File	Doc	Category	Size	Date	Package
XMLDTDValidator.java	API Doc	Java SE 6 API	84567	Tue Jun 10 00:22:40 BST 2008	com.sun.org.apache.xerces.internal.impl.dtd

XMLDTDValidator

• java.lang.Object

Fields Summary
private static final int	TOP_LEVEL_SCOPE Top level scope (-1).
protected static final String	NAMESPACES Feature identifier: namespaces.
protected static final String	VALIDATION Feature identifier: validation.
protected static final String	DYNAMIC_VALIDATION Feature identifier: dynamic validation.
protected static final String	WARN_ON_DUPLICATE_ATTDEF Feature identifier: warn on duplicate attdef
protected static final String	PARSER_SETTINGS
protected static final String	SYMBOL_TABLE Property identifier: symbol table.
protected static final String	ERROR_REPORTER Property identifier: error reporter.
protected static final String	GRAMMAR_POOL Property identifier: grammar pool.
protected static final String	DATATYPE_VALIDATOR_FACTORY Property identifier: datatype validator factory.
protected static final String	VALIDATION_MANAGER
private static final String[]	RECOGNIZED_FEATURES Recognized features.
private static final Boolean[]	FEATURE_DEFAULTS Feature defaults.
private static final String[]	RECOGNIZED_PROPERTIES Recognized properties.
private static final Object[]	PROPERTY_DEFAULTS Property defaults.
private static final boolean	DEBUG_ATTRIBUTES Compile to true to debug attributes.
private static final boolean	DEBUG_ELEMENT_CHILDREN Compile to true to debug element children.
protected ValidationManager	fValidationManager
protected ValidationState	fValidationState
protected boolean	fNamespaces Namespaces.
protected boolean	fValidation Validation.
protected boolean	fDTDValidation Validation against only DTD
protected boolean	fDynamicValidation Dynamic validation. This state of this feature is only useful when the validation feature is set to true.
protected boolean	fWarnDuplicateAttdef warn on duplicate attribute definition, this feature works only when validation is true
protected SymbolTable	fSymbolTable Symbol table.
protected XMLErrorReporter	fErrorReporter Error reporter.
protected XMLGrammarPool	fGrammarPool
protected DTDGrammarBucket	fGrammarBucket Grammar bucket.
protected XMLLocator	fDocLocation
protected NamespaceContext	fNamespaceContext Namespace support.
protected DTDDVFactory	fDatatypeValidatorFactory Datatype validator factory.
protected XMLDocumentHandler	fDocumentHandler Document handler.
protected XMLDocumentSource	fDocumentSource
protected DTDGrammar	fDTDGrammar DTD Grammar.
protected boolean	fSeenDoctypeDecl True if seen DOCTYPE declaration.
private boolean	fPerformValidation Perform validation.
private String	fSchemaType Schema type: None, DTD, Schema
private final QName	fCurrentElement Current element name.
private int	fCurrentElementIndex Current element index.
private int	fCurrentContentSpecType Current content spec type.
private final QName	fRootElement The root element name.
private boolean	fInCDATASection
private int[]	fElementIndexStack Element index stack.
private int[]	fContentSpecTypeStack Content spec type stack.
private QName[]	fElementQNamePartsStack Element name stack.
private QName[]	fElementChildren Element children. This data structure is a growing stack that holds the children of elements from the root to the current element depth. This structure never gets "deeper" than the deepest element. Space is re-used once each element is closed. Note: This is much more efficient use of memory than creating new arrays for each element depth. Note: The use of this data structure is for validation "on the way out". If the validation model changes to "on the way in", then this data structure is not needed.
private int	fElementChildrenLength Element children count.
private int[]	fElementChildrenOffsetStack Element children offset stack. This stack refers to offsets into the fElementChildren array.
private int	fElementDepth Element depth.
private boolean	fSeenRootElement True if seen the root element.
private boolean	fInElementContent True if inside of element content.
private XMLElementDecl	fTempElementDecl Temporary element declaration.
private XMLAttributeDecl	fTempAttDecl Temporary atribute declaration.
private XMLEntityDecl	fEntityDecl Temporary entity declaration.
private QName	fTempQName Temporary qualified name.
private StringBuffer	fBuffer Temporary string buffers.
protected DatatypeValidator	fValID Datatype validator: ID.
protected DatatypeValidator	fValIDRef Datatype validator: IDREF.
protected DatatypeValidator	fValIDRefs Datatype validator: IDREFS.
protected DatatypeValidator	fValENTITY Datatype validator: ENTITY.
protected DatatypeValidator	fValENTITIES Datatype validator: ENTITIES.
protected DatatypeValidator	fValNMTOKEN Datatype validator: NMTOKEN.
protected DatatypeValidator	fValNMTOKENS Datatype validator: NMTOKENS.
protected DatatypeValidator	fValNOTATION Datatype validator: NOTATION.

Constructors Summary
public XMLDTDValidator() Default constructor. // to check for duplicate ID or ANNOTATION attribute declare in // ATTLIST, and misc VCs // // Constructors // // initialize data for (int i = 0; i < fElementQNamePartsStack.length; i++) { fElementQNamePartsStack[i] = new QName(); } fGrammarBucket = new DTDGrammarBucket();

Methods Summary
protected void	addDTDDefaultAttrsAndValidate(com.sun.org.apache.xerces.internal.xni.QName elementName, int elementIndex, com.sun.org.apache.xerces.internal.xni.XMLAttributes attributes) Add default attributes and validate. // is there anything to do? if (elementIndex == -1 || fDTDGrammar == null) { return; } // // Check after all specified attrs are scanned // (1) report error for REQUIRED attrs that are missing (V_TAGc) // (2) add default attrs (FIXED and NOT_FIXED) // int attlistIndex = fDTDGrammar.getFirstAttributeDeclIndex(elementIndex); while (attlistIndex != -1) { fDTDGrammar.getAttributeDecl(attlistIndex, fTempAttDecl); if (DEBUG_ATTRIBUTES) { if (fTempAttDecl != null) { XMLElementDecl elementDecl = new XMLElementDecl(); fDTDGrammar.getElementDecl(elementIndex, elementDecl); System.out.println("element: "+(elementDecl.name.localpart)); System.out.println("attlistIndex " + attlistIndex + "\n"+ "attName : '"+(fTempAttDecl.name.localpart) + "'\n" + "attType : "+fTempAttDecl.simpleType.type + "\n" + "attDefaultType : "+fTempAttDecl.simpleType.defaultType + "\n" + "attDefaultValue : '"+fTempAttDecl.simpleType.defaultValue + "'\n" + attributes.getLength() +"\n" ); } } String attPrefix = fTempAttDecl.name.prefix; String attLocalpart = fTempAttDecl.name.localpart; String attRawName = fTempAttDecl.name.rawname; String attType = getAttributeTypeName(fTempAttDecl); int attDefaultType =fTempAttDecl.simpleType.defaultType; String attValue = null; if (fTempAttDecl.simpleType.defaultValue != null) { attValue = fTempAttDecl.simpleType.defaultValue; } boolean specified = false; boolean required = attDefaultType == XMLSimpleType.DEFAULT_TYPE_REQUIRED; boolean cdata = attType == XMLSymbols.fCDATASymbol; if (!cdata || required || attValue != null) { int attrCount = attributes.getLength(); for (int i = 0; i < attrCount; i++) { if (attributes.getQName(i) == attRawName) { specified = true; break; } } } if (!specified) { if (required) { if (fPerformValidation) { Object[] args = {elementName.localpart, attRawName}; fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "MSG_REQUIRED_ATTRIBUTE_NOT_SPECIFIED", args, XMLErrorReporter.SEVERITY_ERROR); } } else if (attValue != null) { if (fPerformValidation && fGrammarBucket.getStandalone()) { if (fDTDGrammar.getAttributeDeclIsExternal(attlistIndex)) { Object[] args = { elementName.localpart, attRawName}; fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "MSG_DEFAULTED_ATTRIBUTE_NOT_SPECIFIED", args, XMLErrorReporter.SEVERITY_ERROR); } } // add namespace information if (fNamespaces) { int index = attRawName.indexOf(':"); if (index != -1) { attPrefix = attRawName.substring(0, index); attPrefix = fSymbolTable.addSymbol(attPrefix); attLocalpart = attRawName.substring(index + 1); attLocalpart = fSymbolTable.addSymbol(attLocalpart); } } // add attribute fTempQName.setValues(attPrefix, attLocalpart, attRawName, fTempAttDecl.name.uri); int newAttr = attributes.addAttribute(fTempQName, attType, attValue); } } // get next att decl in the Grammar for this element attlistIndex = fDTDGrammar.getNextAttributeDeclIndex(attlistIndex); } // now iterate through the expanded attributes for // 1. if every attribute seen is declared in the DTD // 2. check if the VC: default_fixed holds // 3. validate every attribute. int attrCount = attributes.getLength(); for (int i = 0; i < attrCount; i++) { String attrRawName = attributes.getQName(i); boolean declared = false; if (fPerformValidation) { if (fGrammarBucket.getStandalone()) { // check VC: Standalone Document Declaration, entities // references appear in the document. // REVISIT: this can be combined to a single check in // startEntity if we add one more argument in // startEnity, inAttrValue String nonNormalizedValue = attributes.getNonNormalizedValue(i); if (nonNormalizedValue != null) { String entityName = getExternalEntityRefInAttrValue(nonNormalizedValue); if (entityName != null) { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "MSG_REFERENCE_TO_EXTERNALLY_DECLARED_ENTITY_WHEN_STANDALONE", new Object[]{entityName}, XMLErrorReporter.SEVERITY_ERROR); } } } } int attDefIndex = -1; int position = fDTDGrammar.getFirstAttributeDeclIndex(elementIndex); while (position != -1) { fDTDGrammar.getAttributeDecl(position, fTempAttDecl); if (fTempAttDecl.name.rawname == attrRawName) { // found the match att decl, attDefIndex = position; declared = true; break; } position = fDTDGrammar.getNextAttributeDeclIndex(position); } if (!declared) { if (fPerformValidation) { // REVISIT - cache the elem/attr tuple so that we only // give this error once for each unique occurrence Object[] args = { elementName.rawname, attrRawName}; fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "MSG_ATTRIBUTE_NOT_DECLARED", args,XMLErrorReporter.SEVERITY_ERROR); } continue; } // attribute is declared // fTempAttDecl should have the right value set now, so // the following is not needed // fGrammar.getAttributeDecl(attDefIndex,fTempAttDecl); String type = getAttributeTypeName(fTempAttDecl); attributes.setType(i, type); attributes.getAugmentations(i).putItem(Constants.ATTRIBUTE_DECLARED, Boolean.TRUE); boolean changedByNormalization = false; String oldValue = attributes.getValue(i); String attrValue = oldValue; if (attributes.isSpecified(i) && type != XMLSymbols.fCDATASymbol) { changedByNormalization = normalizeAttrValue(attributes, i); attrValue = attributes.getValue(i); if (fPerformValidation && fGrammarBucket.getStandalone() && changedByNormalization && fDTDGrammar.getAttributeDeclIsExternal(position) ) { // check VC: Standalone Document Declaration fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "MSG_ATTVALUE_CHANGED_DURING_NORMALIZATION_WHEN_STANDALONE", new Object[]{attrRawName, oldValue, attrValue}, XMLErrorReporter.SEVERITY_ERROR); } } if (!fPerformValidation) { continue; } if (fTempAttDecl.simpleType.defaultType == XMLSimpleType.DEFAULT_TYPE_FIXED) { String defaultValue = fTempAttDecl.simpleType.defaultValue; if (!attrValue.equals(defaultValue)) { Object[] args = {elementName.localpart, attrRawName, attrValue, defaultValue}; fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "MSG_FIXED_ATTVALUE_INVALID", args, XMLErrorReporter.SEVERITY_ERROR); } } if (fTempAttDecl.simpleType.type == XMLSimpleType.TYPE_ENTITY || fTempAttDecl.simpleType.type == XMLSimpleType.TYPE_ENUMERATION || fTempAttDecl.simpleType.type == XMLSimpleType.TYPE_ID || fTempAttDecl.simpleType.type == XMLSimpleType.TYPE_IDREF || fTempAttDecl.simpleType.type == XMLSimpleType.TYPE_NMTOKEN || fTempAttDecl.simpleType.type == XMLSimpleType.TYPE_NOTATION ) { validateDTDattribute(elementName, attrValue, fTempAttDecl); } } // for all attributes
private void	charDataInContent() Character data in content. if (DEBUG_ELEMENT_CHILDREN) { System.out.println("charDataInContent()"); } if (fElementChildren.length <= fElementChildrenLength) { QName[] newarray = new QName[fElementChildren.length * 2]; System.arraycopy(fElementChildren, 0, newarray, 0, fElementChildren.length); fElementChildren = newarray; } QName qname = fElementChildren[fElementChildrenLength]; if (qname == null) { for (int i = fElementChildrenLength; i < fElementChildren.length; i++) { fElementChildren[i] = new QName(); } qname = fElementChildren[fElementChildrenLength]; } qname.clear(); fElementChildrenLength++;
public boolean	characterData(java.lang.String data, com.sun.org.apache.xerces.internal.xni.Augmentations augs) characters(new XMLString(data.toCharArray(), 0, data.length()), augs); return true;
public void	characters(com.sun.org.apache.xerces.internal.xni.XMLString text, com.sun.org.apache.xerces.internal.xni.Augmentations augs) Character content. param text The content. param augs Additional information that may include infoset augmentations throws XNIException Thrown by handler to signal an error. boolean callNextCharacters = true; // REVISIT: [Q] Is there a more efficient way of doing this? // Perhaps if the scanner told us so we don't have to // look at the characters again. -Ac boolean allWhiteSpace = true; for (int i=text.offset; i< text.offset+text.length; i++) { if (!isSpace(text.ch[i])) { allWhiteSpace = false; break; } } // call the ignoreableWhiteSpace callback // never call ignorableWhitespace if we are in cdata section if (fInElementContent && allWhiteSpace && !fInCDATASection) { if (fDocumentHandler != null) { fDocumentHandler.ignorableWhitespace(text, augs); callNextCharacters = false; } } // validate if (fPerformValidation) { if (fInElementContent) { if (fGrammarBucket.getStandalone() && fDTDGrammar.getElementDeclIsExternal(fCurrentElementIndex)) { if (allWhiteSpace) { fErrorReporter.reportError( XMLMessageFormatter.XML_DOMAIN, "MSG_WHITE_SPACE_IN_ELEMENT_CONTENT_WHEN_STANDALONE", null, XMLErrorReporter.SEVERITY_ERROR); } } if (!allWhiteSpace) { charDataInContent(); } // For E15.2 if (augs != null && augs.getItem(Constants.CHAR_REF_PROBABLE_WS) == Boolean.TRUE) { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "MSG_CONTENT_INVALID_SPECIFIED", new Object[]{ fCurrentElement.rawname, fDTDGrammar.getContentSpecAsString(fElementDepth), "character reference"}, XMLErrorReporter.SEVERITY_ERROR); } } if (fCurrentContentSpecType == XMLElementDecl.TYPE_EMPTY) { charDataInContent(); } } // call handlers if (callNextCharacters && fDocumentHandler != null) { fDocumentHandler.characters(text, augs); }
private int	checkContent(int elementIndex, com.sun.org.apache.xerces.internal.xni.QName[] children, int childOffset, int childCount) Check that the content of an element is valid. This is the method of primary concern to the validator. This method is called upon the scanner reaching the end tag of an element. At that time, the element's children must be structurally validated, so it calls this method. The index of the element being checked (in the decl pool), is provided as well as an array of element name indexes of the children. The validator must confirm that this element can have these children in this order. This can also be called to do 'what if' testing of content models just to see if they would be valid. Note that the element index is an index into the element decl pool, whereas the children indexes are name indexes, i.e. into the string pool. A value of -1 in the children array indicates a PCDATA node. All other indexes will be positive and represent child elements. The count can be zero, since some elements have the EMPTY content model and that must be confirmed. param elementIndex The index within the ElementDeclPool of this element. param childCount The number of entries in the children array. param children The children of this element. return The value -1 if fully valid, else the 0 based index of the child that first failed. If the value returned is equal to the number of children, then additional content is required to reach a valid ending state. exception Exception Thrown on error. fDTDGrammar.getElementDecl(elementIndex, fTempElementDecl); // Get the element name index from the element final String elementType = fCurrentElement.rawname; // Get out the content spec for this element final int contentType = fCurrentContentSpecType; // // Deal with the possible types of content. We try to optimized here // by dealing specially with content models that don't require the // full DFA treatment. // if (contentType == XMLElementDecl.TYPE_EMPTY) { // // If the child count is greater than zero, then this is // an error right off the bat at index 0. // if (childCount != 0) { return 0; } } else if (contentType == XMLElementDecl.TYPE_ANY) { // // This one is open game so we don't pass any judgement on it // at all. Its assumed to fine since it can hold anything. // } else if (contentType == XMLElementDecl.TYPE_MIXED || contentType == XMLElementDecl.TYPE_CHILDREN) { // Get the content model for this element, faulting it in if needed ContentModelValidator cmElem = null; cmElem = fTempElementDecl.contentModelValidator; int result = cmElem.validate(children, childOffset, childCount); return result; } else if (contentType == -1) { //REVISIT /**** reportRecoverableXMLError(XMLMessages.MSG_ELEMENT_NOT_DECLARED, XMLMessages.VC_ELEMENT_VALID, elementType); /****/ } else if (contentType == XMLElementDecl.TYPE_SIMPLE) { //REVISIT // this should never be reached in the case of DTD validation. } else { //REVISIT /**** fErrorReporter.reportError(fErrorReporter.getLocator(), ImplementationMessages.XERCES_IMPLEMENTATION_DOMAIN, ImplementationMessages.VAL_CST, 0, null, XMLErrorReporter.ERRORTYPE_FATAL_ERROR); /****/ } // We succeeded return -1;
public void	comment(com.sun.org.apache.xerces.internal.xni.XMLString text, com.sun.org.apache.xerces.internal.xni.Augmentations augs) A comment. param text The text in the comment. param augs Additional information that may include infoset augmentations throws XNIException Thrown by application to signal an error. // fixes E15.1 if (fPerformValidation && fElementDepth >= 0 && fDTDGrammar != null) { fDTDGrammar.getElementDecl(fCurrentElementIndex, fTempElementDecl); if (fTempElementDecl.type == XMLElementDecl.TYPE_EMPTY) { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "MSG_CONTENT_INVALID_SPECIFIED", new Object[]{ fCurrentElement.rawname, "EMPTY", "comment"}, XMLErrorReporter.SEVERITY_ERROR); } } // call handlers if (fDocumentHandler != null) { fDocumentHandler.comment(text, augs); }
public void	doctypeDecl(java.lang.String rootElement, java.lang.String publicId, java.lang.String systemId, com.sun.org.apache.xerces.internal.xni.Augmentations augs) Notifies of the presence of the DOCTYPE line in the document. param rootElement The name of the root element. param publicId The public identifier if an external DTD or null if the external DTD is specified using SYSTEM. param systemId The system identifier if an external DTD, null otherwise. param augs Additional information that may include infoset augmentations throws XNIException Thrown by handler to signal an error. // save root element state fSeenDoctypeDecl = true; fRootElement.setValues(null, rootElement, rootElement, null); // find or create grammar: String eid = null; try { eid = XMLEntityManager.expandSystemId(systemId, fDocLocation.getExpandedSystemId(), false); } catch (java.io.IOException e) { } XMLDTDDescription grammarDesc = new XMLDTDDescription(publicId, systemId, fDocLocation.getExpandedSystemId(), eid, rootElement); fDTDGrammar = fGrammarBucket.getGrammar(grammarDesc); if(fDTDGrammar == null) { // give grammar pool a chance... // // Do not bother checking the pool if no public or system identifier was provided. // Since so many different DTDs have roots in common, using only a root name as the // key may cause an unexpected grammar to be retrieved from the grammar pool. This scenario // would occur when an ExternalSubsetResolver has been queried and the // XMLInputSource returned contains an input stream but no external identifier. // This can never happen when the instance document specified a DOCTYPE. -- mrglavas if (fGrammarPool != null && (systemId != null || publicId != null)) { fDTDGrammar = (DTDGrammar)fGrammarPool.retrieveGrammar(grammarDesc); } } if(fDTDGrammar == null) { // we'll have to create it... fDTDGrammar = new DTDGrammar(fSymbolTable, grammarDesc); } else { // we've found a cached one;so let's make sure not to read // any external subset! fValidationManager.setCachedDTD(true); } fGrammarBucket.setActiveGrammar(fDTDGrammar); // call handlers if (fDocumentHandler != null) { fDocumentHandler.doctypeDecl(rootElement, publicId, systemId, augs); }
public void	emptyElement(com.sun.org.apache.xerces.internal.xni.QName element, com.sun.org.apache.xerces.internal.xni.XMLAttributes attributes, com.sun.org.apache.xerces.internal.xni.Augmentations augs) An empty element. param element The name of the element. param attributes The element attributes. param augs Additional information that may include infoset augmentations throws XNIException Thrown by handler to signal an error. boolean removed = handleStartElement(element, attributes, augs); if (fDocumentHandler !=null) { fDocumentHandler.emptyElement(element, attributes, augs); } if (!removed) { handleEndElement(element, augs, true); }
public void	endCDATA(com.sun.org.apache.xerces.internal.xni.Augmentations augs) The end of a CDATA section. param augs Additional information that may include infoset augmentations throws XNIException Thrown by handler to signal an error. fInCDATASection = false; // call handlers if (fDocumentHandler != null) { fDocumentHandler.endCDATA(augs); }
public void	endDocument(com.sun.org.apache.xerces.internal.xni.Augmentations augs) The end of the document. param augs Additional information that may include infoset augmentations throws XNIException Thrown by handler to signal an error. // call handlers if (fDocumentHandler != null) { fDocumentHandler.endDocument(augs); }
public void	endElement(com.sun.org.apache.xerces.internal.xni.QName element, com.sun.org.apache.xerces.internal.xni.Augmentations augs) The end of an element. param element The name of the element. param augs Additional information that may include infoset augmentations throws XNIException Thrown by handler to signal an error. handleEndElement(element, augs, false);
public void	endGeneralEntity(java.lang.String name, com.sun.org.apache.xerces.internal.xni.Augmentations augs) This method notifies the end of a general entity. Note: This method is not called for entity references appearing as part of attribute values. param name The name of the entity. param augs Additional information that may include infoset augmentations exception XNIException Thrown by handler to signal an error. // call handlers if (fDocumentHandler != null) { fDocumentHandler.endGeneralEntity(name, augs); }
protected void	endNamespaceScope(com.sun.org.apache.xerces.internal.xni.QName element, com.sun.org.apache.xerces.internal.xni.Augmentations augs, boolean isEmpty) // call handlers if (fDocumentHandler != null && !isEmpty) { // NOTE: The binding of the element doesn't actually happen // yet because the namespace binder does that. However, // if it does it before this point, then the endPrefix- // Mapping calls get made too soon! As long as the // rawnames match, we know it'll have a good binding, // so we can just use the current element. -Ac fDocumentHandler.endElement(fCurrentElement, augs); }
private void	ensureStackCapacity(int newElementDepth) ensure element stack capacity if (newElementDepth == fElementQNamePartsStack.length) { int[] newStack = new int[newElementDepth * 2]; QName[] newStackOfQueue = new QName[newElementDepth * 2]; System.arraycopy(this.fElementQNamePartsStack, 0, newStackOfQueue, 0, newElementDepth ); fElementQNamePartsStack = newStackOfQueue; QName qname = fElementQNamePartsStack[newElementDepth]; if (qname == null) { for (int i = newElementDepth; i < fElementQNamePartsStack.length; i++) { fElementQNamePartsStack[i] = new QName(); } } newStack = new int[newElementDepth * 2]; System.arraycopy(fElementIndexStack, 0, newStack, 0, newElementDepth); fElementIndexStack = newStack; newStack = new int[newElementDepth * 2]; System.arraycopy(fContentSpecTypeStack, 0, newStack, 0, newElementDepth); fContentSpecTypeStack = newStack; }
private java.lang.String	getAttributeTypeName(com.sun.org.apache.xerces.internal.impl.dtd.XMLAttributeDecl attrDecl) convert attribute type from ints to strings switch (attrDecl.simpleType.type) { case XMLSimpleType.TYPE_ENTITY: { return attrDecl.simpleType.list ? XMLSymbols.fENTITIESSymbol : XMLSymbols.fENTITYSymbol; } case XMLSimpleType.TYPE_ENUMERATION: { StringBuffer buffer = new StringBuffer(); buffer.append('("); for (int i=0; i<attrDecl.simpleType.enumeration.length ; i++) { if (i > 0) { buffer.append("|"); } buffer.append(attrDecl.simpleType.enumeration[i]); } buffer.append(')"); return fSymbolTable.addSymbol(buffer.toString()); } case XMLSimpleType.TYPE_ID: { return XMLSymbols.fIDSymbol; } case XMLSimpleType.TYPE_IDREF: { return attrDecl.simpleType.list ? XMLSymbols.fIDREFSSymbol : XMLSymbols.fIDREFSymbol; } case XMLSimpleType.TYPE_NMTOKEN: { return attrDecl.simpleType.list ? XMLSymbols.fNMTOKENSSymbol : XMLSymbols.fNMTOKENSymbol; } case XMLSimpleType.TYPE_NOTATION: { return XMLSymbols.fNOTATIONSymbol; } } return XMLSymbols.fCDATASymbol;
private int	getContentSpecType(int elementIndex) Returns the content spec type for an element index. int contentSpecType = -1; if (elementIndex > -1) { if (fDTDGrammar.getElementDecl(elementIndex,fTempElementDecl)) { contentSpecType = fTempElementDecl.type; } } return contentSpecType;
public com.sun.org.apache.xerces.internal.xni.XMLDocumentHandler	getDocumentHandler() Returns the document handler return fDocumentHandler;
public com.sun.org.apache.xerces.internal.xni.parser.XMLDocumentSource	getDocumentSource() Returns the document source return fDocumentSource;
protected java.lang.String	getExternalEntityRefInAttrValue(java.lang.String nonNormalizedValue) Checks entities in attribute values for standalone VC. int valLength = nonNormalizedValue.length(); int ampIndex = nonNormalizedValue.indexOf('&"); while (ampIndex != -1) { if (ampIndex + 1 < valLength && nonNormalizedValue.charAt(ampIndex+1) != '#") { int semicolonIndex = nonNormalizedValue.indexOf(';", ampIndex+1); String entityName = nonNormalizedValue.substring(ampIndex+1, semicolonIndex); entityName = fSymbolTable.addSymbol(entityName); int entIndex = fDTDGrammar.getEntityDeclIndex(entityName); if (entIndex > -1) { fDTDGrammar.getEntityDecl(entIndex, fEntityDecl); if (fEntityDecl.inExternal || (entityName = getExternalEntityRefInAttrValue(fEntityDecl.value)) != null) { return entityName; } } } ampIndex = nonNormalizedValue.indexOf('&", ampIndex+1); } return null;
public java.lang.Boolean	getFeatureDefault(java.lang.String featureId) Returns the default state for a feature, or null if this component does not want to report a default value for this feature. param featureId The feature identifier. since Xerces 2.2.0 for (int i = 0; i < RECOGNIZED_FEATURES.length; i++) { if (RECOGNIZED_FEATURES[i].equals(featureId)) { return FEATURE_DEFAULTS[i]; } } return null;
com.sun.org.apache.xerces.internal.impl.dtd.DTDGrammarBucket	getGrammarBucket() return fGrammarBucket;
public java.lang.Object	getPropertyDefault(java.lang.String propertyId) Returns the default state for a property, or null if this component does not want to report a default value for this property. param propertyId The property identifier. since Xerces 2.2.0 for (int i = 0; i < RECOGNIZED_PROPERTIES.length; i++) { if (RECOGNIZED_PROPERTIES[i].equals(propertyId)) { return PROPERTY_DEFAULTS[i]; } } return null;
public java.lang.String[]	getRecognizedFeatures() Returns a list of feature identifiers that are recognized by this component. This method may return null if no features are recognized by this component. return (String[])(RECOGNIZED_FEATURES.clone());
public java.lang.String[]	getRecognizedProperties() Returns a list of property identifiers that are recognized by this component. This method may return null if no properties are recognized by this component. return (String[])(RECOGNIZED_PROPERTIES.clone());
protected void	handleEndElement(com.sun.org.apache.xerces.internal.xni.QName element, com.sun.org.apache.xerces.internal.xni.Augmentations augs, boolean isEmpty) Handle end element. // decrease element depth fElementDepth--; // validate if (fPerformValidation) { int elementIndex = fCurrentElementIndex; if (elementIndex != -1 && fCurrentContentSpecType != -1) { QName children[] = fElementChildren; int childrenOffset = fElementChildrenOffsetStack[fElementDepth + 1] + 1; int childrenLength = fElementChildrenLength - childrenOffset; int result = checkContent(elementIndex, children, childrenOffset, childrenLength); if (result != -1) { fDTDGrammar.getElementDecl(elementIndex, fTempElementDecl); if (fTempElementDecl.type == XMLElementDecl.TYPE_EMPTY) { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "MSG_CONTENT_INVALID", new Object[]{ element.rawname, "EMPTY"}, XMLErrorReporter.SEVERITY_ERROR); } else { String messageKey = result != childrenLength ? "MSG_CONTENT_INVALID" : "MSG_CONTENT_INCOMPLETE"; fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, messageKey, new Object[]{ element.rawname, fDTDGrammar.getContentSpecAsString(elementIndex)}, XMLErrorReporter.SEVERITY_ERROR); } } } fElementChildrenLength = fElementChildrenOffsetStack[fElementDepth + 1] + 1; } endNamespaceScope(fCurrentElement, augs, isEmpty); // now pop this element off the top of the element stack if (fElementDepth < -1) { throw new RuntimeException("FWK008 Element stack underflow"); } if (fElementDepth < 0) { fCurrentElement.clear(); fCurrentElementIndex = -1; fCurrentContentSpecType = -1; fInElementContent = false; // TO DO : fix this // // Check after document is fully parsed // (1) check that there was an element with a matching id for every // IDREF and IDREFS attr (V_IDREF0) // if (fPerformValidation) { String value = fValidationState.checkIDRefID(); if (value != null) { fErrorReporter.reportError( XMLMessageFormatter.XML_DOMAIN, "MSG_ELEMENT_WITH_ID_REQUIRED", new Object[]{value}, XMLErrorReporter.SEVERITY_ERROR ); } } return; } // If Namespace enable then localName != rawName fCurrentElement.setValues(fElementQNamePartsStack[fElementDepth]); fCurrentElementIndex = fElementIndexStack[fElementDepth]; fCurrentContentSpecType = fContentSpecTypeStack[fElementDepth]; fInElementContent = (fCurrentContentSpecType == XMLElementDecl.TYPE_CHILDREN);
protected boolean	handleStartElement(com.sun.org.apache.xerces.internal.xni.QName element, com.sun.org.apache.xerces.internal.xni.XMLAttributes attributes, com.sun.org.apache.xerces.internal.xni.Augmentations augs) Handle element return true if validator is removed from the pipeline // VC: Root Element Type // see if the root element's name matches the one in DoctypeDecl if (!fSeenRootElement) { // REVISIT: Here are current assumptions about validation features // given that XMLSchema validator is in the pipeline // // http://xml.org/sax/features/validation = true // http://apache.org/xml/features/validation/schema = true // // [1] XML instance document only has reference to a DTD // Outcome: report validation errors only against dtd. // // [2] XML instance document has only XML Schema grammars: // Outcome: report validation errors only against schemas (no errors produced from DTD validator) // // [3] XML instance document has DTD and XML schemas: // [a] if schema language is not set outcome - validation errors reported against both grammars: DTD and schemas. // [b] if schema language is set to XML Schema - do not report validation errors // // if dynamic validation is on // validate only against grammar we've found (depending on settings // for schema feature) // // fPerformValidation = validate(); fSeenRootElement = true; fValidationManager.setEntityState(fDTDGrammar); fValidationManager.setGrammarFound(fSeenDoctypeDecl); rootElementSpecified(element); } if (fDTDGrammar == null) { if (!fPerformValidation) { fCurrentElementIndex = -1; fCurrentContentSpecType = -1; fInElementContent = false; } if (fPerformValidation) { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "MSG_GRAMMAR_NOT_FOUND", new Object[]{ element.rawname}, XMLErrorReporter.SEVERITY_ERROR); } // modify pipeline if (fDocumentSource !=null ) { fDocumentSource.setDocumentHandler(fDocumentHandler); if (fDocumentHandler != null) fDocumentHandler.setDocumentSource(fDocumentSource); return true; } } else { // resolve the element fCurrentElementIndex = fDTDGrammar.getElementDeclIndex(element); //changed here.. new function for getContentSpecType fCurrentContentSpecType = fDTDGrammar.getContentSpecType(fCurrentElementIndex); if (fCurrentContentSpecType == -1 && fPerformValidation) { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "MSG_ELEMENT_NOT_DECLARED", new Object[]{ element.rawname}, XMLErrorReporter.SEVERITY_ERROR); } // 0. insert default attributes // 1. normalize the attributes // 2. validate the attrivute list. // TO DO: //changed here.. also pass element name, addDTDDefaultAttrsAndValidate(element, fCurrentElementIndex, attributes); } // set element content state fInElementContent = fCurrentContentSpecType == XMLElementDecl.TYPE_CHILDREN; // increment the element depth, add this element's // QName to its enclosing element 's children list fElementDepth++; if (fPerformValidation) { // push current length onto stack if (fElementChildrenOffsetStack.length <= fElementDepth) { int newarray[] = new int[fElementChildrenOffsetStack.length * 2]; System.arraycopy(fElementChildrenOffsetStack, 0, newarray, 0, fElementChildrenOffsetStack.length); fElementChildrenOffsetStack = newarray; } fElementChildrenOffsetStack[fElementDepth] = fElementChildrenLength; // add this element to children if (fElementChildren.length <= fElementChildrenLength) { QName[] newarray = new QName[fElementChildrenLength * 2]; System.arraycopy(fElementChildren, 0, newarray, 0, fElementChildren.length); fElementChildren = newarray; } QName qname = fElementChildren[fElementChildrenLength]; if (qname == null) { for (int i = fElementChildrenLength; i < fElementChildren.length; i++) { fElementChildren[i] = new QName(); } qname = fElementChildren[fElementChildrenLength]; } qname.setValues(element); fElementChildrenLength++; } // save current element information fCurrentElement.setValues(element); ensureStackCapacity(fElementDepth); fElementQNamePartsStack[fElementDepth].setValues(fCurrentElement); fElementIndexStack[fElementDepth] = fCurrentElementIndex; fContentSpecTypeStack[fElementDepth] = fCurrentContentSpecType; startNamespaceScope(element, attributes, augs); return false;
public final boolean	hasGrammar() return (fDTDGrammar != null);
public void	ignorableWhitespace(com.sun.org.apache.xerces.internal.xni.XMLString text, com.sun.org.apache.xerces.internal.xni.Augmentations augs) Ignorable whitespace. For this method to be called, the document source must have some way of determining that the text containing only whitespace characters should be considered ignorable. For example, the validator can determine if a length of whitespace characters in the document are ignorable based on the element content model. param text The ignorable whitespace. param augs Additional information that may include infoset augmentations throws XNIException Thrown by handler to signal an error. // call handlers if (fDocumentHandler != null) { fDocumentHandler.ignorableWhitespace(text, augs); }
protected void	init() initialization // datatype validators if (fValidation || fDynamicValidation) { try { //REVISIT: datatypeRegistry + initialization of datatype // why do we cast to ListDatatypeValidator? fValID = fDatatypeValidatorFactory.getBuiltInDV(XMLSymbols.fIDSymbol); fValIDRef = fDatatypeValidatorFactory.getBuiltInDV(XMLSymbols.fIDREFSymbol); fValIDRefs = fDatatypeValidatorFactory.getBuiltInDV(XMLSymbols.fIDREFSSymbol); fValENTITY = fDatatypeValidatorFactory.getBuiltInDV(XMLSymbols.fENTITYSymbol); fValENTITIES = fDatatypeValidatorFactory.getBuiltInDV(XMLSymbols.fENTITIESSymbol); fValNMTOKEN = fDatatypeValidatorFactory.getBuiltInDV(XMLSymbols.fNMTOKENSymbol); fValNMTOKENS = fDatatypeValidatorFactory.getBuiltInDV(XMLSymbols.fNMTOKENSSymbol); fValNOTATION = fDatatypeValidatorFactory.getBuiltInDV(XMLSymbols.fNOTATIONSymbol); } catch (Exception e) { // should never happen e.printStackTrace(System.err); } }
protected boolean	invalidStandaloneAttDef(com.sun.org.apache.xerces.internal.xni.QName element, com.sun.org.apache.xerces.internal.xni.QName attribute) Returns true if invalid standalone attribute definition. // REVISIT: This obviously needs to be fixed! -Ac boolean state = true; /* if (fStandaloneReader == -1) { return false; } // we are normalizing a default att value... this ok? if (element.rawname == -1) { return false; } return getAttDefIsExternal(element, attribute); */ return state;
protected boolean	isSpace(int c) return XMLChar.isSpace(c);
private boolean	normalizeAttrValue(com.sun.org.apache.xerces.internal.xni.XMLAttributes attributes, int index) Normalize the attribute value of a non CDATA attributes collapsing sequences of space characters (x20) param attributes The list of attributes param index The index of the attribute to normalize // vars boolean leadingSpace = true; boolean spaceStart = false; boolean readingNonSpace = false; int count = 0; int eaten = 0; String attrValue = attributes.getValue(index); char[] attValue = new char[attrValue.length()]; fBuffer.setLength(0); attrValue.getChars(0, attrValue.length(), attValue, 0); for (int i = 0; i < attValue.length; i++) { if (attValue[i] == ' ") { // now the tricky part if (readingNonSpace) { spaceStart = true; readingNonSpace = false; } if (spaceStart && !leadingSpace) { spaceStart = false; fBuffer.append(attValue[i]); count++; } else { if (leadingSpace || !spaceStart) { eaten ++; /*** BUG #3512 *** int entityCount = attributes.getEntityCount(index); for (int j = 0; j < entityCount; j++) { int offset = attributes.getEntityOffset(index, j); int length = attributes.getEntityLength(index, j); if (offset <= i-eaten+1) { if (offset+length >= i-eaten+1) { if (length > 0) length--; } } else { if (offset > 0) offset--; } attributes.setEntityOffset(index, j, offset); attributes.setEntityLength(index, j, length); } /***/ } } } else { readingNonSpace = true; spaceStart = false; leadingSpace = false; fBuffer.append(attValue[i]); count++; } } // check if the last appended character is a space. if (count > 0 && fBuffer.charAt(count-1) == ' ") { fBuffer.setLength(count-1); /*** BUG #3512 *** int entityCount = attributes.getEntityCount(index); for (int j=0; j < entityCount; j++) { int offset = attributes.getEntityOffset(index, j); int length = attributes.getEntityLength(index, j); if (offset < count-1) { if (offset+length == count) { length--; } } else { offset--; } attributes.setEntityOffset(index, j, offset); attributes.setEntityLength(index, j, length); } /***/ } String newValue = fBuffer.toString(); attributes.setValue(index, newValue); return ! attrValue.equals(newValue);
public void	processingInstruction(java.lang.String target, com.sun.org.apache.xerces.internal.xni.XMLString data, com.sun.org.apache.xerces.internal.xni.Augmentations augs) A processing instruction. Processing instructions consist of a target name and, optionally, text data. The data is only meaningful to the application. Typically, a processing instruction's data will contain a series of pseudo-attributes. These pseudo-attributes follow the form of element attributes but are not parsed or presented to the application as anything other than text. The application is responsible for parsing the data. param target The target. param data The data or null if none specified. param augs Additional information that may include infoset augmentations throws XNIException Thrown by handler to signal an error. // fixes E15.1 if (fPerformValidation && fElementDepth >= 0 && fDTDGrammar != null) { fDTDGrammar.getElementDecl(fCurrentElementIndex, fTempElementDecl); if (fTempElementDecl.type == XMLElementDecl.TYPE_EMPTY) { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "MSG_CONTENT_INVALID_SPECIFIED", new Object[]{ fCurrentElement.rawname, "EMPTY", "processing instruction"}, XMLErrorReporter.SEVERITY_ERROR); } } // call handlers if (fDocumentHandler != null) { fDocumentHandler.processingInstruction(target, data, augs); }
public void	reset(com.sun.org.apache.xerces.internal.xni.parser.XMLComponentManager componentManager) // clear grammars fDTDGrammar = null; fSeenDoctypeDecl = false; fInCDATASection = false; // initialize state fSeenRootElement = false; fInElementContent = false; fCurrentElementIndex = -1; fCurrentContentSpecType = -1; fRootElement.clear(); fValidationState.resetIDTables(); fGrammarBucket.clear(); fElementDepth = -1; fElementChildrenLength = 0; boolean parser_settings; try { parser_settings = componentManager.getFeature(PARSER_SETTINGS); } catch (XMLConfigurationException e){ parser_settings = true; } if (!parser_settings){ // parser settings have not been changed fValidationManager.addValidationState(fValidationState); return; } // sax features try { fNamespaces = componentManager.getFeature(NAMESPACES); } catch (XMLConfigurationException e) { fNamespaces = true; } try { fValidation = componentManager.getFeature(VALIDATION); } catch (XMLConfigurationException e) { fValidation = false; } try { fDTDValidation = !(componentManager.getFeature(Constants.XERCES_FEATURE_PREFIX + Constants.SCHEMA_VALIDATION_FEATURE)); } catch (XMLConfigurationException e) { // must be in a schema-less configuration! fDTDValidation = true; } // Xerces features try { fDynamicValidation = componentManager.getFeature(DYNAMIC_VALIDATION); } catch (XMLConfigurationException e) { fDynamicValidation = false; } try { fWarnDuplicateAttdef = componentManager.getFeature(WARN_ON_DUPLICATE_ATTDEF); } catch (XMLConfigurationException e) { fWarnDuplicateAttdef = false; } try { fSchemaType = (String)componentManager.getProperty (Constants.JAXP_PROPERTY_PREFIX + Constants.SCHEMA_LANGUAGE); } catch (XMLConfigurationException e){ fSchemaType = null; } fValidationManager= (ValidationManager)componentManager.getProperty(VALIDATION_MANAGER); fValidationManager.addValidationState(fValidationState); fValidationState.setUsingNamespaces(fNamespaces); // get needed components fErrorReporter = (XMLErrorReporter)componentManager.getProperty(Constants.XERCES_PROPERTY_PREFIX+Constants.ERROR_REPORTER_PROPERTY); fSymbolTable = (SymbolTable)componentManager.getProperty(Constants.XERCES_PROPERTY_PREFIX+Constants.SYMBOL_TABLE_PROPERTY); try { fGrammarPool= (XMLGrammarPool)componentManager.getProperty(GRAMMAR_POOL); } catch (XMLConfigurationException e) { fGrammarPool = null; } fDatatypeValidatorFactory = (DTDDVFactory)componentManager.getProperty(Constants.XERCES_PROPERTY_PREFIX + Constants.DATATYPE_VALIDATOR_FACTORY_PROPERTY); init();
private final void	rootElementSpecified(com.sun.org.apache.xerces.internal.xni.QName rootElement) Root element specified. if (fPerformValidation) { String root1 = fRootElement.rawname; String root2 = rootElement.rawname; if (root1 == null || !root1.equals(root2)) { fErrorReporter.reportError( XMLMessageFormatter.XML_DOMAIN, "RootElementTypeMustMatchDoctypedecl", new Object[]{root1, root2}, XMLErrorReporter.SEVERITY_ERROR); } }
public void	setDocumentHandler(com.sun.org.apache.xerces.internal.xni.XMLDocumentHandler documentHandler) Sets the document handler to receive information about the document. fDocumentHandler = documentHandler;
public void	setDocumentSource(com.sun.org.apache.xerces.internal.xni.parser.XMLDocumentSource source) Sets the document source fDocumentSource = source;
public void	setFeature(java.lang.String featureId, boolean state) Sets the state of a feature. This method is called by the component manager any time after reset when a feature changes state. Note: Components should silently ignore features that do not affect the operation of the component. param featureId The feature identifier. param state The state of the feature. throws SAXNotRecognizedException The component should not throw this exception. throws SAXNotSupportedException The component should not throw this exception.
public void	setProperty(java.lang.String propertyId, java.lang.Object value) Sets the value of a property. This method is called by the component manager any time after reset when a property changes value. Note: Components should silently ignore properties that do not affect the operation of the component. param propertyId The property identifier. param value The value of the property. throws SAXNotRecognizedException The component should not throw this exception. throws SAXNotSupportedException The component should not throw this exception.
public void	startCDATA(com.sun.org.apache.xerces.internal.xni.Augmentations augs) The start of a CDATA section. param augs Additional information that may include infoset augmentations throws XNIException Thrown by handler to signal an error. if (fPerformValidation && fInElementContent) { charDataInContent(); } fInCDATASection = true; // call handlers if (fDocumentHandler != null) { fDocumentHandler.startCDATA(augs); }
public void	startDocument(com.sun.org.apache.xerces.internal.xni.XMLLocator locator, java.lang.String encoding, com.sun.org.apache.xerces.internal.xni.NamespaceContext namespaceContext, com.sun.org.apache.xerces.internal.xni.Augmentations augs) The start of the document. param locator The system identifier of the entity if the entity is external, null otherwise. param encoding The auto-detected IANA encoding name of the entity stream. This value will be null in those situations where the entity encoding is not auto-detected (e.g. internal entities or a document entity that is parsed from a java.io.Reader). param namespaceContext The namespace context in effect at the start of this document. This object represents the current context. Implementors of this class are responsible for copying the namespace bindings from the the current context (and its parent contexts) if that information is important. param augs Additional information that may include infoset augmentations throws XNIException Thrown by handler to signal an error. // call handlers // get initial grammars if(fGrammarPool != null) { Grammar [] grammars = fGrammarPool.retrieveInitialGrammarSet(XMLGrammarDescription.XML_DTD); for(int i = 0; i<grammars.length; i++) { fGrammarBucket.putGrammar((DTDGrammar)grammars[i]); } } fDocLocation = locator; fNamespaceContext = namespaceContext; if (fDocumentHandler != null) { fDocumentHandler.startDocument(locator, encoding, namespaceContext, augs); }
public void	startElement(com.sun.org.apache.xerces.internal.xni.QName element, com.sun.org.apache.xerces.internal.xni.XMLAttributes attributes, com.sun.org.apache.xerces.internal.xni.Augmentations augs) The start of an element. param element The name of the element. param attributes The element attributes. param augs Additional information that may include infoset augmentations throws XNIException Thrown by handler to signal an error. handleStartElement(element, attributes, augs); // call handlers if (fDocumentHandler != null) { fDocumentHandler.startElement(element, attributes, augs); }
public void	startGeneralEntity(java.lang.String name, com.sun.org.apache.xerces.internal.xni.XMLResourceIdentifier identifier, java.lang.String encoding, com.sun.org.apache.xerces.internal.xni.Augmentations augs) This method notifies the start of a general entity. Note: This method is not called for entity references appearing as part of attribute values. param name The name of the general entity. param identifier The resource identifier. param encoding The auto-detected IANA encoding name of the entity stream. This value will be null in those situations where the entity encoding is not auto-detected (e.g. internal entities or a document entity that is parsed from a java.io.Reader). param augs Additional information that may include infoset augmentations exception XNIException Thrown by handler to signal an error. if (fPerformValidation && fElementDepth >= 0 && fDTDGrammar != null) { fDTDGrammar.getElementDecl(fCurrentElementIndex, fTempElementDecl); // fixes E15.1 if (fTempElementDecl.type == XMLElementDecl.TYPE_EMPTY) { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "MSG_CONTENT_INVALID_SPECIFIED", new Object[]{ fCurrentElement.rawname, "EMPTY", "ENTITY"}, XMLErrorReporter.SEVERITY_ERROR); } if (fGrammarBucket.getStandalone()) { XMLDTDLoader.checkStandaloneEntityRef(name, fDTDGrammar, fEntityDecl, fErrorReporter); } } if (fDocumentHandler != null) { fDocumentHandler.startGeneralEntity(name, identifier, encoding, augs); }
protected void	startNamespaceScope(com.sun.org.apache.xerces.internal.xni.QName element, com.sun.org.apache.xerces.internal.xni.XMLAttributes attributes, com.sun.org.apache.xerces.internal.xni.Augmentations augs)
public void	textDecl(java.lang.String version, java.lang.String encoding, com.sun.org.apache.xerces.internal.xni.Augmentations augs) Notifies of the presence of a TextDecl line in an entity. If present, this method will be called immediately following the startParameterEntity call. Note: This method is only called for external parameter entities referenced in the DTD. param version The XML version, or null if not specified. param encoding The IANA encoding name of the entity. param augs Additional information that may include infoset augmentations. throws XNIException Thrown by handler to signal an error. // call handlers if (fDocumentHandler != null) { fDocumentHandler.textDecl(version, encoding, augs); }
public final boolean	validate() // Do validation if all of the following are true: // 1. The JAXP Schema Language property is not XML Schema // REVISIT: since only DTD and Schema are supported at this time, // such checking is sufficient. but if more schema types // are introduced in the future, we'll need to change it // to something like // (fSchemaType == null || fSchemaType == NS_XML_DTD) // 2. One of the following is true (validation features) // 2.1 Dynamic validation is off, and validation is on // 2.2 Dynamic validation is on, and DOCTYPE was seen // 3 Xerces schema validation feature is off, or DOCTYPE was seen. return (fSchemaType != Constants.NS_XMLSCHEMA) && (!fDynamicValidation && fValidation || fDynamicValidation && fSeenDoctypeDecl) && (fDTDValidation || fSeenDoctypeDecl);
protected void	validateDTDattribute(com.sun.org.apache.xerces.internal.xni.QName element, java.lang.String attValue, com.sun.org.apache.xerces.internal.impl.dtd.XMLAttributeDecl attributeDecl) Validate attributes in DTD fashion. switch (attributeDecl.simpleType.type) { case XMLSimpleType.TYPE_ENTITY: { // NOTE: Save this information because invalidStandaloneAttDef boolean isAlistAttribute = attributeDecl.simpleType.list; try { if (isAlistAttribute) { fValENTITIES.validate(attValue, fValidationState); } else { fValENTITY.validate(attValue, fValidationState); } } catch (InvalidDatatypeValueException ex) { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, ex.getKey(), ex.getArgs(), XMLErrorReporter.SEVERITY_ERROR ); } break; } case XMLSimpleType.TYPE_NOTATION: case XMLSimpleType.TYPE_ENUMERATION: { boolean found = false; String [] enumVals = attributeDecl.simpleType.enumeration; if (enumVals == null) { found = false; } else for (int i = 0; i < enumVals.length; i++) { if (attValue == enumVals[i] || attValue.equals(enumVals[i])) { found = true; break; } } if (!found) { StringBuffer enumValueString = new StringBuffer(); if (enumVals != null) for (int i = 0; i < enumVals.length; i++) { enumValueString.append(enumVals[i]+" "); } fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "MSG_ATTRIBUTE_VALUE_NOT_IN_LIST", new Object[]{attributeDecl.name.rawname, attValue, enumValueString}, XMLErrorReporter.SEVERITY_ERROR); } break; } case XMLSimpleType.TYPE_ID: { try { fValID.validate(attValue, fValidationState); } catch (InvalidDatatypeValueException ex) { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, ex.getKey(), ex.getArgs(), XMLErrorReporter.SEVERITY_ERROR ); } break; } case XMLSimpleType.TYPE_IDREF: { boolean isAlistAttribute = attributeDecl.simpleType.list;//Caveat - Save this information because invalidStandaloneAttDef try { if (isAlistAttribute) { fValIDRefs.validate(attValue, fValidationState); } else { fValIDRef.validate(attValue, fValidationState); } } catch (InvalidDatatypeValueException ex) { if (isAlistAttribute) { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "IDREFSInvalid", new Object[]{attValue}, XMLErrorReporter.SEVERITY_ERROR ); } else { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, ex.getKey(), ex.getArgs(), XMLErrorReporter.SEVERITY_ERROR ); } } break; } case XMLSimpleType.TYPE_NMTOKEN: { boolean isAlistAttribute = attributeDecl.simpleType.list;//Caveat - Save this information because invalidStandaloneAttDef //changes fTempAttDef try { if (isAlistAttribute) { fValNMTOKENS.validate(attValue, fValidationState); } else { fValNMTOKEN.validate(attValue, fValidationState); } } catch (InvalidDatatypeValueException ex) { if (isAlistAttribute) { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "NMTOKENSInvalid", new Object[] { attValue}, XMLErrorReporter.SEVERITY_ERROR); } else { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "NMTOKENInvalid", new Object[] { attValue}, XMLErrorReporter.SEVERITY_ERROR); } } break; } } // switch
public void	xmlDecl(java.lang.String version, java.lang.String encoding, java.lang.String standalone, com.sun.org.apache.xerces.internal.xni.Augmentations augs) Notifies of the presence of an XMLDecl line in the document. If present, this method will be called immediately following the startDocument call. param version The XML version. param encoding The IANA encoding name of the document, or null if not specified. param standalone The standalone value, or null if not specified. param augs Additional information that may include infoset augmentations throws XNIException Thrown by handler to signal an error. // save standalone state fGrammarBucket.setStandalone(standalone != null && standalone.equals("yes")); // call handlers if (fDocumentHandler != null) { fDocumentHandler.xmlDecl(version, encoding, standalone, augs); }