/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* $Id$ */ package org.apache.fop.render.java2d; // Java import java.awt.BasicStroke; import java.awt.Color; import java.awt.Graphics; import java.awt.Graphics2D; import java.awt.RenderingHints; import java.awt.font.GlyphVector; import java.awt.geom.AffineTransform; import java.awt.geom.GeneralPath; import java.awt.geom.Line2D; import java.awt.geom.Point2D; import java.awt.geom.Rectangle2D; import java.awt.image.BufferedImage; import java.awt.print.PageFormat; import java.awt.print.Printable; import java.awt.print.PrinterException; import java.io.FileNotFoundException; import java.io.IOException; import java.io.OutputStream; import java.util.Iterator; import java.util.List; import java.util.Map; import java.util.Stack; import org.apache.xmlgraphics.image.loader.ImageException; import org.apache.xmlgraphics.image.loader.ImageFlavor; import org.apache.xmlgraphics.image.loader.ImageInfo; import org.apache.xmlgraphics.image.loader.ImageManager; import org.apache.xmlgraphics.image.loader.ImageSessionContext; import org.apache.xmlgraphics.image.loader.impl.ImageGraphics2D; import org.apache.xmlgraphics.image.loader.impl.ImageRendered; import org.apache.xmlgraphics.image.loader.impl.ImageXMLDOM; import org.apache.xmlgraphics.image.loader.util.ImageUtil; import org.apache.fop.apps.FOPException; import org.apache.fop.apps.FOUserAgent; import org.apache.fop.apps.FopFactoryConfigurator; import org.apache.fop.area.CTM; import org.apache.fop.area.PageViewport; import org.apache.fop.area.Trait; import org.apache.fop.area.inline.Image; import org.apache.fop.area.inline.InlineArea; import org.apache.fop.area.inline.Leader; import org.apache.fop.area.inline.SpaceArea; import org.apache.fop.area.inline.TextArea; import org.apache.fop.area.inline.WordArea; import org.apache.fop.datatypes.URISpecification; import org.apache.fop.events.ResourceEventProducer; import org.apache.fop.fo.Constants; import org.apache.fop.fonts.Font; import org.apache.fop.fonts.FontInfo; import org.apache.fop.fonts.Typeface; import org.apache.fop.render.AbstractPathOrientedRenderer; import org.apache.fop.render.Graphics2DAdapter; import org.apache.fop.render.RendererContext; import org.apache.fop.render.pdf.CTMHelper; import org.apache.fop.util.CharUtilities; /** * The Java2DRenderer class provides the abstract technical * foundation for all rendering with the Java2D API. Renderers like * AWTRenderer subclass it and provide the concrete output paths. *

* A lot of the logic is performed by AbstractRenderer. The * class-variables currentIPPosition and * currentBPPosition hold the position of the currently rendered * area. *

* Java2DGraphicsState state holds the Graphics2D, * which is used along the whole rendering. state also acts as a * stack (state.push() and state.pop()). *

* The rendering process is basically always the same: *

* void renderXXXXX(Area area) { * //calculate the currentPosition * state.updateFont(name, size, null); * state.updateColor(ct, false, null); * state.getGraph.draw(new Shape(args)); * } * */ public abstract class Java2DRenderer extends AbstractPathOrientedRenderer implements Printable { /** Rendering Options key for the controlling the transparent page background option. */ public static final String JAVA2D_TRANSPARENT_PAGE_BACKGROUND = "transparent-page-background"; /** The scale factor for the image size, values: ]0 ; 1] */ protected double scaleFactor = 1; /** The page width in pixels */ protected int pageWidth = 0; /** The page height in pixels */ protected int pageHeight = 0; /** List of Viewports */ protected List pageViewportList = new java.util.ArrayList(); /** The 0-based current page number */ private int currentPageNumber = 0; /** true if antialiasing is set */ protected boolean antialiasing = true; /** true if qualityRendering is set */ protected boolean qualityRendering = true; /** false: paints a non-transparent white background, true: for a transparent background */ protected boolean transparentPageBackground = false; /** The current state, holds a Graphics2D and its context */ protected Java2DGraphicsState state; private Stack stateStack = new Stack(); /** true if the renderer has finished rendering all the pages */ private boolean renderingDone; private GeneralPath currentPath = null; /** Default constructor */ public Java2DRenderer() { } /** * {@inheritDoc} */ public void setUserAgent(FOUserAgent foUserAgent) { super.setUserAgent(foUserAgent); userAgent.setRendererOverride(this); // for document regeneration String s = (String)userAgent.getRendererOptions().get(JAVA2D_TRANSPARENT_PAGE_BACKGROUND); if (s != null) { this.transparentPageBackground = "true".equalsIgnoreCase(s); } } /** @return the FOUserAgent */ public FOUserAgent getUserAgent() { return userAgent; } /** * {@inheritDoc} */ public void setupFontInfo(FontInfo inFontInfo) { //Don't call super.setupFontInfo() here! Java2D needs a special font setup // create a temp Image to test font metrics on fontInfo = inFontInfo; BufferedImage fontImage = new BufferedImage(100, 100, BufferedImage.TYPE_INT_RGB); Graphics2D g = fontImage.createGraphics(); //The next line is important to get accurate font metrics! g.setRenderingHint(RenderingHints.KEY_FRACTIONALMETRICS, RenderingHints.VALUE_FRACTIONALMETRICS_ON); FontSetup.setup(fontInfo, fontList, fontResolver, g); } /** {@inheritDoc} */ public Graphics2DAdapter getGraphics2DAdapter() { return new Java2DGraphics2DAdapter(); } /** * Sets the new scale factor. * @param newScaleFactor ]0 ; 1] */ public void setScaleFactor(double newScaleFactor) { scaleFactor = newScaleFactor; } /** @return the scale factor */ public double getScaleFactor() { return scaleFactor; } /** {@inheritDoc} */ public void startRenderer(OutputStream out) throws IOException { super.startRenderer(out); // do nothing by default } /** {@inheritDoc} */ public void stopRenderer() throws IOException { log.debug("Java2DRenderer stopped"); renderingDone = true; int numberOfPages = currentPageNumber; // TODO set all vars to null for gc if (numberOfPages == 0) { new FOPException("No page could be rendered"); } } /** @return true if the renderer is not currently processing */ public boolean isRenderingDone() { return this.renderingDone; } /** * @return The 0-based current page number */ public int getCurrentPageNumber() { return currentPageNumber; } /** * @param c the 0-based current page number */ public void setCurrentPageNumber(int c) { this.currentPageNumber = c; } /** * Returns the number of pages available. This method is also part of the Pageable interface. * @return The 0-based total number of rendered pages * @see java.awt.print.Pageable */ public int getNumberOfPages() { return pageViewportList.size(); } /** * Clears the ViewportList. * Used if the document is reloaded. */ public void clearViewportList() { pageViewportList.clear(); setCurrentPageNumber(0); } /** * This method override only stores the PageViewport in a List. No actual * rendering is performed here. A renderer override renderPage() to get the * freshly produced PageViewport, and render them on the fly (producing the * desired BufferedImages by calling getPageImage(), which lazily starts the * rendering process). * * @param pageViewport the PageViewport object supplied by * the Area Tree * @throws IOException In case of an I/O error * @see org.apache.fop.render.Renderer */ public void renderPage(PageViewport pageViewport) throws IOException { rememberPage((PageViewport)pageViewport.clone()); //The clone() call is necessary as we store the page for later. Otherwise, the //RenderPagesModel calls PageViewport.clear() to release memory as early as possible. currentPageNumber++; } /** * Stores the pageViewport in a list of page viewports so they can be rendered later. * Subclasses can override this method to filter pages, for example. * @param pageViewport the page viewport */ protected void rememberPage(PageViewport pageViewport) { assert pageViewport.getPageIndex() >= 0; pageViewportList.add(pageViewport); } /** * Generates a desired page from the renderer's page viewport list. * * @param pageViewport the PageViewport to be rendered * @return the java.awt.image.BufferedImage corresponding to * the page or null if the page doesn't exist. */ public BufferedImage getPageImage(PageViewport pageViewport) { this.currentPageViewport = pageViewport; try { Rectangle2D bounds = pageViewport.getViewArea(); pageWidth = (int) Math.round(bounds.getWidth() / 1000f); pageHeight = (int) Math.round(bounds.getHeight() / 1000f); log.info( "Rendering Page " + pageViewport.getPageNumberString() + " (pageWidth " + pageWidth + ", pageHeight " + pageHeight + ")"); double scaleX = scaleFactor * (25.4 / FopFactoryConfigurator.DEFAULT_TARGET_RESOLUTION) / userAgent.getTargetPixelUnitToMillimeter(); double scaleY = scaleFactor * (25.4 / FopFactoryConfigurator.DEFAULT_TARGET_RESOLUTION) / userAgent.getTargetPixelUnitToMillimeter(); int bitmapWidth = (int) ((pageWidth * scaleX) + 0.5); int bitmapHeight = (int) ((pageHeight * scaleY) + 0.5); BufferedImage currentPageImage = getBufferedImage(bitmapWidth, bitmapHeight); Graphics2D graphics = currentPageImage.createGraphics(); graphics.setRenderingHint(RenderingHints.KEY_FRACTIONALMETRICS, RenderingHints.VALUE_FRACTIONALMETRICS_ON); if (antialiasing) { graphics.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON); graphics.setRenderingHint(RenderingHints.KEY_TEXT_ANTIALIASING, RenderingHints.VALUE_TEXT_ANTIALIAS_ON); } if (qualityRendering) { graphics.setRenderingHint(RenderingHints.KEY_RENDERING, RenderingHints.VALUE_RENDER_QUALITY); } graphics.setRenderingHint(RenderingHints.KEY_STROKE_CONTROL, RenderingHints.VALUE_STROKE_PURE); // transform page based on scale factor supplied AffineTransform at = graphics.getTransform(); at.scale(scaleX, scaleY); graphics.setTransform(at); // draw page frame if (!transparentPageBackground) { graphics.setColor(Color.white); graphics.fillRect(0, 0, pageWidth, pageHeight); } graphics.setColor(Color.black); graphics.drawRect(-1, -1, pageWidth + 2, pageHeight + 2); graphics.drawLine(pageWidth + 2, 0, pageWidth + 2, pageHeight + 2); graphics.drawLine(pageWidth + 3, 1, pageWidth + 3, pageHeight + 3); graphics.drawLine(0, pageHeight + 2, pageWidth + 2, pageHeight + 2); graphics.drawLine(1, pageHeight + 3, pageWidth + 3, pageHeight + 3); state = new Java2DGraphicsState(graphics, this.fontInfo, at); try { // reset the current Positions currentBPPosition = 0; currentIPPosition = 0; // this toggles the rendering of all areas renderPageAreas(pageViewport.getPage()); } finally { state = null; } return currentPageImage; } finally { this.currentPageViewport = null; } } /** * Returns a specific BufferedImage to paint a page image on. This method can * be overridden in subclasses to produce different image formats (ex. grayscale or b/w). * @param bitmapWidth width of the image in pixels * @param bitmapHeight heigth of the image in pixels * @return the newly created BufferedImage */ protected BufferedImage getBufferedImage(int bitmapWidth, int bitmapHeight) { return new BufferedImage( bitmapWidth, bitmapHeight, BufferedImage.TYPE_INT_ARGB); } /** * Returns a page viewport. * @param pageIndex the page index (zero-based) * @return the requested PageViewport instance * @exception FOPException If the page is out of range. */ public PageViewport getPageViewport(int pageIndex) throws FOPException { if (pageIndex < 0 || pageIndex >= pageViewportList.size()) { throw new FOPException("Requested page number is out of range: " + pageIndex + "; only " + pageViewportList.size() + " page(s) available."); } return (PageViewport) pageViewportList.get(pageIndex); } /** * Generates a desired page from the renderer's page viewport list. * * @param pageNum the 0-based page number to generate * @return the java.awt.image.BufferedImage corresponding to * the page or null if the page doesn't exist. * @throws FOPException If there's a problem preparing the page image */ public BufferedImage getPageImage(int pageNum) throws FOPException { return getPageImage(getPageViewport(pageNum)); } /** Saves the graphics state of the rendering engine. */ protected void saveGraphicsState() { // push (and save) the current graphics state stateStack.push(state); state = new Java2DGraphicsState(state); } /** Restores the last graphics state of the rendering engine. */ protected void restoreGraphicsState() { state.dispose(); state = (Java2DGraphicsState)stateStack.pop(); } /** {@inheritDoc} */ protected void concatenateTransformationMatrix(AffineTransform at) { state.transform(at); } /** {@inheritDoc} */ protected void startVParea(CTM ctm, Rectangle2D clippingRect) { saveGraphicsState(); if (clippingRect != null) { clipRect((float)clippingRect.getX() / 1000f, (float)clippingRect.getY() / 1000f, (float)clippingRect.getWidth() / 1000f, (float)clippingRect.getHeight() / 1000f); } // Set the given CTM in the graphics state //state.setTransform(new AffineTransform(CTMHelper.toPDFArray(ctm))); state.transform(new AffineTransform(CTMHelper.toPDFArray(ctm))); } /** * {@inheritDoc} */ protected void endVParea() { restoreGraphicsState(); } /** * {@inheritDoc} */ protected List breakOutOfStateStack() { log.debug("Block.FIXED --> break out"); List breakOutList; breakOutList = new java.util.ArrayList(); while (!stateStack.isEmpty()) { breakOutList.add(0, state); //We only pop, we don't dispose, because we can use the instances again later state = (Java2DGraphicsState)stateStack.pop(); } return breakOutList; } /** * {@inheritDoc} * java.util.List) */ protected void restoreStateStackAfterBreakOut(List breakOutList) { log.debug("Block.FIXED --> restoring context after break-out"); Iterator i = breakOutList.iterator(); while (i.hasNext()) { Java2DGraphicsState s = (Java2DGraphicsState)i.next(); stateStack.push(state); state = s; } } /** * {@inheritDoc} */ protected void updateColor(Color col, boolean fill) { state.updateColor(col); } /** * {@inheritDoc} */ protected void clip() { if (currentPath == null) { throw new IllegalStateException("No current path available!"); } state.updateClip(currentPath); currentPath = null; } /** * {@inheritDoc} */ protected void closePath() { currentPath.closePath(); } /** * {@inheritDoc} */ protected void lineTo(float x, float y) { if (currentPath == null) { currentPath = new GeneralPath(); } currentPath.lineTo(x, y); } /** * {@inheritDoc} */ protected void moveTo(float x, float y) { if (currentPath == null) { currentPath = new GeneralPath(); } currentPath.moveTo(x, y); } /** * {@inheritDoc} */ protected void clipRect(float x, float y, float width, float height) { state.updateClip(new Rectangle2D.Float(x, y, width, height)); } /** * {@inheritDoc} */ protected void fillRect(float x, float y, float width, float height) { state.getGraph().fill(new Rectangle2D.Float(x, y, width, height)); } /** * {@inheritDoc} */ protected void drawBorderLine(float x1, float y1, float x2, float y2, boolean horz, boolean startOrBefore, int style, Color col) { Graphics2D g2d = state.getGraph(); drawBorderLine(new Rectangle2D.Float(x1, y1, x2 - x1, y2 - y1), horz, startOrBefore, style, col, g2d); } /** * Draw a border segment of an XSL-FO style border. * @param lineRect the line defined by its bounding rectangle * @param horz true for horizontal border segments, false for vertical border segments * @param startOrBefore true for border segments on the start or before edge, * false for end or after. * @param style the border style (one of Constants.EN_DASHED etc.) * @param col the color for the border segment * @param g2d the Graphics2D instance to paint to */ public static void drawBorderLine(Rectangle2D.Float lineRect, boolean horz, boolean startOrBefore, int style, Color col, Graphics2D g2d) { float x1 = lineRect.x; float y1 = lineRect.y; float x2 = x1 + lineRect.width; float y2 = y1 + lineRect.height; float w = lineRect.width; float h = lineRect.height; if ((w < 0) || (h < 0)) { log.error("Negative extent received. Border won't be painted."); return; } switch (style) { case Constants.EN_DASHED: g2d.setColor(col); if (horz) { float unit = Math.abs(2 * h); int rep = (int)(w / unit); if (rep % 2 == 0) { rep++; } unit = w / rep; float ym = y1 + (h / 2); BasicStroke s = new BasicStroke(h, BasicStroke.CAP_BUTT, BasicStroke.JOIN_MITER, 10.0f, new float[] {unit}, 0); g2d.setStroke(s); g2d.draw(new Line2D.Float(x1, ym, x2, ym)); } else { float unit = Math.abs(2 * w); int rep = (int)(h / unit); if (rep % 2 == 0) { rep++; } unit = h / rep; float xm = x1 + (w / 2); BasicStroke s = new BasicStroke(w, BasicStroke.CAP_BUTT, BasicStroke.JOIN_MITER, 10.0f, new float[] {unit}, 0); g2d.setStroke(s); g2d.draw(new Line2D.Float(xm, y1, xm, y2)); } break; case Constants.EN_DOTTED: g2d.setColor(col); if (horz) { float unit = Math.abs(2 * h); int rep = (int)(w / unit); if (rep % 2 == 0) { rep++; } unit = w / rep; float ym = y1 + (h / 2); BasicStroke s = new BasicStroke(h, BasicStroke.CAP_ROUND, BasicStroke.JOIN_MITER, 10.0f, new float[] {0, unit}, 0); g2d.setStroke(s); g2d.draw(new Line2D.Float(x1, ym, x2, ym)); } else { float unit = Math.abs(2 * w); int rep = (int)(h / unit); if (rep % 2 == 0) { rep++; } unit = h / rep; float xm = x1 + (w / 2); BasicStroke s = new BasicStroke(w, BasicStroke.CAP_ROUND, BasicStroke.JOIN_MITER, 10.0f, new float[] {0, unit}, 0); g2d.setStroke(s); g2d.draw(new Line2D.Float(xm, y1, xm, y2)); } break; case Constants.EN_DOUBLE: g2d.setColor(col); if (horz) { float h3 = h / 3; float ym1 = y1 + (h3 / 2); float ym2 = ym1 + h3 + h3; BasicStroke s = new BasicStroke(h3); g2d.setStroke(s); g2d.draw(new Line2D.Float(x1, ym1, x2, ym1)); g2d.draw(new Line2D.Float(x1, ym2, x2, ym2)); } else { float w3 = w / 3; float xm1 = x1 + (w3 / 2); float xm2 = xm1 + w3 + w3; BasicStroke s = new BasicStroke(w3); g2d.setStroke(s); g2d.draw(new Line2D.Float(xm1, y1, xm1, y2)); g2d.draw(new Line2D.Float(xm2, y1, xm2, y2)); } break; case Constants.EN_GROOVE: case Constants.EN_RIDGE: float colFactor = (style == EN_GROOVE ? 0.4f : -0.4f); if (horz) { Color uppercol = lightenColor(col, -colFactor); Color lowercol = lightenColor(col, colFactor); float h3 = h / 3; float ym1 = y1 + (h3 / 2); g2d.setStroke(new BasicStroke(h3)); g2d.setColor(uppercol); g2d.draw(new Line2D.Float(x1, ym1, x2, ym1)); g2d.setColor(col); g2d.draw(new Line2D.Float(x1, ym1 + h3, x2, ym1 + h3)); g2d.setColor(lowercol); g2d.draw(new Line2D.Float(x1, ym1 + h3 + h3, x2, ym1 + h3 + h3)); } else { Color leftcol = lightenColor(col, -colFactor); Color rightcol = lightenColor(col, colFactor); float w3 = w / 3; float xm1 = x1 + (w3 / 2); g2d.setStroke(new BasicStroke(w3)); g2d.setColor(leftcol); g2d.draw(new Line2D.Float(xm1, y1, xm1, y2)); g2d.setColor(col); g2d.draw(new Line2D.Float(xm1 + w3, y1, xm1 + w3, y2)); g2d.setColor(rightcol); g2d.draw(new Line2D.Float(xm1 + w3 + w3, y1, xm1 + w3 + w3, y2)); } break; case Constants.EN_INSET: case Constants.EN_OUTSET: colFactor = (style == EN_OUTSET ? 0.4f : -0.4f); if (horz) { col = lightenColor(col, (startOrBefore ? 1 : -1) * colFactor); g2d.setStroke(new BasicStroke(h)); float ym1 = y1 + (h / 2); g2d.setColor(col); g2d.draw(new Line2D.Float(x1, ym1, x2, ym1)); } else { col = lightenColor(col, (startOrBefore ? 1 : -1) * colFactor); float xm1 = x1 + (w / 2); g2d.setStroke(new BasicStroke(w)); g2d.setColor(col); g2d.draw(new Line2D.Float(xm1, y1, xm1, y2)); } break; case Constants.EN_HIDDEN: break; default: g2d.setColor(col); if (horz) { float ym = y1 + (h / 2); g2d.setStroke(new BasicStroke(h)); g2d.draw(new Line2D.Float(x1, ym, x2, ym)); } else { float xm = x1 + (w / 2); g2d.setStroke(new BasicStroke(w)); g2d.draw(new Line2D.Float(xm, y1, xm, y2)); } } } /** * {@inheritDoc} */ public void renderText(TextArea text) { renderInlineAreaBackAndBorders(text); int rx = currentIPPosition + text.getBorderAndPaddingWidthStart(); int bl = currentBPPosition + text.getOffset() + text.getBaselineOffset(); int saveIP = currentIPPosition; Font font = getFontFromArea(text); state.updateFont(font.getFontName(), font.getFontSize()); saveGraphicsState(); AffineTransform at = new AffineTransform(); at.translate(rx / 1000f, bl / 1000f); state.transform(at); renderText(text, state.getGraph(), font); restoreGraphicsState(); currentIPPosition = saveIP + text.getAllocIPD(); //super.renderText(text); // rendering text decorations Typeface tf = (Typeface) fontInfo.getFonts().get(font.getFontName()); int fontsize = text.getTraitAsInteger(Trait.FONT_SIZE); renderTextDecoration(tf, fontsize, text, bl, rx); } /** * Renders a TextArea to a Graphics2D instance. Adjust the coordinate system so that the * start of the baseline of the first character is at coordinate (0,0). * @param text the TextArea * @param g2d the Graphics2D to render to * @param font the font to paint with */ public static void renderText(TextArea text, Graphics2D g2d, Font font) { Color col = (Color) text.getTrait(Trait.COLOR); g2d.setColor(col); float textCursor = 0; Iterator iter = text.getChildAreas().iterator(); while (iter.hasNext()) { InlineArea child = (InlineArea)iter.next(); if (child instanceof WordArea) { WordArea word = (WordArea)child; String s = word.getWord(); int[] letterAdjust = word.getLetterAdjustArray(); GlyphVector gv = g2d.getFont().createGlyphVector(g2d.getFontRenderContext(), s); double additionalWidth = 0.0; if (letterAdjust == null && text.getTextLetterSpaceAdjust() == 0 && text.getTextWordSpaceAdjust() == 0) { //nop } else { int[] offsets = getGlyphOffsets(s, font, text, letterAdjust); float cursor = 0.0f; for (int i = 0; i < offsets.length; i++) { Point2D pt = gv.getGlyphPosition(i); pt.setLocation(cursor, pt.getY()); gv.setGlyphPosition(i, pt); cursor += offsets[i] / 1000f; } additionalWidth = cursor - gv.getLogicalBounds().getWidth(); } g2d.drawGlyphVector(gv, textCursor, 0); textCursor += gv.getLogicalBounds().getWidth() + additionalWidth; } else if (child instanceof SpaceArea) { SpaceArea space = (SpaceArea)child; String s = space.getSpace(); char sp = s.charAt(0); int tws = (space.isAdjustable() ? text.getTextWordSpaceAdjust() + 2 * text.getTextLetterSpaceAdjust() : 0); textCursor += (font.getCharWidth(sp) + tws) / 1000f; } else { throw new IllegalStateException("Unsupported child element: " + child); } } } private static int[] getGlyphOffsets(String s, Font font, TextArea text, int[] letterAdjust) { int textLen = s.length(); int[] offsets = new int[textLen]; for (int i = 0; i < textLen; i++) { final char c = s.charAt(i); final char mapped = font.mapChar(c); int wordSpace; if (CharUtilities.isAdjustableSpace(mapped)) { wordSpace = text.getTextWordSpaceAdjust(); } else { wordSpace = 0; } int cw = font.getWidth(mapped); int ladj = (letterAdjust != null && i < textLen - 1 ? letterAdjust[i + 1] : 0); int tls = (i < textLen - 1 ? text.getTextLetterSpaceAdjust() : 0); offsets[i] = cw + ladj + tls + wordSpace; } return offsets; } /** * Render leader area. This renders a leader area which is an area with a * rule. * * @param area the leader area to render */ public void renderLeader(Leader area) { renderInlineAreaBackAndBorders(area); // TODO leader-length: 25%, 50%, 75%, 100% not working yet // TODO Colors do not work on Leaders yet float startx = (currentIPPosition + area.getBorderAndPaddingWidthStart()) / 1000f; float starty = ((currentBPPosition + area.getOffset()) / 1000f); float endx = (currentIPPosition + area.getBorderAndPaddingWidthStart() + area.getIPD()) / 1000f; Color col = (Color) area.getTrait(Trait.COLOR); state.updateColor(col); Line2D line = new Line2D.Float(); line.setLine(startx, starty, endx, starty); float ruleThickness = area.getRuleThickness() / 1000f; int style = area.getRuleStyle(); switch (style) { case EN_SOLID: case EN_DASHED: case EN_DOUBLE: drawBorderLine(startx, starty, endx, starty + ruleThickness, true, true, style, col); break; case EN_DOTTED: //TODO Dots should be shifted to the left by ruleThickness / 2 state.updateStroke(ruleThickness, style); float rt2 = ruleThickness / 2f; line.setLine(line.getX1(), line.getY1() + rt2, line.getX2(), line.getY2() + rt2); state.getGraph().draw(line); break; case EN_GROOVE: case EN_RIDGE: float half = area.getRuleThickness() / 2000f; state.updateColor(lightenColor(col, 0.6f)); moveTo(startx, starty); lineTo(endx, starty); lineTo(endx, starty + 2 * half); lineTo(startx, starty + 2 * half); closePath(); state.getGraph().fill(currentPath); currentPath = null; state.updateColor(col); if (style == EN_GROOVE) { moveTo(startx, starty); lineTo(endx, starty); lineTo(endx, starty + half); lineTo(startx + half, starty + half); lineTo(startx, starty + 2 * half); } else { moveTo(endx, starty); lineTo(endx, starty + 2 * half); lineTo(startx, starty + 2 * half); lineTo(startx, starty + half); lineTo(endx - half, starty + half); } closePath(); state.getGraph().fill(currentPath); currentPath = null; case EN_NONE: // No rule is drawn break; default: } // end switch super.renderLeader(area); } /** * {@inheritDoc} */ public void renderImage(Image image, Rectangle2D pos) { // endTextObject(); String url = image.getURL(); drawImage(url, pos); } /** * {@inheritDoc} */ protected void drawImage(String uri, Rectangle2D pos, Map foreignAttributes) { int x = currentIPPosition + (int)Math.round(pos.getX()); int y = currentBPPosition + (int)Math.round(pos.getY()); uri = URISpecification.getURL(uri); ImageManager manager = getUserAgent().getFactory().getImageManager(); ImageInfo info = null; try { ImageSessionContext sessionContext = getUserAgent().getImageSessionContext(); info = manager.getImageInfo(uri, sessionContext); final ImageFlavor[] flavors = new ImageFlavor[] {ImageFlavor.GRAPHICS2D, ImageFlavor.BUFFERED_IMAGE, ImageFlavor.RENDERED_IMAGE, ImageFlavor.XML_DOM}; Map hints = ImageUtil.getDefaultHints(sessionContext); org.apache.xmlgraphics.image.loader.Image img = manager.getImage( info, flavors, hints, sessionContext); if (img instanceof ImageGraphics2D) { ImageGraphics2D imageG2D = (ImageGraphics2D)img; int width = (int)pos.getWidth(); int height = (int)pos.getHeight(); RendererContext context = createRendererContext( x, y, width, height, foreignAttributes); getGraphics2DAdapter().paintImage(imageG2D.getGraphics2DImagePainter(), context, x, y, width, height); } else if (img instanceof ImageRendered) { ImageRendered imgRend = (ImageRendered)img; AffineTransform at = new AffineTransform(); at.translate(x / 1000f, y / 1000f); double sx = pos.getWidth() / info.getSize().getWidthMpt(); double sy = pos.getHeight() / info.getSize().getHeightMpt(); sx *= userAgent.getSourceResolution() / info.getSize().getDpiHorizontal(); sy *= userAgent.getSourceResolution() / info.getSize().getDpiVertical(); at.scale(sx, sy); state.getGraph().drawRenderedImage(imgRend.getRenderedImage(), at); } else if (img instanceof ImageXMLDOM) { ImageXMLDOM imgXML = (ImageXMLDOM)img; renderDocument(imgXML.getDocument(), imgXML.getRootNamespace(), pos, foreignAttributes); } } catch (ImageException ie) { ResourceEventProducer eventProducer = ResourceEventProducer.Provider.get( getUserAgent().getEventBroadcaster()); eventProducer.imageError(this, (info != null ? info.toString() : uri), ie, null); } catch (FileNotFoundException fe) { ResourceEventProducer eventProducer = ResourceEventProducer.Provider.get( getUserAgent().getEventBroadcaster()); eventProducer.imageNotFound(this, (info != null ? info.toString() : uri), fe, null); } catch (IOException ioe) { ResourceEventProducer eventProducer = ResourceEventProducer.Provider.get( getUserAgent().getEventBroadcaster()); eventProducer.imageIOError(this, (info != null ? info.toString() : uri), ioe, null); } } /** {@inheritDoc} */ protected RendererContext createRendererContext(int x, int y, int width, int height, Map foreignAttributes) { RendererContext context = super.createRendererContext( x, y, width, height, foreignAttributes); context.setProperty(Java2DRendererContextConstants.JAVA2D_STATE, state); return context; } /** {@inheritDoc} */ public int print(Graphics g, PageFormat pageFormat, int pageIndex) throws PrinterException { if (pageIndex >= getNumberOfPages()) { return NO_SUCH_PAGE; } if (state != null) { throw new IllegalStateException("state must be null"); } Graphics2D graphics = (Graphics2D) g; try { PageViewport viewport = getPageViewport(pageIndex); AffineTransform at = graphics.getTransform(); state = new Java2DGraphicsState(graphics, this.fontInfo, at); // reset the current Positions currentBPPosition = 0; currentIPPosition = 0; renderPageAreas(viewport.getPage()); return PAGE_EXISTS; } catch (FOPException e) { log.error(e); return NO_SUCH_PAGE; } finally { state = null; } } /** {@inheritDoc} */ protected void beginTextObject() { //not necessary in Java2D } /** {@inheritDoc} */ protected void endTextObject() { //not necessary in Java2D } /** * Controls the page background. * @param transparentPageBackground true if the background should be transparent */ public void setTransparentPageBackground(boolean transparentPageBackground) { this.transparentPageBackground = transparentPageBackground; } }