/*
* $Id$
* Copyright (C) 2001 The Apache Software Foundation. All rights reserved.
* For details on use and redistribution please refer to the
* LICENSE file included with these sources.
*/
package org.apache.fop.apps;
// FOP
import org.apache.fop.fo.FOUserAgent;
import org.apache.fop.fo.FOTreeBuilder;
import org.apache.fop.fo.ElementMapping;
import org.apache.fop.layout.AreaTree;
import org.apache.fop.render.Renderer;
import org.apache.fop.configuration.ConfigurationReader;
import org.apache.fop.configuration.Configuration;
import org.apache.fop.tools.DocumentInputSource;
import org.apache.fop.tools.DocumentReader;
import org.apache.fop.render.pdf.PDFRenderer;
import org.apache.log.*;
import org.apache.log.format.*;
import org.apache.log.output.io.*;
import org.apache.log.output.*;
// DOM
import org.w3c.dom.Document;
import org.w3c.dom.Node;
import org.w3c.dom.NamedNodeMap;
import org.w3c.dom.Attr;
// SAX
import org.xml.sax.ContentHandler;
import org.xml.sax.InputSource;
import org.xml.sax.XMLReader;
import org.xml.sax.SAXException;
import org.xml.sax.helpers.AttributesImpl;
// Java
import java.io.*;
import java.util.*;
/**
* Primary class that drives overall FOP process.
*
* The simplest way to use this is to instantiate it with the
* InputSource and OutputStream, then set the renderer desired, and
* calling run();
*
* Here is an example use of Driver which outputs PDF:
*
*
* Driver driver = new Driver(new InputSource (args[0]),
* new FileOutputStream(args[1]));
* driver.setRenderer(RENDER_PDF);
* driver.run();
*
* If neccessary, calling classes can call into the lower level
* methods to setup and
* render. Methods can be called to set the
* Renderer to use, the (possibly multiple) ElementMapping(s) to
* use and the OutputStream to use to output the results of the
* rendering (where applicable). In the case of the Renderer and
* ElementMapping(s), the Driver may be supplied either with the
* object itself, or the name of the class, in which case Driver will
* instantiate the class itself. The advantage of the latter is it
* enables runtime determination of Renderer and ElementMapping(s).
*
* Once the Driver is set up, the render method
* is called. Depending on whether DOM or SAX is being used, the
* invocation of the method is either render(Document) or
* buildFOTree(Parser, InputSource) respectively.
*
* A third possibility may be used to build the FO Tree, namely
* calling getContentHandler() and firing the SAX events yourself.
*
* Once the FO Tree is built, the format() and render() methods may be
* called in that order.
*
* Here is an example use of Driver which outputs to AWT:
*
*
* Driver driver = new Driver();
* driver.setRenderer(new org.apache.fop.render.awt.AWTRenderer(translator));
* driver.render(parser, fileInputSource(args[0]));
*
*/
public class Driver {
/**
* Render to PDF. OutputStream must be set
*/
public static final int RENDER_PDF = 1;
/**
* Render to a GUI window. No OutputStream neccessary
*/
public static final int RENDER_AWT = 2;
/**
* Render to MIF. OutputStream must be set
*/
public static final int RENDER_MIF = 3;
/**
* Render to XML. OutputStream must be set
*/
public static final int RENDER_XML = 4;
/**
* Render to PRINT. No OutputStream neccessary
*/
public static final int RENDER_PRINT = 5;
/**
* Render to PCL. OutputStream must be set
*/
public static final int RENDER_PCL = 6;
/**
* Render to Postscript. OutputStream must be set
*/
public static final int RENDER_PS = 7;
/**
* Render to Text. OutputStream must be set
*/
public static final int RENDER_TXT = 8;
/**
* Render to SVG. OutputStream must be set
*/
public static final int RENDER_SVG = 9;
/**
* the FO tree builder
*/
private FOTreeBuilder _treeBuilder;
/**
* the area tree that is the result of formatting the FO tree
*/
private AreaTree _areaTree;
/**
* the renderer to use to output the area tree
*/
private Renderer _renderer;
/**
* the source of the FO file
*/
private InputSource _source;
/**
* the stream to use to output the results of the renderer
*/
private OutputStream _stream;
/**
* The XML parser to use when building the FO tree
*/
private XMLReader _reader;
/**
* If true, full error stacks are reported
*/
private boolean _errorDump = false;
/**
* the system resources that FOP will use
*/
private Logger log;
private FOUserAgent userAgent = null;
public static final String getParserClassName() {
String parserClassName = null;
try {
parserClassName = System.getProperty("org.xml.sax.parser");
} catch (SecurityException se) {}
if (parserClassName == null) {
parserClassName = "org.apache.xerces.parsers.SAXParser";
}
return parserClassName;
}
/**
* create a new Driver
*/
public Driver() {
_stream = null;
_treeBuilder = new FOTreeBuilder();
_treeBuilder.setUserAgent(getUserAgent());
setupDefaultMappings();
}
public Driver(InputSource source, OutputStream stream) {
this();
_source = source;
_stream = stream;
}
public void setUserAgent(FOUserAgent agent) {
userAgent = agent;
}
private FOUserAgent getUserAgent() {
if(userAgent == null) {
userAgent = new FOUserAgent();
userAgent.setLogger(log);
}
return userAgent;
}
public void setLogger(Logger logger) {
log = logger;
}
private Logger getLogger() {
if(log == null) {
Hierarchy hierarchy = Hierarchy.getDefaultHierarchy();
PatternFormatter formatter = new PatternFormatter(
"[%{priority}]: %{message}\n%{throwable}" );
LogTarget target = null;
target = new StreamTarget(System.out, formatter);
hierarchy.setDefaultLogTarget(target);
log = hierarchy.getLoggerFor("fop");
log.setPriority(Priority.INFO);
log.error("Logger not set");
}
return log;
}
/**
* Resets the Driver so it can be reused. Property and element
* mappings are reset to defaults.
* The output stream is cleared. The renderer is cleared.
*/
public synchronized void reset() {
_areaTree = null;
_source = null;
_stream = null;
_reader = null;
_treeBuilder.reset();
}
public boolean hasData() {
return (_treeBuilder.hasData());
}
/**
* Set the error dump option
* @param dump if true, full stacks will be reported to the error log
*/
public void setErrorDump(boolean dump) {
_errorDump = dump;
}
/**
* Set the OutputStream to use to output the result of the Renderer
* (if applicable)
* @param stream the stream to output the result of rendering to
*
*/
public void setOutputStream(OutputStream stream) {
_stream = stream;
}
/**
* Set the source for the FO document. This can be a normal SAX
* InputSource, or an DocumentInputSource containing a DOM document.
* @see DocumentInputSource
*/
public void setInputSource(InputSource source) {
_source = source;
}
/**
* Sets the reader used when reading in the source. If not set,
* this defaults to a basic SAX parser.
*/
public void setXMLReader(XMLReader reader) {
_reader = reader;
}
/**
* Sets all the element and property list mappings to their default values.
*
*/
public void setupDefaultMappings() {
addElementMapping("org.apache.fop.fo.FOElementMapping");
addElementMapping("org.apache.fop.svg.SVGElementMapping");
addElementMapping("org.apache.fop.extensions.ExtensionElementMapping");
// add mappings from available services
Enumeration providers =
Service.providers(org.apache.fop.fo.ElementMapping.class);
if (providers != null) {
while (providers.hasMoreElements()) {
String str = (String)providers.nextElement();
try {
addElementMapping(str);
} catch (IllegalArgumentException e) {}
}
}
}
/**
* Set the rendering type to use. Must be one of
*
* - RENDER_PDF
*
- RENDER_AWT
*
- RENDER_MIF
*
- RENDER_XML
*
- RENDER_PCL
*
- RENDER_PS
*
- RENDER_TXT
*
- RENDER_SVG
*
* @param renderer the type of renderer to use
*/
public void setRenderer(int renderer) throws IllegalArgumentException {
switch (renderer) {
case RENDER_PDF:
setRenderer(new org.apache.fop.render.pdf.PDFRenderer());
break;
case RENDER_AWT:
throw new IllegalArgumentException("Use renderer form of setRenderer() for AWT");
case RENDER_PRINT:
throw new IllegalArgumentException("Use renderer form of setRenderer() for PRINT");
case RENDER_PCL:
setRenderer(new org.apache.fop.render.pcl.PCLRenderer());
break;
case RENDER_PS:
setRenderer(new org.apache.fop.render.ps.PSRenderer());
break;
case RENDER_TXT:
setRenderer(new org.apache.fop.render.txt.TXTRenderer());
break;
case RENDER_MIF:
setRenderer(new org.apache.fop.render.mif.MIFRenderer());
break;
case RENDER_XML:
setRenderer(new org.apache.fop.render.xml.XMLRenderer());
break;
case RENDER_SVG:
setRenderer(new org.apache.fop.render.svg.SVGRenderer());
break;
default:
throw new IllegalArgumentException("Unknown renderer type");
}
}
/**
* Set the Renderer to use
* @param renderer the renderer instance to use
*/
public void setRenderer(Renderer renderer) {
renderer.setLogger(getLogger());
renderer.setUserAgent(getUserAgent());
_renderer = renderer;
}
public Renderer getRenderer() {
return _renderer;
}
/**
* @deprecated use renderer.setProducer(version) + setRenderer(renderer) or just setRenderer(renderer_type) which will use the default producer string.
* @see #setRenderer(int)
* @see #setRenderer(Renderer)
*/
public void setRenderer(String rendererClassName, String version) {
setRenderer(rendererClassName);
}
/**
* Set the class name of the Renderer to use as well as the
* producer string for those renderers that can make use of it.
* @param rendererClassName classname of the renderer to use such as
* "org.apache.fop.render.pdf.PDFRenderer"
* @exception IllegalArgumentException if the classname was invalid.
* @see #setRenderer(int)
*/
public void setRenderer(String rendererClassName)
throws IllegalArgumentException {
try {
_renderer =
(Renderer)Class.forName(rendererClassName).newInstance();
_renderer.setProducer(Version.getVersion());
} catch (ClassNotFoundException e) {
throw new IllegalArgumentException("Could not find "
+ rendererClassName);
}
catch (InstantiationException e) {
throw new IllegalArgumentException("Could not instantiate "
+ rendererClassName);
}
catch (IllegalAccessException e) {
throw new IllegalArgumentException("Could not access "
+ rendererClassName);
}
catch (ClassCastException e) {
throw new IllegalArgumentException(rendererClassName
+ " is not a renderer");
}
}
/**
* Add the given element mapping.
* An element mapping maps element names to Java classes.
*
* @param mapping the element mappingto add
*/
public void addElementMapping(ElementMapping mapping) {
mapping.addToBuilder(_treeBuilder);
}
/**
* add the element mapping with the given class name
*/
public void addElementMapping(String mappingClassName)
throws IllegalArgumentException {
try {
ElementMapping mapping =
(ElementMapping)Class.forName(mappingClassName).newInstance();
addElementMapping(mapping);
} catch (ClassNotFoundException e) {
throw new IllegalArgumentException("Could not find "
+ mappingClassName);
}
catch (InstantiationException e) {
throw new IllegalArgumentException("Could not instantiate "
+ mappingClassName);
}
catch (IllegalAccessException e) {
throw new IllegalArgumentException("Could not access "
+ mappingClassName);
}
catch (ClassCastException e) {
throw new IllegalArgumentException(mappingClassName
+ " is not an ElementMapping");
}
}
/**
* Returns the tree builder (a SAX ContentHandler).
*
* Used in situations where SAX is used but not via a FOP-invoked
* SAX parser. A good example is an XSLT engine that fires SAX
* events but isn't a SAX Parser itself.
*/
public ContentHandler getContentHandler() {
StreamRenderer streamRenderer = new StreamRenderer(_stream, _renderer);
streamRenderer.setLogger(getLogger());
_treeBuilder.setLogger(getLogger());
_treeBuilder.setUserAgent(getUserAgent());
_treeBuilder.setStreamRenderer(streamRenderer);
return _treeBuilder;
}
/**
* Build the formatting object tree using the given SAX Parser and
* SAX InputSource
*/
public synchronized void render(XMLReader parser, InputSource source)
throws FOPException {
parser.setContentHandler(getContentHandler());
try {
parser.parse(source);
} catch (SAXException e) {
if (e.getException() instanceof FOPException) {
throw (FOPException)e.getException();
} else {
throw new FOPException(e);
}
}
catch (IOException e) {
throw new FOPException(e);
}
}
/**
* Build the formatting object tree using the given DOM Document
*/
public synchronized void render(Document document)
throws FOPException {
try {
DocumentInputSource source = new DocumentInputSource(document);
DocumentReader reader = new DocumentReader();
reader.setContentHandler(getContentHandler());
reader.parse(source);
} catch (SAXException e) {
throw new FOPException(e);
}
catch (IOException e) {
throw new FOPException(e);
}
}
/**
* Dumps an error
*/
public void dumpError(Exception e) {
if (_errorDump) {
Logger log = getLogger();
if (e instanceof SAXException) {
log.error("", e);
if (((SAXException)e).getException() != null) {
log.error("", ((SAXException)e).getException());
}
} else if (e instanceof FOPException) {
e.printStackTrace();
if (((FOPException)e).getException() != null) {
log.error("", ((FOPException)e).getException());
}
} else {
log.error("", e);
}
}
}
/* Set up the system buffers */
public void setBufferFile(File bufferFile) {
}
/**
* Runs the formatting and renderering process using the previously set
* inputsource and outputstream
*/
public synchronized void run() throws IOException, FOPException {
if (_renderer == null) {
setRenderer(RENDER_PDF);
}
if (_source == null) {
throw new FOPException("InputSource is not set.");
}
if (_reader == null) {
if (!(_source instanceof DocumentInputSource)) {
_reader = ConfigurationReader.createParser();
}
}
if (_source instanceof DocumentInputSource) {
render(((DocumentInputSource)_source).getDocument());
} else {
render(_reader, _source);
}
}
}
// code stolen from org.apache.batik.util and modified slightly
// does what sun.misc.Service probably does, but it cannot be relied on.
// hopefully will be part of standard jdk sometime.
/**
* This class loads services present in the class path.
*/
class Service {
static Hashtable providerMap = new Hashtable();
public static synchronized Enumeration providers(Class cls) {
ClassLoader cl = cls.getClassLoader();
// null if loaded by bootstrap class loader
if(cl == null) {
cl = ClassLoader.getSystemClassLoader();
}
String serviceFile = "META-INF/services/" + cls.getName();
// System.out.println("File: " + serviceFile);
Vector v = (Vector)providerMap.get(serviceFile);
if (v != null)
return v.elements();
v = new Vector();
providerMap.put(serviceFile, v);
Enumeration e;
try {
e = cl.getResources(serviceFile);
} catch (IOException ioe) {
return v.elements();
}
while (e.hasMoreElements()) {
try {
java.net.URL u = (java.net.URL)e.nextElement();
// System.out.println("URL: " + u);
InputStream is = u.openStream();
Reader r = new InputStreamReader(is, "UTF-8");
BufferedReader br = new BufferedReader(r);
String line = br.readLine();
while (line != null) {
try {
// First strip any comment...
int idx = line.indexOf('#');
if (idx != -1)
line = line.substring(0, idx);
// Trim whitespace.
line = line.trim();
// If nothing left then loop around...
if (line.length() == 0) {
line = br.readLine();
continue;
}
// System.out.println("Line: " + line);
// Try and load the class
// Object obj = cl.loadClass(line).newInstance();
// stick it into our vector...
v.add(line);
} catch (Exception ex) {
// Just try the next line
}
line = br.readLine();
}
} catch (Exception ex) {
// Just try the next file...
}
}
return v.elements();
}
}