/** * Return whether the given string contains well-formed XML. * * @param xmlString string to check * @return true iif the given string contains well-formed XML */ public static boolean isWellFormedXML(String xmlString) { // Empty string is never well-formed XML if (xmlString.trim().length() == 0) return false; try { final XMLReader xmlReader = newSAXParser(XMLUtils.ParserConfiguration.PLAIN).getXMLReader(); xmlReader.setContentHandler(NULL_CONTENT_HANDLER); xmlReader.setEntityResolver(ENTITY_RESOLVER); xmlReader.setErrorHandler( new org.xml.sax.ErrorHandler() { public void error(SAXParseException exception) throws SAXException { throw exception; } public void fatalError(SAXParseException exception) throws SAXException { throw exception; } public void warning(SAXParseException exception) throws SAXException {} }); xmlReader.parse(new InputSource(new StringReader(xmlString))); return true; } catch (Exception e) { // Ideally we would like the parser to not throw as this is time-consuming, but not sure how // to achieve that return false; } }
public void parseCPIMString(String body) { try { StringReader stringReader = new StringReader(body); InputSource inputSource = new InputSource(stringReader); saxParser.parse(inputSource); } catch (Exception e) { e.printStackTrace(); } }
/* * Main method to parse specific MetaData file. */ public Collection<Designate> doParse() throws IOException, SAXException { _dp_xmlReader = _dp_parser.getXMLReader(); _dp_xmlReader.setContentHandler(new RootHandler()); _dp_xmlReader.setErrorHandler(new MyErrorHandler(System.err)); InputStream is = _dp_url.openStream(); InputSource isource = new InputSource(is); logger.log(LogService.LOG_DEBUG, "Starting to parse " + _dp_url); // $NON-NLS-1$ _dp_xmlReader.parse(isource); return designates; }
public static void parseDocumentFragment(Reader reader, XMLReceiver xmlReceiver) throws SAXException { try { final XMLReader xmlReader = newSAXParser(XMLUtils.ParserConfiguration.PLAIN).getXMLReader(); xmlReader.setContentHandler(new XMLFragmentReceiver(xmlReceiver)); final ArrayList<Reader> readers = new ArrayList<Reader>(3); readers.add(new StringReader("<root>")); readers.add(reader); readers.add(new StringReader("</root>")); xmlReader.parse(new InputSource(new SequenceReader(readers.iterator()))); } catch (IOException e) { throw new OXFException(e); } }
public static void parseDocumentFragment(String fragment, XMLReceiver xmlReceiver) throws SAXException { if (fragment.indexOf("<") != -1 || fragment.indexOf("&") != -1) { try { final XMLReader xmlReader = newSAXParser(XMLUtils.ParserConfiguration.PLAIN).getXMLReader(); xmlReader.setContentHandler(new XMLFragmentReceiver(xmlReceiver)); xmlReader.parse(new InputSource(new StringReader("<root>" + fragment + "</root>"))); } catch (IOException e) { throw new OXFException(e); } } else { // Optimization when fragment looks like text xmlReceiver.characters(fragment.toCharArray(), 0, fragment.length()); } }
public int runXmlImport() { DataImportXmlParser responseHandler = null; try { XMLReader parser = EfaUtil.getXMLReader(); responseHandler = new DataImportXmlParser(this, dataAccess); parser.setContentHandler(responseHandler); parser.parse(new InputSource(new FileInputStream(filename))); } catch (Exception e) { logInfo(e.toString()); errorCount++; Logger.log(e); if (Daten.isGuiAppl()) { Dialog.error(e.toString()); } } return (responseHandler != null ? responseHandler.getImportedRecordsCount() : 0); }
/** * start the parsing * * @param file to parse * @return Vector containing the test cases */ public XMLcpimParser(String fileLocation) { try { SAXParserFactory saxParserFactory = SAXParserFactory.newInstance(); saxParser = saxParserFactory.newSAXParser().getXMLReader(); saxParser.setContentHandler(this); saxParser.setFeature("http://xml.org/sax/features/validation", true); // parse the xml specification for the event tags. saxParser.parse(fileLocation); } catch (SAXParseException spe) { spe.printStackTrace(); } catch (SAXException sxe) { sxe.printStackTrace(); } catch (IOException ioe) { // I/O error ioe.printStackTrace(); } catch (Exception pce) { // Parser with specified options can't be built pce.printStackTrace(); } }
private static void inputSourceToSAX( InputSource inputSource, XMLReceiver xmlReceiver, XMLUtils.ParserConfiguration parserConfiguration, boolean handleLexical) { // Insert XInclude processor if needed final TransformerURIResolver resolver; if (parserConfiguration.handleXInclude) { parserConfiguration = new XMLUtils.ParserConfiguration( parserConfiguration.validating, false, parserConfiguration.externalEntities, parserConfiguration.uriReferences); resolver = new TransformerURIResolver(XMLUtils.ParserConfiguration.PLAIN); xmlReceiver = new XIncludeReceiver(null, xmlReceiver, parserConfiguration.uriReferences, resolver); } else { resolver = null; } try { final XMLReader xmlReader = newSAXParser(parserConfiguration).getXMLReader(); xmlReader.setContentHandler(xmlReceiver); if (handleLexical) xmlReader.setProperty(XMLConstants.SAX_LEXICAL_HANDLER, xmlReceiver); xmlReader.setEntityResolver(ENTITY_RESOLVER); xmlReader.setErrorHandler(ERROR_HANDLER); xmlReader.parse(inputSource); } catch (SAXParseException e) { throw new ValidationException(e.getMessage(), new LocationData(e)); } catch (Exception e) { throw new OXFException(e); } finally { if (resolver != null) resolver.destroy(); } }
protected static void addXml( final SolrInputDocument doc, final String fieldprefix, final String textfield, InputSource input) throws SAXException, IOException { XMLReader reader = XMLReaderFactory.createXMLReader(); final StringBuilder text = new StringBuilder(); reader.setContentHandler( new ContentHandler() { final Deque<String> parents = new LinkedList<String>(); final Deque<StringBuilder> element_texts = new LinkedList<StringBuilder>(); private String path() { StringBuilder sb = new StringBuilder(fieldprefix); for (String el : parents) { sb.append('/'); sb.append(el); } return sb.toString(); } public void startPrefixMapping(String prefix, String uri) throws SAXException {} public void startDocument() throws SAXException {} public void skippedEntity(String name) throws SAXException {} public void setDocumentLocator(Locator locator) {} public void processingInstruction(String target, String data) throws SAXException {} public void ignorableWhitespace(char[] ch, int start, int length) throws SAXException { text.append(ch, start, length); element_texts.getLast().append(ch, start, length); } public void endPrefixMapping(String prefix) throws SAXException {} public void endElement(String uri, String localName, String qName) throws SAXException { addxmltext(doc, path(), element_texts.removeLast()); parents.removeLast(); } public void endDocument() throws SAXException { addxmltext(doc, textfield, text); } public void characters(char[] ch, int start, int length) throws SAXException { text.append(ch, start, length); text.append(' '); element_texts.getLast().append(ch, start, length); } public void startElement(String uri, String localName, String qName, Attributes atts) throws SAXException { // ignore namespaces when constructing field names parents.addLast(localName); element_texts.addLast(new StringBuilder()); for (int i = 0; i < atts.getLength(); i++) { String attr_field = path() + "@" + atts.getLocalName(i); doc.addField(attr_field, atts.getValue(i)); } } }); reader.setErrorHandler( new ErrorHandler() { public void warning(SAXParseException exception) throws SAXException { // TODO log? throw exception; } public void fatalError(SAXParseException exception) throws SAXException { throw exception; } public void error(SAXParseException exception) throws SAXException { throw exception; } }); reader.parse(input); }