Mercurial > dive4elements > river
view flys-artifacts/src/main/java/de/intevation/flys/exports/XYChartGenerator.java @ 2020:4f7f781e4481
Improved area rendering workflow.
flys-artifacts/trunk@3475 c6561f87-3c4e-4783-a992-168aeb5c3f6f
| author | Felix Wolfsteller <felix.wolfsteller@intevation.de> |
|---|---|
| date | Tue, 20 Dec 2011 06:47:08 +0000 |
| parents | 79b15491177a |
| children | 7bc9293de4e6 |
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package de.intevation.flys.exports; import java.awt.BasicStroke; import java.awt.Color; import java.awt.Paint; import java.awt.Stroke; import java.awt.TexturePaint; import java.awt.geom.Rectangle2D; import java.awt.image.BufferedImage; import java.io.IOException; import java.text.NumberFormat; import java.util.ArrayList; import java.util.HashMap; import java.util.TreeMap; import java.util.List; import java.util.Map; import java.util.SortedMap; import org.w3c.dom.Document; import org.apache.log4j.Logger; import org.jfree.chart.ChartFactory; import org.jfree.chart.JFreeChart; import org.jfree.chart.LegendItem; import org.jfree.chart.LegendItemCollection; import org.jfree.chart.annotations.XYTextAnnotation; import org.jfree.chart.axis.NumberAxis; import org.jfree.chart.axis.ValueAxis; import org.jfree.chart.plot.PlotOrientation; import org.jfree.chart.plot.XYPlot; import org.jfree.chart.renderer.xy.XYItemRenderer; import org.jfree.chart.renderer.xy.XYLineAndShapeRenderer; import org.jfree.data.Range; import org.jfree.data.xy.XYSeries; import org.jfree.data.xy.XYSeriesCollection; import org.jfree.data.xy.XYDataset; import org.jfree.ui.RectangleInsets; import de.intevation.artifactdatabase.state.Facet; import de.intevation.flys.jfree.StableXYDifferenceRenderer; import de.intevation.artifactdatabase.state.Section; import de.intevation.artifactdatabase.state.Settings; import de.intevation.flys.exports.ChartExportHelper; import de.intevation.flys.jfree.FLYSAnnotation; import de.intevation.flys.jfree.StickyAxisAnnotation; import de.intevation.flys.utils.ThemeAccess; /** * An abstract base class for creating XY charts. * * With respect to datasets, ranges and axis, there are following requirements: * <ul> * <li> First in, first drawn: "Early" datasets should be of lower Z-Oder * than later ones (only works per-axis). </li> * <li> Visible axis should initially show the range of all datasets that * show data for this axis (even invisible ones). Motivation: Once * a dataset (theme) has been activated, it should be on screen. </li> * <li> There should always be a Y-Axis on the "left". </li> * </ul> * * @author <a href="mailto:ingo.weinzierl@intevation.de">Ingo Weinzierl</a> */ public abstract class XYChartGenerator extends ChartGenerator { // TODO Consider storing the renderer here. private class AxisDataset { /** Symbolic integer, but also coding the priority (0 goes first). */ protected int axisSymbol; /** List of assigned datasets (in order). */ protected List<XYDataset> datasets; /** Range to use to include all given datasets. */ protected Range range; /** Create AxisDataset. */ public AxisDataset(int symb) { this.axisSymbol = symb; datasets = new ArrayList<XYDataset>(); } /** Merge (or create given range with range so far (if any). */ private void mergeRanges(Range subRange) { // Avoid merging NaNs, as they take min/max place forever. if (subRange == null || Double.isNaN(subRange.getLowerBound()) || Double.isNaN(subRange.getUpperBound())) { return; } if (range == null) { range = subRange; return; } range = Range.combine(range, subRange); } /** Add a dataset, include its range. */ public void addDataset(XYSeries dataset) { this.datasets.add(new XYSeriesCollection(dataset)); includeYRange(dataset); } public void addArea(StyledAreaSeriesCollection series) { this.datasets.add(series); } /** True if to be renedered as area. */ public boolean isArea(XYSeriesCollection series) { return (series instanceof StyledAreaSeriesCollection); } /** Adjust range to include given dataset. */ public void includeYRange(XYSeries dataset) { mergeRanges(new Range(dataset.getMinY(), dataset.getMaxY())); } /** True if no datasets given. */ public boolean isEmpty() { return this.datasets.isEmpty(); } } // class AxisDataset /** * A mini interface that allows to walk over the YAXIS enums defined in * subclasses. */ public interface YAxisWalker { int length(); String getId(int idx); } /** Override to make axis information available. */ protected YAxisWalker getYAxisWalker() { return new YAxisWalker() { /** Get number of items. */ @Override public int length() { return 0; } /** Get identifier for this index. */ @Override public String getId(int idx) { return null; } }; } /** The logger that is used in this generator. */ private static Logger logger = Logger.getLogger(XYChartGenerator.class); /** Map of datasets ("index"). */ protected SortedMap<Integer, AxisDataset> datasets; /** List of annotations to insert in plot. */ protected List<FLYSAnnotation> annotations; /** The max X range to include all X values of all series for each axis. */ protected Map<Integer, Range> xRanges; /** The max Y range to include all Y values of all series for each axis. */ protected Map<Integer, Range> yRanges; public static final Color DEFAULT_GRID_COLOR = Color.GRAY; public static final float DEFAULT_GRID_LINE_WIDTH = 0.3f; public XYChartGenerator() { xRanges = new HashMap<Integer, Range>(); yRanges = new HashMap<Integer, Range>(); datasets = new TreeMap<Integer, AxisDataset>(); } /** * Returns the title of a chart. * * @return the title of a chart. */ protected abstract String getChartTitle(); /** * This method always returns null. If a concrete subclass of this class * requires a chart subtitle, this subclass can easily override this method. * * @return always null. */ protected String getChartSubtitle() { // overridden this method in subclasses that need subtitles return null; } /** * This method is used to determine, if the chart's legend is visible or * not. <b>Note: this method always returns true.</b> * * @return true, if the legend should be visible, otherwise false. */ protected boolean isLegendVisible() { return true; } /** * This method is used to determine the font size of the chart's legend. * <b>Note: this method always returns 12.</b> * * @return 12. */ protected int getLegendFontSize() { return 12; } /** * This method is used to determine if the resulting chart should display * grid lines or not. <b>Note: this method always returns true!</b> * * @return true, if the chart should display grid lines, otherwise false. */ protected boolean isGridVisible() { return true; } /** * Returns the X-Axis label of a chart. * * @return the X-Axis label of a chart. */ protected abstract String getXAxisLabel(); /** * Returns the Y-Axis label of a chart. * * @return the Y-Axis label of a chart. */ protected abstract String getYAxisLabel(); /** * Returns the Y-Axis label of a chart at position <i>pos</i>. * * @return the Y-Axis label of a chart at position <i>0</i>. */ protected String getYAxisLabel(int pos) { return getYAxisLabel(); } /** * Generate chart. */ public void generate() throws IOException { logger.debug("XYChartGenerator.generate"); JFreeChart chart = generateChart(); String format = getFormat(); int[] size = getSize(); context.putContextValue("chart.width", size[0]); context.putContextValue("chart.height", size[1]); if (format.equals(ChartExportHelper.FORMAT_PNG)) { context.putContextValue("chart.image.format", "png"); ChartExportHelper.exportImage( out, chart, context); } else if (format.equals(ChartExportHelper.FORMAT_PDF)) { context.putContextValue("chart.marginLeft", 5f); context.putContextValue("chart.marginRight", 5f); context.putContextValue("chart.marginTop", 5f); context.putContextValue("chart.marginBottom", 5f); context.putContextValue( "chart.page.format", ChartExportHelper.DEFAULT_PAGE_SIZE); ChartExportHelper.exportPDF( out, chart, context); } else if (format.equals(ChartExportHelper.FORMAT_SVG)) { context.putContextValue( "chart.encoding", ChartExportHelper.DEFAULT_ENCODING); ChartExportHelper.exportSVG( out, chart, context); } } /** * Generate the chart anew (including localized axis and all). */ public JFreeChart generateChart() { logger.debug("XYChartGenerator.generateChart"); JFreeChart chart = ChartFactory.createXYLineChart( getChartTitle(), getXAxisLabel(), getYAxisLabel(), null, PlotOrientation.VERTICAL, true, false, false); XYPlot plot = (XYPlot) chart.getPlot(); chart.setBackgroundPaint(Color.WHITE); plot.setBackgroundPaint(Color.WHITE); addSubtitles(chart); adjustPlot(plot); //debugAxis(plot); addDatasets(plot); //debugDatasets(plot); recoverEmptyPlot(plot); preparePointRanges(plot); addAnnotationsToRenderer(plot); //debugAxis(plot); localizeAxes(plot); adjustAxes(plot); autoZoom(plot); return chart; } /** * Put debug output about datasets. */ public void debugDatasets(XYPlot plot) { logger.debug("Number of datasets: " + plot.getDatasetCount()); for (int i = 0; i < plot.getDatasetCount(); i++) { if (plot.getDataset(i) == null) { logger.debug("Dataset #" + i + " is null"); continue; } logger.debug("Dataset #" + i + ":" + plot.getDataset(i)); XYSeriesCollection series = (XYSeriesCollection) plot.getDataset(i); logger.debug("X-Extend of Dataset: " + series.getSeries(0).getMinX() + " " + series.getSeries(0).getMaxX()); logger.debug("Y-Extend of Dataset: " + series.getSeries(0).getMinY() + " " + series.getSeries(0).getMaxY()); } } /** * Put debug output about axes. */ public void debugAxis(XYPlot plot) { logger.debug("..............."); for (int i = 0; i < plot.getRangeAxisCount(); i++) { if (plot.getRangeAxis(i) == null) logger.debug("Range-Axis #" + i + " == null"); else { logger.debug("Range-Axis " + i + " != null [" + plot.getRangeAxis(i).getRange().getLowerBound() + " " + plot.getRangeAxis(i).getRange().getUpperBound() + "]"); } } logger.debug("..............."); } /** * Add datasets to plot. * @param plot plot to add datasets to. */ protected void addDatasets(XYPlot plot) { // AxisDatasets are sorted, but some might be empty. // Thus, generate numbering on the fly. int axisIndex = 0; int datasetIndex = 0; for (Map.Entry<Integer, AxisDataset> entry: datasets.entrySet()) { if (!entry.getValue().isEmpty()) { // Add axis and range information. AxisDataset axisDataset = entry.getValue(); NumberAxis axis = createYAxis(entry.getKey()); plot.setRangeAxis(axisIndex, axis); if (axis.getAutoRangeIncludesZero()) { axisDataset.range = Range.expandToInclude(axisDataset.range, 0d); } yRanges.put(axisIndex, expandPointRange(axisDataset.range)); // Add contained datasets, mapping to axis. for (XYDataset dataset: axisDataset.datasets) { plot.setDataset(datasetIndex, dataset); plot.mapDatasetToRangeAxis(datasetIndex, axisIndex); applyThemes(plot, (XYSeriesCollection) dataset, datasetIndex, axisDataset.isArea((XYSeriesCollection)dataset)); datasetIndex++; } axisIndex++; } } } /** * Registers an area to be drawn. * @param lower the lower curve to draw the area from. * @param upper the upper curve to draw the ara from. */ public void addAreaSeries(StyledAreaSeriesCollection area, int index, boolean visible) { if (area == null) { logger.warn("Cannot yet render above/under curve."); return; } AxisDataset axisDataset = datasets.get(index); if (axisDataset == null) { axisDataset = new AxisDataset(index); datasets.put(index, axisDataset); } if (visible) { axisDataset.addArea(area); } else { // TODO only range merging. } //TODO range merging. } /** * Add given series if visible, if not visible adjust ranges (such that * all points in data would be plotted once visible). * @param series the dataseries to include in plot. * @param index index of the series and of its axis. * @param visible whether or not the data should be plotted. */ public void addAxisSeries(XYSeries series, int index, boolean visible) { if (series == null) { return; } AxisDataset axisDataset = datasets.get(index); if (axisDataset == null) { axisDataset = new AxisDataset(index); datasets.put(index, axisDataset); } logger.debug("addAxisSeries: extent X " + series.getMinX() + " : " + series.getMaxX() + " extent y " + series.getMinY() + " : " + series.getMaxY()); if (visible) { axisDataset.addDataset(series); } else { // Do this also when not visible to have axis scaled by default such // that every data-point could be seen (except for annotations). axisDataset.includeYRange(series); } combineXRanges(new Range(series.getMinX(), series.getMaxX()), 0); } /** * Effect: extend range of x axis to include given limits. * @param range the given ("minimal") range. * @param index index of axis to be merged. */ private void combineXRanges(Range range, int index) { if (range == null || Double.isNaN(range.getLowerBound()) || Double.isNaN(range.getUpperBound())) { return; } Range old = xRanges.get(index); if (old != null) { range = Range.combine(old, range); } xRanges.put(index, range); } /** * Adds annotations to list (if visible is true). */ public void addAnnotations(FLYSAnnotation annotation, boolean visible) { if (!visible) { return; } if (annotations == null) { annotations = new ArrayList<FLYSAnnotation>(); } annotations.add(annotation); } /** * Create Y (range) axis for given index. * Shall be overriden by subclasses. */ protected NumberAxis createYAxis(int index) { NumberAxis axis = new NumberAxis(getYAxisLabel()); axis.setAutoRangeIncludesZero(false); return axis; } /** * If no data is visible, draw at least empty axis. */ private void recoverEmptyPlot(XYPlot plot) { if (plot.getRangeAxis() == null) { logger.debug("debug: No range axis"); plot.setRangeAxis(createYAxis(0)); } } /** * Expands a given range if it collapses into one point. * @param Range to be expanded if upper == lower bound. */ private Range expandPointRange(Range range) { if (range != null && range.getLowerBound() == range.getUpperBound()) { return expandRange(range, 5); } return range; } /** * Expands X axes if only a point is shown. */ private void preparePointRanges(XYPlot plot) { for (int i = 0, num = plot.getDomainAxisCount(); i < num; i++) { logger.debug("Check whether to expand a x axis."); Integer key = Integer.valueOf(i); Range r = xRanges.get(key); if (r != null && r.getLowerBound() == r.getUpperBound()) { xRanges.put(key, expandRange(r, 5)); } } } /** * Expand range by percent. */ public static Range expandRange(Range range, double percent) { if (range == null) { return null; } double value = range.getLowerBound(); double expand = value / 100 * percent; return expand != 0 ? new Range(value-expand, value+expand) : new Range(-0.01 * percent, 0.01 * percent); } /** * This method zooms the plot to the specified ranges in the attribute * document or to the ranges specified by the min/max values in the * datasets. <b>Note:</b> We determine the range manually if no zoom ranges * are given, because JFreeCharts auto-zoom adds a margin to the left and * right of the data area. * * @param plot The XYPlot. */ protected void autoZoom(XYPlot plot) { logger.debug("Zoom to specified ranges."); Range xrange = getDomainAxisRange(); Range yrange = getValueAxisRange(); zoomX(plot, plot.getDomainAxis(), xRanges.get(0), xrange); for (int i = 0, num = plot.getRangeAxisCount(); i < num; i++) { ValueAxis yaxis = plot.getRangeAxis(i); if (yaxis == null) { logger.debug("Zoom problem: no Y Axis for index: " + i); continue; } logger.debug("Prepare zoom settings for y axis at index: " + i); zoomY(plot, yaxis, yRanges.get(Integer.valueOf(i)), yrange); } } protected boolean zoomX(XYPlot plot, ValueAxis axis, Range range, Range x) { return zoom(plot, axis, range, x); } protected boolean zoomY(XYPlot plot, ValueAxis axis, Range range, Range x) { return zoom(plot, axis, range, x); } /** * Zooms the x axis to the range specified in the attribute document. * * @param plot The XYPlot. * @param axis The axis the shoud be modified. * @param range The whole range specified by a dataset. * @param x A user defined range (null permitted). * * @return true, if a zoom range was specified, otherwise false. */ protected boolean zoom(XYPlot plot, ValueAxis axis, Range range, Range x) { if (range == null) { return false; } if (x != null) { double min = range.getLowerBound(); double max = range.getUpperBound(); double diff = max > min ? max - min : min - max; Range computed = new Range( min + x.getLowerBound() * diff, min + x.getUpperBound() * diff); axis.setRangeWithMargins(computed); logger.debug("Zoom axis to: " + computed); return true; } axis.setRangeWithMargins(range); return false; } /** * This method extracts the minimum and maximum values for x and y axes * which are stored in <i>xRanges</i> and <i>yRanges</i>. * * @param index The index of the y-Axis. * * @return a Range[] as follows: [x-Range, y-Range]. */ public Range[] getRangesForAxis(int index) { logger.debug("getRangesForAxis " + index); return new Range[] { xRanges.get(Integer.valueOf(0)), yRanges.get(Integer.valueOf(index)) }; } /** * Add annotations to Renderer. */ protected void addAnnotationsToRenderer(XYPlot plot) { plot.clearAnnotations(); if (annotations == null) { logger.debug("No Annotations given."); return; } LegendItemCollection lic = new LegendItemCollection(); LegendItemCollection old = plot.getFixedLegendItems(); XYItemRenderer renderer = plot.getRenderer(0); for (FLYSAnnotation fa: annotations) { Document theme = fa.getTheme(); ThemeAccess themeAccess = new ThemeAccess(theme); Color color = themeAccess.parseLineColorField(); int lineWidth = themeAccess.parseLineWidth(); lic.add(new LegendItem(fa.getLabel(), color)); for (XYTextAnnotation ta: fa.getAnnotations()) { if(ta instanceof StickyAxisAnnotation) { StickyAxisAnnotation sta = (StickyAxisAnnotation)ta; sta.applyTheme(themeAccess); renderer.addAnnotation(sta); } else { ta.setPaint(color); ta.setOutlineStroke(new BasicStroke((float) lineWidth)); renderer.addAnnotation(ta); } } } // (Re-)Add prior legend entries. if (old != null) { old.addAll(lic); } else { old = lic; } plot.setFixedLegendItems(old); } /** * Adjusts the axes of a plot (the first axis does not include zero). * To be overridden by children. * @param plot The XYPlot of the chart. */ protected void adjustAxes(XYPlot plot) { /* NumberAxis yAxis = (NumberAxis) plot.getRangeAxis(); if (yAxis == null) { logger.warn("No Axis to setAutoRangeIncludeZero."); } else { yAxis.setAutoRangeIncludesZero(false); } */ } /** * Set some Stroke/Grid defaults. */ protected void adjustPlot(XYPlot plot) { Stroke gridStroke = new BasicStroke( DEFAULT_GRID_LINE_WIDTH, BasicStroke.CAP_BUTT, BasicStroke.JOIN_MITER, 3.0f, new float[] { 3.0f }, 0.0f); plot.setDomainGridlineStroke(gridStroke); plot.setDomainGridlinePaint(DEFAULT_GRID_COLOR); plot.setDomainGridlinesVisible(true); plot.setRangeGridlineStroke(gridStroke); plot.setRangeGridlinePaint(DEFAULT_GRID_COLOR); plot.setRangeGridlinesVisible(true); plot.setAxisOffset(new RectangleInsets(0d, 0d, 0d, 0d)); } /** Override to handle subtitle adding. */ protected void addSubtitles(JFreeChart chart) { // override this method in subclasses that need subtitles } /** * This method walks over all axes (domain and range) of <i>plot</i> and * calls localizeDomainAxis() for domain axes or localizeRangeAxis() for * range axes. * * @param plot The XYPlot. */ private void localizeAxes(XYPlot plot) { for (int i = 0, num = plot.getDomainAxisCount(); i < num; i++) { ValueAxis axis = plot.getDomainAxis(i); if (axis != null) { localizeDomainAxis(axis); } else { logger.warn("Domain axis at " + i + " is null."); } } for (int i = 0, num = plot.getRangeAxisCount(); i < num; i++) { ValueAxis axis = plot.getRangeAxis(i); if (axis != null) { localizeRangeAxis(axis); } else { logger.warn("Range axis at " + i + " is null."); } } } /** * Overrides the NumberFormat with the NumberFormat for the current locale * that is provided by getLocale(). * * @param domainAxis The domain axis that needs localization. */ protected void localizeDomainAxis(ValueAxis domainAxis) { NumberFormat nf = NumberFormat.getInstance(getLocale()); ((NumberAxis) domainAxis).setNumberFormatOverride(nf); } /** * Overrides the NumberFormat with the NumberFormat for the current locale * that is provided by getLocale(). * * @param domainAxis The domain axis that needs localization. */ protected void localizeRangeAxis(ValueAxis rangeAxis) { NumberFormat nf = NumberFormat.getInstance(getLocale()); ((NumberAxis) rangeAxis).setNumberFormatOverride(nf); } /** * @param idx "index" of dataset/series (first dataset to be drawn has * index 0), correlates with renderer index. * @param isArea true if the series describes an area and shall be rendered * as such. * @return idx increased by number of items addded. */ protected int applyThemes( XYPlot plot, XYSeriesCollection series, int idx, boolean isArea ) { LegendItemCollection lic = new LegendItemCollection(); LegendItemCollection anno = plot.getFixedLegendItems(); int retidx = idx; if (isArea) { logger.debug("Registering an 'area'renderer at idx: " + idx); StyledAreaSeriesCollection area = (StyledAreaSeriesCollection) series; StableXYDifferenceRenderer dRenderer = new StableXYDifferenceRenderer(); if (area.getMode() == StyledAreaSeriesCollection.FILL_MODE.UNDER) { dRenderer.setPositivePaint(createTransparentPaint()); } plot.setRenderer(idx, dRenderer); area.applyTheme(dRenderer); LegendItem legendItem = dRenderer.getLegendItem(idx, 0); if (legendItem != null) { lic.add(legendItem); } else { logger.warn("Could not get LegentItem for renderer: " + idx + ", series-idx " + 0); } if (anno != null) { lic.addAll(anno); } plot.setFixedLegendItems(lic); return retidx + 1; } XYLineAndShapeRenderer renderer = getRenderer(plot, idx); for (int s = 0, num = series.getSeriesCount(); s < num; s++) { XYSeries serie = series.getSeries(s); if (serie instanceof StyledXYSeries) { ((StyledXYSeries) serie).applyTheme(renderer, s); } // special case: if there is just one single item, we need to enable // points for this series, otherwise we would not see anything in // the chart area. if (serie.getItemCount() == 1) { renderer.setSeriesShapesVisible(s, true); } LegendItem legendItem = renderer.getLegendItem(idx, s); if (legendItem != null) { lic.add(legendItem); } else { logger.warn("Could not get LegentItem for renderer: " + idx + ", series-idx " + s); } // TODO: why that? isnt renderer set per dataset not per series? retidx++; } if (anno != null) { lic.addAll(anno); } plot.setFixedLegendItems(lic); plot.setRenderer(idx, renderer); return retidx; } /** Returns a transparently textured paint. */ // TODO why not use a transparent color? protected static Paint createTransparentPaint() { BufferedImage texture = new BufferedImage( 1, 1, BufferedImage.TYPE_4BYTE_ABGR); return new TexturePaint( texture, new Rectangle2D.Double(0d, 0d, 0d, 0d)); } /** * Get renderer, from plot or cloned default renderer otherwise. */ protected XYLineAndShapeRenderer getRenderer(XYPlot plot, int idx) { // !TODO what if its a differencerenderer?! logger.debug("getRenderer: " + idx); XYLineAndShapeRenderer r = (XYLineAndShapeRenderer) plot.getRenderer(idx); if (r != null) { return r; } if (idx == 0) { logger.warn("No default renderer set!"); return new XYLineAndShapeRenderer(); } r = (XYLineAndShapeRenderer) plot.getRenderer(0); try { return (XYLineAndShapeRenderer) r.clone(); } catch (CloneNotSupportedException cnse) { logger.warn(cnse, cnse); } logger.warn("No applicalable renderer found!"); return new XYLineAndShapeRenderer(); } /** * Register annotations like MainValues for later plotting * * @param o list of annotations (data of facet). * @param facet The facet. This facet does NOT support any data objects. Use * FLYSArtifact.getNativeFacet() instead to retrieve a Facet which supports * data. * @param theme Theme document for given annotations. * @param visible The visibility of the annotations. */ protected void doAnnotations( FLYSAnnotation annotations, Facet facet, Document theme, boolean visible ){ logger.debug("doAnnotations"); // Add all annotations to our annotation pool. annotations.setTheme(theme); annotations.setLabel(facet.getDescription()); addAnnotations(annotations, visible); } /** * Returns an instance of <i>ChartSettings</i> with a chart specific section * but with no axes settings. * * @return an instance of <i>ChartSettings</i>. */ public Settings getSettings() { ChartSettings settings = new ChartSettings(); Section chartSection = buildChartSection(); Section legendSection = buildLegendSection(); settings.setChartSection(chartSection); settings.setLegendSection(legendSection); List<Section> axisSections = buildAxisSections(); for (Section axisSection: axisSections) { settings.addAxisSection(axisSection); } return settings; } /** * Creates a new <i>ChartSection</i>. * * @return a new <i>ChartSection</i>. */ protected Section buildChartSection() { ChartSection chartSection = new ChartSection(); chartSection.setTitle(getChartTitle()); chartSection.setSubtitle(getChartSubtitle()); chartSection.setDisplayGird(isGridVisible()); return chartSection; } /** * Creates a new <i>LegendSection</i>. * * @return a new <i>LegendSection</i>. */ protected Section buildLegendSection() { LegendSection legendSection = new LegendSection(); legendSection.setVisibility(isLegendVisible()); legendSection.setFontSize(getLegendFontSize()); return legendSection; } /** * Creates a list of Sections that contains all axes of the chart (including * X and Y axes). * * @return a list of Sections for each axis in this chart. */ protected List<Section> buildAxisSections() { List<Section> axisSections = new ArrayList<Section>(); axisSections.addAll(buildXAxisSections()); axisSections.addAll(buildYAxisSections()); return axisSections; } /** * Creates a new Section for chart's X axis. * * @return a List that contains a Section for the X axis. */ protected List<Section> buildXAxisSections() { List<Section> axisSections = new ArrayList<Section>(); String identifier = "X"; AxisSection axisSection = new AxisSection(); axisSection.setIdentifier(identifier); axisSection.setLabel(getXAxisLabel()); axisSection.setFontSize(14); axisSection.setFixed(false); // XXX We are able to find better default ranges that [0,0], but the Y // axes currently have no better ranges set. axisSection.setUpperRange(0d); axisSection.setLowerRange(0d); axisSections.add(axisSection); return axisSections; } /** * Creates a list of Section for the chart's Y axes. This method makes use * of <i>getYAxisWalker</i> to be able to access all Y axes defined in * subclasses. * * @return a list of Y axis sections. */ protected List<Section> buildYAxisSections() { List<Section> axisSections = new ArrayList<Section>(); YAxisWalker walker = getYAxisWalker(); for (int i = 0, n = walker.length(); i < n; i++) { AxisSection ySection = new AxisSection(); ySection.setIdentifier(walker.getId(i)); ySection.setLabel(getYAxisLabel(i)); ySection.setFontSize(14); ySection.setFixed(false); // XXX We are able to find better default ranges that [0,0], the // only problem is, that we do NOT have a better range than [0,0] // for each axis, because the initial chart will not have a dataset // for each axis set! ySection.setUpperRange(0d); ySection.setLowerRange(0d); axisSections.add(ySection); } return axisSections; } } // vim:set ts=4 sw=4 si et sta sts=4 fenc=utf8 :