/* * 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: ElemCallTemplate.java 468643 2006-10-28 06:56:03Z minchau $ */ package org.apache.xalan.templates; 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.utils.QName; import org.apache.xpath.VariableStack; import org.apache.xpath.XPathContext; import org.apache.xpath.objects.XObject; /** * Implement xsl:call-template. *
* &!ELEMENT xsl:call-template (xsl:with-param)*> * &!ATTLIST xsl:call-template * name %qname; #REQUIRED * & ** @see named-templates in XSLT Specification * @xsl.usage advanced */ public class ElemCallTemplate extends ElemForEach { static final long serialVersionUID = 5009634612916030591L; /** * An xsl:call-template element invokes a template by name; * it has a required name attribute that identifies the template to be invoked. * @serial */ public QName m_templateName = null; /** * Set the "name" attribute. * An xsl:call-template element invokes a template by name; * it has a required name attribute that identifies the template to be invoked. * * @param name Name attribute to set */ public void setName(QName name) { m_templateName = name; } /** * Get the "name" attribute. * An xsl:call-template element invokes a template by name; * it has a required name attribute that identifies the template to be invoked. * * @return Name attribute of this element */ public QName getName() { return m_templateName; } /** * The template which is named by QName. * @serial */ private ElemTemplate m_template = null; /** * Get an int constant identifying the type of element. * @see org.apache.xalan.templates.Constants * * @return The token ID for this element */ public int getXSLToken() { return Constants.ELEMNAME_CALLTEMPLATE; } /** * Return the node name. * * @return The name of this element */ public String getNodeName() { return Constants.ELEMNAME_CALLTEMPLATE_STRING; } /** * 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 { super.compose(sroot); // Call compose on each param no matter if this is apply-templates // or call templates. int length = getParamElemCount(); for (int i = 0; i < length; i++) { ElemWithParam ewp = getParamElem(i); ewp.compose(sroot); } if ((null != m_templateName) && (null == m_template)) { m_template = this.getStylesheetRoot().getTemplateComposed(m_templateName); if (null == m_template) { String themsg = XSLMessages.createMessage( XSLTErrorResources.ER_ELEMTEMPLATEELEM_ERR, new Object[] { m_templateName }); throw new TransformerException(themsg, this); //"Could not find template named: '"+templateName+"'"); } length = getParamElemCount(); for (int i = 0; i < length; i++) { ElemWithParam ewp = getParamElem(i); ewp.m_index = -1; // Find the position of the param in the template being called, // and set the index of the param slot. int etePos = 0; for (ElemTemplateElement ete = m_template.getFirstChildElem(); null != ete; ete = ete.getNextSiblingElem()) { if(ete.getXSLToken() == Constants.ELEMNAME_PARAMVARIABLE) { ElemParam ep = (ElemParam)ete; if(ep.getName().equals(ewp.getName())) { ewp.m_index = etePos; } } else break; etePos++; } } } } /** * This after the template's children have been composed. */ public void endCompose(StylesheetRoot sroot) throws TransformerException { int length = getParamElemCount(); for (int i = 0; i < length; i++) { ElemWithParam ewp = getParamElem(i); ewp.endCompose(sroot); } super.endCompose(sroot); } /** * Invoke a named template. * @see named-templates in XSLT Specification * * @param transformer non-null reference to the the current transform-time state. * * @throws TransformerException */ public void execute( TransformerImpl transformer) throws TransformerException { if (null != m_template) { XPathContext xctxt = transformer.getXPathContext(); VariableStack vars = xctxt.getVarStack(); int thisframe = vars.getStackFrame(); int nextFrame = vars.link(m_template.m_frameSize); // We have to clear the section of the stack frame that has params // so that the default param evaluation will work correctly. if(m_template.m_inArgsSize > 0) { vars.clearLocalSlots(0, m_template.m_inArgsSize); if(null != m_paramElems) { int currentNode = xctxt.getCurrentNode(); vars.setStackFrame(thisframe); int size = m_paramElems.length; for (int i = 0; i < size; i++) { ElemWithParam ewp = m_paramElems[i]; if(ewp.m_index >= 0) { XObject obj = ewp.getValue(transformer, currentNode); // Note here that the index for ElemWithParam must have been // statically made relative to the xsl:template being called, // NOT this xsl:template. vars.setLocalVariable(ewp.m_index, obj, nextFrame); } } vars.setStackFrame(nextFrame); } } SourceLocator savedLocator = xctxt.getSAXLocator(); try { xctxt.setSAXLocator(m_template); // template.executeChildTemplates(transformer, sourceNode, mode, true); transformer.pushElemTemplateElement(m_template); m_template.execute(transformer); } finally { transformer.popElemTemplateElement(); xctxt.setSAXLocator(savedLocator); // When we entered this function, the current // frame buffer (cfb) index in the variable stack may // have been manually set. If we just call // unlink(), however, it will restore the cfb to the // previous link index from the link stack, rather than // the manually set cfb. So, // the only safe solution is to restore it back // to the same position it was on entry, since we're // really not working in a stack context here. (Bug4218) vars.unlink(thisframe); } } else { transformer.getMsgMgr().error(this, XSLTErrorResources.ER_TEMPLATE_NOT_FOUND, new Object[]{ m_templateName }); //"Could not find template named: '"+templateName+"'"); } } /** Vector of xsl:param elements associated with this element. * @serial */ protected ElemWithParam[] m_paramElems = null; /** * Get the count xsl:param elements associated with this element. * @return The number of xsl:param elements. */ public int getParamElemCount() { return (m_paramElems == null) ? 0 : m_paramElems.length; } /** * Get a xsl:param element associated with this element. * * @param i Index of element to find * * @return xsl:param element at given index */ public ElemWithParam getParamElem(int i) { return m_paramElems[i]; } /** * Set a xsl:param element associated with this element. * * @param ParamElem xsl:param element to set. */ public void setParamElem(ElemWithParam ParamElem) { if (null == m_paramElems) { m_paramElems = new ElemWithParam[1]; m_paramElems[0] = ParamElem; } else { // Expensive 1 at a time growth, but this is done at build time, so // I think it's OK. int length = m_paramElems.length; ElemWithParam[] ewp = new ElemWithParam[length + 1]; System.arraycopy(m_paramElems, 0, ewp, 0, length); m_paramElems = ewp; ewp[length] = ParamElem; } } /** * Add a child to the child list. * * * * @param newChild Child to add to this node's children list * * @return The child that was just added the children list * * @throws DOMException */ public ElemTemplateElement appendChild(ElemTemplateElement newChild) { int type = ((ElemTemplateElement) newChild).getXSLToken(); if (Constants.ELEMNAME_WITHPARAM == type) { setParamElem((ElemWithParam) newChild); } // You still have to append, because this element can // contain a for-each, and other elements. return super.appendChild(newChild); } /** * Call the children visitors. * @param visitor The visitor whose appropriate method will be called. */ public void callChildVisitors(XSLTVisitor visitor, boolean callAttrs) { // if (null != m_paramElems) // { // int size = m_paramElems.length; // // for (int i = 0; i < size; i++) // { // ElemWithParam ewp = m_paramElems[i]; // ewp.callVisitors(visitor); // } // } super.callChildVisitors(visitor, callAttrs); } }