List of usage examples for org.jfree.chart.plot XYPlot setDomainAxis
public void setDomainAxis(ValueAxis axis)
From source file:org.esa.beam.visat.toolviews.stat.ScatterPlotPanel.java
private void createUI() { final XYPlot plot = getPlot(); plot.setAxisOffset(new RectangleInsets(5, 5, 5, 5)); plot.setNoDataMessage(NO_DATA_MESSAGE); plot.setDataset(CONFIDENCE_DSINDEX, acceptableDeviationDataset); plot.setDataset(REGRESSION_DSINDEX, regressionDataset); plot.setDataset(SCATTERPOINTS_DSINDEX, scatterpointsDataset); plot.addAnnotation(r2Annotation); final DeviationRenderer identityRenderer = new DeviationRenderer(true, false); identityRenderer.setSeriesPaint(0, StatisticChartStyling.SAMPLE_DATA_PAINT); identityRenderer.setSeriesFillPaint(0, StatisticChartStyling.SAMPLE_DATA_FILL_PAINT); plot.setRenderer(CONFIDENCE_DSINDEX, identityRenderer); final DeviationRenderer regressionRenderer = new DeviationRenderer(true, false); regressionRenderer.setSeriesPaint(0, StatisticChartStyling.REGRESSION_DATA_PAINT); regressionRenderer.setSeriesFillPaint(0, StatisticChartStyling.REGRESSION_DATA_FILL_PAINT); plot.setRenderer(REGRESSION_DSINDEX, regressionRenderer); final XYErrorRenderer scatterPointsRenderer = new XYErrorRenderer(); scatterPointsRenderer.setDrawXError(true); scatterPointsRenderer.setErrorStroke(new BasicStroke(1)); scatterPointsRenderer.setErrorPaint(StatisticChartStyling.CORRELATIVE_POINT_OUTLINE_PAINT); scatterPointsRenderer.setSeriesShape(0, StatisticChartStyling.CORRELATIVE_POINT_SHAPE); scatterPointsRenderer.setSeriesOutlinePaint(0, StatisticChartStyling.CORRELATIVE_POINT_OUTLINE_PAINT); scatterPointsRenderer.setSeriesFillPaint(0, StatisticChartStyling.CORRELATIVE_POINT_FILL_PAINT); scatterPointsRenderer.setSeriesLinesVisible(0, false); scatterPointsRenderer.setSeriesShapesVisible(0, true); scatterPointsRenderer.setSeriesOutlineStroke(0, new BasicStroke(1.0f)); scatterPointsRenderer.setSeriesToolTipGenerator(0, new XYToolTipGenerator() { @Override/*from www .ja v a2s . c o m*/ public String generateToolTip(XYDataset dataset, int series, int item) { final XYIntervalSeriesCollection collection = (XYIntervalSeriesCollection) dataset; final Comparable key = collection.getSeriesKey(series); final double xValue = collection.getXValue(series, item); final double endYValue = collection.getEndYValue(series, item); final double yValue = collection.getYValue(series, item); return String.format("%s: mean = %6.2f, sigma = %6.2f | %s: value = %6.2f", getRasterName(), yValue, endYValue - yValue, key, xValue); } }); plot.setRenderer(SCATTERPOINTS_DSINDEX, scatterPointsRenderer); final boolean autoRangeIncludesZero = false; final boolean xLog = scatterPlotModel.xAxisLogScaled; final boolean yLog = scatterPlotModel.yAxisLogScaled; plot.setDomainAxis( StatisticChartStyling.updateScalingOfAxis(xLog, plot.getDomainAxis(), autoRangeIncludesZero)); plot.setRangeAxis( StatisticChartStyling.updateScalingOfAxis(yLog, plot.getRangeAxis(), autoRangeIncludesZero)); createUI(createChartPanel(chart), createInputParameterPanel(), bindingContext); plot.getDomainAxis().addChangeListener(domainAxisChangeListener); scatterPlotDisplay.setMouseWheelEnabled(true); scatterPlotDisplay.setMouseZoomable(true); }
From source file:probe.com.view.body.quantdatasetsoverview.quantproteinstabsheet.studies.ProteinStudyComparisonScatterPlotLayout.java
/** * Creates a sample jFreeChart./*ww w . j a va2 s .c o m*/ * * @param dataset the dataset. * * @return The jFreeChart. */ private void generateScatterplotchart(DiseaseGroupsComparisonsProteinLayout cp, int w, int h) { final XYSeriesCollection dataset = new XYSeriesCollection(); XYSeries downSer = new XYSeries(0); XYSeries stableSer = new XYSeries(1); XYSeries upSer = new XYSeries(2); XYSeries novalueProvidedSer = new XYSeries(3); XYSeries downSerII = new XYSeries(4); XYSeries stableSerII = new XYSeries(5); XYSeries upSerII = new XYSeries(6); XYSeries novalueProvidedSerII = new XYSeries(7); // XYSeries plusSeries = new XYSeries(6); double downCounter = 1; double stableCounter = 3; double upCounter = 5; double novalueProvidedCounter = 3; patientGroupsNumToDsIdMap.clear(); final Map<Integer, int[]> paTGrNumbtrendMap = new HashMap<Integer, int[]>(); double maxPatNumber = -1.0; for (String protTrend : cp.getPatientsNumToTrindMap().keySet()) { List<Integer> patNums = cp.getPatientsNumToTrindMap().get(protTrend); int coun = 0; for (int i : patNums) { if (i > maxPatNumber) { maxPatNumber = i; } if (!patientGroupsNumToDsIdMap.containsKey(i)) { ComparisonDetailsBean pGr = new ComparisonDetailsBean(); patientGroupsNumToDsIdMap.put(i, pGr); } if (!paTGrNumbtrendMap.containsKey(i)) { int[] values = new int[4]; paTGrNumbtrendMap.put(i, values); } int[] values = paTGrNumbtrendMap.get(i); ComparisonDetailsBean pGr = patientGroupsNumToDsIdMap.get(i); if (protTrend.equalsIgnoreCase("noValueProvided")) { values[3] = values[3] + 1; pGr.addNovalueProvided(cp.getDSID(3, coun)); } else if (protTrend.equalsIgnoreCase("up")) { values[2] = values[2] + 1; pGr.addUpRegulated(cp.getDSID(0, coun)); } else if (protTrend.equalsIgnoreCase("down")) { values[0] = values[0] + 1; pGr.addDownRegulated(cp.getDSID(2, coun)); } else { values[1] = values[1] + 1; pGr.addNotRegulated(cp.getDSID(1, coun)); } paTGrNumbtrendMap.put(i, values); patientGroupsNumToDsIdMap.put(i, pGr); coun++; } } for (int i : paTGrNumbtrendMap.keySet()) { int[] values = paTGrNumbtrendMap.get(i); if ((values[2] > 1)) { upSer.add(upCounter, i); upSerII.add(upCounter, i); } else if ((values[2] == 1)) { upSer.add(upCounter, i); } if ((values[1] == 1)) { stableSer.add(stableCounter, i); } else if ((values[1] > 1)) { stableSer.add(stableCounter, i); stableSerII.add(stableCounter, i); } if ((values[0] > 1)) { downSer.add(downCounter, i); downSerII.add(downCounter, i); } else if ((values[0] == 1)) { downSer.add(downCounter, i); } if ((values[3] == 1)) { novalueProvidedSer.add(novalueProvidedCounter, i); } else if ((values[3] > 1)) { novalueProvidedSer.add(stableCounter, i); novalueProvidedSerII.add(stableCounter, i); } } dataset.addSeries(downSer); dataset.addSeries(stableSer); dataset.addSeries(upSer); dataset.addSeries(novalueProvidedSer); dataset.addSeries(downSerII); dataset.addSeries(stableSerII); dataset.addSeries(upSerII); dataset.addSeries(novalueProvidedSerII); // if((downSerII.getItemCount()+stableSerII.getItemCount()+upSerII.getItemCount()+downSer.getItemCount()+stableSer.getItemCount()+upSer.getItemCount())==0) // return; // dataset.addSeries(plusSeries); final String[] labels = new String[] { " ", ("Decreased (" + cp.getSignificantDown() + ")"), " ", ("Equal (" + cp.getStable() + ")"), " ", ("Increased (" + cp.getSignificantUp() + ")"), "" }; final Color[] labelsColor = new Color[] { Color.LIGHT_GRAY, new Color(80, 183, 71), Color.LIGHT_GRAY, new Color(1, 141, 244), Color.LIGHT_GRAY, Color.RED, Color.LIGHT_GRAY }; final SymbolAxis domainAxis = new SymbolAxis("X", labels) { @Override protected void drawGridBandsVertical(Graphics2D g2, Rectangle2D drawArea, Rectangle2D plotArea, boolean firstGridBandIsDark, List ticks) { List udatedTicksList = new ArrayList(); for (Object tick : ticks) { if (tick.toString().equalsIgnoreCase(labels[custTrend + 1])) { udatedTicksList.add(tick); } } // System.out.println("at ticks is "+ticks); // System.out.println("at udatedTicksList is "+udatedTicksList); // int factor = (int) ((plotArea.getHeight() / 5) * 0.25); // // Rectangle2D up = new Rectangle((int) drawArea.getX(), (int) drawArea.getY() - factor, (int) drawArea.getWidth(), (int) drawArea.getHeight()); // Rectangle2D pa = new Rectangle((int) plotArea.getX(), (int) plotArea.getY() - factor, (int) plotArea.getWidth(), (int) plotArea.getHeight()); super.drawGridBandsVertical(g2, drawArea, plotArea, firstGridBandIsDark, udatedTicksList); //To change body of generated methods, choose Tools | Templates. } int x = 0; @Override public Paint getTickLabelPaint() { if (x >= labels.length) { x = 0; } return labelsColor[x++]; } }; domainAxis.setAutoRangeIncludesZero(false); Font f = new Font("Verdana", Font.PLAIN, 11); domainAxis.setTickLabelFont(f); domainAxis.setAutoRange(false); domainAxis.setLabel(null); // domainAxis.setGridBandsVisible(false); String xTile = "#Patients"; JFreeChart jFreeChart = ChartFactory.createScatterPlot(null, null, // domain axis label null, // range axis label dataset, // data PlotOrientation.HORIZONTAL, // orientation false, // include legend false, // tooltips? false // URLs? ); XYPlot plot1 = (XYPlot) jFreeChart.getPlot(); XYPlot xyplot = new XYPlot(dataset, plot1.getDomainAxis(), plot1.getRangeAxis(), plot1.getRenderer()) { @Override public void drawDomainTickBands(Graphics2D g2, Rectangle2D dataArea, List ticks) { if (custTrend == -1) { super.drawDomainTickBands(g2, dataArea, ticks); return; } List udatedTicksList = new ArrayList(); for (Object tick : ticks) { if (tick.toString().equalsIgnoreCase(labels[custTrend + 1])) { udatedTicksList.add(tick); } } Rectangle2D up; int factor = (int) ((dataArea.getHeight() / 5) * 0.5); if (custTrend == 4) { up = new Rectangle((int) dataArea.getX(), (int) dataArea.getY() + factor, (int) dataArea.getWidth(), (int) dataArea.getHeight()); } else if (custTrend == 2) { up = new Rectangle((int) dataArea.getX(), (int) dataArea.getY() - factor, (int) dataArea.getWidth(), (int) dataArea.getHeight()); } else { up = new Rectangle((int) dataArea.getX(), (int) dataArea.getY() - factor, (int) dataArea.getWidth(), (int) dataArea.getHeight()); } super.drawDomainTickBands(g2, up, udatedTicksList); //To change body of generated methods, choose Tools | Templates. } @Override protected void drawDomainGridlines(Graphics2D g2, Rectangle2D dataArea, List ticks) { super.drawDomainGridlines(g2, dataArea, ticks); //To change body of generated methods, choose Tools | Templates. } private int x = 0; @Override public Paint getDomainGridlinePaint() { if (x >= labels.length) { x = 0; } if (x == 1 || x == 3 || x == 5) { x++; return Color.WHITE; } else { x++; return super.getDomainGridlinePaint(); //To change body of generated methods, choose Tools | Templates. } } }; if (custTrend != -1) { domainAxis.setGridBandsVisible(true); if (custTrend == 4) { domainAxis.setGridBandPaint(Color.decode("#ffe5e5")); xyplot.setDomainTickBandPaint(Color.decode("#ffe5e5")); domainAxis.setGridBandAlternatePaint(Color.decode("#ffe5e5")); } else if (custTrend == 0) { domainAxis.setGridBandPaint(Color.decode("#e5ffe5")); xyplot.setDomainTickBandPaint(Color.white); } else if (custTrend == 2) { domainAxis.setGridBandPaint(Color.decode("#e6f4ff")); xyplot.setDomainTickBandPaint(Color.white); } } else { domainAxis.setGridBandsVisible(false); } xyplot.setOrientation(PlotOrientation.HORIZONTAL); JFreeChart tempScatterPlot = new JFreeChart(xyplot); tempScatterPlot.setBackgroundPaint(Color.WHITE); tempScatterPlot.getLegend().setVisible(false); Color c = new Color(242, 242, 242); xyplot.setDomainAxis(domainAxis); xyplot.setDomainGridlinePaint(Color.GRAY); xyplot.setDomainGridlinesVisible(true); xyplot.setRangeGridlinesVisible(true); xyplot.setRangeGridlinePaint(Color.GRAY); xyplot.setOutlinePaint(Color.GRAY); XYLineAndShapeRenderer renderer = (XYLineAndShapeRenderer) xyplot.getRenderer(); ValueAxis va = xyplot.getDomainAxis(); va.setAutoRange(false); va.setMinorTickCount(0); va.setVisible(true); maxPatNumber = Math.ceil(maxPatNumber / 100.0) * 100; xyplot.getRangeAxis().setRange(0, maxPatNumber); NumberAxis rangeAxis = (NumberAxis) xyplot.getRangeAxis(); rangeAxis.setTickUnit(new NumberTickUnit(10)); rangeAxis.setLabel(xTile); rangeAxis.setLabelFont(f); rangeAxis.setLabelPaint(Color.GRAY); va.setRange(0, 6); xyplot.setBackgroundPaint(Color.WHITE); renderer.setUseOutlinePaint(true); Color c0 = new Color(80, 183, 71); renderer.setSeriesPaint(0, c0); renderer.setSeriesOutlinePaint(0, Color.WHITE); Color c1 = new Color(1, 141, 244); renderer.setSeriesPaint(1, c1); renderer.setSeriesOutlinePaint(1, Color.WHITE); Color c2 = new Color(204, 0, 0); renderer.setSeriesPaint(2, c2); renderer.setSeriesOutlinePaint(2, Color.WHITE); renderer.setSeriesPaint(3, Color.decode("#b5babb")); renderer.setSeriesOutlinePaint(3, Color.WHITE); renderer.setSeriesPaint(4, new Color(150, 212, 145)); renderer.setSeriesOutlinePaint(4, new Color(150, 212, 145)); renderer.setSeriesPaint(5, new Color(103, 187, 248)); renderer.setSeriesOutlinePaint(5, new Color(103, 187, 248)); renderer.setSeriesPaint(6, new Color(224, 102, 102)); renderer.setSeriesOutlinePaint(6, new Color(224, 102, 102)); renderer.setSeriesPaint(7, Color.decode("#b5babb")); renderer.setSeriesOutlinePaint(7, Color.GRAY); // renderer.setSeriesPaint(6, Color.BLACK); // renderer.setSeriesOutlinePaint(6, Color.BLACK); Shape downArr = ShapeUtilities.createDownTriangle(7f); Shape notRShape = ShapeUtilities.createDiamond(7f); Shape upArr = ShapeUtilities.createUpTriangle(7); Shape downArrII = ShapeUtilities.createTranslatedShape(ShapeUtilities.createDownTriangle(6f), 5, -5); Shape notRShapeII = ShapeUtilities.createTranslatedShape(ShapeUtilities.createDiamond(6f), 0, -7); Shape upArrII = ShapeUtilities.createTranslatedShape(ShapeUtilities.createUpTriangle(6f), 4, -4); // Shape plus = ShapeUtilities.createTranslatedShape(ShapeUtilities.createRegularCross(3f, 0.4f), 11, -7); renderer.setSeriesShape(0, downArr); renderer.setSeriesShape(1, notRShape); renderer.setSeriesShape(2, upArr); renderer.setSeriesShape(3, notRShape); renderer.setSeriesShape(4, downArrII); renderer.setSeriesShape(5, notRShapeII); renderer.setSeriesShape(6, upArrII); renderer.setSeriesShape(7, notRShapeII); // renderer.setSeriesShape(6, plus); renderer.setBaseItemLabelsVisible(true); renderer.setBaseItemLabelGenerator(new SymbolicXYItemLabelGenerator() { private final int[] indexer = new int[] { 0, 1, 2, 3, 0, 1, 2, 3 }; @Override public String generateLabel(XYDataset dataset, int series, int category) { if (series > 3) { int patNumber = (int) dataset.getYValue(series, category); // int trend = (int) dataset.getXValue(series, category); if (series == 7 || series == 5) { return "\t " + paTGrNumbtrendMap.get(patNumber)[indexer[series]]; } else { return "\t " + paTGrNumbtrendMap.get(patNumber)[indexer[series]]; } } return ""; //To change body of generated methods, choose Tools | Templates. } }); ItemLabelPosition position = new ItemLabelPosition(ItemLabelAnchor.OUTSIDE12, TextAnchor.BASELINE_LEFT, TextAnchor.TOP_LEFT, 0.0); renderer.setSeriesPositiveItemLabelPosition(4, position); renderer.setSeriesPositiveItemLabelPosition(5, position); renderer.setSeriesPositiveItemLabelPosition(6, position); renderer.setSeriesPositiveItemLabelPosition(7, position); renderer.setBaseItemLabelFont(f); tempScatterPlot.setBorderVisible(false); xyplot.setSeriesRenderingOrder(SeriesRenderingOrder.REVERSE); heighlightedScatterPlottImgUrl = saveToFile(tempScatterPlot, w, h, defaultScatterPlotRenderingInfo); xyplot.setBackgroundPaint(Color.WHITE); defaultScatterPlottImgUrl = saveToFile(tempScatterPlot, w, h, defaultScatterPlotRenderingInfo); // xyplot.setBackgroundPaint(c); if (custTrend != -1) { domainAxis.setGridBandsVisible(true); if (custTrend == 4) { domainAxis.setGridBandPaint(Color.decode("#ffe5e5")); xyplot.setDomainTickBandPaint(Color.decode("#ffe5e5")); domainAxis.setGridBandAlternatePaint(Color.decode("#ffe5e5")); } else if (custTrend == 0) { domainAxis.setGridBandPaint(Color.decode("#e5ffe5")); xyplot.setDomainTickBandPaint(c); } else if (custTrend == 2) { domainAxis.setGridBandPaint(Color.decode("#e6f4ff")); xyplot.setDomainTickBandPaint(c); } } String textTitle = comparisonTitle.getValue().split("bold;'>")[1].replace("</font>", ""); TextTitle title = new TextTitle(textTitle, f); scatterPlot = new JFreeChart(xyplot); scatterPlot.setTitle(title); scatterPlot.setBorderVisible(false); scatterPlot.setBackgroundPaint(Color.WHITE); scatterPlot.getLegend().setVisible(false); dsKeyDatasetMap.clear(); for (int i = 0; i < defaultScatterPlotRenderingInfo.getEntityCollection().getEntityCount(); i++) { final ChartEntity entity = defaultScatterPlotRenderingInfo.getEntityCollection().getEntity(i); if (entity instanceof XYItemEntity) { int x = ((XYItemEntity) entity).getSeriesIndex(); int y = ((XYItemEntity) entity).getItem(); if (((XYItemEntity) entity).getDataset().getYValue(x, y) > (int) ((XYItemEntity) entity).getDataset().getYValue(x, y)) { continue; } if (((XYItemEntity) entity).getSeriesIndex() > 3) { continue; } String[] arr = ((XYItemEntity) entity).getShapeCoords().split(","); int xSer = Integer.valueOf(arr[0]); int ySer = Integer.valueOf(arr[1]); int ySerEnd = Integer.valueOf(arr[3]); int patGrNumber = (int) ((XYItemEntity) entity).getDataset().getYValue(x, y); int trend = Integer.valueOf(((XYItemEntity) entity).getDataset() .getSeriesKey(((XYItemEntity) entity).getSeriesIndex()).toString()); ComparisonDetailsBean cpDetails = patientGroupsNumToDsIdMap.get(patGrNumber); List<Integer> dsList = cpDetails.getRegulatedList(trend); StringBuilder sb = new StringBuilder(); for (int dsId : dsList) { QuantDatasetObject ds; sb.append("<h4>").append((Quant_Central_Manager.getFullQuantDatasetMap().get(dsId)).getAuthor()) .append(" ") .append((Quant_Central_Manager.getFullQuantDatasetMap().get(dsId)).getYear()) .append("<h4/>"); sb.append("<p></p>"); ds = Quant_Central_Manager.getFullQuantDatasetMap().get(dsId); dsKeyDatasetMap.put("_-_" + dsId + "_-_" + comparisonProtein.getProteinAccssionNumber() + "_-_", ds); } String tooltip = sb.toString().substring(0, sb.toString().length() - 7); SquaredDot square = new SquaredDot("squared"); if (paTGrNumbtrendMap.get(patGrNumber)[trend] > 1) { square.setWidth(20 + "px"); square.setHeight(15 + "px"); } else { square.setWidth(10 + "px"); square.setHeight(10 + "px"); } square.setDescription(tooltip); square.setParam("trend", trend); square.setParam("pGrNumber", patGrNumber); int top = (ySer - 4); if (ySer > ySerEnd) { top = ySerEnd - 3; } defaultChartLayout.addComponent(square, "left: " + (xSer - 5) + "px; top: " + top + "px;"); } } }
From source file:org.sakaiproject.sitestats.impl.chart.ChartServiceImpl.java
private byte[] generateTimeSeriesChart(String siteId, IntervalXYDataset dataset, int width, int height, boolean renderBar, float transparency, boolean itemLabelsVisible, boolean smallFontInDomainAxis, String timePeriod, Date firstDate, Date lastDate) { JFreeChart chart = null;/*w w w . j ava 2 s. c om*/ if (!renderBar) { chart = ChartFactory.createTimeSeriesChart(null, null, null, dataset, true, false, false); } else { chart = ChartFactory.createXYBarChart(null, null, true, null, dataset, PlotOrientation.VERTICAL, true, false, false); } XYPlot plot = (XYPlot) chart.getPlot(); // set transparency plot.setForegroundAlpha(transparency); // set background chart.setBackgroundPaint(parseColor(M_sm.getChartBackgroundColor())); // set chart border chart.setPadding(new RectangleInsets(10, 5, 5, 5)); chart.setBorderVisible(true); chart.setBorderPaint(parseColor("#cccccc")); // set antialias chart.setAntiAlias(true); // set domain axis font size if (smallFontInDomainAxis && !canUseNormalFontSize(width)) { plot.getDomainAxis().setTickLabelFont(new Font("SansSerif", Font.PLAIN, 8)); } // configure date display (localized) in domain axis Locale locale = msgs.getLocale(); PeriodAxis periodaxis = new PeriodAxis(null); Class timePeriodClass = null; if (dataset instanceof TimeSeriesCollection) { TimeSeriesCollection tsc = (TimeSeriesCollection) dataset; if (tsc.getSeriesCount() > 0) { timePeriodClass = tsc.getSeries(0).getTimePeriodClass(); } else { timePeriodClass = org.jfree.data.time.Day.class; } periodaxis.setAutoRangeTimePeriodClass(timePeriodClass); } PeriodAxisLabelInfo aperiodaxislabelinfo[] = null; if (StatsManager.CHARTTIMESERIES_WEEKDAY.equals(timePeriod)) { aperiodaxislabelinfo = new PeriodAxisLabelInfo[2]; aperiodaxislabelinfo[0] = new PeriodAxisLabelInfo(org.jfree.data.time.Day.class, new SimpleDateFormat("E", locale)); aperiodaxislabelinfo[1] = new PeriodAxisLabelInfo(org.jfree.data.time.Day.class, new SimpleDateFormat("d", locale)); } else if (StatsManager.CHARTTIMESERIES_DAY.equals(timePeriod)) { aperiodaxislabelinfo = new PeriodAxisLabelInfo[3]; aperiodaxislabelinfo[0] = new PeriodAxisLabelInfo(org.jfree.data.time.Day.class, new SimpleDateFormat("d", locale)); aperiodaxislabelinfo[1] = new PeriodAxisLabelInfo(org.jfree.data.time.Month.class, new SimpleDateFormat("MMM", locale)); aperiodaxislabelinfo[2] = new PeriodAxisLabelInfo(org.jfree.data.time.Year.class, new SimpleDateFormat("yyyy", locale)); } else if (StatsManager.CHARTTIMESERIES_MONTH.equals(timePeriod)) { aperiodaxislabelinfo = new PeriodAxisLabelInfo[2]; aperiodaxislabelinfo[0] = new PeriodAxisLabelInfo(org.jfree.data.time.Month.class, new SimpleDateFormat("MMM", locale)); aperiodaxislabelinfo[1] = new PeriodAxisLabelInfo(org.jfree.data.time.Year.class, new SimpleDateFormat("yyyy", locale)); } else if (StatsManager.CHARTTIMESERIES_YEAR.equals(timePeriod)) { aperiodaxislabelinfo = new PeriodAxisLabelInfo[1]; aperiodaxislabelinfo[0] = new PeriodAxisLabelInfo(org.jfree.data.time.Year.class, new SimpleDateFormat("yyyy", locale)); } periodaxis.setLabelInfo(aperiodaxislabelinfo); // date range if (firstDate != null || lastDate != null) { periodaxis.setAutoRange(false); if (firstDate != null) { if (StatsManager.CHARTTIMESERIES_MONTH.equals(timePeriod) || StatsManager.CHARTTIMESERIES_YEAR.equals(timePeriod)) { periodaxis.setFirst(new org.jfree.data.time.Month(firstDate)); } else { periodaxis.setFirst(new org.jfree.data.time.Day(firstDate)); } } if (lastDate != null) { if (StatsManager.CHARTTIMESERIES_MONTH.equals(timePeriod) || StatsManager.CHARTTIMESERIES_YEAR.equals(timePeriod)) { periodaxis.setLast(new org.jfree.data.time.Month(lastDate)); } else { periodaxis.setLast(new org.jfree.data.time.Day(lastDate)); } } } periodaxis.setTickMarkOutsideLength(0.0F); plot.setDomainAxis(periodaxis); // set outline AbstractXYItemRenderer renderer = (AbstractXYItemRenderer) plot.getRenderer(); if (renderer instanceof XYLineAndShapeRenderer) { XYLineAndShapeRenderer r = (XYLineAndShapeRenderer) renderer; r.setDrawSeriesLineAsPath(true); r.setShapesVisible(true); r.setShapesFilled(true); } else if (renderer instanceof XYBarRenderer) { //XYBarRenderer r = (XYBarRenderer) renderer; ClusteredXYBarRenderer r = new ClusteredXYBarRenderer(); r.setDrawBarOutline(true); if (smallFontInDomainAxis && !canUseNormalFontSize(width)) r.setMargin(0.05); else r.setMargin(0.10); plot.setRenderer(r); renderer = r; } // item labels if (itemLabelsVisible) { plot.getRangeAxis().setUpperMargin(0.2); renderer.setItemLabelGenerator(new XYItemLabelGenerator() { private static final long serialVersionUID = 1L; public String generateLabel(XYDataset dataset, int series, int item) { Number n = dataset.getY(series, item); if (n.doubleValue() != 0) return n.toString(); return ""; } }); renderer.setItemLabelFont(new Font("SansSerif", Font.PLAIN, 8)); renderer.setItemLabelsVisible(true); } BufferedImage img = chart.createBufferedImage(width, height); final ByteArrayOutputStream out = new ByteArrayOutputStream(); try { ImageIO.write(img, "png", out); } catch (IOException e) { LOG.warn("Error occurred while generating SiteStats chart image data", e); } return out.toByteArray(); }
From source file:de.dmarcini.submatix.pclogger.gui.spx42LogGraphPanel.java
/** * Zeichne die eigentliche Grafik Project: SubmatixBTForPC Package: de.dmarcini.submatix.pclogger.gui * // w w w . j a va2 s .c o m * @author Dirk Marciniak (dirk_marciniak@arcor.de) Stand: 03.07.2012 * @param dbId * dbid in Tabelle D_TABLE_DIVEDETAIL * @param device */ private void makeGraphForLog(int dbId, String device) { Vector<Integer[]> diveList; Vector<String> diluents; int[] headData; XYPlot thePlot; JFreeChart logChart; int min, sec; // das alte Zeug entsorgen releaseGraph(); // // Daten eines TG lesen // lg.debug("read dive log from DB..."); diveList = databaseUtil.getDiveDataFromIdLog(dbId); if (diveList == null || diveList.isEmpty()) { return; } // // verwendete Diluents finden // diluents = getDiluentNamesFromDive(diveList); // Anzeigen String diluentString = StringUtils.join(diluents, ", "); diluentLabel.setText( String.format(LangStrings.getString("spx42LogGraphPanel.diluentLabel.text"), diluentString)); lg.debug(diluents); // // Labels fr Tachgangseckdaten fllen // headData = databaseUtil.getHeadDiveDataFromIdLog(dbId); notesLabel.setText(databaseUtil.getNotesForIdLog(dbId)); showingUnitSystem = SpxPcloggerProgramConfig.unitsProperty; savedUnitSystem = headData[6]; // jetzt die Strings fr Masseinheiten holen String[] labels = getUnitsLabel(showingUnitSystem, savedUnitSystem); depthUnitName = labels[0]; tempUnitName = labels[1]; pressureUnitName = labels[2]; // // entscheide ob etwas umgerechnet werden sollte // if (showingUnitSystem == savedUnitSystem || showingUnitSystem == ProjectConst.UNITS_DEFAULT) { // nein, alles schick maxDepthValueLabel.setText(String.format(maxDepthLabelString, (headData[3] / 10.0), depthUnitName)); coldestTempValueLabel.setText(String.format(coldestLabelString, (headData[2] / 10.0), tempUnitName)); } else { // umrechnen! if (showingUnitSystem == ProjectConst.UNITS_IMPERIAL) { // metrisch-> imperial konvertieren // 1 foot == 30,48 cm == 0.3048 Meter maxDepthValueLabel .setText(String.format(maxDepthLabelString, (headData[3] / 10.0) / 0.3048, depthUnitName)); // t F = 5?9 (t 32) C coldestTempValueLabel.setText( String.format(coldestLabelString, (5.0 / 9.0) * ((headData[2] / 10.0) - 32), tempUnitName)); } else { maxDepthValueLabel .setText(String.format(maxDepthLabelString, (headData[3] / 10.0) * 0.3048, depthUnitName)); // t C = (9?5 t + 32) F coldestTempValueLabel.setText( String.format(coldestLabelString, ((9.0 / 5.0) * (headData[2] / 10.0)) + 32, tempUnitName)); } } min = headData[5] / 60; sec = headData[5] % 60; diveLenValueLabel.setText(String.format(diveLenLabelString, min, sec, "min")); // // einen Plot machen (Grundlage des Diagramms) // lg.debug("create graph..."); thePlot = new XYPlot(); // // Eigenschaften definieren // thePlot.setBackgroundPaint(Color.lightGray); thePlot.setDomainGridlinesVisible(true); thePlot.setDomainGridlinePaint(Color.white); thePlot.setRangeGridlinesVisible(true); thePlot.setRangeGridlinePaint(Color.white); thePlot.setDomainPannable(true); thePlot.setRangePannable(false); // // ein Chart zur Anzeige in einem Panel erzeugen // logChart = new JFreeChart(LangStrings.getString("spx42LogGraphPanel.graph.chartTitle"), thePlot); logChart.setAntiAlias(true); logChart.addSubtitle(new TextTitle(LangStrings.getString("spx42LogGraphPanel.graph.chartSubTitle"))); // ein Thema zufgen, damit ich eigene Farben einbauen kann ChartUtilities.applyCurrentTheme(logChart); // // ein Diagramm-Panel erzeugen // chartPanel = new ChartPanel(logChart); chartPanel.setMouseZoomable(true); chartPanel.setAutoscrolls(true); chartPanel.setMouseWheelEnabled(true); chartPanel.setRangeZoomable(false); chartPanel.setDisplayToolTips(false); chartPanel.setZoomTriggerDistance(10); add(chartPanel, BorderLayout.CENTER); // // Datumsachse umformatieren // final NumberAxis axis = new NumberAxis(LangStrings.getString("spx42LogGraphPanel.graph.dateAxisTitle")); MinuteFormatter formatter = new MinuteFormatter( LangStrings.getString("spx42LogGraphPanel.graph.dateAxisUnit")); axis.setNumberFormatOverride(formatter); thePlot.setDomainAxis(axis); // // Temperatur einfgen // if (SpxPcloggerProgramConfig.showTemperature) { makeTemperatureGraph(diveList, thePlot, labels); } // // Partialdruck einfgen // die Achse erst mal machen final NumberAxis ppo2Axis = new NumberAxis( LangStrings.getString("spx42LogGraphPanel.graph.ppo2AxisTitle") + " " + pressureUnitName); final NumberAxis percentAxis = new NumberAxis(LangStrings.getString("spx42LogGraphPanel.graph.inertgas")); // // wenn eine der Achsen dargesstellt werden muss, dann sollte die Achse auch in der Grafil da sein // if (SpxPcloggerProgramConfig.showPpo01 || SpxPcloggerProgramConfig.showPpo02 || SpxPcloggerProgramConfig.showPpo03 || SpxPcloggerProgramConfig.showPpoResult || SpxPcloggerProgramConfig.showSetpoint) { ppo2Axis.setAutoRangeIncludesZero(false); ppo2Axis.setAutoRange(false); // // wie skaliere ich die Achse? // if (showingUnitSystem == ProjectConst.UNITS_DEFAULT) { // so wie gespeichert if (savedUnitSystem == ProjectConst.UNITS_METRIC) { ppo2Axis.setRange(0.0, 3.5); } else { ppo2Axis.setRange(0.0, (3.5 * 14.504)); } } else if (showingUnitSystem == ProjectConst.UNITS_METRIC) { ppo2Axis.setRange(0.0, 3.5); } else { ppo2Axis.setRange(0.0, (3.5 * 14.504)); } ppo2Axis.setLabelPaint(new Color(ProjectConst.GRAPH_PPO2ALL_ACOLOR)); ppo2Axis.setTickLabelPaint(new Color(ProjectConst.GRAPH_PPO2ALL_ACOLOR)); thePlot.setRangeAxis(GRAPH_PPO2ALL, ppo2Axis); } if (SpxPcloggerProgramConfig.showHe || SpxPcloggerProgramConfig.showN2) { percentAxis.setAutoRangeIncludesZero(false); percentAxis.setAutoRange(false); percentAxis.setRange(0.0, 100.0); percentAxis.setLabelPaint(new Color(ProjectConst.GRAPH_INNERTGAS_ACOLOR)); percentAxis.setTickLabelPaint(new Color(ProjectConst.GRAPH_INNERTGAS_ACOLOR)); thePlot.setRangeAxis(GRAPH_HE, percentAxis); } // // Partialdrcke der einzelnen Sensoren einfgen // // Sensor 01 anzeigen if (SpxPcloggerProgramConfig.showPpo01) { makePpoGraph(diveList, thePlot, 1); } // Sensor 02 anzeigen if (SpxPcloggerProgramConfig.showPpo02) { makePpoGraph(diveList, thePlot, 2); } // Sensor 03 anzeigen if (SpxPcloggerProgramConfig.showPpo03) { makePpoGraph(diveList, thePlot, 3); } // Resultierenden PPO anzeigen if (SpxPcloggerProgramConfig.showPpoResult) { makePpoGraph(diveList, thePlot, 0); // makePpoResultGraph( diveList, thePlot ); } if (SpxPcloggerProgramConfig.showSetpoint) { makeSetpointGraph(diveList, thePlot); } // // Helium und Stickstoffanteil im Gas? // if (SpxPcloggerProgramConfig.showHe) { makeInnertGasGraph(diveList, thePlot, "he"); } if (SpxPcloggerProgramConfig.showN2) { makeInnertGasGraph(diveList, thePlot, "n2"); } // // die Nullzeit auf Wunsch // if (SpxPcloggerProgramConfig.showNulltime) { makeNulltimeGraph(diveList, thePlot); } // // die Tiefe einfgen // makeDepthGraph(diveList, thePlot); // showingDbIdForDiveWasShowing = dbId; lg.debug("create graph...OK"); }