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Open HTML to PDF is a CSS 2.1 renderer written in Java. This artifact contains the core rendering and layout code.

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package com.openhtmltopdf.test;/*
 * {{{ header & license
 * Copyright (c) 2006 Patrick Wright
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public License
 * as published by the Free Software Foundation; either version 2.1
 * of the License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the
 * GNU Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
 * }}}
 */

import com.openhtmltopdf.layout.LayoutContext;
import com.openhtmltopdf.render.Box;
import com.openhtmltopdf.swing.BoxRenderer;
import com.openhtmltopdf.swing.Java2DRenderer;
import com.openhtmltopdf.util.FSImageWriter;
import com.openhtmltopdf.util.IOUtil;
import com.openhtmltopdf.util.Zipper;

import java.awt.image.BufferedImage;
import java.io.*;
import java.util.Arrays;
import java.util.Iterator;
import java.util.List;


/**
 * Creates a directory containing output from the renderer as text, given a set of input files (XHTML, XML).
 * These files serve as the reference image for a comparison with later runs of the renderer. For any input
 * file _input_, the zip will contain _input_, _input.layout.txt_, _input.rendered.txt_ and _input.png_. To use,
 * create an instance of Regress with input directory, output directory and width, then call {@link #snapshot()}.
 * 
 * Regress regress = new Regress(sourceDir, outputDir, width);
 * regress.snapshot();
 * 
* One the regress is done, you can use Zipper to pack it up: *
 *  new Zipper(outputDir, outputZip).zipDirectory();
 * 
* Regress will try to render all files in the source directory; a failure to render one file (e.g. if an exception * is thrown) will not stop the rendering process. *

* Files in the source directory with the following extensions are included: htm, html, xht, xhtml, and xml. *

* You can also run this from the command line, passing in the source directory as argument 1, and the output file * name as argument 2. The output is created in the standard temp directory in a subdirectory called "reference". The * path to the output directory will be printed to the console when complete. *

 * org.xhtmlrenderer.test.Regress ./regress/input-html/ ./regress/output.zip
 * 
*/ public class Regress { public static final List EXTENSIONS = Arrays.asList(new String[]{"htm", "html", "xht", "xhtml", "xml",}); public static final String RENDER_SFX = ".render.txt"; public static final String LAYOUT_SFX = ".layout.txt"; public static final String PNG_SFX = ".png"; private static final String LINE_SEPARATOR = "\n"; // use one single sep to avoid OS problems when moving ref files // reading from... private final File sourceDir; // writing generated files to... private final File outputDir; // width, in points, used to constrain layout private final int width; // total files processed private int fileCount; // count failed in this run private int failedCount; public static void main(String[] args) throws Exception { final File sourceDir = getArgSourceDir(args); final File outputDir = sourceDir; final int width = 1024; System.out.println("Running regression against files in " + sourceDir); Regress regress = new Regress(sourceDir, outputDir, width); regress.snapshot(); System.out.println("Ran regressions against " + regress.getFileCount() + " files in source directory; " + regress.getFailedCount() + " failed to generate"); } /** * Initialize to read from sourceDir and generate files to outputDir, using width points to constrain layout. * * @param sourceDir directory to read from * @param outputDir directory to write to * @param width width to constrain layou to */ public Regress(File sourceDir, File outputDir, int width) { this.sourceDir = sourceDir; this.outputDir = outputDir; this.width = width; } private int getFailedCount() { return failedCount; } private int getFileCount() { return fileCount; } /** * For all files in the input directory, attempts to render and output a textual box model and a PNG file in the * output directory. Does not zip the contents of the output directory. Any single file that fails to render * will not halt the process. Low-level IO errors will may, however, interrupt it. Both the file count and the * failed count are reset on starting; on finishing those values can be read through their respective accessors * in this class. * * @throws IOException on reading contents or writing output */ public void snapshot() throws IOException { fileCount = 0; failedCount = 0; final boolean wasLogging = enableLogging(false); try { Iterator iter = listInputFiles(sourceDir); while (iter.hasNext()) { File file = (File) iter.next(); saveBoxModel(file, outputDir, width); saveImage(file, outputDir, width); } } finally { enableLogging(wasLogging); } } private void saveImage(File page, File outputDir, int width) throws IOException { try { Java2DRenderer j2d = new Java2DRenderer(page, width); // this renders and returns the image, which is stored in the J2R; will not // be re-rendered, calls to getImage() return the same instance BufferedImage img = j2d.getImage(); // write it out, full size, PNG // FSImageWriter instance can be reused for different ../images, // defaults to PNG FSImageWriter imageWriter = new FSImageWriter(); final File outputFile = new File(outputDir, page.getName() + ".png"); if (outputFile.exists() && !outputFile.delete()) { throw new RuntimeException( "On rendering image, could not delete new output file (.delete failed) " + outputFile.getAbsolutePath() ); } String fileName = outputFile.getPath(); imageWriter.write(img, fileName); } catch (Exception e) { System.err.println("Could not render input file to image, skipping: " + page + " err: " + e.getMessage()); } } private void saveBoxModel(File page, File outputDir, int width) throws IOException { BoxRenderer renderer = new BoxRenderer(page, width); Box box; try { box = renderer.render(); } catch (Exception e) { System.err.println("Could not render input file, skipping: " + page + " err: " + e.getMessage()); failedCount++; return; } LayoutContext layoutContext = renderer.getLayoutContext(); String inputFileName = page.getName(); writeToFile(outputDir, inputFileName + RENDER_SFX, box.dump(layoutContext, "", Box.DUMP_RENDER)); writeToFile(outputDir, inputFileName + LAYOUT_SFX, box.dump(layoutContext, "", Box.DUMP_LAYOUT)); fileCount++; } private void writeToFile(File outputDir, String fileName, String output) throws IOException { final File outputFile = new File(outputDir, fileName); if (outputFile.exists() && !outputFile.delete()) { throw new RuntimeException( "On rendering, could not delete new output file (.delete failed) " + outputFile.getAbsolutePath() ); } FileOutputStream fos = new FileOutputStream(outputFile); try { OutputStreamWriter fw = new OutputStreamWriter(fos, "UTF-8"); PrintWriter pw = new PrintWriter(new BufferedWriter(fw)); try { pw.print(output); pw.print(LINE_SEPARATOR); pw.flush(); } finally { try { pw.close(); } catch (Exception e) { // swallow } } } catch (IOException e) { e.printStackTrace(); } finally { try { fos.close(); } catch (IOException e) { // swallow } } } private static File getArgOutputZipFile(String[] args) throws IOException { if (args.length < 2) { usageAndExit("Need file name which will contain rendered files as a Zip."); } String path = args[1]; File file = new File(path); final File parentFile = file.getAbsoluteFile().getParentFile(); if (!parentFile.exists()) { usageAndExit("Output directory not found: " + parentFile.getPath()); } if (file.exists() && !file.delete()) { usageAndExit("Failed to .delete output Zip file " + file.getAbsoluteFile()); } if (!file.createNewFile()) { usageAndExit("Failed to create output Zip file " + file.getAbsoluteFile()); } return file; } private static File getArgSourceDir(String[] args) { if (args.length < 1) { usageAndExit("Need directory name containing input files to render."); } String sourceDirPath = args[0]; File sourceDir = new File(sourceDirPath); if (!sourceDir.exists()) { usageAndExit("Source directory not found: " + sourceDirPath); } return sourceDir; } private boolean enableLogging(final boolean isEnabled) { final String prop = "xr.util-logging.loggingEnabled"; final boolean orgVal = Boolean.valueOf(System.getProperty(prop)).booleanValue(); System.setProperty(prop, Boolean.valueOf(isEnabled).toString()); return orgVal; } private Iterator listInputFiles(final File sourceDir) { File[] f = sourceDir.listFiles(new FilenameFilter() { public boolean accept(File file, String s) { return EXTENSIONS.contains(s.substring(s.lastIndexOf(".") + 1)); } }); return Arrays.asList(f).iterator(); } private static void usageAndExit(String msg) { System.err.println(msg); System.exit(-1); } }




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