public void setOutputProperties(Properties oformat) throws IllegalArgumentException {
if (oformat.get(publicProperty) == null) {
// Optimize case where we don't need to map
transformer.setOutputProperties(oformat);
} else {
Properties newProperties = (Properties) oformat.clone();
newProperties.put(privateProperty, oformat.get(publicProperty));
newProperties.remove(publicProperty);
transformer.setOutputProperties(newProperties);
}
}
/**
* Serialize an XML document (DOM tree).
*
* @param out the output stream to write to
* @param document the XML document
* @exception IOException
*/
public static void write(OutputStream out, Document document)
throws IOException, TransformerConfigurationException, TransformerException {
DOMSource source = new DOMSource(document);
StreamResult result = new StreamResult(out);
Transformer transformer = TransformerFactory.newInstance().newTransformer();
Properties outputProperties = new Properties();
outputProperties.setProperty(OutputKeys.METHOD, "xml");
outputProperties.setProperty(OutputKeys.INDENT, "yes");
outputProperties.setProperty(OutputKeys.ENCODING, "UTF-8"); // the default anyway
transformer.setOutputProperties(outputProperties);
transformer.transform(source, result);
}
public void write(Writer writer, List<BxPage> objects, Object... hints)
throws TransformationException {
try {
Document doc = createDocument(objects, hints);
Transformer t = TransformerFactory.newInstance().newTransformer();
t.setOutputProperties(OUTPUT_PROPERTIES);
t.transform(new DOMSource(doc), new StreamResult(writer));
} catch (TransformerException ex) {
throw new TransformationException(ex);
} catch (ParserConfigurationException ex) {
throw new TransformationException(ex);
}
}
public static void printSource(final Source source) {
try {
System.out.println("---------------------");
final Transformer trans = TransformerFactory.newInstance().newTransformer();
final Properties oprops = new Properties();
oprops.put(OutputKeys.OMIT_XML_DECLARATION, "yes");
oprops.put(OutputKeys.INDENT, "yes");
oprops.put(OutputKeys.METHOD, "xml");
trans.setOutputProperties(oprops);
trans.transform(source, new StreamResult(System.out));
} catch (final Exception e) {
e.printStackTrace();
}
}
/**
* Converts a dom to a String
*
* @param dom dom to convert
* @param outputProperties the properties for the String representation of the XML
* @return the dom as a String
*/
public static String writeDomToString(Document dom, Properties outputProperties) {
try {
StringWriter ret = new StringWriter();
TransformerFactory transFact = TransformerFactory.newInstance();
// transFact.setAttribute("indent-number", 2);
Transformer transformer = transFact.newTransformer();
if (outputProperties != null) transformer.setOutputProperties(outputProperties);
DOMSource source = new DOMSource(dom);
StreamResult result = new StreamResult(ret);
transformer.transform(source, result);
return ret.toString();
} catch (Exception e) {
throw new RuntimeException("Could not write dom to string!", e);
}
}
public String getXMLResult()
throws TransformerException, TransformerConfigurationException, ParserConfigurationException {
Writer w = new StringWriter();
PrintWriter out = new PrintWriter(w);
TransformerFactory tfactory = XmlTransformUtility.getTransformerFactory();
Transformer transformer = tfactory.newTransformer();
Properties transProps = new Properties();
transProps.put("method", "xml");
transProps.put("indent", "yes");
transformer.setOutputProperties(transProps);
transformer.transform(new DOMSource(rootElement), new StreamResult(out));
out.close();
return w.toString();
}
private boolean processOneXMLFile(
String xmlfilename, String xslfilename, String outputfilename, Result result, Job parentJob) {
boolean retval = false;
FileObject xmlfile = null;
FileObject xslfile = null;
FileObject outputfile = null;
try {
xmlfile = KettleVFS.getFileObject(xmlfilename, this);
xslfile = KettleVFS.getFileObject(xslfilename, this);
outputfile = KettleVFS.getFileObject(outputfilename, this);
if (xmlfile.exists() && xslfile.exists()) {
if (outputfile.exists() && iffileexists == 2) {
// Output file exists
// User want to fail
logError(
BaseMessages.getString(PKG, "JobEntryXSLT.OuputFileExists1.Label")
+ outputfilename
+ BaseMessages.getString(PKG, "JobEntryXSLT.OuputFileExists2.Label"));
return retval;
} else if (outputfile.exists() && iffileexists == 1) {
// Do nothing
if (log.isDebug()) {
logDebug(
BaseMessages.getString(PKG, "JobEntryXSLT.OuputFileExists1.Label")
+ outputfilename
+ BaseMessages.getString(PKG, "JobEntryXSLT.OuputFileExists2.Label"));
}
retval = true;
return retval;
} else {
if (outputfile.exists() && iffileexists == 0) {
// the output file exists and user want to create new one with unique name
// Format Date
// Try to clean filename (without wildcard)
String wildcard =
outputfilename.substring(outputfilename.length() - 4, outputfilename.length());
if (wildcard.substring(0, 1).equals(".")) {
// Find wildcard
outputfilename =
outputfilename.substring(0, outputfilename.length() - 4)
+ "_"
+ StringUtil.getFormattedDateTimeNow(true)
+ wildcard;
} else {
// did not find wildcard
outputfilename = outputfilename + "_" + StringUtil.getFormattedDateTimeNow(true);
}
if (log.isDebug()) {
logDebug(
BaseMessages.getString(PKG, "JobEntryXSLT.OuputFileExists1.Label")
+ outputfilename
+ BaseMessages.getString(PKG, "JobEntryXSLT.OuputFileExists2.Label"));
logDebug(
BaseMessages.getString(PKG, "JobEntryXSLT.OuputFileNameChange1.Label")
+ outputfilename
+ BaseMessages.getString(PKG, "JobEntryXSLT.OuputFileNameChange2.Label"));
}
}
// Create transformer factory
TransformerFactory factory = TransformerFactory.newInstance();
if (xsltfactory.equals(FACTORY_SAXON)) {
// Set the TransformerFactory to the SAXON implementation.
factory = new net.sf.saxon.TransformerFactoryImpl();
}
if (log.isDetailed()) {
log.logDetailed(
BaseMessages.getString(PKG, "JobEntryXSL.Log.TransformerFactoryInfos"),
BaseMessages.getString(
PKG, "JobEntryXSL.Log.TransformerFactory", factory.getClass().getName()));
}
InputStream xslInputStream = KettleVFS.getInputStream(xslfile);
InputStream xmlInputStream = KettleVFS.getInputStream(xmlfile);
OutputStream os = null;
try {
// Use the factory to create a template containing the xsl file
Templates template = factory.newTemplates(new StreamSource(xslInputStream));
// Use the template to create a transformer
Transformer xformer = template.newTransformer();
if (log.isDetailed()) {
log.logDetailed(
BaseMessages.getString(PKG, "JobEntryXSL.Log.TransformerClassInfos"),
BaseMessages.getString(
PKG, "JobEntryXSL.Log.TransformerClass", xformer.getClass().getName()));
}
// Do we need to set output properties?
if (setOutputProperties) {
xformer.setOutputProperties(outputProperties);
}
// Do we need to pass parameters?
if (useParameters) {
for (int i = 0; i < nrParams; i++) {
xformer.setParameter(nameOfParams[i], valueOfParams[i]);
}
}
// Prepare the input and output files
Source source = new StreamSource(xmlInputStream);
os = KettleVFS.getOutputStream(outputfile, false);
StreamResult resultat = new StreamResult(os);
// Apply the xsl file to the source file and write the result to the output file
xformer.transform(source, resultat);
if (isAddFileToResult()) {
// Add output filename to output files
ResultFile resultFile =
new ResultFile(
ResultFile.FILE_TYPE_GENERAL,
KettleVFS.getFileObject(outputfilename, this),
parentJob.getJobname(),
toString());
result.getResultFiles().put(resultFile.getFile().toString(), resultFile);
}
// Everything is OK
retval = true;
} finally {
try {
xslInputStream.close();
} catch (IOException ignored) {
// ignore IO Exception on close
}
try {
xmlInputStream.close();
} catch (IOException ignored) {
// ignore IO Exception on close
}
try {
if (os != null) {
os.close();
}
} catch (IOException ignored) {
// ignore IO Exception on close
}
}
}
} else {
if (!xmlfile.exists()) {
logError(
BaseMessages.getString(PKG, "JobEntryXSLT.FileDoesNotExist1.Label")
+ xmlfilename
+ BaseMessages.getString(PKG, "JobEntryXSLT.FileDoesNotExist2.Label"));
}
if (!xslfile.exists()) {
logError(
BaseMessages.getString(PKG, "JobEntryXSLT.FileDoesNotExist1.Label")
+ xmlfilename
+ BaseMessages.getString(PKG, "JobEntryXSLT.FileDoesNotExist2.Label"));
}
}
} catch (Exception e) {
logError(
BaseMessages.getString(PKG, "JobEntryXSLT.ErrorXLST.Label")
+ BaseMessages.getString(PKG, "JobEntryXSLT.ErrorXLSTXML1.Label")
+ xmlfilename
+ BaseMessages.getString(PKG, "JobEntryXSLT.ErrorXLSTXML2.Label")
+ BaseMessages.getString(PKG, "JobEntryXSLT.ErrorXLSTXSL1.Label")
+ xslfilename
+ BaseMessages.getString(PKG, "JobEntryXSLT.ErrorXLSTXSL2.Label")
+ e.getMessage());
} finally {
try {
if (xmlfile != null) {
xmlfile.close();
}
if (xslfile != null) {
xslfile.close();
}
if (outputfile != null) {
outputfile.close();
}
} catch (IOException e) {
logError("Unable to close file", e);
}
}
return retval;
}
public boolean processRow(StepMetaInterface smi, StepDataInterface sdi) throws KettleException {
meta = (XsltMeta) smi;
data = (XsltData) sdi;
Object[] row = getRow();
if (row == null) { // no more input to be expected...
setOutputDone();
return false;
}
if (first) {
first = false;
data.outputRowMeta = getInputRowMeta().clone();
meta.getFields(data.outputRowMeta, getStepname(), null, null, this, repository, metaStore);
// Check if The result field is given
if (Const.isEmpty(meta.getResultfieldname())) {
// Result Field is missing !
logError(BaseMessages.getString(PKG, "Xslt.Log.ErrorResultFieldMissing"));
throw new KettleStepException(
BaseMessages.getString(PKG, "Xslt.Exception.ErrorResultFieldMissing"));
}
// Check if The XML field is given
if (Const.isEmpty(meta.getFieldname())) {
// Result Field is missing !
logError(BaseMessages.getString(PKG, "Xslt.Exception.ErrorXMLFieldMissing"));
throw new KettleStepException(
BaseMessages.getString(PKG, "Xslt.Exception.ErrorXMLFieldMissing"));
}
// Try to get XML Field index
data.fieldposition = getInputRowMeta().indexOfValue(meta.getFieldname());
// Let's check the Field
if (data.fieldposition < 0) {
// The field is unreachable !
logError(
BaseMessages.getString(PKG, "Xslt.Log.ErrorFindingField")
+ "["
+ meta.getFieldname()
+ "]");
throw new KettleStepException(
BaseMessages.getString(PKG, "Xslt.Exception.CouldnotFindField", meta.getFieldname()));
}
// Check if the XSL Filename is contained in a column
if (meta.useXSLField()) {
if (Const.isEmpty(meta.getXSLFileField())) {
// The field is missing
// Result field is missing !
logError(BaseMessages.getString(PKG, "Xslt.Log.ErrorXSLFileFieldMissing"));
throw new KettleStepException(
BaseMessages.getString(PKG, "Xslt.Exception.ErrorXSLFileFieldMissing"));
}
// Try to get Field index
data.fielxslfiledposition = getInputRowMeta().indexOfValue(meta.getXSLFileField());
// Let's check the Field
if (data.fielxslfiledposition < 0) {
// The field is unreachable !
logError(
BaseMessages.getString(PKG, "Xslt.Log.ErrorXSLFileFieldFinding")
+ "["
+ meta.getXSLFileField()
+ "]");
throw new KettleStepException(
BaseMessages.getString(
PKG, "Xslt.Exception.ErrorXSLFileFieldFinding", meta.getXSLFileField()));
}
} else {
if (Const.isEmpty(meta.getXslFilename())) {
logError(BaseMessages.getString(PKG, "Xslt.Log.ErrorXSLFile"));
throw new KettleStepException(BaseMessages.getString(PKG, "Xslt.Exception.ErrorXSLFile"));
}
// Check if XSL File exists!
data.xslfilename = environmentSubstitute(meta.getXslFilename());
FileObject file = null;
try {
file = KettleVFS.getFileObject(data.xslfilename);
if (!file.exists()) {
logError(
BaseMessages.getString(PKG, "Xslt.Log.ErrorXSLFileNotExists", data.xslfilename));
throw new KettleStepException(
BaseMessages.getString(
PKG, "Xslt.Exception.ErrorXSLFileNotExists", data.xslfilename));
}
if (file.getType() != FileType.FILE) {
logError(BaseMessages.getString(PKG, "Xslt.Log.ErrorXSLNotAFile", data.xslfilename));
throw new KettleStepException(
BaseMessages.getString(PKG, "Xslt.Exception.ErrorXSLNotAFile", data.xslfilename));
}
} catch (Exception e) {
throw new KettleStepException(e);
} finally {
try {
if (file != null) {
file.close();
}
} catch (Exception e) {
/* Ignore */
}
}
}
// Check output parameters
int nrOutputProps =
meta.getOutputPropertyName() == null ? 0 : meta.getOutputPropertyName().length;
if (nrOutputProps > 0) {
data.outputProperties = new Properties();
for (int i = 0; i < nrOutputProps; i++) {
data.outputProperties.put(
meta.getOutputPropertyName()[i],
environmentSubstitute(meta.getOutputPropertyValue()[i]));
}
data.setOutputProperties = true;
}
// Check parameters
data.nrParams = meta.getParameterField() == null ? 0 : meta.getParameterField().length;
if (data.nrParams > 0) {
data.indexOfParams = new int[data.nrParams];
data.nameOfParams = new String[data.nrParams];
for (int i = 0; i < data.nrParams; i++) {
String name = environmentSubstitute(meta.getParameterName()[i]);
String field = environmentSubstitute(meta.getParameterField()[i]);
if (Const.isEmpty(field)) {
throw new KettleStepException(
BaseMessages.getString(PKG, "Xslt.Exception.ParameterFieldMissing", name, i));
}
data.indexOfParams[i] = getInputRowMeta().indexOfValue(field);
if (data.indexOfParams[i] < 0) {
throw new KettleStepException(
BaseMessages.getString(PKG, "Xslt.Exception.ParameterFieldNotFound", name));
}
data.nameOfParams[i] = name;
}
data.useParameters = true;
}
data.factory = TransformerFactory.newInstance();
if (meta.getXSLFactory().equals("SAXON")) {
// Set the TransformerFactory to the SAXON implementation.
data.factory = new net.sf.saxon.TransformerFactoryImpl();
}
} // end if first
// Get the field value
String xmlValue = getInputRowMeta().getString(row, data.fieldposition);
if (meta.useXSLField()) {
// Get the value
data.xslfilename = getInputRowMeta().getString(row, data.fielxslfiledposition);
if (log.isDetailed()) {
logDetailed(
BaseMessages.getString(
PKG, "Xslt.Log.XslfileNameFromFied", data.xslfilename, meta.getXSLFileField()));
}
}
try {
if (log.isDetailed()) {
if (meta.isXSLFieldIsAFile()) {
logDetailed(BaseMessages.getString(PKG, "Xslt.Log.Filexsl") + data.xslfilename);
} else {
logDetailed(BaseMessages.getString(PKG, "Xslt.Log.XslStream", data.xslfilename));
}
}
// Get the template from the cache
Transformer transformer = data.getTemplate(data.xslfilename, data.xslIsAfile);
// Do we need to set output properties?
if (data.setOutputProperties) {
transformer.setOutputProperties(data.outputProperties);
}
// Do we need to pass parameters?
if (data.useParameters) {
for (int i = 0; i < data.nrParams; i++) {
transformer.setParameter(data.nameOfParams[i], row[data.indexOfParams[i]]);
}
}
Source source = new StreamSource(new StringReader(xmlValue));
// Prepare output stream
StreamResult result = new StreamResult(new StringWriter());
// transform xml source
transformer.transform(source, result);
String xmlString = result.getWriter().toString();
if (log.isDetailed()) {
logDetailed(BaseMessages.getString(PKG, "Xslt.Log.FileResult"));
logDetailed(xmlString);
}
Object[] outputRowData = RowDataUtil.addValueData(row, getInputRowMeta().size(), xmlString);
if (log.isRowLevel()) {
logRowlevel(
BaseMessages.getString(PKG, "Xslt.Log.ReadRow")
+ " "
+ getInputRowMeta().getString(row));
}
// add new values to the row.
putRow(data.outputRowMeta, outputRowData); // copy row to output rowset(s);
} catch (Exception e) {
String errorMessage = e.getMessage();
StringWriter sw = new StringWriter();
PrintWriter pw = new PrintWriter(sw);
DefaultErrorHandler.printLocation(pw, e);
pw.close();
errorMessage = sw.toString() + "\n" + errorMessage;
if (getStepMeta().isDoingErrorHandling()) {
// Simply add this row to the error row
putError(getInputRowMeta(), row, 1, errorMessage, meta.getResultfieldname(), "XSLT01");
} else {
logError(BaseMessages.getString(PKG, "Xslt.ErrorProcesing" + " : " + errorMessage));
throw new KettleStepException(BaseMessages.getString(PKG, "Xslt.ErrorProcesing"), e);
}
}
return true;
}
// J2SE does not support Xalan interpretive
// main -> _main
public static void _main(String argv[]) {
// Runtime.getRuntime().traceMethodCalls(false); // turns Java tracing off
boolean doStackDumpOnError = false;
boolean setQuietMode = false;
boolean doDiag = false;
String msg = null;
boolean isSecureProcessing = false;
// Runtime.getRuntime().traceMethodCalls(false);
// Runtime.getRuntime().traceInstructions(false);
/** The default diagnostic writer... */
java.io.PrintWriter diagnosticsWriter = new PrintWriter(System.err, true);
java.io.PrintWriter dumpWriter = diagnosticsWriter;
ResourceBundle resbundle =
(SecuritySupport.getResourceBundle(
com.sun.org.apache.xml.internal.utils.res.XResourceBundle.ERROR_RESOURCES));
String flavor = "s2s";
if (argv.length < 1) {
printArgOptions(resbundle);
} else {
// J2SE does not support Xalan interpretive
// false -> true
boolean useXSLTC = true;
for (int i = 0; i < argv.length; i++) {
if ("-XSLTC".equalsIgnoreCase(argv[i])) {
useXSLTC = true;
}
}
TransformerFactory tfactory;
if (useXSLTC) {
String key = "javax.xml.transform.TransformerFactory";
String value = "com.sun.org.apache.xalan.internal.xsltc.trax.TransformerFactoryImpl";
Properties props = System.getProperties();
props.put(key, value);
System.setProperties(props);
}
try {
tfactory = TransformerFactory.newInstance();
tfactory.setErrorListener(new DefaultErrorHandler());
} catch (TransformerFactoryConfigurationError pfe) {
pfe.printStackTrace(dumpWriter);
// "XSL Process was not successful.");
msg = XSLMessages.createMessage(XSLTErrorResources.ER_NOT_SUCCESSFUL, null);
diagnosticsWriter.println(msg);
tfactory = null; // shut up compiler
doExit(msg);
}
boolean formatOutput = false;
boolean useSourceLocation = false;
String inFileName = null;
String outFileName = null;
String dumpFileName = null;
String xslFileName = null;
String treedumpFileName = null;
// J2SE does not support Xalan interpretive
/*
PrintTraceListener tracer = null;
*/
String outputType = null;
String media = null;
Vector params = new Vector();
boolean quietConflictWarnings = false;
URIResolver uriResolver = null;
EntityResolver entityResolver = null;
ContentHandler contentHandler = null;
int recursionLimit = -1;
for (int i = 0; i < argv.length; i++) {
if ("-XSLTC".equalsIgnoreCase(argv[i])) {
// The -XSLTC option has been processed.
}
// J2SE does not support Xalan interpretive
/*
else if ("-TT".equalsIgnoreCase(argv[i]))
{
if (!useXSLTC)
{
if (null == tracer)
tracer = new PrintTraceListener(diagnosticsWriter);
tracer.m_traceTemplates = true;
}
else
printInvalidXSLTCOption("-TT");
// tfactory.setTraceTemplates(true);
}
else if ("-TG".equalsIgnoreCase(argv[i]))
{
if (!useXSLTC)
{
if (null == tracer)
tracer = new PrintTraceListener(diagnosticsWriter);
tracer.m_traceGeneration = true;
}
else
printInvalidXSLTCOption("-TG");
// tfactory.setTraceSelect(true);
}
else if ("-TS".equalsIgnoreCase(argv[i]))
{
if (!useXSLTC)
{
if (null == tracer)
tracer = new PrintTraceListener(diagnosticsWriter);
tracer.m_traceSelection = true;
}
else
printInvalidXSLTCOption("-TS");
// tfactory.setTraceTemplates(true);
}
else if ("-TTC".equalsIgnoreCase(argv[i]))
{
if (!useXSLTC)
{
if (null == tracer)
tracer = new PrintTraceListener(diagnosticsWriter);
tracer.m_traceElements = true;
}
else
printInvalidXSLTCOption("-TTC");
// tfactory.setTraceTemplateChildren(true);
}
*/
else if ("-INDENT".equalsIgnoreCase(argv[i])) {
int indentAmount;
if (((i + 1) < argv.length) && (argv[i + 1].charAt(0) != '-')) {
indentAmount = Integer.parseInt(argv[++i]);
} else {
indentAmount = 0;
}
// TBD:
// xmlProcessorLiaison.setIndent(indentAmount);
} else if ("-IN".equalsIgnoreCase(argv[i])) {
if (i + 1 < argv.length && argv[i + 1].charAt(0) != '-') inFileName = argv[++i];
else
System.err.println(
XSLMessages.createMessage(
XSLTErrorResources.ER_MISSING_ARG_FOR_OPTION,
new Object[] {"-IN"})); // "Missing argument for);
} else if ("-MEDIA".equalsIgnoreCase(argv[i])) {
if (i + 1 < argv.length) media = argv[++i];
else
System.err.println(
XSLMessages.createMessage(
XSLTErrorResources.ER_MISSING_ARG_FOR_OPTION,
new Object[] {"-MEDIA"})); // "Missing argument for);
} else if ("-OUT".equalsIgnoreCase(argv[i])) {
if (i + 1 < argv.length && argv[i + 1].charAt(0) != '-') outFileName = argv[++i];
else
System.err.println(
XSLMessages.createMessage(
XSLTErrorResources.ER_MISSING_ARG_FOR_OPTION,
new Object[] {"-OUT"})); // "Missing argument for);
} else if ("-XSL".equalsIgnoreCase(argv[i])) {
if (i + 1 < argv.length && argv[i + 1].charAt(0) != '-') xslFileName = argv[++i];
else
System.err.println(
XSLMessages.createMessage(
XSLTErrorResources.ER_MISSING_ARG_FOR_OPTION,
new Object[] {"-XSL"})); // "Missing argument for);
} else if ("-FLAVOR".equalsIgnoreCase(argv[i])) {
if (i + 1 < argv.length) {
flavor = argv[++i];
} else
System.err.println(
XSLMessages.createMessage(
XSLTErrorResources.ER_MISSING_ARG_FOR_OPTION,
new Object[] {"-FLAVOR"})); // "Missing argument for);
} else if ("-PARAM".equalsIgnoreCase(argv[i])) {
if (i + 2 < argv.length) {
String name = argv[++i];
params.addElement(name);
String expression = argv[++i];
params.addElement(expression);
} else
System.err.println(
XSLMessages.createMessage(
XSLTErrorResources.ER_MISSING_ARG_FOR_OPTION,
new Object[] {"-PARAM"})); // "Missing argument for);
} else if ("-E".equalsIgnoreCase(argv[i])) {
// TBD:
// xmlProcessorLiaison.setShouldExpandEntityRefs(false);
} else if ("-V".equalsIgnoreCase(argv[i])) {
diagnosticsWriter.println(
resbundle.getString("version") // ">>>>>>> Xalan Version "
+ Version.getVersion()
+ ", "
+
/* xmlProcessorLiaison.getParserDescription()+ */
resbundle.getString("version2")); // "<<<<<<<");
}
// J2SE does not support Xalan interpretive
/*
else if ("-QC".equalsIgnoreCase(argv[i]))
{
if (!useXSLTC)
quietConflictWarnings = true;
else
printInvalidXSLTCOption("-QC");
}
*/
else if ("-Q".equalsIgnoreCase(argv[i])) {
setQuietMode = true;
} else if ("-DIAG".equalsIgnoreCase(argv[i])) {
doDiag = true;
} else if ("-XML".equalsIgnoreCase(argv[i])) {
outputType = "xml";
} else if ("-TEXT".equalsIgnoreCase(argv[i])) {
outputType = "text";
} else if ("-HTML".equalsIgnoreCase(argv[i])) {
outputType = "html";
} else if ("-EDUMP".equalsIgnoreCase(argv[i])) {
doStackDumpOnError = true;
if (((i + 1) < argv.length) && (argv[i + 1].charAt(0) != '-')) {
dumpFileName = argv[++i];
}
} else if ("-URIRESOLVER".equalsIgnoreCase(argv[i])) {
if (i + 1 < argv.length) {
try {
uriResolver = (URIResolver) ObjectFactory.newInstance(argv[++i], true);
tfactory.setURIResolver(uriResolver);
} catch (ConfigurationError cnfe) {
msg =
XSLMessages.createMessage(
XSLTErrorResources.ER_CLASS_NOT_FOUND_FOR_OPTION,
new Object[] {"-URIResolver"});
System.err.println(msg);
doExit(msg);
}
} else {
msg =
XSLMessages.createMessage(
XSLTErrorResources.ER_MISSING_ARG_FOR_OPTION,
new Object[] {"-URIResolver"}); // "Missing argument for);
System.err.println(msg);
doExit(msg);
}
} else if ("-ENTITYRESOLVER".equalsIgnoreCase(argv[i])) {
if (i + 1 < argv.length) {
try {
entityResolver = (EntityResolver) ObjectFactory.newInstance(argv[++i], true);
} catch (ConfigurationError cnfe) {
msg =
XSLMessages.createMessage(
XSLTErrorResources.ER_CLASS_NOT_FOUND_FOR_OPTION,
new Object[] {"-EntityResolver"});
System.err.println(msg);
doExit(msg);
}
} else {
// "Missing argument for);
msg =
XSLMessages.createMessage(
XSLTErrorResources.ER_MISSING_ARG_FOR_OPTION, new Object[] {"-EntityResolver"});
System.err.println(msg);
doExit(msg);
}
} else if ("-CONTENTHANDLER".equalsIgnoreCase(argv[i])) {
if (i + 1 < argv.length) {
try {
contentHandler = (ContentHandler) ObjectFactory.newInstance(argv[++i], true);
} catch (ConfigurationError cnfe) {
msg =
XSLMessages.createMessage(
XSLTErrorResources.ER_CLASS_NOT_FOUND_FOR_OPTION,
new Object[] {"-ContentHandler"});
System.err.println(msg);
doExit(msg);
}
} else {
// "Missing argument for);
msg =
XSLMessages.createMessage(
XSLTErrorResources.ER_MISSING_ARG_FOR_OPTION, new Object[] {"-ContentHandler"});
System.err.println(msg);
doExit(msg);
}
}
// J2SE does not support Xalan interpretive
/*
else if ("-L".equalsIgnoreCase(argv[i]))
{
if (!useXSLTC)
tfactory.setAttribute(XalanProperties.SOURCE_LOCATION, Boolean.TRUE);
else
printInvalidXSLTCOption("-L");
}
else if ("-INCREMENTAL".equalsIgnoreCase(argv[i]))
{
if (!useXSLTC)
tfactory.setAttribute
("http://xml.apache.org/xalan/features/incremental",
java.lang.Boolean.TRUE);
else
printInvalidXSLTCOption("-INCREMENTAL");
}
else if ("-NOOPTIMIZE".equalsIgnoreCase(argv[i]))
{
// Default is true.
//
// %REVIEW% We should have a generalized syntax for negative
// switches... and probably should accept the inverse even
// if it is the default.
if (!useXSLTC)
tfactory.setAttribute
("http://xml.apache.org/xalan/features/optimize",
java.lang.Boolean.FALSE);
else
printInvalidXSLTCOption("-NOOPTIMIZE");
}
else if ("-RL".equalsIgnoreCase(argv[i]))
{
if (!useXSLTC)
{
if (i + 1 < argv.length)
recursionLimit = Integer.parseInt(argv[++i]);
else
System.err.println(
XSLMessages.createMessage(
XSLTErrorResources.ER_MISSING_ARG_FOR_OPTION,
new Object[]{ "-rl" })); //"Missing argument for);
}
else
{
if (i + 1 < argv.length && argv[i + 1].charAt(0) != '-')
i++;
printInvalidXSLTCOption("-RL");
}
}
*/
// Generate the translet class and optionally specify the name
// of the translet class.
else if ("-XO".equalsIgnoreCase(argv[i])) {
if (useXSLTC) {
if (i + 1 < argv.length && argv[i + 1].charAt(0) != '-') {
tfactory.setAttribute("generate-translet", "true");
tfactory.setAttribute("translet-name", argv[++i]);
} else tfactory.setAttribute("generate-translet", "true");
} else {
if (i + 1 < argv.length && argv[i + 1].charAt(0) != '-') i++;
printInvalidXalanOption("-XO");
}
}
// Specify the destination directory for the translet classes.
else if ("-XD".equalsIgnoreCase(argv[i])) {
if (useXSLTC) {
if (i + 1 < argv.length && argv[i + 1].charAt(0) != '-')
tfactory.setAttribute("destination-directory", argv[++i]);
else
System.err.println(
XSLMessages.createMessage(
XSLTErrorResources.ER_MISSING_ARG_FOR_OPTION,
new Object[] {"-XD"})); // "Missing argument for);
} else {
if (i + 1 < argv.length && argv[i + 1].charAt(0) != '-') i++;
printInvalidXalanOption("-XD");
}
}
// Specify the jar file name which the translet classes are packaged into.
else if ("-XJ".equalsIgnoreCase(argv[i])) {
if (useXSLTC) {
if (i + 1 < argv.length && argv[i + 1].charAt(0) != '-') {
tfactory.setAttribute("generate-translet", "true");
tfactory.setAttribute("jar-name", argv[++i]);
} else
System.err.println(
XSLMessages.createMessage(
XSLTErrorResources.ER_MISSING_ARG_FOR_OPTION,
new Object[] {"-XJ"})); // "Missing argument for);
} else {
if (i + 1 < argv.length && argv[i + 1].charAt(0) != '-') i++;
printInvalidXalanOption("-XJ");
}
}
// Specify the package name prefix for the generated translet classes.
else if ("-XP".equalsIgnoreCase(argv[i])) {
if (useXSLTC) {
if (i + 1 < argv.length && argv[i + 1].charAt(0) != '-')
tfactory.setAttribute("package-name", argv[++i]);
else
System.err.println(
XSLMessages.createMessage(
XSLTErrorResources.ER_MISSING_ARG_FOR_OPTION,
new Object[] {"-XP"})); // "Missing argument for);
} else {
if (i + 1 < argv.length && argv[i + 1].charAt(0) != '-') i++;
printInvalidXalanOption("-XP");
}
}
// Enable template inlining.
else if ("-XN".equalsIgnoreCase(argv[i])) {
if (useXSLTC) {
tfactory.setAttribute("enable-inlining", "true");
} else printInvalidXalanOption("-XN");
}
// Turns on additional debugging message output
else if ("-XX".equalsIgnoreCase(argv[i])) {
if (useXSLTC) {
tfactory.setAttribute("debug", "true");
} else printInvalidXalanOption("-XX");
}
// Create the Transformer from the translet if the translet class is newer
// than the stylesheet.
else if ("-XT".equalsIgnoreCase(argv[i])) {
if (useXSLTC) {
tfactory.setAttribute("auto-translet", "true");
} else printInvalidXalanOption("-XT");
} else if ("-SECURE".equalsIgnoreCase(argv[i])) {
isSecureProcessing = true;
try {
tfactory.setFeature(XMLConstants.FEATURE_SECURE_PROCESSING, true);
} catch (TransformerConfigurationException e) {
}
} else
System.err.println(
XSLMessages.createMessage(
XSLTErrorResources.ER_INVALID_OPTION,
new Object[] {argv[i]})); // "Invalid argument:);
}
// Print usage instructions if no xml and xsl file is specified in the command line
if (inFileName == null && xslFileName == null) {
msg = resbundle.getString("xslProc_no_input");
System.err.println(msg);
doExit(msg);
}
// Note that there are usage cases for calling us without a -IN arg
// The main XSL transformation occurs here!
try {
long start = System.currentTimeMillis();
if (null != dumpFileName) {
dumpWriter = new PrintWriter(new FileWriter(dumpFileName));
}
Templates stylesheet = null;
if (null != xslFileName) {
if (flavor.equals("d2d")) {
// Parse in the xml data into a DOM
DocumentBuilderFactory dfactory = DocumentBuilderFactory.newInstance();
dfactory.setNamespaceAware(true);
if (isSecureProcessing) {
try {
dfactory.setFeature(XMLConstants.FEATURE_SECURE_PROCESSING, true);
} catch (ParserConfigurationException pce) {
}
}
DocumentBuilder docBuilder = dfactory.newDocumentBuilder();
Node xslDOM = docBuilder.parse(new InputSource(xslFileName));
stylesheet = tfactory.newTemplates(new DOMSource(xslDOM, xslFileName));
} else {
// System.out.println("Calling newTemplates: "+xslFileName);
stylesheet = tfactory.newTemplates(new StreamSource(xslFileName));
// System.out.println("Done calling newTemplates: "+xslFileName);
}
}
PrintWriter resultWriter;
StreamResult strResult;
if (null != outFileName) {
strResult = new StreamResult(new FileOutputStream(outFileName));
// One possible improvement might be to ensure this is
// a valid URI before setting the systemId, but that
// might have subtle changes that pre-existing users
// might notice; we can think about that later -sc r1.46
strResult.setSystemId(outFileName);
} else {
strResult = new StreamResult(System.out);
// We used to default to incremental mode in this case.
// We've since decided that since the -INCREMENTAL switch is
// available, that default is probably not necessary nor
// necessarily a good idea.
}
SAXTransformerFactory stf = (SAXTransformerFactory) tfactory;
// J2SE does not support Xalan interpretive
/*
// This is currently controlled via TransformerFactoryImpl.
if (!useXSLTC && useSourceLocation)
stf.setAttribute(XalanProperties.SOURCE_LOCATION, Boolean.TRUE);
*/
// Did they pass in a stylesheet, or should we get it from the
// document?
if (null == stylesheet) {
Source source =
stf.getAssociatedStylesheet(new StreamSource(inFileName), media, null, null);
if (null != source) stylesheet = tfactory.newTemplates(source);
else {
if (null != media)
throw new TransformerException(
XSLMessages.createMessage(
XSLTErrorResources.ER_NO_STYLESHEET_IN_MEDIA,
new Object[] {inFileName, media})); // "No stylesheet found in: "
// + inFileName + ", media="
// + media);
else
throw new TransformerException(
XSLMessages.createMessage(
XSLTErrorResources.ER_NO_STYLESHEET_PI,
new Object[] {inFileName})); // "No xml-stylesheet PI found in: "
// + inFileName);
}
}
if (null != stylesheet) {
Transformer transformer = flavor.equals("th") ? null : stylesheet.newTransformer();
transformer.setErrorListener(new DefaultErrorHandler());
// Override the output format?
if (null != outputType) {
transformer.setOutputProperty(OutputKeys.METHOD, outputType);
}
// J2SE does not support Xalan interpretive
/*
if (transformer instanceof com.sun.org.apache.xalan.internal.transformer.TransformerImpl)
{
com.sun.org.apache.xalan.internal.transformer.TransformerImpl impl = (com.sun.org.apache.xalan.internal.transformer.TransformerImpl)transformer;
TraceManager tm = impl.getTraceManager();
if (null != tracer)
tm.addTraceListener(tracer);
impl.setQuietConflictWarnings(quietConflictWarnings);
// This is currently controlled via TransformerFactoryImpl.
if (useSourceLocation)
impl.setProperty(XalanProperties.SOURCE_LOCATION, Boolean.TRUE);
if(recursionLimit>0)
impl.setRecursionLimit(recursionLimit);
// sc 28-Feb-01 if we re-implement this, please uncomment helpmsg in printArgOptions
// impl.setDiagnosticsOutput( setQuietMode ? null : diagnosticsWriter );
}
*/
int nParams = params.size();
for (int i = 0; i < nParams; i += 2) {
transformer.setParameter(
(String) params.elementAt(i), (String) params.elementAt(i + 1));
}
if (uriResolver != null) transformer.setURIResolver(uriResolver);
if (null != inFileName) {
if (flavor.equals("d2d")) {
// Parse in the xml data into a DOM
DocumentBuilderFactory dfactory = DocumentBuilderFactory.newInstance();
dfactory.setCoalescing(true);
dfactory.setNamespaceAware(true);
if (isSecureProcessing) {
try {
dfactory.setFeature(XMLConstants.FEATURE_SECURE_PROCESSING, true);
} catch (ParserConfigurationException pce) {
}
}
DocumentBuilder docBuilder = dfactory.newDocumentBuilder();
if (entityResolver != null) docBuilder.setEntityResolver(entityResolver);
Node xmlDoc = docBuilder.parse(new InputSource(inFileName));
Document doc = docBuilder.newDocument();
org.w3c.dom.DocumentFragment outNode = doc.createDocumentFragment();
transformer.transform(new DOMSource(xmlDoc, inFileName), new DOMResult(outNode));
// Now serialize output to disk with identity transformer
Transformer serializer = stf.newTransformer();
serializer.setErrorListener(new DefaultErrorHandler());
Properties serializationProps = stylesheet.getOutputProperties();
serializer.setOutputProperties(serializationProps);
if (contentHandler != null) {
SAXResult result = new SAXResult(contentHandler);
serializer.transform(new DOMSource(outNode), result);
} else serializer.transform(new DOMSource(outNode), strResult);
} else if (flavor.equals("th")) {
for (int i = 0; i < 1; i++) // Loop for diagnosing bugs with inconsistent behavior
{
// System.out.println("Testing the TransformerHandler...");
XMLReader reader = null;
// Use JAXP1.1 ( if possible )
try {
javax.xml.parsers.SAXParserFactory factory =
javax.xml.parsers.SAXParserFactory.newInstance();
factory.setNamespaceAware(true);
if (isSecureProcessing) {
try {
factory.setFeature(XMLConstants.FEATURE_SECURE_PROCESSING, true);
} catch (org.xml.sax.SAXException se) {
}
}
javax.xml.parsers.SAXParser jaxpParser = factory.newSAXParser();
reader = jaxpParser.getXMLReader();
} catch (javax.xml.parsers.ParserConfigurationException ex) {
throw new org.xml.sax.SAXException(ex);
} catch (javax.xml.parsers.FactoryConfigurationError ex1) {
throw new org.xml.sax.SAXException(ex1.toString());
} catch (NoSuchMethodError ex2) {
} catch (AbstractMethodError ame) {
}
if (null == reader) {
reader = XMLReaderFactory.createXMLReader();
}
// J2SE does not support Xalan interpretive
/*
if (!useXSLTC)
stf.setAttribute(com.sun.org.apache.xalan.internal.processor.TransformerFactoryImpl.FEATURE_INCREMENTAL,
Boolean.TRUE);
*/
TransformerHandler th = stf.newTransformerHandler(stylesheet);
reader.setContentHandler(th);
reader.setDTDHandler(th);
if (th instanceof org.xml.sax.ErrorHandler)
reader.setErrorHandler((org.xml.sax.ErrorHandler) th);
try {
reader.setProperty("http://xml.org/sax/properties/lexical-handler", th);
} catch (org.xml.sax.SAXNotRecognizedException e) {
} catch (org.xml.sax.SAXNotSupportedException e) {
}
try {
reader.setFeature("http://xml.org/sax/features/namespace-prefixes", true);
} catch (org.xml.sax.SAXException se) {
}
th.setResult(strResult);
reader.parse(new InputSource(inFileName));
}
} else {
if (entityResolver != null) {
XMLReader reader = null;
// Use JAXP1.1 ( if possible )
try {
javax.xml.parsers.SAXParserFactory factory =
javax.xml.parsers.SAXParserFactory.newInstance();
factory.setNamespaceAware(true);
if (isSecureProcessing) {
try {
factory.setFeature(XMLConstants.FEATURE_SECURE_PROCESSING, true);
} catch (org.xml.sax.SAXException se) {
}
}
javax.xml.parsers.SAXParser jaxpParser = factory.newSAXParser();
reader = jaxpParser.getXMLReader();
} catch (javax.xml.parsers.ParserConfigurationException ex) {
throw new org.xml.sax.SAXException(ex);
} catch (javax.xml.parsers.FactoryConfigurationError ex1) {
throw new org.xml.sax.SAXException(ex1.toString());
} catch (NoSuchMethodError ex2) {
} catch (AbstractMethodError ame) {
}
if (null == reader) {
reader = XMLReaderFactory.createXMLReader();
}
reader.setEntityResolver(entityResolver);
if (contentHandler != null) {
SAXResult result = new SAXResult(contentHandler);
transformer.transform(new SAXSource(reader, new InputSource(inFileName)), result);
} else {
transformer.transform(
new SAXSource(reader, new InputSource(inFileName)), strResult);
}
} else if (contentHandler != null) {
SAXResult result = new SAXResult(contentHandler);
transformer.transform(new StreamSource(inFileName), result);
} else {
// System.out.println("Starting transform");
transformer.transform(new StreamSource(inFileName), strResult);
// System.out.println("Done with transform");
}
}
} else {
StringReader reader = new StringReader("<?xml version=\"1.0\"?> <doc/>");
transformer.transform(new StreamSource(reader), strResult);
}
} else {
// "XSL Process was not successful.");
msg = XSLMessages.createMessage(XSLTErrorResources.ER_NOT_SUCCESSFUL, null);
diagnosticsWriter.println(msg);
doExit(msg);
}
// close output streams
if (null != outFileName && strResult != null) {
java.io.OutputStream out = strResult.getOutputStream();
java.io.Writer writer = strResult.getWriter();
try {
if (out != null) out.close();
if (writer != null) writer.close();
} catch (java.io.IOException ie) {
}
}
long stop = System.currentTimeMillis();
long millisecondsDuration = stop - start;
if (doDiag) {
Object[] msgArgs = new Object[] {inFileName, xslFileName, new Long(millisecondsDuration)};
msg = XSLMessages.createMessage("diagTiming", msgArgs);
diagnosticsWriter.println('\n');
diagnosticsWriter.println(msg);
}
} catch (Throwable throwable) {
while (throwable instanceof com.sun.org.apache.xml.internal.utils.WrappedRuntimeException) {
throwable =
((com.sun.org.apache.xml.internal.utils.WrappedRuntimeException) throwable)
.getException();
}
if ((throwable instanceof NullPointerException)
|| (throwable instanceof ClassCastException)) doStackDumpOnError = true;
diagnosticsWriter.println();
if (doStackDumpOnError) throwable.printStackTrace(dumpWriter);
else {
DefaultErrorHandler.printLocation(diagnosticsWriter, throwable);
diagnosticsWriter.println(
XSLMessages.createMessage(XSLTErrorResources.ER_XSLT_ERROR, null)
+ " ("
+ throwable.getClass().getName()
+ "): "
+ throwable.getMessage());
}
// diagnosticsWriter.println(XSLMessages.createMessage(XSLTErrorResources.ER_NOT_SUCCESSFUL,
// null)); //"XSL Process was not successful.");
if (null != dumpFileName) {
dumpWriter.close();
}
doExit(throwable.getMessage());
}
if (null != dumpFileName) {
dumpWriter.close();
}
if (null != diagnosticsWriter) {
// diagnosticsWriter.close();
}
// if(!setQuietMode)
// diagnosticsWriter.println(resbundle.getString("xsldone")); //"Xalan: done");
// else
// diagnosticsWriter.println(""); //"Xalan: done");
}
}