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The Fedora Commons Jena Patch module: Provides temporary patch for RDF 1.0 serialization.

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/*
 * 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.
 */

package org.fcrepo.jena;

import java.io.OutputStream ;
import java.io.OutputStreamWriter ;
import java.io.PrintWriter ;
import java.io.Writer ;
import java.util.* ;
import java.util.Map.Entry ;
import java.util.regex.Pattern ;

import org.apache.jena.JenaRuntime ;
import org.apache.jena.iri.IRI ;
import org.apache.jena.iri.IRIFactory ;
import org.apache.jena.rdf.model.* ;
import org.apache.jena.rdf.model.impl.RDFDefaultErrorHandler ;
import org.apache.jena.rdf.model.impl.ResourceImpl ;
import org.apache.jena.rdf.model.impl.Util ;
import org.apache.jena.rdfxml.xmloutput.RDFXMLWriterI ;
import org.apache.jena.rdfxml.xmloutput.impl.SimpleLogger;
import org.apache.jena.shared.* ;
import org.apache.jena.util.CharEncoding ;
import org.apache.jena.util.FileUtils ;
import org.apache.jena.vocabulary.* ;
import org.apache.xerces.util.XMLChar ;
import org.slf4j.Logger ;
import org.slf4j.LoggerFactory ;

/**
 * This is not part of the public API.
 * Base class for XML serializers.
 * All methods with side-effects should be synchronized in this class and its
 * subclasses. (i. e. XMLWriters assume that the world is not changing around
 * them while they are writing).
 *
 * Functionality:
 *
 * 
    *
  • setProperty etc *
  • namespace prefixes *
  • xmlbase *
  • relative URIs *
  • encoding issues *
  • anonymous node presentational *
  • errorHandler *
*/ abstract public class CopyOfBaseXMLWriter implements RDFXMLWriterI { private static final String newline = JenaRuntime.getSystemProperty( "line.separator" ); static private final String DEFAULT_NS_ENTITY_NAME = "this"; static private final String DEFAULT_NS_ENTITY_NAME_ALT = "here"; private String defaultNSEntityName = "UNSET" ; public CopyOfBaseXMLWriter() { setupMaps(); } private static Logger xlogger = LoggerFactory.getLogger( CopyOfBaseXMLWriter.class ); protected static SimpleLogger logger = new SimpleLogger() { @Override public void warn(String s) { xlogger.warn(s); } @Override public void warn(String s, Exception e) { xlogger.warn(s,e); } }; public static SimpleLogger setLogger(SimpleLogger lg) { SimpleLogger old = logger; logger= lg; return old; } abstract protected void unblockAll(); abstract protected void blockRule(Resource r); abstract protected void writeBody ( Model mdl, PrintWriter pw, String baseUri, boolean inclXMLBase ); static private Set badRDF = new HashSet<>(); /** Counter used for allocating Jena transient namespace declarations. */ private int jenaPrefixCount; static String RDFNS = RDF.getURI(); static private Pattern jenaNamespace; static { jenaNamespace = Pattern.compile("j\\.([1-9][0-9]*|cook\\.up)"); badRDF.add("RDF"); badRDF.add("Description"); badRDF.add("li"); badRDF.add("about"); badRDF.add("aboutEach"); badRDF.add("aboutEachPrefix"); badRDF.add("ID"); badRDF.add("nodeID"); badRDF.add("parseType"); badRDF.add("datatype"); badRDF.add("bagID"); badRDF.add("resource"); } String xmlBase = null; private IRI baseURI; boolean longId = false; private boolean demandGoodURIs = true; int tabSize = 2; int width = 60; HashMap anonMap = new HashMap<>(); int anonCount = 0; static private RDFDefaultErrorHandler defaultErrorHandler = new RDFDefaultErrorHandler(); RDFErrorHandler errorHandler = defaultErrorHandler; Boolean showXmlDeclaration = null; protected Boolean showDoctypeDeclaration = Boolean.FALSE; /* * There are two sorts of id's for anonymous resources. Short id's are the * default, but require a mapping table. The mapping table means that * serializing a large model could run out of memory. Long id's require no * mapping table, but are less readable. */ String anonId(Resource r) { return longId ? longAnonId( r ) : shortAnonId( r ); } /* * A shortAnonId is computed by maintaining a mapping table from the internal * id's of anon resources. The short id is the index into the table of the * internal id. */ private String shortAnonId(Resource r) { String result = anonMap.get(r.getId()); if (result == null) { result = "A" + Integer.toString(anonCount++); anonMap.put(r.getId(), result); } return result; } /* * A longAnonId is the internal id of the anon resource expressed as a * character string. * * This code makes no assumptions about the characters used in the * implementation of an anon id. It checks if they are valid namechar * characters and escapes the id if not. */ private String longAnonId(Resource r) { String rid = r.getId().toString(); return XMLChar.isValidNCName( rid ) ? rid : escapedId( rid ); } /** true means all namespaces defined in the model prefixes will be noted in xmlns declarations; false means only "required" ones will be noted. Hook for configuration. */ private boolean writingAllModelPrefixNamespaces = true; private CopyOfRelation nameSpaces = new CopyOfRelation<>(); private Map ns; private PrefixMapping modelPrefixMapping; private Set namespacesNeeded; void addNameSpace(String uri) { namespacesNeeded.add(uri); } boolean isDefaultNamespace( String uri ) { return "".equals( ns.get( uri ) ); } private void addNameSpaces( Model model ) { NsIterator nsIter = model.listNameSpaces(); while (nsIter.hasNext()) this.addNameSpace( nsIter.nextNs() ); } private void primeNamespace( Model model ) { Map m = model.getNsPrefixMap(); for ( Entry e : m.entrySet() ) { String value = e.getValue(); String already = this.getPrefixFor( value ); if ( already == null ) { this.setNsPrefix( model.getNsURIPrefix( value ), value ); if ( writingAllModelPrefixNamespaces ) { this.addNameSpace( value ); } } } if ( usesPrefix(model, "") ) { // Doing "" prefix. Ensure it is a non-clashing, non-empty entity name. String entityForEmptyPrefix = DEFAULT_NS_ENTITY_NAME ; if ( usesPrefix(model, entityForEmptyPrefix) ) entityForEmptyPrefix = DEFAULT_NS_ENTITY_NAME_ALT ; int i = 0 ; while ( usesPrefix(model,entityForEmptyPrefix) ) { entityForEmptyPrefix = DEFAULT_NS_ENTITY_NAME_ALT+"."+i ; i++ ; } defaultNSEntityName = entityForEmptyPrefix ; } } void setupMaps() { nameSpaces.set11(RDF.getURI(), "rdf"); nameSpaces.set11(RDFS.getURI(), "rdfs"); nameSpaces.set11(DC.getURI(), "dc"); nameSpaces.set11(RSS.getURI(), "rss"); nameSpaces.set11("http://www.daml.org/2001/03/daml+oil.daml#", "daml"); nameSpaces.set11(VCARD.getURI(), "vcard"); nameSpaces.set11("http://www.w3.org/2002/07/owl#", "owl"); } void workOutNamespaces() { if (ns == null) { ns = new HashMap<>(); Set prefixesUsed = new HashSet<>(); setFromWriterSystemProperties( ns, prefixesUsed ); setFromGivenNamespaces( ns, prefixesUsed ); } } private void setFromWriterSystemProperties( Map ns, Set prefixesUsed ) { for ( String uri : namespacesNeeded ) { String val = JenaRuntime.getSystemProperty( RDFWriter.NSPREFIXPROPBASE + uri ); if ( val != null && checkLegalPrefix( val ) && !prefixesUsed.contains( val ) ) { ns.put( uri, val ); prefixesUsed.add( val ); } } } private void setFromGivenNamespaces( Map ns, Set prefixesUsed ) { for ( String uri : namespacesNeeded ) { if ( ns.containsKey( uri ) ) { continue; } String val = null; Set s = nameSpaces.forward( uri ); if ( s != null ) { Iterator it2 = s.iterator(); if ( it2.hasNext() ) { val = it2.next(); } if ( prefixesUsed.contains( val ) ) { val = null; } } if ( val == null ) { // just in case the prefix has already been used, look for a free one. // (the usual source of such prefixes is reading in a model we wrote out earlier) do { val = "j." + ( jenaPrefixCount++ ); } while ( prefixesUsed.contains( val ) ); } ns.put( uri, val ); prefixesUsed.add( val ); } } final synchronized public void setNsPrefix(String prefix, String ns) { if (checkLegalPrefix(prefix)) { nameSpaces.set11(ns, prefix); } } final public String getPrefixFor( String uri ) { // xml and xmlns namespaces are pre-bound if ("http://www.w3.org/XML/1998/namespace".equals(uri)) return "xml"; if ("http://www.w3.org/2000/xmlns/".equals(uri)) return "xmlns"; Set s = nameSpaces.backward( uri ); if (s != null && s.size() == 1) return s.iterator().next(); return null; } String xmlnsDecl() { workOutNamespaces(); StringBuilder result = new StringBuilder(); Iterator> it = ns.entrySet().iterator(); while (it.hasNext()) { Entry ent = it.next(); String prefix = ent.getValue(); String uri = ent.getKey(); result.append( newline ).append( " xmlns" ); if (prefix.length() > 0) result.append( ':' ).append( prefix ); result.append( '=' ).append( substitutedAttribute( checkURI( uri ) ) ); } return result.toString(); } static final private int FAST = 1; static final private int START = 2; static final private int END = 3; static final private int ATTR = 4; static final private int FASTATTR = 5; String rdfEl(String local) { return tag(RDFNS, local, FAST, true); } String startElementTag(String uri, String local) { return tag(uri, local, START, false); } protected String startElementTag(String uriref) { return splitTag(uriref, START); } String attributeTag(String uriref) { return splitTag(uriref, ATTR); } String attributeTag(String uri, String local) { return tag(uri, local, ATTR, false); } String rdfAt(String local) { return tag(RDFNS, local, FASTATTR, true); } String endElementTag(String uri, String local) { return tag(uri, local, END, false); } protected String endElementTag(String uriref) { return splitTag(uriref, END); } String splitTag(String uriref, int type) { int split = Util.splitNamespaceXML( uriref ); if (split == uriref.length()) throw new InvalidPropertyURIException( uriref ); return tag( uriref.substring( 0, split ), uriref.substring( split ), type, true ); } static public boolean dbg = false; String tag( String namespace, String local, int type, boolean localIsQname) { if (dbg) System.err.println(namespace + " - " + local); String prefix = ns.get( namespace ); if (type != FAST && type != FASTATTR) { if ((!localIsQname) && !XMLChar.isValidNCName(local)) return splitTag(namespace + local, type); if (namespace.equals(RDFNS)) { // Description, ID, nodeID, about, aboutEach, aboutEachPrefix, li // bagID parseType resource datatype RDF if (badRDF.contains(local)) { logger.warn( "The URI rdf:" + local + " cannot be serialized in RDF/XML." ); throw new InvalidPropertyURIException( "rdf:" + local ); } } } boolean cookUp = false; if (prefix == null) { checkURI( namespace ); logger.warn( "Internal error: unexpected QName URI: <" + namespace + ">. Fixing up with j.cook.up code.", new BrokenException( "unexpected QName URI " + namespace )); cookUp = true; } else if (prefix.length() == 0) { if (type == ATTR || type == FASTATTR) cookUp = true; else return local; } if (cookUp) return cookUpAttribution( type, namespace, local ); return prefix + ":" + local; } private String cookUpAttribution( int type, String namespace, String local ) { String prefix = "j.cook.up"; switch (type) { case FASTATTR : case ATTR : return "xmlns:" + prefix + "=" + substitutedAttribute( namespace ) + " " + prefix + ":" + local; case START : return prefix + ":" + local + " xmlns:" + prefix+ "=" + substitutedAttribute( namespace ); default: case END : return prefix + ":" + local; case FAST : // logger.error("Unreachable code - reached."); throw new BrokenException( "cookup reached final FAST" ); } } /** Write out an XML serialization of a model. * @param model the model to be serialized * @param out the OutputStream to receive the serialization * @param base The URL at which the file will be placed. */ @Override final public void write(Model model, OutputStream out, String base) { write( model, FileUtils.asUTF8(out), base ); } /** Serialize Model model to Writer out. * @param model The model to be written. * @param out The Writer to which the serialization should be sent. * @param base the base URI for relative URI calculations. null means use only absolute URI's. */ @Override synchronized public void write(Model model, Writer out, String base) { setupNamespaces( model ); PrintWriter pw = out instanceof PrintWriter ? (PrintWriter) out : new PrintWriter( out ); if (!Boolean.FALSE.equals(showXmlDeclaration)) writeXMLDeclaration( out, pw ); writeXMLBody( model, pw, base ); pw.flush(); } /** @param baseModel @param model */ private void setupNamespaces( Model model ) { this.namespacesNeeded = new HashSet<>(); this.ns = null; this.modelPrefixMapping = model; primeNamespace( model ); addNameSpace( RDF.getURI() ); addNameSpaces(model); jenaPrefixCount = 0; } @SuppressWarnings("deprecation") static IRIFactory factory = IRIFactory.jenaImplementation(); private void writeXMLBody( Model model, PrintWriter pw, String base ) { if (showDoctypeDeclaration.booleanValue()) generateDoctypeDeclaration( model, pw ); // try { // errors? if (xmlBase == null) { baseURI = (base == null || base.length() == 0) ? null : factory.create(base); writeBody(model, pw, base, false); } else { baseURI = xmlBase.length() == 0 ? null : factory.create(xmlBase); writeBody(model, pw, xmlBase, true); } // } catch (MalformedURIException e) { // throw new BadURIException( e.getMessage(), e); // } } protected static final Pattern predefinedEntityNames = Pattern.compile( "amp|lt|gt|apos|quot" ); public boolean isPredefinedEntityName( String name ) { return predefinedEntityNames.matcher( name ).matches(); } private String attributeQuoteChar ="\""; protected String attributeQuoted( String s ) { return attributeQuoteChar + s + attributeQuoteChar; } protected String substitutedAttribute( String s ) { String substituted = Util.substituteStandardEntities( s ); if (!showDoctypeDeclaration.booleanValue()) return attributeQuoted( substituted ); else { int split = Util.splitNamespaceXML( substituted ); String namespace = substituted.substring( 0, split ); String prefix = modelPrefixMapping.getNsURIPrefix( namespace ); return prefix == null || isPredefinedEntityName( prefix ) ? attributeQuoted( substituted ) : attributeQuoted( "&" + strForPrefix(prefix) + ";" + substituted.substring( split ) ) ; } } private void generateDoctypeDeclaration( Model model, PrintWriter pw ) { String rdfns = RDF.getURI(); String rdfRDF = model.qnameFor( rdfns + "RDF" ); if ( rdfRDF == null ) { model.setNsPrefix("rdf",rdfns); rdfRDF = "rdf:RDF"; } Map prefixes = model.getNsPrefixMap(); pw.print( "" ); } pw.print( "]>" + newline ); } private String strForPrefix(String prefix) { if ( prefix.length() == 0 ) return defaultNSEntityName ; return prefix ; } private static boolean usesPrefix(Model model, String prefix) { return model.getNsPrefixURI(prefix) != null ; } private void writeXMLDeclaration(Writer out, PrintWriter pw) { String decl = null; if (out instanceof OutputStreamWriter) { String javaEnc = ((OutputStreamWriter) out).getEncoding(); // System.err.println(javaEnc); if (!(javaEnc.equals("UTF8") || javaEnc.equals("UTF-16"))) { CharEncoding encodingInfo = CharEncoding.create(javaEnc); String ianaEnc = encodingInfo.name(); decl = ""; if (!encodingInfo.isIANA()) logger.warn(encodingInfo.warningMessage()+"\n"+ " It is better to use a FileOutputStream, in place of a FileWriter."); } } if (decl == null && showXmlDeclaration != null) decl = ""; if (decl != null) { pw.println(decl); } } /** Set an error handler. * @param errHandler The new error handler to be used, or null for the default handler. * @return the old error handler */ @Override synchronized public RDFErrorHandler setErrorHandler(RDFErrorHandler errHandler) { // null means no user defined error handler. // We implement this using defaultErrorHandler, // but hide this fact from the user. RDFErrorHandler rslt = errorHandler; if (rslt == defaultErrorHandler) rslt = null; errorHandler = errHandler == null ? defaultErrorHandler : errHandler; return rslt; } static private final char ESCAPE = 'X'; static private String escapedId(String id) { StringBuffer result = new StringBuffer(); for (int i = 0; i < id.length(); i++) { char ch = id.charAt(i); if (ch != ESCAPE && (i == 0 ? XMLChar.isNCNameStart(ch) : XMLChar.isNCName(ch))) { result.append( ch ); } else { escape( result, ch ); } } return result.toString(); } static final char [] hexchar = "0123456789abcdef".toCharArray(); static private void escape( StringBuffer sb, char ch) { sb.append( ESCAPE ); int charcode = ch; do { sb.append( hexchar[charcode & 15] ); charcode = charcode >> 4; } while (charcode != 0); sb.append( ESCAPE ); } /** Set the writer property propName to the value obtained from propValue. Return an Object representation of the original value. @see org.apache.jena.rdf.model.RDFWriter#setProperty(java.lang.String, java.lang.Object) */ @Override final synchronized public Object setProperty( String propName, Object propValue ) { if (propName.equalsIgnoreCase("showXmlDeclaration")) { return setShowXmlDeclaration(propValue); } else if (propName.equalsIgnoreCase( "showDoctypeDeclaration" )) { return setShowDoctypeDeclaration( propValue ); } else if (propName.equalsIgnoreCase( "minimalPrefixes" )) { try { return new Boolean( !writingAllModelPrefixNamespaces ); } finally { writingAllModelPrefixNamespaces = !getBoolean( propValue ); } } else if (propName.equalsIgnoreCase("xmlbase")) { String result = xmlBase; xmlBase = (String) propValue; return result; } else if (propName.equalsIgnoreCase("tab")) { return setTab( propValue ); } else if (propName.equalsIgnoreCase("width")) { return setWidth(propValue); } else if (propName.equalsIgnoreCase("longid")) { Boolean result = new Boolean(longId); longId = getBoolean(propValue); return result; } else if (propName.equalsIgnoreCase("attributeQuoteChar")) { return setAttributeQuoteChar(propValue); } else if (propName.equalsIgnoreCase( "allowBadURIs" )) { Boolean result = new Boolean( !demandGoodURIs ); demandGoodURIs = !getBoolean(propValue); return result; } else if (propName.equalsIgnoreCase("prettyTypes")) { return setTypes((Resource[]) propValue); } else if (propName.equalsIgnoreCase("relativeURIs")) { int old = relativeFlags; relativeFlags = str2flags((String) propValue); return flags2str(old); } else if (propName.equalsIgnoreCase("blockRules")) { return setBlockRules(propValue); } else { logger.warn("Unsupported property: " + propName); return null; } } private String setAttributeQuoteChar(Object propValue) { String oldValue = attributeQuoteChar; if ( "\"".equals(propValue) || "'".equals(propValue) ) attributeQuoteChar = (String)propValue; else logger.warn("attributeQutpeChar must be either \"\\\"\" or \', not \""+propValue+"\"" ); return oldValue; } private Integer setWidth(Object propValue) { Integer oldValue = new Integer(width); if (propValue instanceof Integer) { width = ((Integer) propValue).intValue(); } else { try { width = Integer.parseInt((String) propValue); } catch (Exception e) { logger.warn( "Bad value for width: '" + propValue + "' [" + e.getMessage() + "]" ); } } return oldValue; } private Integer setTab(Object propValue) { Integer result = new Integer(tabSize); if (propValue instanceof Integer) { tabSize = ((Integer) propValue).intValue(); } else { try { tabSize = Integer.parseInt((String) propValue); } catch (Exception e) { logger.warn( "Bad value for tab: '" + propValue + "' [" + e.getMessage() + "]" ); } } return result; } private String setShowDoctypeDeclaration( Object propValue ) { String oldValue = showDoctypeDeclaration.toString(); showDoctypeDeclaration = getBooleanValue( propValue, Boolean.FALSE ); return oldValue; } private String setShowXmlDeclaration( Object propValue ) { String oldValue = showXmlDeclaration == null ? null : showXmlDeclaration.toString(); showXmlDeclaration = getBooleanValue( propValue, null ); return oldValue; } /** Answer the boolean value corresponding to o, which must either be a Boolean, or a String parsable as a Boolean. */ static private boolean getBoolean( Object o ) { return getBooleanValue( o, Boolean.FALSE ).booleanValue(); } private static Boolean getBooleanValue( Object propValue, Boolean theDefault ) { if (propValue == null) return theDefault; else if (propValue instanceof Boolean) return (Boolean) propValue; else if (propValue instanceof String) return stringToBoolean( (String) propValue, theDefault ); else throw new JenaException( "cannot treat as boolean: " + propValue ); } private static Boolean stringToBoolean( String b, Boolean theDefault ) { if (b.equals( "default" )) return theDefault; if (b.equalsIgnoreCase( "true" )) return Boolean.TRUE; if (b.equalsIgnoreCase( "false" )) return Boolean.FALSE; throw new BadBooleanException( b ); } Resource[] setTypes( Resource x[] ) { logger.warn( "prettyTypes is not a property on the Basic RDF/XML writer." ); return null; } private Resource blockedRules[] = new Resource[]{RDFSyntax.propertyAttr}; Resource[] setBlockRules(Object o) { Resource rslt[] = blockedRules; unblockAll(); if (o instanceof Resource[]) { blockedRules = (Resource[]) o; } else { StringTokenizer tkn = new StringTokenizer((String) o, ", "); Vector v = new Vector<>(); while (tkn.hasMoreElements()) { String frag = tkn.nextToken(); // System.err.println("Blocking " + frag); v.add(new ResourceImpl(RDFSyntax.getURI() + frag)); } blockedRules = new Resource[v.size()]; v.copyInto(blockedRules); } for ( Resource blockedRule : blockedRules ) { blockRule( blockedRule ); } return rslt; } /* private boolean sameDocument = true; private boolean network = false; private boolean absolute = true; private boolean relative = true; private boolean parent = true; private boolean grandparent = false; */ private int relativeFlags = IRI.SAMEDOCUMENT | IRI.ABSOLUTE | IRI.CHILD | IRI.PARENT; /** Answer the form of the URI after relativisation according to the relativeFlags set by properties. If the flags are 0 or the base URI is null, answer the original URI. Throw an exception if the URI is "bad" and we demandGoodURIs. */ protected String relativize( String uri ) { return relativeFlags != 0 && baseURI != null ? relativize( baseURI, uri ) : checkURI( uri ); } /** Answer the relative form of the URI against the base, according to the relativeFlags. */ private String relativize( IRI base, String uri ) { // errors? return base.relativize( uri, relativeFlags).toString(); } /** Answer the argument URI, but if we demandGoodURIs and it isn't good, throw a JenaException that encapsulates a MalformedURIException. There doesn't appear to be a convenient URI.checkGood() kind of method, alas. */ private String checkURI( String uri ) { if (demandGoodURIs) { IRI iri = factory.create( uri ); if (iri.hasViolation(false) ) throw new BadURIException( "Only well-formed absolute URIrefs can be included in RDF/XML output: " + (iri.violations(false).next()).getShortMessage()); } return uri; } /** Answer true iff prefix is a "legal" prefix to use, ie, is empty [for the default namespace] or an NCName that does not start with "xml" and does not match the reserved-to-Jena pattern. */ private boolean checkLegalPrefix( String prefix ) { if (prefix.equals("")) return true; if (prefix.toLowerCase().startsWith( "xml" )) logger.warn( "Namespace prefix '" + prefix + "' is reserved by XML." ); else if (!XMLChar.isValidNCName(prefix)) logger.warn( "'" + prefix + "' is not a legal namespace prefix." ); else if (jenaNamespace.matcher(prefix).matches()) logger.warn( "Namespace prefix '" + prefix + "' is reserved by Jena." ); else return true; return false; } static private String flags2str(int f) { StringBuffer oldValue = new StringBuffer(64); if ( (f&IRI.SAMEDOCUMENT)!=0 ) oldValue.append( "same-document, " ); if ( (f&IRI.NETWORK)!=0 ) oldValue.append( "network, "); if ( (f&IRI.ABSOLUTE)!=0 ) oldValue.append("absolute, "); if ( (f&IRI.CHILD)!=0 ) oldValue.append("relative, "); if ((f&IRI.PARENT)!=0) oldValue.append("parent, "); if ((f&IRI.GRANDPARENT)!=0) oldValue.append("grandparent, "); if (oldValue.length() > 0) oldValue.setLength(oldValue.length()-2); return oldValue.toString(); } public static int str2flags(String pv){ StringTokenizer tkn = new StringTokenizer(pv,", "); int rslt = 0; while ( tkn.hasMoreElements() ) { String flag = tkn.nextToken(); if ( flag.equals("same-document") ) rslt |= IRI.SAMEDOCUMENT; else if ( flag.equals("network") ) rslt |= IRI.NETWORK; else if ( flag.equals("absolute") ) rslt |= IRI.ABSOLUTE; else if ( flag.equals("relative") ) rslt |= IRI.CHILD; else if ( flag.equals("parent") ) rslt |= IRI.PARENT; else if ( flag.equals("grandparent") ) rslt |= IRI.GRANDPARENT; else logger.warn( "Incorrect property value for relativeURIs: " + flag ); } return rslt; } }




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