package net.sf.saxon.style;
import net.sf.saxon.Configuration;
import net.sf.saxon.event.LocationProvider;
import net.sf.saxon.event.PipelineConfiguration;
import net.sf.saxon.om.*;
import net.sf.saxon.trans.SaxonErrorCode;
import net.sf.saxon.trans.XPathException;
import net.sf.saxon.tree.ElementImpl;
import net.sf.saxon.tree.NodeFactory;
import javax.xml.transform.TransformerException;
import javax.xml.transform.TransformerFactoryConfigurationError;
import java.math.BigDecimal;
/**
* Class StyleNodeFactory. <br>
* A Factory for nodes in the stylesheet tree. <br>
* Currently only allows Element nodes to be user-constructed.
* @author Michael H. Kay
*/
public class StyleNodeFactory implements NodeFactory {
protected Configuration config;
protected NamePool namePool;
/**
* Create the node factory for representing an XSLT stylesheet as a tree structure
* @param config the Saxon configuration
*/
public StyleNodeFactory(Configuration config) {
this.config = config;
namePool = config.getNamePool();
}
/**
* Create an Element node. Note, if there is an error detected while constructing
* the Element, we add the element anyway, and return success, but flag the element
* with a validation error. This allows us to report more than
* one error from a single compilation.
* @param nameCode The element name
* @param typeCode
* @param attlist the attribute list
*/
public ElementImpl makeElementNode(
NodeInfo parent,
int nameCode,
int typeCode, AttributeCollectionImpl attlist,
int[] namespaces,
int namespacesUsed,
PipelineConfiguration pipe,
int locationId,
int sequence)
{
boolean toplevel = (parent instanceof XSLStylesheet);
String baseURI = null;
int lineNumber = -1;
int columnNumber = -1;
LocationProvider locator = pipe.getLocationProvider();
if (locator!=null) {
baseURI = locator.getSystemId(locationId);
lineNumber = locator.getLineNumber(locationId);
columnNumber = locator.getColumnNumber(locationId);
}
if (parent instanceof DataElement) {
DataElement d = new DataElement();
d.setNamespaceDeclarations(namespaces, namespacesUsed);
d.initialise(nameCode, typeCode, attlist, parent, sequence);
d.setLocation(baseURI, lineNumber, columnNumber);
return d;
}
int f = nameCode&0xfffff;
// Try first to make an XSLT element
StyleElement e = makeXSLElement(f);
if (e != null) { // recognized as an XSLT element
e.setNamespaceDeclarations(namespaces, namespacesUsed);
e.initialise(nameCode, typeCode, attlist, parent, sequence);
e.setLocation(baseURI, lineNumber, columnNumber);
// We're not catching multiple errors in the following attributes, but catching each of the
// exceptions helps to ensure we don't report spurious errors through not processing some
// of the attributes when others are faulty.
try {
e.processExtensionElementAttribute("");
} catch (TransformerException err) {
e.setValidationError(err, StyleElement.REPORT_ALWAYS);
}
try {
e.processExcludedNamespaces("");
} catch (TransformerException err) {
e.setValidationError(err, StyleElement.REPORT_ALWAYS);
}
try {
e.processVersionAttribute("");
} catch (TransformerException err) {
e.setValidationError(err, StyleElement.REPORT_ALWAYS);
}
e.processDefaultXPathNamespaceAttribute("");
return e;
} else if (parent instanceof XSLStylesheet && namePool.getURICode(nameCode) != 0) {
DataElement d = new DataElement();
d.setNamespaceDeclarations(namespaces, namespacesUsed);
d.initialise(nameCode, typeCode, attlist, parent, sequence);
d.setLocation(baseURI, lineNumber, columnNumber);
return d;
} else { // not recognized as an XSLT element, not top-level
short uriCode = namePool.getURICode(nameCode);
String localname = namePool.getLocalName(nameCode);
StyleElement temp = null;
// Detect a misspelt XSLT declaration
if (uriCode == NamespaceConstant.XSLT_CODE &&
(parent instanceof XSLStylesheet) &&
((XSLStylesheet)parent).getVersion().compareTo(BigDecimal.valueOf('2')) <= 0 ) {
temp = new AbsentExtensionElement();
temp.setValidationError(new XPathException("Unknown top-level XSLT declaration"),
StyleElement.REPORT_UNLESS_FORWARDS_COMPATIBLE );
}
// Detect an unrecognized element in the Saxon namespace
if (uriCode == NamespaceConstant.SAXON_CODE) {
try {
XPathException te = new XPathException(namePool.getDisplayName(nameCode) +
" is not recognized as a Saxon instruction");
te.setLocator(pipe.getSourceLocation(locationId));
te.setErrorCode(SaxonErrorCode.SXWN9008);
pipe.getErrorListener().warning(te);
} catch (TransformerException e1) {
// no action
}
}
Class assumedClass = LiteralResultElement.class;
// We can't work out the final class of the node until we've examined its attributes
// such as version and extension-element-prefixes; but we can have a good guess, and
// change it later if need be.
if (temp==null) {
temp = new LiteralResultElement();
}
temp.setNamespaceDeclarations(namespaces, namespacesUsed);
try {
temp.initialise(nameCode, typeCode, attlist, parent, sequence);
temp.setLocation(baseURI, lineNumber, columnNumber);
temp.processStandardAttributes(NamespaceConstant.XSLT);
} catch (XPathException err) {
temp.setValidationError(err, StyleElement.REPORT_ALWAYS);
}
// Now we work out what class of element we really wanted, and change it if necessary
TransformerException reason;
Class actualClass;
if (uriCode == NamespaceConstant.XSLT_CODE) {
reason = new XPathException("Unknown XSLT element: " + localname);
((XPathException)reason).setErrorCode("XTSE0010");
((XPathException)reason).setIsStaticError(true);
actualClass = AbsentExtensionElement.class;
temp.setValidationError(reason, StyleElement.REPORT_UNLESS_FALLBACK_AVAILABLE);
} else if (temp.isExtensionNamespace(uriCode) && !toplevel) {
// if we can't instantiate an extension element, we don't give up
// immediately, because there might be an xsl:fallback defined. We
// create a surrogate element called AbsentExtensionElement, and
// save the reason for failure just in case there is no xsl:fallback
actualClass = AbsentExtensionElement.class;
XPathException se = new XPathException("Unknown extension instruction", temp);
se.setErrorCode("XTDE1450");
reason = se;
temp.setValidationError(reason, StyleElement.REPORT_IF_INSTANTIATED);
} else {
actualClass = LiteralResultElement.class;
}
StyleElement node;
if (actualClass.equals(assumedClass)) {
node = temp; // the original element will do the job
} else {
try {
node = (StyleElement)actualClass.newInstance();
} catch (InstantiationException err1) {
throw new TransformerFactoryConfigurationError(err1, "Failed to create instance of " + actualClass.getName());
} catch (IllegalAccessException err2) {
throw new TransformerFactoryConfigurationError(err2, "Failed to access class " + actualClass.getName());
}
node.substituteFor(temp); // replace temporary node with the new one
}
return node;
}
}
/**
* Make an XSL element node
* @param f the fingerprint of the node name
* @return the constructed element node
*/
protected StyleElement makeXSLElement(int f) {
switch (f) {
case StandardNames.XSL_ANALYZE_STRING:
return new XSLAnalyzeString();
case StandardNames.XSL_APPLY_IMPORTS:
return new XSLApplyImports();
case StandardNames.XSL_APPLY_TEMPLATES:
return new XSLApplyTemplates();
case StandardNames.XSL_ATTRIBUTE:
return new XSLAttribute();
case StandardNames.XSL_ATTRIBUTE_SET:
return new XSLAttributeSet();
case StandardNames.XSL_CALL_TEMPLATE:
return new XSLCallTemplate();
case StandardNames.XSL_CHARACTER_MAP:
return new XSLCharacterMap();
case StandardNames.XSL_CHOOSE:
return new XSLChoose();
case StandardNames.XSL_COMMENT:
return new XSLComment();
case StandardNames.XSL_COPY:
return new XSLCopy();
case StandardNames.XSL_COPY_OF:
return new XSLCopyOf();
case StandardNames.XSL_DECIMAL_FORMAT:
return new XSLDecimalFormat();
case StandardNames.XSL_DOCUMENT:
return new XSLDocument();
case StandardNames.XSL_ELEMENT:
return new XSLElement();
case StandardNames.XSL_FALLBACK:
return new XSLFallback();
case StandardNames.XSL_FOR_EACH:
return new XSLForEach();
case StandardNames.XSL_FOR_EACH_GROUP:
return new XSLForEachGroup();
case StandardNames.XSL_FUNCTION:
return new XSLFunction();
case StandardNames.XSL_IF:
return new XSLIf();
case StandardNames.XSL_IMPORT:
return new XSLImport();
case StandardNames.XSL_IMPORT_SCHEMA:
return new XSLImportSchema();
case StandardNames.XSL_INCLUDE:
return new XSLInclude();
case StandardNames.XSL_KEY:
return new XSLKey();
case StandardNames.XSL_MATCHING_SUBSTRING:
return new XSLMatchingSubstring();
case StandardNames.XSL_MESSAGE:
return new XSLMessage();
case StandardNames.XSL_NEXT_MATCH:
return new XSLNextMatch();
case StandardNames.XSL_NON_MATCHING_SUBSTRING:
return new XSLMatchingSubstring(); //sic
case StandardNames.XSL_NUMBER:
return new XSLNumber();
case StandardNames.XSL_NAMESPACE:
return new XSLNamespace();
case StandardNames.XSL_NAMESPACE_ALIAS:
return new XSLNamespaceAlias();
case StandardNames.XSL_OTHERWISE:
return new XSLOtherwise();
case StandardNames.XSL_OUTPUT:
return new XSLOutput();
case StandardNames.XSL_OUTPUT_CHARACTER:
return new XSLOutputCharacter();
case StandardNames.XSL_PARAM:
return new XSLParam();
case StandardNames.XSL_PERFORM_SORT:
return new XSLPerformSort();
case StandardNames.XSL_PRESERVE_SPACE:
return new XSLPreserveSpace();
case StandardNames.XSL_PROCESSING_INSTRUCTION:
return new XSLProcessingInstruction();
case StandardNames.XSL_RESULT_DOCUMENT:
return new XSLResultDocument();
case StandardNames.XSL_SEQUENCE:
return new XSLSequence();
case StandardNames.XSL_SORT:
return new XSLSort();
case StandardNames.XSL_STRIP_SPACE:
return new XSLPreserveSpace();
case StandardNames.XSL_STYLESHEET:
return new XSLStylesheet();
case StandardNames.XSL_TEMPLATE:
return new XSLTemplate();
case StandardNames.XSL_TEXT:
return new XSLText();
case StandardNames.XSL_TRANSFORM:
return new XSLStylesheet();
case StandardNames.XSL_VALUE_OF:
return new XSLValueOf();
case StandardNames.XSL_VARIABLE:
return new XSLVariable();
case StandardNames.XSL_WITH_PARAM:
return new XSLWithParam();
case StandardNames.XSL_WHEN:
return new XSLWhen();
default:
return null;
}
}
/**
* Method to support the element-available() function
* @param uri the namespace URI
* @param localName the local Name
* @return true if an extension element of this name is recognized
*/
public boolean isElementAvailable(String uri, String localName) {
int fingerprint = namePool.getFingerprint(uri, localName);
if (uri.equals(NamespaceConstant.XSLT)) {
if (fingerprint == -1) {
return false; // all names are pre-registered
}
StyleElement e = makeXSLElement(fingerprint);
if (e != null) {
return e.isInstruction();
}
}
return false;
}
}
//
// The contents of this file are subject to the Mozilla Public License Version 1.0 (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.mozilla.org/MPL/
//
// Software distributed under the License is distributed on an "AS IS" basis,
// WITHOUT WARRANTY OF ANY KIND, either express or implied.
// See the License for the specific language governing rights and limitations under the License.
//
// The Original Code is: all this file.
//
// The Initial Developer of the Original Code is Michael H. Kay.
//
// Portions created by (your name) are Copyright (C) (your legal entity). All Rights Reserved.
//
// Contributor(s): none.
//