public void startPrefixMapping(String prefix, String uri) throws SAXException { try { if (!pushedContext) { namespaceContext.pushContext(); pushedContext = true; } if (prefix == null) prefix = XMLSymbols.EMPTY_STRING; else prefix = symbolTable.addSymbol(prefix); if (uri != null) { if (uri.equals("")) uri = null; else uri = symbolTable.addSymbol(uri); } namespaceContext.declarePrefix(prefix, uri); } catch (XNIException e) { throw toSAXException(e); } }
private QName makeQName(String namespaceURI, String localName, String qName) { localName = symbolTable.addSymbol(localName); String prefix; if (namespaceURI.equals("")) { namespaceURI = null; prefix = XMLSymbols.EMPTY_STRING; qName = localName; } else { namespaceURI = symbolTable.addSymbol(namespaceURI); if (qName.equals("")) { prefix = namespaceContext.getPrefix(namespaceURI); if (prefix == XMLSymbols.EMPTY_STRING) qName = localName; else if (prefix == null) qName = localName; // XXX what to do? else qName = symbolTable.addSymbol(prefix + ":" + localName); } else { qName = symbolTable.addSymbol(qName); int colon = qName.indexOf(':'); if (colon > 0) prefix = symbolTable.addSymbol(qName.substring(0, colon)); else prefix = XMLSymbols.EMPTY_STRING; } } return new QName(prefix, localName, qName, namespaceURI); }
public void startElement(String namespaceURI, String localName, String qName, Attributes atts) throws SAXException { try { if (!pushedContext) namespaceContext.pushContext(); else pushedContext = false; for (int i = 0, len = atts.getLength(); i < len; i++) attributes.addAttribute( makeQName(atts.getURI(i), atts.getLocalName(i), atts.getQName(i)), symbolTable.addSymbol(atts.getType(i)), atts.getValue(i)); schemaValidator.startElement(makeQName(namespaceURI, localName, qName), attributes, null); attributes.removeAllAttributes(); } catch (XNIException e) { throw toSAXException(e); } }
/** * Called to serialize a DOM element. Equivalent to calling {@link #startElement}, {@link * #endElement} and serializing everything inbetween, but better optimized. */ protected void serializeElement(Element elem) throws IOException { Attr attr; NamedNodeMap attrMap; int i; Node child; ElementState state; String name; String value; String tagName; String prefix, localUri; String uri; if (fNamespaces) { // local binder stores namespace declaration // that has been printed out during namespace fixup of // the current element fLocalNSBinder.reset(); // add new namespace context fNSBinder.pushContext(); } if (DEBUG) { System.out.println( "==>startElement: " + elem.getNodeName() + " ns=" + elem.getNamespaceURI()); } tagName = elem.getTagName(); state = getElementState(); if (isDocumentState()) { // If this is the root element handle it differently. // If the first root element in the document, serialize // the document's DOCTYPE. Space preserving defaults // to that of the output format. if (!_started) { startDocument(tagName); } } else { // For any other element, if first in parent, then // close parent's opening tag and use the parent's // space preserving. if (state.empty) _printer.printText('>'); // Must leave CData section first if (state.inCData) { _printer.printText("]]>"); state.inCData = false; } // Indent this element on a new line if the first // content of the parent element or immediately // following an element. if (_indenting && !state.preserveSpace && (state.empty || state.afterElement || state.afterComment)) _printer.breakLine(); } // Do not change the current element state yet. // This only happens in endElement(). fPreserveSpace = state.preserveSpace; int length = 0; attrMap = null; // retrieve attributes if (elem.hasAttributes()) { attrMap = elem.getAttributes(); length = attrMap.getLength(); } if (!fNamespaces) { // no namespace fixup should be performed // serialize element name _printer.printText('<'); _printer.printText(tagName); _printer.indent(); // For each attribute print it's name and value as one part, // separated with a space so the element can be broken on // multiple lines. for (i = 0; i < length; ++i) { attr = (Attr) attrMap.item(i); name = attr.getName(); value = attr.getValue(); if (value == null) value = ""; printAttribute(name, value, attr.getSpecified(), attr); } } else { // do namespace fixup // REVISIT: some optimization could probably be done to avoid traversing // attributes twice. // // --------------------------------------- // record all valid namespace declarations // before attempting to fix element's namespace // --------------------------------------- for (i = 0; i < length; i++) { attr = (Attr) attrMap.item(i); uri = attr.getNamespaceURI(); // check if attribute is a namespace decl if (uri != null && uri.equals(NamespaceContext.XMLNS_URI)) { value = attr.getNodeValue(); if (value == null) { value = XMLSymbols.EMPTY_STRING; } if (value.equals(NamespaceContext.XMLNS_URI)) { if (fDOMErrorHandler != null) { String msg = DOMMessageFormatter.formatMessage( DOMMessageFormatter.XML_DOMAIN, "CantBindXMLNS", null); modifyDOMError(msg, DOMError.SEVERITY_ERROR, null, attr); boolean continueProcess = fDOMErrorHandler.handleError(fDOMError); if (!continueProcess) { // stop the namespace fixup and validation throw new RuntimeException( DOMMessageFormatter.formatMessage( DOMMessageFormatter.SERIALIZER_DOMAIN, "SerializationStopped", null)); } } } else { prefix = attr.getPrefix(); prefix = (prefix == null || prefix.length() == 0) ? XMLSymbols.EMPTY_STRING : fSymbolTable.addSymbol(prefix); String localpart = fSymbolTable.addSymbol(attr.getLocalName()); if (prefix == XMLSymbols.PREFIX_XMLNS) { // xmlns:prefix value = fSymbolTable.addSymbol(value); // record valid decl if (value.length() != 0) { fNSBinder.declarePrefix(localpart, value); } else { // REVISIT: issue error on invalid declarations // xmlns:foo = "" } continue; } else { // xmlns // empty prefix is always bound ("" or some string) value = fSymbolTable.addSymbol(value); fNSBinder.declarePrefix(XMLSymbols.EMPTY_STRING, value); continue; } } // end-else: valid declaration } // end-if: namespace declaration } // end-for // ----------------------- // get element uri/prefix // ----------------------- uri = elem.getNamespaceURI(); prefix = elem.getPrefix(); // ---------------------- // output element name // ---------------------- // REVISIT: this could be removed if we always convert empty string to null // for the namespaces. if ((uri != null && prefix != null) && uri.length() == 0 && prefix.length() != 0) { // uri is an empty string and element has some prefix // the namespace alg later will fix up the namespace attributes // remove element prefix prefix = null; _printer.printText('<'); _printer.printText(elem.getLocalName()); _printer.indent(); } else { _printer.printText('<'); _printer.printText(tagName); _printer.indent(); } // --------------------------------------------------------- // Fix up namespaces for element: per DOM L3 // Need to consider the following cases: // // case 1: <foo:elem xmlns:ns1="myURI" xmlns="default"/> // Assume "foo", "ns1" are declared on the parent. We should not miss // redeclaration for both "ns1" and default namespace. To solve this // we add a local binder that stores declaration only for current element. // This way we avoid outputing duplicate declarations for the same element // as well as we are not omitting redeclarations. // // case 2: <elem xmlns="" xmlns="default"/> // We need to bind default namespace to empty string, to be able to // omit duplicate declarations for the same element // // case 3: <xsl:stylesheet xmlns:xsl="http://xsl"> // We create another element body bound to the "http://xsl" namespace // as well as namespace attribute rebounding xsl to another namespace. // <xsl:body xmlns:xsl="http://another"> // Need to make sure that the new namespace decl value is changed to // "http://xsl" // // --------------------------------------------------------- // check if prefix/namespace is correct for current element // --------------------------------------------------------- if (uri != null) { // Element has a namespace uri = fSymbolTable.addSymbol(uri); prefix = (prefix == null || prefix.length() == 0) ? XMLSymbols.EMPTY_STRING : fSymbolTable.addSymbol(prefix); if (fNSBinder.getURI(prefix) == uri) { // The xmlns:prefix=namespace or xmlns="default" was declared at parent. // The binder always stores mapping of empty prefix to "". // (NOTE: local binder does not store this kind of binding!) // Thus the case where element was declared with uri="" (with or without a prefix) // will be covered here. } else { // the prefix is either undeclared // or // conflict: the prefix is bound to another URI if (fNamespacePrefixes) { printNamespaceAttr(prefix, uri); } fLocalNSBinder.declarePrefix(prefix, uri); fNSBinder.declarePrefix(prefix, uri); } } else { // Element has no namespace if (elem.getLocalName() == null) { // DOM Level 1 node! if (fDOMErrorHandler != null) { String msg = DOMMessageFormatter.formatMessage( DOMMessageFormatter.DOM_DOMAIN, "NullLocalElementName", new Object[] {elem.getNodeName()}); modifyDOMError(msg, DOMError.SEVERITY_ERROR, null, elem); boolean continueProcess = fDOMErrorHandler.handleError(fDOMError); // REVISIT: should we terminate upon request? if (!continueProcess) { throw new RuntimeException( DOMMessageFormatter.formatMessage( DOMMessageFormatter.SERIALIZER_DOMAIN, "SerializationStopped", null)); } } } else { // uri=null and no colon (DOM L2 node) uri = fNSBinder.getURI(XMLSymbols.EMPTY_STRING); if (uri != null && uri.length() > 0) { // there is a default namespace decl that is bound to // non-zero length uri, output xmlns="" if (fNamespacePrefixes) { printNamespaceAttr(XMLSymbols.EMPTY_STRING, XMLSymbols.EMPTY_STRING); } fLocalNSBinder.declarePrefix(XMLSymbols.EMPTY_STRING, XMLSymbols.EMPTY_STRING); fNSBinder.declarePrefix(XMLSymbols.EMPTY_STRING, XMLSymbols.EMPTY_STRING); } } } // ----------------------------------------- // Fix up namespaces for attributes: per DOM L3 // check if prefix/namespace is correct the attributes // ----------------------------------------- for (i = 0; i < length; i++) { attr = (Attr) attrMap.item(i); value = attr.getValue(); name = attr.getNodeName(); uri = attr.getNamespaceURI(); // Fix attribute that was declared with a prefix and namespace="" if (uri != null && uri.length() == 0) { uri = null; // we must remove prefix for this attribute name = attr.getLocalName(); } if (DEBUG) { System.out.println("==>process attribute: " + attr.getNodeName()); } // make sure that value is never null. if (value == null) { value = XMLSymbols.EMPTY_STRING; } if (uri != null) { // attribute has namespace !=null prefix = attr.getPrefix(); prefix = prefix == null ? XMLSymbols.EMPTY_STRING : fSymbolTable.addSymbol(prefix); String localpart = fSymbolTable.addSymbol(attr.getLocalName()); // --------------------------------------------------- // print namespace declarations namespace declarations // --------------------------------------------------- if (uri != null && uri.equals(NamespaceContext.XMLNS_URI)) { // check if we need to output this declaration prefix = attr.getPrefix(); prefix = (prefix == null || prefix.length() == 0) ? XMLSymbols.EMPTY_STRING : fSymbolTable.addSymbol(prefix); localpart = fSymbolTable.addSymbol(attr.getLocalName()); if (prefix == XMLSymbols.PREFIX_XMLNS) { // xmlns:prefix localUri = fLocalNSBinder.getURI(localpart); // local prefix mapping value = fSymbolTable.addSymbol(value); if (value.length() != 0) { if (localUri == null) { // declaration was not printed while fixing element namespace binding // If the DOM Level 3 namespace-prefixes feature is set to false // do not print xmlns attributes if (fNamespacePrefixes) { printNamespaceAttr(localpart, value); } // case 4: <elem xmlns:xx="foo" xx:attr=""/> // where attribute is bound to "bar". // If the xmlns:xx is output here first, later we should not // redeclare "xx" prefix. Instead we would pick up different prefix // for the attribute. // final: <elem xmlns:xx="foo" NS1:attr="" xmlns:NS1="bar"/> fLocalNSBinder.declarePrefix(localpart, value); } } else { // REVISIT: issue error on invalid declarations // xmlns:foo = "" } continue; } else { // xmlns // empty prefix is always bound ("" or some string) uri = fNSBinder.getURI(XMLSymbols.EMPTY_STRING); localUri = fLocalNSBinder.getURI(XMLSymbols.EMPTY_STRING); value = fSymbolTable.addSymbol(value); if (localUri == null) { // declaration was not printed while fixing element namespace binding if (fNamespacePrefixes) { printNamespaceAttr(XMLSymbols.EMPTY_STRING, value); } // case 4 does not apply here since attributes can't use // default namespace } continue; } } uri = fSymbolTable.addSymbol(uri); // find if for this prefix a URI was already declared String declaredURI = fNSBinder.getURI(prefix); if (prefix == XMLSymbols.EMPTY_STRING || declaredURI != uri) { // attribute has no prefix (default namespace decl does not apply to attributes) // OR // attribute prefix is not declared // OR // conflict: attr URI does not match the prefix in scope name = attr.getNodeName(); // Find if any prefix for attributes namespace URI is available // in the scope String declaredPrefix = fNSBinder.getPrefix(uri); if (declaredPrefix != null && declaredPrefix != XMLSymbols.EMPTY_STRING) { // use the prefix that was found prefix = declaredPrefix; name = prefix + ":" + localpart; } else { if (DEBUG) { System.out.println("==> cound not find prefix for the attribute: " + prefix); } if (prefix != XMLSymbols.EMPTY_STRING && fLocalNSBinder.getURI(prefix) == null) { // the current prefix is not null and it has no in scope declaration // use this prefix } else { // find a prefix following the pattern "NS" +index (starting at 1) // make sure this prefix is not declared in the current scope. int counter = 1; prefix = fSymbolTable.addSymbol(PREFIX + counter++); while (fLocalNSBinder.getURI(prefix) != null) { prefix = fSymbolTable.addSymbol(PREFIX + counter++); } name = prefix + ":" + localpart; } // add declaration for the new prefix if (fNamespacePrefixes) { printNamespaceAttr(prefix, uri); } value = fSymbolTable.addSymbol(value); fLocalNSBinder.declarePrefix(prefix, value); fNSBinder.declarePrefix(prefix, uri); } // change prefix for this attribute } printAttribute( name, (value == null) ? XMLSymbols.EMPTY_STRING : value, attr.getSpecified(), attr); } else { // attribute uri == null if (attr.getLocalName() == null) { if (fDOMErrorHandler != null) { String msg = DOMMessageFormatter.formatMessage( DOMMessageFormatter.DOM_DOMAIN, "NullLocalAttrName", new Object[] {attr.getNodeName()}); modifyDOMError(msg, DOMError.SEVERITY_ERROR, null, attr); boolean continueProcess = fDOMErrorHandler.handleError(fDOMError); if (!continueProcess) { // stop the namespace fixup and validation throw new RuntimeException( DOMMessageFormatter.formatMessage( DOMMessageFormatter.SERIALIZER_DOMAIN, "SerializationStopped", null)); } } printAttribute(name, value, attr.getSpecified(), attr); } else { // uri=null and no colon // no fix up is needed: default namespace decl does not // apply to attributes printAttribute(name, value, attr.getSpecified(), attr); } } } // end loop for attributes } // end namespace fixup algorithm // If element has children, then serialize them, otherwise // serialize en empty tag. if (elem.hasChildNodes()) { // Enter an element state, and serialize the children // one by one. Finally, end the element. state = enterElementState(null, null, tagName, fPreserveSpace); state.doCData = _format.isCDataElement(tagName); state.unescaped = _format.isNonEscapingElement(tagName); child = elem.getFirstChild(); while (child != null) { serializeNode(child); child = child.getNextSibling(); } if (fNamespaces) { fNSBinder.popContext(); } endElementIO(null, null, tagName); } else { if (DEBUG) { System.out.println("==>endElement: " + elem.getNodeName()); } if (fNamespaces) { fNSBinder.popContext(); } _printer.unindent(); _printer.printText("/>"); // After element but parent element is no longer empty. state.afterElement = true; state.afterComment = false; state.empty = false; if (isDocumentState()) _printer.flush(); } }
/** * DOM Level 3: Check a node to determine if it contains unbound namespace prefixes. * * @param node The node to check for unbound namespace prefices */ protected void checkUnboundNamespacePrefixedNode(Node node) throws IOException { if (fNamespaces) { if (DEBUG) { System.out.println( "==>serializeNode(" + node.getNodeName() + ") [Entity Reference - Namespaces on]"); System.out.println("==>Declared Prefix Count: " + fNSBinder.getDeclaredPrefixCount()); System.out.println("==>Node Name: " + node.getNodeName()); System.out.println("==>First Child Node Name: " + node.getFirstChild().getNodeName()); System.out.println("==>First Child Node Prefix: " + node.getFirstChild().getPrefix()); System.out.println( "==>First Child Node NamespaceURI: " + node.getFirstChild().getNamespaceURI()); } Node child, next; for (child = node.getFirstChild(); child != null; child = next) { next = child.getNextSibling(); if (DEBUG) { System.out.println("==>serializeNode(" + child.getNodeName() + ") [Child Node]"); System.out.println("==>serializeNode(" + child.getPrefix() + ") [Child Node Prefix]"); } // If a NamespaceURI is not declared for the current // node's prefix, raise a fatal error. String prefix = child.getPrefix(); prefix = (prefix == null || prefix.length() == 0) ? XMLSymbols.EMPTY_STRING : fSymbolTable.addSymbol(prefix); if (fNSBinder.getURI(prefix) == null && prefix != null) { fatalError( "The replacement text of the entity node '" + node.getNodeName() + "' contains an element node '" + child.getNodeName() + "' with an undeclared prefix '" + prefix + "'."); } if (child.getNodeType() == Node.ELEMENT_NODE) { NamedNodeMap attrs = child.getAttributes(); for (int i = 0; i < attrs.getLength(); i++) { String attrPrefix = attrs.item(i).getPrefix(); attrPrefix = (attrPrefix == null || attrPrefix.length() == 0) ? XMLSymbols.EMPTY_STRING : fSymbolTable.addSymbol(attrPrefix); if (fNSBinder.getURI(attrPrefix) == null && attrPrefix != null) { fatalError( "The replacement text of the entity node '" + node.getNodeName() + "' contains an element node '" + child.getNodeName() + "' with an attribute '" + attrs.item(i).getNodeName() + "' an undeclared prefix '" + attrPrefix + "'."); } } } if (child.hasChildNodes()) { checkUnboundNamespacePrefixedNode(child); } } } }