/** * Takes a GetLegendGraphicRequest and produces a BufferedImage that then can be used by a * subclass to encode it to the appropriate output format. * * @param request the "parsed" request, where "parsed" means that it's values are already * validated so this method must not take care of verifying the requested layer exists and the * like. * @throws ServiceException if there are problems creating a "sample" feature instance for the * FeatureType <code>request</code> returns as the required layer (which should not occur). */ public BufferedImage buildLegendGraphic(GetLegendGraphicRequest request) throws ServiceException { // list of images to be rendered for the layers (more than one if // a layer group is given) List<RenderedImage> layersImages = new ArrayList<RenderedImage>(); List<LegendRequest> layers = request.getLegends(); // List<FeatureType> layers=request.getLayers(); // List<Style> styles=request.getStyles(); // List<String> rules=request.getRules(); boolean forceLabelsOn = false; boolean forceLabelsOff = false; if (request.getLegendOptions().get("forceLabels") instanceof String) { String forceLabelsOpt = (String) request.getLegendOptions().get("forceLabels"); if (forceLabelsOpt.equalsIgnoreCase("on")) { forceLabelsOn = true; } else if (forceLabelsOpt.equalsIgnoreCase("off")) { forceLabelsOff = true; } } boolean forceTitlesOff = false; if (request.getLegendOptions().get("forceTitles") instanceof String) { String forceTitlesOpt = (String) request.getLegendOptions().get("forceTitles"); if (forceTitlesOpt.equalsIgnoreCase("off")) { forceTitlesOff = true; } } for (LegendRequest legend : layers) { FeatureType layer = legend.getFeatureType(); // style and rule to use for the current layer Style gt2Style = legend.getStyle(); if (gt2Style == null) { throw new NullPointerException("request.getStyle()"); } // get rule corresponding to the layer index // normalize to null for NO RULE String ruleName = legend.getRule(); // was null // width and height, we might have to rescale those in case of DPI usage int w = request.getWidth(); int h = request.getHeight(); // apply dpi rescale double dpi = RendererUtilities.getDpi(request.getLegendOptions()); double standardDpi = RendererUtilities.getDpi(Collections.emptyMap()); if (dpi != standardDpi) { double scaleFactor = dpi / standardDpi; w = (int) Math.round(w * scaleFactor); h = (int) Math.round(h * scaleFactor); DpiRescaleStyleVisitor dpiVisitor = new DpiRescaleStyleVisitor(scaleFactor); dpiVisitor.visit(gt2Style); gt2Style = (Style) dpiVisitor.getCopy(); } // apply UOM rescaling if we have a scale if (request.getScale() > 0) { double pixelsPerMeters = RendererUtilities.calculatePixelsPerMeterRatio( request.getScale(), request.getLegendOptions()); UomRescaleStyleVisitor rescaleVisitor = new UomRescaleStyleVisitor(pixelsPerMeters); rescaleVisitor.visit(gt2Style); gt2Style = (Style) rescaleVisitor.getCopy(); } boolean strict = request.isStrict(); final boolean transparent = request.isTransparent(); RenderedImage titleImage = null; // if we have more than one layer, we put a title on top of each layer legend if (layers.size() > 1 && !forceTitlesOff) { titleImage = getLayerTitle(legend, w, h, transparent, request); } // Check for rendering transformation boolean hasVectorTransformation = false; boolean hasRasterTransformation = false; List<FeatureTypeStyle> ftsList = gt2Style.featureTypeStyles(); for (int i = 0; i < ftsList.size(); i++) { FeatureTypeStyle fts = ftsList.get(i); Expression exp = fts.getTransformation(); if (exp != null) { ProcessFunction processFunction = (ProcessFunction) exp; Name processName = processFunction.getProcessName(); Map<String, Parameter<?>> outputs = Processors.getResultInfo(processName, null); if (outputs.isEmpty()) { continue; } Parameter<?> output = outputs.values().iterator().next(); // we assume there is only one output if (SimpleFeatureCollection.class.isAssignableFrom(output.getType())) { hasVectorTransformation = true; break; } else if (GridCoverage2D.class.isAssignableFrom(output.getType())) { hasRasterTransformation = true; break; } } } final boolean buildRasterLegend = (!strict && layer == null && LegendUtils.checkRasterSymbolizer(gt2Style)) || (LegendUtils.checkGridLayer(layer) && !hasVectorTransformation) || hasRasterTransformation; // Just checks LegendInfo currently, should check gtStyle final boolean useProvidedLegend = layer != null && legend.getLayerInfo() != null; RenderedImage legendImage = null; if (useProvidedLegend) { legendImage = getLayerLegend(legend, w, h, transparent, request); } if (buildRasterLegend) { final RasterLayerLegendHelper rasterLegendHelper = new RasterLayerLegendHelper(request, gt2Style, ruleName); final BufferedImage image = rasterLegendHelper.getLegend(); if (image != null) { if (titleImage != null) { layersImages.add(titleImage); } layersImages.add(image); } } else if (useProvidedLegend && legendImage != null) { if (titleImage != null) { layersImages.add(titleImage); } layersImages.add(legendImage); } else { final Feature sampleFeature; if (layer == null || hasVectorTransformation) { sampleFeature = createSampleFeature(); } else { sampleFeature = createSampleFeature(layer); } final FeatureTypeStyle[] ftStyles = gt2Style.featureTypeStyles().toArray(new FeatureTypeStyle[0]); final double scaleDenominator = request.getScale(); final Rule[] applicableRules; if (ruleName != null) { Rule rule = LegendUtils.getRule(ftStyles, ruleName); if (rule == null) { throw new ServiceException( "Specified style does not contains a rule named " + ruleName); } applicableRules = new Rule[] {rule}; } else { applicableRules = LegendUtils.getApplicableRules(ftStyles, scaleDenominator); } final NumberRange<Double> scaleRange = NumberRange.create(scaleDenominator, scaleDenominator); final int ruleCount = applicableRules.length; /** * A legend graphic is produced for each applicable rule. They're being held here until the * process is done and then painted on a "stack" like legend. */ final List<RenderedImage> legendsStack = new ArrayList<RenderedImage>(ruleCount); final SLDStyleFactory styleFactory = new SLDStyleFactory(); double minimumSymbolSize = MINIMUM_SYMBOL_SIZE; // get minSymbolSize from LEGEND_OPTIONS, if defined if (request.getLegendOptions().get("minSymbolSize") instanceof String) { String minSymbolSizeOpt = (String) request.getLegendOptions().get("minSymbolSize"); try { minimumSymbolSize = Double.parseDouble(minSymbolSizeOpt); } catch (NumberFormatException e) { throw new IllegalArgumentException("Invalid minSymbolSize value: should be a number"); } } // calculate the symbols rescaling factor necessary for them to be // drawn inside the icon box double symbolScale = calcSymbolScale(w, h, layer, sampleFeature, applicableRules, minimumSymbolSize); for (int i = 0; i < ruleCount; i++) { final RenderedImage image = ImageUtils.createImage(w, h, (IndexColorModel) null, transparent); final Map<RenderingHints.Key, Object> hintsMap = new HashMap<RenderingHints.Key, Object>(); final Graphics2D graphics = ImageUtils.prepareTransparency( transparent, LegendUtils.getBackgroundColor(request), image, hintsMap); graphics.setRenderingHint( RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON); Feature sample = getSampleFeatureForRule(layer, sampleFeature, applicableRules[i]); FilterFactory ff = CommonFactoryFinder.getFilterFactory(); final Symbolizer[] symbolizers = applicableRules[i].getSymbolizers(); final GraphicLegend graphic = applicableRules[i].getLegend(); // If this rule has a legend graphic defined in the SLD, use it if (graphic != null) { if (this.samplePoint == null) { Coordinate coord = new Coordinate(w / 2, h / 2); try { this.samplePoint = new LiteShape2(geomFac.createPoint(coord), null, null, false); } catch (Exception e) { this.samplePoint = null; } } shapePainter.paint(graphics, this.samplePoint, graphic, scaleDenominator, false); } else { for (int sIdx = 0; sIdx < symbolizers.length; sIdx++) { Symbolizer symbolizer = symbolizers[sIdx]; if (symbolizer instanceof RasterSymbolizer) { // skip it } else { // rescale symbols if needed if (symbolScale > 1.0 && symbolizer instanceof PointSymbolizer) { PointSymbolizer pointSymbolizer = cloneSymbolizer(symbolizer); if (pointSymbolizer.getGraphic() != null) { double size = getPointSymbolizerSize(sample, pointSymbolizer, Math.min(w, h) - 4); pointSymbolizer .getGraphic() .setSize(ff.literal(size / symbolScale + minimumSymbolSize)); symbolizer = pointSymbolizer; } } Style2D style2d = styleFactory.createStyle(sample, symbolizer, scaleRange); LiteShape2 shape = getSampleShape(symbolizer, w, h); if (style2d != null) { shapePainter.paint(graphics, shape, style2d, scaleDenominator); } } } } if (image != null && titleImage != null) { layersImages.add(titleImage); titleImage = null; } legendsStack.add(image); graphics.dispose(); } // JD: changed legend behavior, see GEOS-812 // this.legendGraphic = scaleImage(mergeLegends(legendsStack), request); BufferedImage image = mergeLegends(legendsStack, applicableRules, request, forceLabelsOn, forceLabelsOff); if (image != null) { layersImages.add(image); } } } // all legend graphics are merged if we have a layer group BufferedImage finalLegend = mergeLegends(layersImages, null, request, forceLabelsOn, forceLabelsOff); if (finalLegend == null) { throw new IllegalArgumentException("no legend passed"); } return finalLegend; }
/** Unsure if this is the paint for the border, or the fill? */ private void paint(ViewportGraphics g, SimpleFeature feature, LiteShape shape, Symbolizer symb) { if (symb instanceof PolygonSymbolizer) { PolygonSymbolizer polySymb = (PolygonSymbolizer) symb; double opacity = SLDs.polyFillOpacity(polySymb); Color fillColor = SLDs.polyFill(polySymb); Stroke stroke = SLDs.stroke(polySymb); Color strokeColor = SLDs.polyColor(polySymb); int width = SLDs.width(stroke); if (width == SLDs.NOTFOUND) width = 1; if (Double.isNaN(opacity)) opacity = 1.0; if (fillColor != null) { fillColor = new Color( fillColor.getRed(), fillColor.getGreen(), fillColor.getBlue(), (int) (255 * opacity)); g.setColor(fillColor); g.fill(shape); } if (stroke != null && strokeColor != null) { Graphics2D g2d = g.getGraphics(Graphics2D.class); g2d.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON); g.setColor(strokeColor); float[] dashArray = stroke.getDashArray(); Float dashOffset = stroke.getDashOffset().evaluate(null, Float.class); if (dashOffset == null) { dashOffset = 0f; } String cap = stroke.getLineCap().evaluate(null, String.class); int capInt = Utilities.sld2awtCap(cap); String join = stroke.getLineJoin().evaluate(null, String.class); int joinInt = Utilities.sld2awtJoin(join); BasicStroke bStroke = new BasicStroke(width, capInt, joinInt, 1f, dashArray, dashOffset); g2d.setStroke(bStroke); g2d.draw(shape); } } if (symb instanceof LineSymbolizer) { LineSymbolizer lineSymbolizer = (LineSymbolizer) symb; Color c = SLDs.color(lineSymbolizer); int w = SLDs.width(lineSymbolizer); Stroke stroke = SLDs.stroke(lineSymbolizer); if (c != null && w > 0) { Graphics2D g2d = g.getGraphics(Graphics2D.class); g2d.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON); g2d.setColor(c); float[] dashArray = stroke.getDashArray(); Float dashOffset = stroke.getDashOffset().evaluate(null, Float.class); if (dashOffset == null) { dashOffset = 0f; } String cap = stroke.getLineCap().evaluate(null, String.class); int capInt = Utilities.sld2awtCap(cap); String join = stroke.getLineJoin().evaluate(null, String.class); int joinInt = Utilities.sld2awtJoin(join); BasicStroke bStroke = new BasicStroke(w, capInt, joinInt, 1f, dashArray, dashOffset); g2d.setStroke(bStroke); g2d.draw(shape); } } if (symb instanceof PointSymbolizer) { PointSymbolizer pointSymbolizer = (PointSymbolizer) symb; AffineTransform transform = g.getTransform(); // offset Point2D offset = Utilities.getOffset(pointSymbolizer); if (offset != null) { java.awt.Point off = new java.awt.Point((int) offset.getX(), -1 * (int) offset.getY()); g.translate(off); } // rotation Graphic graphic = SLDs.graphic(pointSymbolizer); Double rotation = graphic.getRotation().evaluate(null, Double.class); Double gSize = graphic.getSize().evaluate(null, Double.class); if (gSize != null && rotation != null) { g.setTransform( AffineTransform.getRotateInstance(toRadians(rotation), gSize / 2, gSize / 2)); } Color c = SLDs.pointStrokeColorWithAlpha(pointSymbolizer); Color fill = SLDs.pointFillWithAlpha(pointSymbolizer); int width = SLDs.width(SLDs.stroke(pointSymbolizer)); if (width < 0) { width = 0; } float[] point = new float[6]; PathIterator pathIterator = shape.getPathIterator(null); pathIterator.currentSegment(point); SLDStyleFactory styleFactory = new SLDStyleFactory(); Style2D tmp = null; try { tmp = styleFactory.createStyle( feature, pointSymbolizer, new NumberRange(Double.class, Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY)); } catch (Exception e) { PointSymbolizerWrapper tmpPs = new PointSymbolizerWrapper(pointSymbolizer, null); tmp = styleFactory.createStyle( feature, pointSymbolizer, new NumberRange(Double.class, Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY)); } if (tmp instanceof MarkStyle2D) { MarkStyle2D style = (MarkStyle2D) tmp; Shape shape2 = style.getTransformedShape(point[0], point[1]); if (c == null && fill == null) { // g.setColor(Color.GRAY); // g.fill(shape2); } if (fill != null) { g.setColor(fill); g.fill(shape2); } // else { // g.setColor(Color.GRAY); // g.fill(shape2); // } if (c != null) { g.setStroke(ViewportGraphics.LINE_SOLID, width); g.setColor(c); g.draw(shape2); } // else { // g.setStroke(ViewportGraphics.LINE_SOLID, width); // g.setColor(Color.DARK_GRAY); // g.draw(shape2); // } } else if (tmp instanceof GraphicStyle2D) { GraphicStyle2D style = (GraphicStyle2D) tmp; RenderedImage image = (RenderedImage) style.getImage(); g.drawImage( image, (int) (point[0] - ((double) image.getWidth()) / (double) 2), (int) (point[1] - ((double) image.getHeight()) / (double) 2)); } } }