreThresholdMethod");
        if (thresholdMethod.equals("Median")) {
            //               panelParams.setNumericParameterValue("scoreThreshold", median);
            //               ((DoubleParameter)params.getParameters().get("scoreThreshold")).setValue(median); // TODO: UPDATE DIALOG!
            thresholds = new double[] { median };
        } else if (thresholdMethod.equals("Tertiles")) {
            //                  ((DoubleParameter)params.getParameters().get("scoreThreshold")).setValue(median); // TODO: UPDATE DIALOG!
            thresholds = StatisticsHelper.getTertiles(newScoreData.scores);
        } else if (thresholdMethod.equals("Quartiles")) {
            //               ((DoubleParameter)params.getParameters().get("scoreThreshold")).setValue(median); // TODO: UPDATE DIALOG!
            thresholds = new double[] { q1, median, q3 };
        } else if (thresholdMethod.equals("Manual (1)")) {
            thresholds = new double[] { params.getDoubleParameterValue("threshold1") };
        } else if (thresholdMethod.equals("Manual (2)")) {
            thresholds = new double[] { params.getDoubleParameterValue("threshold1"),
                    params.getDoubleParameterValue("threshold2") };
        } else //if (thresholdMethod.equals("Manual (3)")) {
            thresholds = new double[] { params.getDoubleParameterValue("threshold1"),
                    params.getDoubleParameterValue("threshold2"),
                    params.getDoubleParameterValue("threshold3") };
    } else
        thresholds = new double[] { median };

    double minVal = Double.POSITIVE_INFINITY;
    double maxVal = Double.NEGATIVE_INFINITY;
    int numNonNaN = 0;
    for (double d : newScoreData.scores) {
        if (Double.isNaN(d))
            continue;
        if (d < minVal)
            minVal = d;
        if (d > maxVal)
            maxVal = d;
        numNonNaN++;
    }
    boolean scoresValid = maxVal > minVal; // If not this, we don't have valid scores that we can work with

    double maxTimePoint = 0;
    for (double d : newScoreData.survival) {
        if (Double.isNaN(d))
            continue;
        if (d > maxTimePoint)
            maxTimePoint = d;
    }
    if (panelParams != null
            && maxTimePoint > ((IntParameter) params.getParameters().get("censorTimePoints")).getUpperBound()) {
        panelParams.setNumericParameterValueRange("censorTimePoints", 0, Math.ceil(maxTimePoint));
    }

    // Optionally censor at specified time
    double censorThreshold = params == null ? maxTimePoint : params.getIntParameterValue("censorTimePoints");

    // Compute log-rank p-values for *all* possible thresholds
    // Simultaneously determine the threshold that yields the lowest p-value, 
    // resolving ties in favour of a more even split between high/low numbers of events
    boolean pValuesChanged = false;
    if (calculateAllPValues) {
        if (!(pValues != null && pValueThresholds != null && newScoreData.equals(scoreData)
                && censorThreshold == lastPValueCensorThreshold)) {
            Map<Double, Double> mapLogRank = new TreeMap<>();
            Set<Double> setObserved = new HashSet<>();
            for (int i = 0; i < newScoreData.scores.length; i++) {
                Double d = newScoreData.scores[i];
                boolean observed = !newScoreData.censored[i] && newScoreData.survival[i] < censorThreshold;
                if (observed)
                    setObserved.add(d);
                if (mapLogRank.containsKey(d))
                    continue;
                List<KaplanMeierData> kmsTemp = splitByThresholds(newScoreData, new double[] { d },
                        censorThreshold, false);
                //               if (kmsTemp.get(1).nObserved() == 0 || kmsTemp.get(1).nObserved() == 0)
                //                  continue;
                LogRankResult test = LogRankTest.computeLogRankTest(kmsTemp.get(0), kmsTemp.get(1));
                double pValue = test.getPValue();
                //                  double pValue = test.hazardRatio < 1 ? test.hazardRatio : 1.0/test.hazardRatio; // Checking usefulness of Hazard ratios...
                if (!Double.isFinite(pValue))
                    continue;
                //               if (!Double.isFinite(test.getHazardRatio())) {
                ////                  continue;
                //                  pValue = Double.NaN;
                //               }
                mapLogRank.put(d, pValue);
            }
            pValueThresholds = new double[mapLogRank.size()];
            pValues = new double[mapLogRank.size()];
            pValueThresholdsObserved = new boolean[mapLogRank.size()];
            int count = 0;
            for (Entry<Double, Double> entry : mapLogRank.entrySet()) {
                pValueThresholds[count] = entry.getKey();
                pValues[count] = entry.getValue();
                if (setObserved.contains(entry.getKey()))
                    pValueThresholdsObserved[count] = true;
                count++;
            }

            // Find the longest 'significant' stretch
            int maxSigCount = 0;
            int maxSigInd = -1;
            int sigCurrent = 0;
            int[] sigCount = new int[pValues.length];
            for (int i = 0; i < pValues.length; i++) {
                if (pValues[i] < 0.05) {
                    sigCurrent++;
                    sigCount[i] = sigCurrent;
                    if (sigCurrent > maxSigCount) {
                        maxSigCount = sigCurrent;
                        maxSigInd = i;
                    }
                } else
                    sigCurrent = 0;
            }
            if (maxSigCount == 0) {
                logger.info("No p-values < 0.05");
            } else {
                double minThresh = maxSigInd - maxSigCount < 0 ? pValueThresholds[0] - 0.0000001
                        : pValueThresholds[maxSigInd - maxSigCount];
                double maxThresh = pValueThresholds[maxSigInd];
                int nBetween = 0;
                int nBetweenObserved = 0;
                for (int i = 0; i < newScoreData.scores.length; i++) {
                    if (newScoreData.scores[i] > minThresh && newScoreData.scores[i] <= maxThresh) {
                        nBetween++;
                        if (newScoreData.survival[i] < censorThreshold && !newScoreData.censored[i])
                            nBetweenObserved++;
                    }
                }
                logger.info("Longest stretch of p-values < 0.05: {} - {} ({} entries, {} observed)", minThresh,
                        maxThresh, nBetween, nBetweenObserved);
            }

            pValuesSmoothed = new double[pValues.length];
            Arrays.fill(pValuesSmoothed, Double.NaN);
            int n = (pValues.length / 20) * 2 + 1;
            logger.info("Smoothing log-rank test p-values by " + n);
            for (int i = n / 2; i < pValues.length - n / 2; i++) {
                double sum = 0;
                for (int k = i - n / 2; k < i - n / 2 + n; k++) {
                    sum += pValues[k];
                }
                pValuesSmoothed[i] = sum / n;
            }
            //               for (int i = 0; i < pValues.length; i++) {
            //                  double sum = 0;
            //                  for (int k = Math.max(0, i-n/2); k < Math.min(pValues.length, i-n/2+n); k++) {
            //                     sum += pValues[k];
            //                  }
            //                  pValuesSmoothed[i] = sum/n;
            //               }
            //               pValues = pValuesSmoothed;

            lastPValueCensorThreshold = censorThreshold;
            pValuesChanged = true;
        }
    } else {
        lastPValueCensorThreshold = Double.NaN;
        pValueThresholds = null;
        pValues = null;
    }

    //            if (params != null && !Double.isNaN(bestThreshold) && (params.getChoiceParameterValue("scoreThresholdMethod").equals("Lowest p-value")))
    if (params != null && (params.getChoiceParameterValue("scoreThresholdMethod").equals("Lowest p-value"))) {
        int bestIdx = -1;
        double bestPValue = Double.POSITIVE_INFINITY;
        for (int i = pValueThresholds.length / 10; i < pValueThresholds.length * 9 / 10; i++) {
            if (pValues[i] < bestPValue) {
                bestIdx = i;
                bestPValue = pValues[i];
            }
        }
        thresholds = bestIdx >= 0 ? new double[] { pValueThresholds[bestIdx] } : new double[0];
    } else if (params != null
            && (params.getChoiceParameterValue("scoreThresholdMethod").equals("Lowest smoothed p-value"))) {
        int bestIdx = -1;
        double bestPValue = Double.POSITIVE_INFINITY;
        for (int i = pValueThresholds.length / 10; i < pValueThresholds.length * 9 / 10; i++) {
            if (pValuesSmoothed[i] < bestPValue) {
                bestIdx = i;
                bestPValue = pValuesSmoothed[i];
            }
        }
        thresholds = bestIdx >= 0 ? new double[] { pValueThresholds[bestIdx] } : new double[0];
    }

    // Split into different curves using the provided thresholds
    List<KaplanMeierData> kms = splitByThresholds(newScoreData, thresholds, censorThreshold,
            params != null && "Quartiles".equals(params.getChoiceParameterValue("scoreThresholdMethod")));

    //         for (KaplanMeier km : kms)
    //            km.censorAtTime(censorThreshold);
    ////         kmHigh.censorAtTime(censorThreshold);
    ////         kmLow.censorAtTime(censorThreshold);

    //         logger.info("High: " + kmHigh.toString());
    //         logger.info("Low: " + kmLow.toString());
    //         logger.info("Log rank comparison: {}", LogRankTest.computeLogRankTest(kmLow, kmHigh));

    if (plotter == null) {
        plotter = new KaplanMeierChartWrapper(survivalColumn + " time");
        //            plotter.setBorder(BorderFactory.createTitledBorder("Survival plot"));
        //            plotter.getCanvas().setWidth(300);
        //            plotter.getCanvas().setHeight(300);
    }
    KaplanMeierData[] kmArray = new KaplanMeierData[kms.size()];
    plotter.setKaplanMeierCurves(survivalColumn + " time", kms.toArray(kmArray));
    tableModel.setSurvivalCurves(thresholds,
            params != null && params.getChoiceParameterValue("scoreThresholdMethod").equals("Lowest p-value"),
            kmArray);

    // Bar width determined using 'Freedman and Diaconis' rule' (but overridden if this gives < 16 bins...)
    double barWidth = (2 * q3 - q1) * Math.pow(numNonNaN, -1.0 / 3.0);
    int nBins = 100;
    if (!Double.isNaN(barWidth))
        barWidth = (int) Math.max(16, Math.ceil((maxVal - minVal) / barWidth));
    Histogram histogram = scoresValid ? new Histogram(newScoreData.scores, nBins) : null;
    if (histogramPanel == null) {
        GridPane paneHistogram = new GridPane();
        histogramPanel = new HistogramPanelFX();
        histogramPanel.getChart().setAnimated(false);
        histogramWrapper = new ThresholdedChartWrapper(histogramPanel.getChart());
        for (ObservableNumberValue val : threshProperties)
            histogramWrapper.addThreshold(val, ColorToolsFX.getCachedColor(240, 0, 0, 128));
        histogramWrapper.getPane().setPrefHeight(150);
        paneHistogram.add(histogramWrapper.getPane(), 0, 0);
        Tooltip.install(histogramPanel.getChart(), new Tooltip("Distribution of scores"));
        GridPane.setHgrow(histogramWrapper.getPane(), Priority.ALWAYS);
        GridPane.setVgrow(histogramWrapper.getPane(), Priority.ALWAYS);

        NumberAxis xAxis = new NumberAxis();
        xAxis.setLabel("Score threshold");
        NumberAxis yAxis = new NumberAxis();
        yAxis.setLowerBound(0);
        yAxis.setUpperBound(1);
        yAxis.setTickUnit(0.1);
        yAxis.setAutoRanging(false);
        yAxis.setLabel("P-value");
        chartPValues = new LineChart<>(xAxis, yAxis);
        chartPValues.setAnimated(false);
        chartPValues.setLegendVisible(false);

        // Make chart so it can be navigated
        ChartToolsFX.makeChartInteractive(chartPValues, xAxis, yAxis);
        pValuesChanged = true;
        Tooltip.install(chartPValues, new Tooltip(
                "Distribution of p-values (log-rank test) comparing low vs. high for all possible score thresholds"));
        //            chartPValues.getYAxis().setAutoRanging(false);
        pValuesWrapper = new ThresholdedChartWrapper(chartPValues);
        for (ObservableNumberValue val : threshProperties)
            pValuesWrapper.addThreshold(val, ColorToolsFX.getCachedColor(240, 0, 0, 128));

        pValuesWrapper.getPane().setPrefHeight(150);
        paneHistogram.add(pValuesWrapper.getPane(), 0, 1);
        GridPane.setHgrow(pValuesWrapper.getPane(), Priority.ALWAYS);
        GridPane.setVgrow(pValuesWrapper.getPane(), Priority.ALWAYS);

        ContextMenu popup = new ContextMenu();
        ChartToolsFX.addChartExportMenu(chartPValues, popup);

        RadioMenuItem miZoomY1 = new RadioMenuItem("0-1");
        miZoomY1.setOnAction(e -> {
            yAxis.setAutoRanging(false);
            yAxis.setUpperBound(1);
            yAxis.setTickUnit(0.2);
        });
        RadioMenuItem miZoomY05 = new RadioMenuItem("0-0.5");
        miZoomY05.setOnAction(e -> {
            yAxis.setAutoRanging(false);
            yAxis.setUpperBound(0.5);
            yAxis.setTickUnit(0.1);
        });
        RadioMenuItem miZoomY02 = new RadioMenuItem("0-0.2");
        miZoomY02.setOnAction(e -> {
            yAxis.setAutoRanging(false);
            yAxis.setUpperBound(0.2);
            yAxis.setTickUnit(0.05);
        });
        RadioMenuItem miZoomY01 = new RadioMenuItem("0-0.1");
        miZoomY01.setOnAction(e -> {
            yAxis.setAutoRanging(false);
            yAxis.setUpperBound(0.1);
            yAxis.setTickUnit(0.05);
        });
        RadioMenuItem miZoomY005 = new RadioMenuItem("0-0.05");
        miZoomY005.setOnAction(e -> {
            yAxis.setAutoRanging(false);
            yAxis.setUpperBound(0.05);
            yAxis.setTickUnit(0.01);
        });
        RadioMenuItem miZoomY001 = new RadioMenuItem("0-0.01");
        miZoomY001.setOnAction(e -> {
            yAxis.setAutoRanging(false);
            yAxis.setUpperBound(0.01);
            yAxis.setTickUnit(0.005);
        });
        ToggleGroup tgZoom = new ToggleGroup();
        miZoomY1.setToggleGroup(tgZoom);
        miZoomY05.setToggleGroup(tgZoom);
        miZoomY02.setToggleGroup(tgZoom);
        miZoomY01.setToggleGroup(tgZoom);
        miZoomY005.setToggleGroup(tgZoom);
        miZoomY001.setToggleGroup(tgZoom);
        Menu menuZoomY = new Menu("Set y-axis range");
        menuZoomY.getItems().addAll(miZoomY1, miZoomY05, miZoomY02, miZoomY01, miZoomY005, miZoomY001);

        MenuItem miCopyData = new MenuItem("Copy chart data");
        miCopyData.setOnAction(e -> {
            String dataString = ChartToolsFX.getChartDataAsString(chartPValues);
            ClipboardContent content = new ClipboardContent();
            content.putString(dataString);
            Clipboard.getSystemClipboard().setContent(content);
        });

        popup.getItems().addAll(miCopyData, menuZoomY);
        chartPValues.setOnContextMenuRequested(e -> {
            popup.show(chartPValues, e.getScreenX(), e.getScreenY());
        });

        for (int col = 0; col < tableModel.getColumnCount(); col++) {
            TableColumn<Integer, String> column = new TableColumn<>(tableModel.getColumnName(col));
            int colNumber = col;
            column.setCellValueFactory(
                    new Callback<CellDataFeatures<Integer, String>, ObservableValue<String>>() {
                        @Override
                        public ObservableValue<String> call(CellDataFeatures<Integer, String> p) {
                            return new SimpleStringProperty(
                                    (String) tableModel.getValueAt(p.getValue(), colNumber));
                        }
                    });

            column.setCellFactory(new Callback<TableColumn<Integer, String>, TableCell<Integer, String>>() {

                @Override
                public TableCell<Integer, String> call(TableColumn<Integer, String> param) {
                    TableCell<Integer, String> cell = new TableCell<Integer, String>() {
                        @Override
                        protected void updateItem(String item, boolean empty) {
                            super.updateItem(item, empty);
                            setText(item);
                            setTooltip(new Tooltip(item));
                        }
                    };
                    return cell;
                }
            });

            table.getColumns().add(column);
        }
        table.setPrefHeight(250);
        table.setColumnResizePolicy(TableView.CONSTRAINED_RESIZE_POLICY);
        table.maxHeightProperty().bind(table.prefHeightProperty());

        params = new ParameterList();
        //         maxTimePoint = 0;
        //         for (TMACoreObject core : hierarchy.getTMAGrid().getTMACoreList()) {
        //            double os = core.getMeasurementList().getMeasurementValue(TMACoreObject.KEY_OVERALL_SURVIVAL);
        //            double rfs = core.getMeasurementList().getMeasurementValue(TMACoreObject.KEY_RECURRENCE_FREE_SURVIVAL);
        //            if (os > maxTimePoint)
        //               maxTimePoint = os;
        //            if (rfs > maxTimePoint)
        //               maxTimePoint = rfs;
        //         }
        params.addIntParameter("censorTimePoints", "Max censored time", (int) (censorThreshold + 0.5), null, 0,
                (int) Math.ceil(maxTimePoint), "Latest time point beyond which data will be censored");
        //            params.addChoiceParameter("scoreThresholdMethod", "Threshold method", "Manual", Arrays.asList("Manual", "Median", "Log-rank test"));
        if (calculateAllPValues)
            // Don't include "Lowest smoothed p-value" - it's not an established method and open to misinterpretation...
            params.addChoiceParameter("scoreThresholdMethod", "Threshold method", "Median",
                    Arrays.asList("Manual (1)", "Manual (2)", "Manual (3)", "Median", "Tertiles", "Quartiles",
                            "Lowest p-value"));
        //            params.addChoiceParameter("scoreThresholdMethod", "Threshold method", "Median", Arrays.asList("Manual (1)", "Manual (2)", "Manual (3)", "Median", "Tertiles", "Quartiles", "Lowest p-value", "Lowest smoothed p-value"));
        else
            params.addChoiceParameter("scoreThresholdMethod", "Threshold method", "Median",
                    Arrays.asList("Manual (1)", "Manual (2)", "Manual (3)", "Median", "Tertiles", "Quartiles"));
        params.addDoubleParameter("threshold1", "Threshold 1",
                thresholds.length > 0 ? thresholds[0] : (minVal + maxVal) / 2, null,
                "Threshold to distinguish between patient groups");
        params.addDoubleParameter("threshold2", "Threshold 2",
                thresholds.length > 1 ? thresholds[1] : (minVal + maxVal) / 2, null,
                "Threshold to distinguish between patient groups");
        params.addDoubleParameter("threshold3", "Threshold 3",
                thresholds.length > 2 ? thresholds[2] : (minVal + maxVal) / 2, null,
                "Threshold to distinguish between patient groups");
        params.addBooleanParameter("showAtRisk", "Show at risk", plotter.getShowAtRisk(),
                "Show number of patients at risk below the plot");
        params.addBooleanParameter("showTicks", "Show censored ticks", plotter.getShowCensoredTicks(),
                "Show ticks to indicate censored data");
        params.addBooleanParameter("showKey", "Show key", plotter.getShowKey(),
                "Show key indicating display of each curve");
        //            params.addBooleanParameter("useColor", "Use color", plotter.getUseColor(), "Show each curve in a different color");
        //         params.addBooleanParameter("useStrokes", "Use strokes", plotter.getUseStrokes(), "Show each curve with a differed line stroke");
        // Hide threshold parameters if threshold can't be used
        if (!scoresValid) {
            //               params.setHiddenParameters(true, "scoreThresholdMethod", "scoreThreshold");
            histogramPanel.getChart().setVisible(false);
        }
        panelParams = new ParameterPanelFX(params);
        panelParams.addParameterChangeListener(this);
        updateThresholdsEnabled();

        for (int i = 0; i < threshProperties.length; i++) {
            String p = "threshold" + (i + 1);
            threshProperties[i].addListener((v, o, n) -> {
                if (interactiveThresholds()) {
                    // Need to do a decent double check with tolerance to text field value changing while typing
                    if (!GeneralTools.almostTheSame(params.getDoubleParameterValue(p), n.doubleValue(), 0.0001))
                        panelParams.setNumericParameterValue(p, n);
                }
            });
        }

        BorderPane paneBottom = new BorderPane();
        TitledPane paneOptions = new TitledPane("Options", panelParams.getPane());
        //            paneOptions.setCollapsible(false);
        Pane paneCanvas = new StackPane();
        paneCanvas.getChildren().add(plotter.getCanvas());

        GridPane paneLeft = new GridPane();
        paneLeft.add(paneOptions, 0, 0);
        paneLeft.add(table, 0, 1);
        GridPane.setHgrow(paneOptions, Priority.ALWAYS);
        GridPane.setHgrow(table, Priority.ALWAYS);
        paneBottom.setLeft(paneLeft);
        paneBottom.setCenter(paneHistogram);

        paneMain.setCenter(paneCanvas);
        paneMain.setBottom(paneBottom);

        paneMain.setPadding(new Insets(10, 10, 10, 10));
    } else if (thresholds.length > 0) {
        // Ensure the sliders/text fields are set sensibly
        if (!GeneralTools.almostTheSame(thresholds[0], params.getDoubleParameterValue("threshold1"), 0.0001)) {
            panelParams.setNumericParameterValue("threshold1", thresholds[0]);
        }
        if (thresholds.length > 1 && !GeneralTools.almostTheSame(thresholds[1],
                params.getDoubleParameterValue("threshold2"), 0.0001)) {
            panelParams.setNumericParameterValue("threshold2", thresholds[1]);
        }
        if (thresholds.length > 2 && !GeneralTools.almostTheSame(thresholds[2],
                params.getDoubleParameterValue("threshold3"), 0.0001)) {
            panelParams.setNumericParameterValue("threshold3", thresholds[2]);
        }
    }

    if (histogram != null) {
        histogramPanel.getHistogramData()
                .setAll(HistogramPanelFX.createHistogramData(histogram, false, (Color) null));
        histogramPanel.getChart().getXAxis().setLabel(scoreColumn);
        histogramPanel.getChart().getYAxis().setLabel("Count");

        ChartToolsFX.addChartExportMenu(histogramPanel.getChart(), null);

        //            histogramWrapper.setVerticalLines(thresholds, ColorToolsFX.getCachedColor(240, 0, 0, 128));
        // Deal with threshold adjustment
        //            histogramWrapper.getThresholds().addListener((Observable o) -> generatePlot());
    }

    if (pValues != null) {
        // TODO: Raise earlier where p-value calculation is
        if (pValuesChanged) {
            ObservableList<XYChart.Data<Number, Number>> data = FXCollections.observableArrayList();
            for (int i = 0; i < pValueThresholds.length; i++) {
                double pValue = pValues[i];
                if (Double.isNaN(pValue))
                    continue;
                data.add(new XYChart.Data<>(pValueThresholds[i], pValue, pValueThresholdsObserved[i]));
            }

            ObservableList<XYChart.Data<Number, Number>> dataSmoothed = null;
            if (pValuesSmoothed != null) {
                dataSmoothed = FXCollections.observableArrayList();
                for (int i = 0; i < pValueThresholds.length; i++) {
                    double pValueSmoothed = pValuesSmoothed[i];
                    if (Double.isNaN(pValueSmoothed))
                        continue;
                    dataSmoothed.add(new XYChart.Data<>(pValueThresholds[i], pValueSmoothed));
                }
            }

            // Don't bother showing the smoothed data... it tends to get in the way...
            //            if (dataSmoothed != null)
            //               chartPValues.getData().setAll(new XYChart.Series<>("P-values", data), new XYChart.Series<>("Smoothed P-values", dataSmoothed));
            //            else
            chartPValues.getData().setAll(new XYChart.Series<>("P-values", data));

            // Add line to show 0.05 significance threshold
            if (pValueThresholds.length > 1) {
                Data<Number, Number> sigData1 = new Data<>(pValueThresholds[0], 0.05);
                Data<Number, Number> sigData2 = new Data<>(pValueThresholds[pValueThresholds.length - 1], 0.05);
                XYChart.Series<Number, Number> dataSignificant = new XYChart.Series<>("Signficance 0.05",
                        FXCollections.observableArrayList(sigData1, sigData2));
                chartPValues.getData().add(dataSignificant);
                sigData1.getNode().setVisible(false);
                sigData2.getNode().setVisible(false);
            }

            //               chartPValues.getData().get(0).getNode().setVisible(true);

            //               pValuesWrapper.clearThresholds();
            for (XYChart.Data<Number, Number> dataPoint : data) {
                if (!Boolean.TRUE.equals(dataPoint.getExtraValue()))
                    dataPoint.getNode().setVisible(false);
            }
            //            if (dataSmoothed != null) {
            //               for (XYChart.Data<Number, Number> dataPoint : dataSmoothed) {
            //                  dataPoint.getNode().setVisible(false);
            //               }
            //               chartPValues.getData().get(1).getNode().setOpacity(0.5);
            //            }

            //               int count = 0;               
            //               for (int i = 0; i < pValueThresholds.length; i++) {
            //                  double pValue = pValues[i];
            //                  if (Double.isNaN(pValue))
            //                     continue;
            //                  boolean observed = pValueThresholdsObserved[i];
            ////                  if (observed)
            ////                     pValuesWrapper.addThreshold(new ReadOnlyDoubleWrapper(pValueThresholds[i]), Color.rgb(0, 0, 0, 0.05));
            //                  
            //                  if (!observed) {
            ////                     StackPane pane = (StackPane)data.get(count).getNode();
            ////                     pane.setEffect(new DropShadow());
            //                     data.get(count).getNode().setVisible(false);
            //                  }
            //                  count++;
            //               }
        }

        for (int i = 0; i < threshProperties.length; i++) {
            if (i < thresholds.length)
                threshProperties[i].set(thresholds[i]);
            else
                threshProperties[i].set(Double.NaN);
        }
        boolean isInteractive = interactiveThresholds();
        histogramWrapper.setIsInteractive(isInteractive);
        pValuesWrapper.setIsInteractive(isInteractive);

        chartPValues.setVisible(true);
    }
    //         else
    //            chartPValues.setVisible(false);

    // Store values for next time
    scoreData = newScoreData;
}