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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.
 */
/*
 * $Id: ElemTemplateElement.java 475981 2006-11-16 23:35:53Z minchau $
 */
package org.apache.xalan.templates;

import java.io.Serializable;
import java.util.ArrayList;
import java.util.Enumeration;
import java.util.List;

import javax.xml.transform.SourceLocator;
import javax.xml.transform.TransformerException;

import org.apache.xalan.res.XSLMessages;
import org.apache.xalan.res.XSLTErrorResources;
import org.apache.xalan.transformer.TransformerImpl;
import org.apache.xml.serializer.SerializationHandler;
import org.apache.xml.utils.PrefixResolver;
import org.apache.xml.utils.UnImplNode;
import org.apache.xpath.ExpressionNode;
import org.apache.xpath.WhitespaceStrippingElementMatcher;

import org.w3c.dom.DOMException;
import org.w3c.dom.Document;
import org.w3c.dom.Node;
import org.w3c.dom.NodeList;

import org.xml.sax.helpers.NamespaceSupport;

/**
 * An instance of this class represents an element inside
 * an xsl:template class.  It has a single "execute" method
 * which is expected to perform the given action on the
 * result tree.
 * This class acts like a Element node, and implements the
 * Element interface, but is not a full implementation
 * of that interface... it only implements enough for
 * basic traversal of the tree.
 *
 * @see Stylesheet
 * @xsl.usage advanced
 */
public class ElemTemplateElement extends UnImplNode
        implements PrefixResolver, Serializable, ExpressionNode, 
                   WhitespaceStrippingElementMatcher, XSLTVisitable
{
    static final long serialVersionUID = 4440018597841834447L;

  /**
   * Construct a template element instance.
   *
   */
  public ElemTemplateElement(){}

  /**
   * Tell if this template is a compiled template.
   *
   * @return Boolean flag indicating whether this is a compiled template   
   */
  public boolean isCompiledTemplate()
  {
    return false;
  }

  /**
   * Get an integer representation of the element type.
   *
   * @return An integer representation of the element, defined in the
   *     Constants class.
   * @see org.apache.xalan.templates.Constants
   */
  public int getXSLToken()
  {
    return Constants.ELEMNAME_UNDEFINED;
  }

  /**
   * Return the node name.
   *
   * @return An invalid node name
   */
  public String getNodeName()
  {
    return "Unknown XSLT Element";
  }
  
  /**
   * For now, just return the result of getNodeName(), which 
   * the local name.
   *
   * @return The result of getNodeName().
   */
  public String getLocalName()
  {

    return getNodeName();
  }


  /**
   * This function will be called on top-level elements
   * only, just before the transform begins.
   *
   * @param transformer The XSLT TransformerFactory.
   *
   * @throws TransformerException
   */
  public void runtimeInit(TransformerImpl transformer) throws TransformerException{}

  /**
   * Execute the element's primary function.  Subclasses of this
   * function may recursivly execute down the element tree.
   *
   * @param transformer The XSLT TransformerFactory.
   * 
   * @throws TransformerException if any checked exception occurs.
   */
  public void execute(
          TransformerImpl transformer)
            throws TransformerException{}

  /**
   * Get the owning "composed" stylesheet.  This looks up the
   * inheritance chain until it calls getStylesheetComposed
   * on a Stylesheet object, which will Get the owning
   * aggregated stylesheet, or that stylesheet if it is aggregated.
   *
   * @return the owning "composed" stylesheet.
   */
  public StylesheetComposed getStylesheetComposed()
  {
    return m_parentNode.getStylesheetComposed();
  }

  /**
   * Get the owning stylesheet.  This looks up the
   * inheritance chain until it calls getStylesheet
   * on a Stylesheet object, which will return itself.
   *
   * @return the owning stylesheet
   */
  public Stylesheet getStylesheet()
  {
    return (null==m_parentNode) ? null : m_parentNode.getStylesheet();
  }

  /**
   * Get the owning root stylesheet.  This looks up the
   * inheritance chain until it calls StylesheetRoot
   * on a Stylesheet object, which will return a reference
   * to the root stylesheet.
   *
   * @return the owning root stylesheet
   */
  public StylesheetRoot getStylesheetRoot()
  {
    return m_parentNode.getStylesheetRoot();
  }

  /**
   * This function is called during recomposition to
   * control how this element is composed.
   */
  public void recompose(StylesheetRoot root) throws TransformerException
  {
  }

  /**
   * This function is called after everything else has been
   * recomposed, and allows the template to set remaining
   * values that may be based on some other property that
   * depends on recomposition.
   */
  public void compose(StylesheetRoot sroot) throws TransformerException
  {
    resolvePrefixTables();
    ElemTemplateElement t = getFirstChildElem();
    m_hasTextLitOnly = ((t != null) 
              && (t.getXSLToken() == Constants.ELEMNAME_TEXTLITERALRESULT) 
              && (t.getNextSiblingElem() == null));
              
    StylesheetRoot.ComposeState cstate = sroot.getComposeState();
    cstate.pushStackMark();
  }
  
  /**
   * This after the template's children have been composed.
   */
  public void endCompose(StylesheetRoot sroot) throws TransformerException
  {
    StylesheetRoot.ComposeState cstate = sroot.getComposeState();
    cstate.popStackMark();
  }

  /**
   * Throw a template element runtime error.  (Note: should we throw a TransformerException instead?)
   *
   * @param msg key of the error that occured.
   * @param args Arguments to be used in the message
   */
  public void error(String msg, Object[] args)
  {

    String themsg = XSLMessages.createMessage(msg, args);

    throw new RuntimeException(XSLMessages.createMessage(
                                    XSLTErrorResources.ER_ELEMTEMPLATEELEM_ERR,
                                    new Object[]{ themsg }));
  }
  
  /*
   * Throw an error.
   *
   * @param msg Message key for the error
   *
   */
  public void error(String msg)
  {
    error(msg, null);
  }
  

  // Implemented DOM Element methods.
  /**
   * Add a child to the child list.
   * NOTE: This presumes the child did not previously have a parent.
   * Making that assumption makes this a less expensive operation -- but
   * requires that if you *do* want to reparent a node, you use removeChild()
   * first to remove it from its previous context. Failing to do so will
   * damage the tree.
   *
   * @param newChild Child to be added to child list
   *
   * @return Child just added to the child list
   * @throws DOMException
   */
  public Node appendChild(Node newChild) throws DOMException
  {

    if (null == newChild)
    {
      error(XSLTErrorResources.ER_NULL_CHILD, null);  //"Trying to add a null child!");
    }

    ElemTemplateElement elem = (ElemTemplateElement) newChild;

    if (null == m_firstChild)
    {
      m_firstChild = elem;
    }
    else
    {
      ElemTemplateElement last = (ElemTemplateElement) getLastChild();

      last.m_nextSibling = elem;
    }

    elem.m_parentNode = this;

    return newChild;
  }

  /**
   * Add a child to the child list.
   * NOTE: This presumes the child did not previously have a parent.
   * Making that assumption makes this a less expensive operation -- but
   * requires that if you *do* want to reparent a node, you use removeChild()
   * first to remove it from its previous context. Failing to do so will
   * damage the tree.
   *
   * @param elem Child to be added to child list
   *
   * @return Child just added to the child list
   */
  public ElemTemplateElement appendChild(ElemTemplateElement elem)
  {

    if (null == elem)
    {
      error(XSLTErrorResources.ER_NULL_CHILD, null);  //"Trying to add a null child!");
    }

    if (null == m_firstChild)
    {
      m_firstChild = elem;
    }
    else
    {
      ElemTemplateElement last = getLastChildElem();

      last.m_nextSibling = elem;
    }

    elem.setParentElem(this);

    return elem;
  }


  /**
   * Tell if there are child nodes.
   *
   * @return True if there are child nodes
   */
  public boolean hasChildNodes()
  {
    return (null != m_firstChild);
  }

  /**
   * Get the type of the node.
   *
   * @return Constant for this node type
   */
  public short getNodeType()
  {
    return org.w3c.dom.Node.ELEMENT_NODE;
  }

  /**
   * Return the nodelist (same reference).
   *
   * @return The nodelist containing the child nodes (this)
   */
  public NodeList getChildNodes()
  {
    return this;
  }

  /**
   * Remove a child.
   * ADDED 9/8/200 to support compilation.
   * TODO: ***** Alternative is "removeMe() from my parent if any"
   * ... which is less well checked, but more convenient in some cases.
   * Given that we assume only experts are calling this class, it might
   * be preferable. It's less DOMish, though.
   * 
   * @param childETE The child to remove. This operation is a no-op
   * if oldChild is not a child of this node.
   *
   * @return the removed child, or null if the specified
   * node was not a child of this element.
   */
  public ElemTemplateElement removeChild(ElemTemplateElement childETE)
  {

    if (childETE == null || childETE.m_parentNode != this)
      return null;

    // Pointers to the child
    if (childETE == m_firstChild)
      m_firstChild = childETE.m_nextSibling;
    else
    {
      ElemTemplateElement prev = childETE.getPreviousSiblingElem();

      prev.m_nextSibling = childETE.m_nextSibling;
    }

    // Pointers from the child
    childETE.m_parentNode = null;
    childETE.m_nextSibling = null;

    return childETE;
  }

  /**
   * Replace the old child with a new child.
   *
   * @param newChild New child to replace with
   * @param oldChild Old child to be replaced
   *
   * @return The new child
   *
   * @throws DOMException
   */
  public Node replaceChild(Node newChild, Node oldChild) throws DOMException
  {

    if (oldChild == null || oldChild.getParentNode() != this)
      return null;

    ElemTemplateElement newChildElem = ((ElemTemplateElement) newChild);
    ElemTemplateElement oldChildElem = ((ElemTemplateElement) oldChild);

    // Fix up previous sibling.
    ElemTemplateElement prev =
      (ElemTemplateElement) oldChildElem.getPreviousSibling();

    if (null != prev)
      prev.m_nextSibling = newChildElem;

    // Fix up parent (this)
    if (m_firstChild == oldChildElem)
      m_firstChild = newChildElem;

    newChildElem.m_parentNode = this;
    oldChildElem.m_parentNode = null;
    newChildElem.m_nextSibling = oldChildElem.m_nextSibling;
    oldChildElem.m_nextSibling = null;

    // newChildElem.m_stylesheet = oldChildElem.m_stylesheet;
    // oldChildElem.m_stylesheet = null;
    return newChildElem;
  }
  
  /**
   * Unimplemented. See org.w3c.dom.Node
   *
   * @param newChild New child node to insert
   * @param refChild Insert in front of this child
   *
   * @return null
   *
   * @throws DOMException
   */
  public Node insertBefore(Node newChild, Node refChild) throws DOMException
  {
  	if(null == refChild)
  	{
  		appendChild(newChild);
  		return newChild;
  	}
  	
  	if(newChild == refChild)
  	{
  		// hmm...
  		return newChild;
  	}

    Node node = m_firstChild; 
    Node prev = null;  
    boolean foundit = false;
    
    while (null != node)
    {
    	// If the newChild is already in the tree, it is first removed.
    	if(newChild == node)
    	{
    		if(null != prev)
    			((ElemTemplateElement)prev).m_nextSibling = 
    				(ElemTemplateElement)node.getNextSibling();
    		else
    			m_firstChild = (ElemTemplateElement)node.getNextSibling();
    		node = node.getNextSibling();
    		continue; // prev remains the same.
    	}
    	if(refChild == node)
    	{
    		if(null != prev)
    		{
    			((ElemTemplateElement)prev).m_nextSibling = (ElemTemplateElement)newChild;
    		}
    		else
    		{
    			m_firstChild = (ElemTemplateElement)newChild;
    		}
    		((ElemTemplateElement)newChild).m_nextSibling = (ElemTemplateElement)refChild;
    		((ElemTemplateElement)newChild).setParentElem(this);
    		prev = newChild;
    		node = node.getNextSibling();
    		foundit = true;
    		continue;
    	}
    	prev = node;
    	node = node.getNextSibling();
    }
    
    if(!foundit)
    	throw new DOMException(DOMException.NOT_FOUND_ERR, 
    		"refChild was not found in insertBefore method!");
    else
    	return newChild;
  }


  /**
   * Replace the old child with a new child.
   *
   * @param newChildElem New child to replace with
   * @param oldChildElem Old child to be replaced
   *
   * @return The new child
   *
   * @throws DOMException
   */
  public ElemTemplateElement replaceChild(ElemTemplateElement newChildElem, 
                                          ElemTemplateElement oldChildElem)
  {

    if (oldChildElem == null || oldChildElem.getParentElem() != this)
      return null;

    // Fix up previous sibling.
    ElemTemplateElement prev =
      oldChildElem.getPreviousSiblingElem();

    if (null != prev)
      prev.m_nextSibling = newChildElem;

    // Fix up parent (this)
    if (m_firstChild == oldChildElem)
      m_firstChild = newChildElem;

    newChildElem.m_parentNode = this;
    oldChildElem.m_parentNode = null;
    newChildElem.m_nextSibling = oldChildElem.m_nextSibling;
    oldChildElem.m_nextSibling = null;

    // newChildElem.m_stylesheet = oldChildElem.m_stylesheet;
    // oldChildElem.m_stylesheet = null;
    return newChildElem;
  }

  /**
   * NodeList method: Count the immediate children of this node
   *
   * @return The count of children of this node
   */
  public int getLength()
  {

    // It is assumed that the getChildNodes call synchronized
    // the children. Therefore, we can access the first child
    // reference directly.
    int count = 0;

    for (ElemTemplateElement node = m_firstChild; node != null;
            node = node.m_nextSibling)
    {
      count++;
    }

    return count;
  }  // getLength():int

  /**
   * NodeList method: Return the Nth immediate child of this node, or
   * null if the index is out of bounds.
   *
   * @param index Index of child to find
   * @return org.w3c.dom.Node: the child node at given index
   */
  public Node item(int index)
  {

    // It is assumed that the getChildNodes call synchronized
    // the children. Therefore, we can access the first child
    // reference directly.
    ElemTemplateElement node = m_firstChild;

    for (int i = 0; i < index && node != null; i++)
    {
      node = node.m_nextSibling;
    }

    return node;
  }  // item(int):Node

  /**
   * Get the stylesheet owner.
   *
   * @return The stylesheet owner
   */
  public Document getOwnerDocument()
  {
    return getStylesheet();
  }
  
  /**
   * Get the owning xsl:template element.
   *
   * @return The owning xsl:template element, this element if it is a xsl:template, or null if not found.
   */
  public ElemTemplate getOwnerXSLTemplate()
  {
  	ElemTemplateElement el = this;
  	int type = el.getXSLToken();
  	while((null != el) && (type != Constants.ELEMNAME_TEMPLATE))
  	{
    	el = el.getParentElem();
    	if(null != el)
  			type = el.getXSLToken();
  	}
  	return (ElemTemplate)el;
  }


  /**
   * Return the element name.
   *
   * @return The element name
   */
  public String getTagName()
  {
    return getNodeName();
  }
  
  /**
   * Tell if this element only has one text child, for optimization purposes.
   * @return true of this element only has one text literal child.
   */
  public boolean hasTextLitOnly()
  {
    return m_hasTextLitOnly;
  }

  /**
   * Return the base identifier.
   *
   * @return The base identifier 
   */
  public String getBaseIdentifier()
  {

    // Should this always be absolute?
    return this.getSystemId();
  }

  /** line number where the current document event ends.
   *  @serial         */
  private int m_lineNumber;

  /** line number where the current document event ends.
   *  @serial         */
  private int m_endLineNumber;

  /**
   * Return the line number where the current document event ends.
   * Note that this is the line position of the first character
   * after the text associated with the document event.
   * @return The line number, or -1 if none is available.
   * @see #getColumnNumber
   */
  public int getEndLineNumber()
  {
	return m_endLineNumber;
  }

  /**
   * Return the line number where the current document event ends.
   * Note that this is the line position of the first character
   * after the text associated with the document event.
   * @return The line number, or -1 if none is available.
   * @see #getColumnNumber
   */
  public int getLineNumber()
  {
    return m_lineNumber;
  }

  /** the column number where the current document event ends.
   *  @serial        */
  private int m_columnNumber;

  /** the column number where the current document event ends.
   *  @serial        */
  private int m_endColumnNumber;

  /**
   * Return the column number where the current document event ends.
   * Note that this is the column number of the first
   * character after the text associated with the document
   * event.  The first column in a line is position 1.
   * @return The column number, or -1 if none is available.
   * @see #getLineNumber
   */
  public int getEndColumnNumber()
  {
	return m_endColumnNumber;
  }

  /**
   * Return the column number where the current document event ends.
   * Note that this is the column number of the first
   * character after the text associated with the document
   * event.  The first column in a line is position 1.
   * @return The column number, or -1 if none is available.
   * @see #getLineNumber
   */
  public int getColumnNumber()
  {
    return m_columnNumber;
  }

  /**
   * Return the public identifier for the current document event.
   * 

This will be the public identifier * @return A string containing the public identifier, or * null if none is available. * @see #getSystemId */ public String getPublicId() { return (null != m_parentNode) ? m_parentNode.getPublicId() : null; } /** * Return the system identifier for the current document event. * *

If the system identifier is a URL, the parser must resolve it * fully before passing it to the application.

* * @return A string containing the system identifier, or null * if none is available. * @see #getPublicId */ public String getSystemId() { Stylesheet sheet=getStylesheet(); return (sheet==null) ? null : sheet.getHref(); } /** * Set the location information for this element. * * @param locator Source Locator with location information for this element */ public void setLocaterInfo(SourceLocator locator) { m_lineNumber = locator.getLineNumber(); m_columnNumber = locator.getColumnNumber(); } /** * Set the end location information for this element. * * @param locator Source Locator with location information for this element */ public void setEndLocaterInfo(SourceLocator locator) { m_endLineNumber = locator.getLineNumber(); m_endColumnNumber = locator.getColumnNumber(); } /** * Tell if this element has the default space handling * turned off or on according to the xml:space attribute. * @serial */ private boolean m_defaultSpace = true; /** * Tell if this element only has one text child, for optimization purposes. * @serial */ private boolean m_hasTextLitOnly = false; /** * Tell if this element only has one text child, for optimization purposes. * @serial */ protected boolean m_hasVariableDecl = false; public boolean hasVariableDecl() { return m_hasVariableDecl; } /** * Set the "xml:space" attribute. * A text node is preserved if an ancestor element of the text node * has an xml:space attribute with a value of preserve, and * no closer ancestor element has xml:space with a value of default. * @see strip in XSLT Specification * @see section-Creating-Text in XSLT Specification * * @param v Enumerated value, either Constants.ATTRVAL_PRESERVE * or Constants.ATTRVAL_STRIP. */ public void setXmlSpace(int v) { m_defaultSpace = ((Constants.ATTRVAL_STRIP == v) ? true : false); } /** * Get the "xml:space" attribute. * A text node is preserved if an ancestor element of the text node * has an xml:space attribute with a value of preserve, and * no closer ancestor element has xml:space with a value of default. * @see strip in XSLT Specification * @see section-Creating-Text in XSLT Specification * * @return The value of the xml:space attribute */ public boolean getXmlSpace() { return m_defaultSpace; } /** * The list of namespace declarations for this element only. * @serial */ private List m_declaredPrefixes; /** * Return a table that contains all prefixes available * within this element context. * * @return Vector containing the prefixes available within this * element context */ public List getDeclaredPrefixes() { return m_declaredPrefixes; } /** * From the SAX2 helper class, set the namespace table for * this element. Take care to call resolveInheritedNamespaceDecls. * after all namespace declarations have been added. * * @param nsSupport non-null reference to NamespaceSupport from * the ContentHandler. * * @throws TransformerException */ public void setPrefixes(NamespaceSupport nsSupport) throws TransformerException { setPrefixes(nsSupport, false); } /** * Copy the namespace declarations from the NamespaceSupport object. * Take care to call resolveInheritedNamespaceDecls. * after all namespace declarations have been added. * * @param nsSupport non-null reference to NamespaceSupport from * the ContentHandler. * @param excludeXSLDecl true if XSLT namespaces should be ignored. * * @throws TransformerException */ public void setPrefixes(NamespaceSupport nsSupport, boolean excludeXSLDecl) throws TransformerException { Enumeration decls = nsSupport.getDeclaredPrefixes(); while (decls.hasMoreElements()) { String prefix = (String) decls.nextElement(); if (null == m_declaredPrefixes) m_declaredPrefixes = new ArrayList(); String uri = nsSupport.getURI(prefix); if (excludeXSLDecl && uri.equals(Constants.S_XSLNAMESPACEURL)) continue; // System.out.println("setPrefixes - "+prefix+", "+uri); XMLNSDecl decl = new XMLNSDecl(prefix, uri, false); m_declaredPrefixes.add(decl); } } /** * Fullfill the PrefixResolver interface. Calling this for this class * will throw an error. * * @param prefix The prefix to look up, which may be an empty string ("") * for the default Namespace. * @param context The node context from which to look up the URI. * * @return null if the error listener does not choose to throw an exception. */ public String getNamespaceForPrefix(String prefix, org.w3c.dom.Node context) { this.error(XSLTErrorResources.ER_CANT_RESOLVE_NSPREFIX, null); return null; } /** * Given a namespace, get the corrisponding prefix. * 9/15/00: This had been iteratively examining the m_declaredPrefixes * field for this node and its parents. That makes life difficult for * the compilation experiment, which doesn't have a static vector of * local declarations. Replaced a recursive solution, which permits * easier subclassing/overriding. * * @param prefix non-null reference to prefix string, which should map * to a namespace URL. * * @return The namespace URL that the prefix maps to, or null if no * mapping can be found. */ public String getNamespaceForPrefix(String prefix) { // if (null != prefix && prefix.equals("xmlns")) // { // return Constants.S_XMLNAMESPACEURI; // } List nsDecls = m_declaredPrefixes; if (null != nsDecls) { int n = nsDecls.size(); if(prefix.equals(Constants.ATTRVAL_DEFAULT_PREFIX)) { prefix = ""; } for (int i = 0; i < n; i++) { XMLNSDecl decl = (XMLNSDecl) nsDecls.get(i); if (prefix.equals(decl.getPrefix())) return decl.getURI(); } } // Not found; ask our ancestors if (null != m_parentNode) return m_parentNode.getNamespaceForPrefix(prefix); // JJK: No ancestors; try implicit // %REVIEW% Are there literals somewhere that we should use instead? // %REVIEW% Is this really the best place to patch? if("xml".equals(prefix)) return "http://www.w3.org/XML/1998/namespace"; // No parent, so no definition return null; } /** * The table of {@link XMLNSDecl}s for this element * and all parent elements, screened for excluded prefixes. * @serial */ private List m_prefixTable; /** * Return a table that contains all prefixes available * within this element context. * * @return reference to vector of {@link XMLNSDecl}s, which may be null. */ List getPrefixTable() { return m_prefixTable; } void setPrefixTable(List list) { m_prefixTable = list; } /** * Get whether or not the passed URL is contained flagged by * the "extension-element-prefixes" property. This method is overridden * by {@link ElemLiteralResult#containsExcludeResultPrefix}. * @see extension-element in XSLT Specification * * @param prefix non-null reference to prefix that might be excluded. * * @return true if the prefix should normally be excluded. */ public boolean containsExcludeResultPrefix(String prefix, String uri) { ElemTemplateElement parent = this.getParentElem(); if(null != parent) return parent.containsExcludeResultPrefix(prefix, uri); return false; } /** * Tell if the result namespace decl should be excluded. Should be called before * namespace aliasing (I think). * * @param prefix non-null reference to prefix. * @param uri reference to namespace that prefix maps to, which is protected * for null, but should really never be passed as null. * * @return true if the given namespace should be excluded. * * @throws TransformerException */ private boolean excludeResultNSDecl(String prefix, String uri) throws TransformerException { if (uri != null) { if (uri.equals(Constants.S_XSLNAMESPACEURL) || getStylesheet().containsExtensionElementURI(uri)) return true; if (containsExcludeResultPrefix(prefix, uri)) return true; } return false; } /** * Combine the parent's namespaces with this namespace * for fast processing, taking care to reference the * parent's namespace if this namespace adds nothing new. * (Recursive method, walking the elements depth-first, * processing parents before children). * Note that this method builds m_prefixTable with aliased * namespaces, *not* the original namespaces. * * @throws TransformerException */ public void resolvePrefixTables() throws TransformerException { // Always start with a fresh prefix table! setPrefixTable(null); // If we have declared declarations, then we look for // a parent that has namespace decls, and add them // to this element's decls. Otherwise we just point // to the parent that has decls. if (null != this.m_declaredPrefixes) { StylesheetRoot stylesheet = this.getStylesheetRoot(); // Add this element's declared prefixes to the // prefix table. int n = m_declaredPrefixes.size(); for (int i = 0; i < n; i++) { XMLNSDecl decl = (XMLNSDecl) m_declaredPrefixes.get(i); String prefix = decl.getPrefix(); String uri = decl.getURI(); if(null == uri) uri = ""; boolean shouldExclude = excludeResultNSDecl(prefix, uri); // Create a new prefix table if one has not already been created. if (null == m_prefixTable) setPrefixTable(new ArrayList()); NamespaceAlias nsAlias = stylesheet.getNamespaceAliasComposed(uri); if(null != nsAlias) { // Should I leave the non-aliased element in the table as // an excluded element? // The exclusion should apply to the non-aliased prefix, so // we don't calculate it here. -sb // Use stylesheet prefix, as per xsl WG decl = new XMLNSDecl(nsAlias.getStylesheetPrefix(), nsAlias.getResultNamespace(), shouldExclude); } else decl = new XMLNSDecl(prefix, uri, shouldExclude); m_prefixTable.add(decl); } } ElemTemplateElement parent = this.getParentNodeElem(); if (null != parent) { // The prefix table of the parent should never be null! List prefixes = parent.m_prefixTable; if (null == m_prefixTable && !needToCheckExclude()) { // Nothing to combine, so just use parent's table! setPrefixTable(parent.m_prefixTable); } else { // Add the prefixes from the parent's prefix table. int n = prefixes.size(); for (int i = 0; i < n; i++) { XMLNSDecl decl = (XMLNSDecl) prefixes.get(i); boolean shouldExclude = excludeResultNSDecl(decl.getPrefix(), decl.getURI()); if (shouldExclude != decl.getIsExcluded()) { decl = new XMLNSDecl(decl.getPrefix(), decl.getURI(), shouldExclude); } //m_prefixTable.addElement(decl); addOrReplaceDecls(decl); } } } else if (null == m_prefixTable) { // Must be stylesheet element without any result prefixes! setPrefixTable(new ArrayList()); } } /** * Add or replace this namespace declaration in list * of namespaces in scope for this element. * * @param newDecl namespace declaration to add to list */ void addOrReplaceDecls(XMLNSDecl newDecl) { int n = m_prefixTable.size(); for (int i = n - 1; i >= 0; i--) { XMLNSDecl decl = (XMLNSDecl) m_prefixTable.get(i); if (decl.getPrefix().equals(newDecl.getPrefix())) { return; } } m_prefixTable.add(newDecl); } /** * Return whether we need to check namespace prefixes * against and exclude result prefixes list. */ boolean needToCheckExclude() { return false; } /** * Send startPrefixMapping events to the result tree handler * for all declared prefix mappings in the stylesheet. * * @param transformer non-null reference to the the current transform-time state. * * @throws TransformerException */ void executeNSDecls(TransformerImpl transformer) throws TransformerException { executeNSDecls(transformer, null); } /** * Send startPrefixMapping events to the result tree handler * for all declared prefix mappings in the stylesheet. * * @param transformer non-null reference to the the current transform-time state. * @param ignorePrefix string prefix to not startPrefixMapping * * @throws TransformerException */ void executeNSDecls(TransformerImpl transformer, String ignorePrefix) throws TransformerException { try { if (null != m_prefixTable) { SerializationHandler rhandler = transformer.getResultTreeHandler(); int n = m_prefixTable.size(); for (int i = n - 1; i >= 0; i--) { XMLNSDecl decl = (XMLNSDecl) m_prefixTable.get(i); if (!decl.getIsExcluded() && !(null != ignorePrefix && decl.getPrefix().equals(ignorePrefix))) { rhandler.startPrefixMapping(decl.getPrefix(), decl.getURI(), true); } } } } catch(org.xml.sax.SAXException se) { throw new TransformerException(se); } } /** * Send endPrefixMapping events to the result tree handler * for all declared prefix mappings in the stylesheet. * * @param transformer non-null reference to the the current transform-time state. * * @throws TransformerException */ void unexecuteNSDecls(TransformerImpl transformer) throws TransformerException { unexecuteNSDecls(transformer, null); } /** * Send endPrefixMapping events to the result tree handler * for all declared prefix mappings in the stylesheet. * * @param transformer non-null reference to the the current transform-time state. * @param ignorePrefix string prefix to not endPrefixMapping * * @throws TransformerException */ void unexecuteNSDecls(TransformerImpl transformer, String ignorePrefix) throws TransformerException { try { if (null != m_prefixTable) { SerializationHandler rhandler = transformer.getResultTreeHandler(); int n = m_prefixTable.size(); for (int i = 0; i < n; i++) { XMLNSDecl decl = (XMLNSDecl) m_prefixTable.get(i); if (!decl.getIsExcluded() && !(null != ignorePrefix && decl.getPrefix().equals(ignorePrefix))) { rhandler.endPrefixMapping(decl.getPrefix()); } } } } catch(org.xml.sax.SAXException se) { throw new TransformerException(se); } } /** The *relative* document order number of this element. * @serial */ protected int m_docOrderNumber = -1; /** * Set the UID (document order index). * * @param i Index of this child. */ public void setUid(int i) { m_docOrderNumber = i; } /** * Get the UID (document order index). * * @return Index of this child */ public int getUid() { return m_docOrderNumber; } /** * Parent node. * @serial */ protected ElemTemplateElement m_parentNode; /** * Get the parent as a Node. * * @return This node's parent node */ public Node getParentNode() { return m_parentNode; } /** * Get the parent as an ElemTemplateElement. * * @return This node's parent as an ElemTemplateElement */ public ElemTemplateElement getParentElem() { return m_parentNode; } /** * Set the parent as an ElemTemplateElement. * * @param p This node's parent as an ElemTemplateElement */ public void setParentElem(ElemTemplateElement p) { m_parentNode = p; } /** * Next sibling. * @serial */ ElemTemplateElement m_nextSibling; /** * Get the next sibling (as a Node) or return null. * * @return this node's next sibling or null */ public Node getNextSibling() { return m_nextSibling; } /** * Get the previous sibling (as a Node) or return null. * Note that this may be expensive if the parent has many kids; * we accept that price in exchange for avoiding the prev pointer * TODO: If we were sure parents and sibs are always ElemTemplateElements, * we could hit the fields directly rather than thru accessors. * * @return This node's previous sibling or null */ public Node getPreviousSibling() { Node walker = getParentNode(), prev = null; if (walker != null) for (walker = walker.getFirstChild(); walker != null; prev = walker, walker = walker.getNextSibling()) { if (walker == this) return prev; } return null; } /** * Get the previous sibling (as a Node) or return null. * Note that this may be expensive if the parent has many kids; * we accept that price in exchange for avoiding the prev pointer * TODO: If we were sure parents and sibs are always ElemTemplateElements, * we could hit the fields directly rather than thru accessors. * * @return This node's previous sibling or null */ public ElemTemplateElement getPreviousSiblingElem() { ElemTemplateElement walker = getParentNodeElem(); ElemTemplateElement prev = null; if (walker != null) for (walker = walker.getFirstChildElem(); walker != null; prev = walker, walker = walker.getNextSiblingElem()) { if (walker == this) return prev; } return null; } /** * Get the next sibling (as a ElemTemplateElement) or return null. * * @return This node's next sibling (as a ElemTemplateElement) or null */ public ElemTemplateElement getNextSiblingElem() { return m_nextSibling; } /** * Get the parent element. * * @return This node's next parent (as a ElemTemplateElement) or null */ public ElemTemplateElement getParentNodeElem() { return m_parentNode; } /** * First child. * @serial */ ElemTemplateElement m_firstChild; /** * Get the first child as a Node. * * @return This node's first child or null */ public Node getFirstChild() { return m_firstChild; } /** * Get the first child as a ElemTemplateElement. * * @return This node's first child (as a ElemTemplateElement) or null */ public ElemTemplateElement getFirstChildElem() { return m_firstChild; } /** * Get the last child. * * @return This node's last child */ public Node getLastChild() { ElemTemplateElement lastChild = null; for (ElemTemplateElement node = m_firstChild; node != null; node = node.m_nextSibling) { lastChild = node; } return lastChild; } /** * Get the last child. * * @return This node's last child */ public ElemTemplateElement getLastChildElem() { ElemTemplateElement lastChild = null; for (ElemTemplateElement node = m_firstChild; node != null; node = node.m_nextSibling) { lastChild = node; } return lastChild; } /** DOM backpointer that this element originated from. */ transient private org.w3c.dom.Node m_DOMBackPointer; /** * If this stylesheet was created from a DOM, get the * DOM backpointer that this element originated from. * For tooling use. * * @return DOM backpointer that this element originated from or null. */ public org.w3c.dom.Node getDOMBackPointer() { return m_DOMBackPointer; } /** * If this stylesheet was created from a DOM, set the * DOM backpointer that this element originated from. * For tooling use. * * @param n DOM backpointer that this element originated from. */ public void setDOMBackPointer(org.w3c.dom.Node n) { m_DOMBackPointer = n; } /** * Compares this object with the specified object for precedence order. * The order is determined by the getImportCountComposed() of the containing * composed stylesheet and the getUid() of this element. * Returns a negative integer, zero, or a positive integer as this * object is less than, equal to, or greater than the specified object. * * @param o The object to be compared to this object * @return a negative integer, zero, or a positive integer as this object is * less than, equal to, or greater than the specified object. * @throws ClassCastException if the specified object's * type prevents it from being compared to this Object. */ public int compareTo(Object o) throws ClassCastException { ElemTemplateElement ro = (ElemTemplateElement) o; int roPrecedence = ro.getStylesheetComposed().getImportCountComposed(); int myPrecedence = this.getStylesheetComposed().getImportCountComposed(); if (myPrecedence < roPrecedence) return -1; else if (myPrecedence > roPrecedence) return 1; else return this.getUid() - ro.getUid(); } /** * Get information about whether or not an element should strip whitespace. * @see strip in XSLT Specification * * @param support The XPath runtime state. * @param targetElement Element to check * * @return true if the whitespace should be stripped. * * @throws TransformerException */ public boolean shouldStripWhiteSpace( org.apache.xpath.XPathContext support, org.w3c.dom.Element targetElement) throws TransformerException { StylesheetRoot sroot = this.getStylesheetRoot(); return (null != sroot) ? sroot.shouldStripWhiteSpace(support, targetElement) :false; } /** * Get information about whether or not whitespace can be stripped. * @see strip in XSLT Specification * * @return true if the whitespace can be stripped. */ public boolean canStripWhiteSpace() { StylesheetRoot sroot = this.getStylesheetRoot(); return (null != sroot) ? sroot.canStripWhiteSpace() : false; } /** * Tell if this element can accept variable declarations. * @return true if the element can accept and process variable declarations. */ public boolean canAcceptVariables() { return true; } //=============== ExpressionNode methods ================ /** * Set the parent of this node. * @param n Must be a ElemTemplateElement. */ public void exprSetParent(ExpressionNode n) { // This obviously requires that only a ElemTemplateElement can // parent a node of this type. setParentElem((ElemTemplateElement)n); } /** * Get the ExpressionNode parent of this node. */ public ExpressionNode exprGetParent() { return getParentElem(); } /** * This method tells the node to add its argument to the node's * list of children. * @param n Must be a ElemTemplateElement. */ public void exprAddChild(ExpressionNode n, int i) { appendChild((ElemTemplateElement)n); } /** This method returns a child node. The children are numbered from zero, left to right. */ public ExpressionNode exprGetChild(int i) { return (ExpressionNode)item(i); } /** Return the number of children the node has. */ public int exprGetNumChildren() { return getLength(); } /** * Accept a visitor and call the appropriate method * for this class. * * @param visitor The visitor whose appropriate method will be called. * @return true if the children of the object should be visited. */ protected boolean accept(XSLTVisitor visitor) { return visitor.visitInstruction(this); } /** * @see XSLTVisitable#callVisitors(XSLTVisitor) */ public void callVisitors(XSLTVisitor visitor) { if(accept(visitor)) { callChildVisitors(visitor); } } /** * Call the children visitors. * @param visitor The visitor whose appropriate method will be called. */ protected void callChildVisitors(XSLTVisitor visitor, boolean callAttributes) { for (ElemTemplateElement node = m_firstChild; node != null; node = node.m_nextSibling) { node.callVisitors(visitor); } } /** * Call the children visitors. * @param visitor The visitor whose appropriate method will be called. */ protected void callChildVisitors(XSLTVisitor visitor) { callChildVisitors(visitor, true); } /** * @see PrefixResolver#handlesNullPrefixes() */ public boolean handlesNullPrefixes() { return false; } }




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