<HTML><HEAD><TITLE>Xalan-C++ API Documentation</TITLE></HEAD>
<BODY>
<h2 align="center">Xalan-C++ API Documentation</h2>
<h3 align="center">The Xalan C++ XSLT Processor Version 1.10</h3>
</BODY>
<!-- Generated by Doxygen 1.2.8.1 -->
<center>
<a class="qindex" href="index.html">Main Page</a> &nbsp; <a class="qindex" href="hierarchy.html">Class Hierarchy</a> &nbsp; <a class="qindex" href="classes.html">Alphabetical List</a> &nbsp; <a class="qindex" href="annotated.html">Compound List</a> &nbsp; <a class="qindex" href="files.html">File List</a> &nbsp; <a class="qindex" href="functions.html">Compound Members</a> &nbsp; <a class="qindex" href="globals.html">File Members</a> &nbsp; </center>
<hr><h1>ElemForEach.hpp File Reference</h1>
<p>
Include dependency graph for ElemForEach.hpp:<p><center><img src="ElemForEach_8hpp__incl.gif" border="0" usemap="#ElemForEach.hpp_map" alt="Include dependency graph"></center>
<map name="ElemForEach.hpp_map">
<area href="XSLTDefinitions_8hpp.html" shape="rect" coords="61,93,195,69">
<area href="ElemTemplateElement_8hpp.html" shape="rect" coords="320,93,493,69">
<area href="Constants_8hpp.html" shape="rect" coords="357,141,456,117">
<area href="XalanVector_8hpp.html" shape="rect" coords="307,189,506,165">
<area href="NodeRefListBase_8hpp.html" shape="rect" coords="17,262,239,238">
<area href="XObject_8hpp.html" shape="rect" coords="320,288,493,264">
<area href="MutableNodeRefList_8hpp.html" shape="rect" coords="288,336,525,312">
</map>

<p>
This graph shows which files directly or indirectly include this file:<p><center><img src="ElemForEach_8hpp__dep__incl.gif" border="0" usemap="#ElemForEach.hppdep_map" alt="Included by dependency graph"></center>
<map name="ElemForEach.hppdep_map">
<area href="ElemApplyTemplates_8hpp.html" shape="rect" coords="51,266,218,242">
<area href="XalanElemApplyTemplatesAllocator_8hpp.html" shape="rect" coords="11,191,258,168">
<area href="StylesheetConstructionContextDefault_8hpp.html" shape="rect" coords="7,117,262,93">
<area href="XalanCompiledStylesheetDefault_8hpp.html" shape="rect" coords="19,42,250,18">
</map>

<p>
<a href="ElemForEach_8hpp-source.html">Go to the source code of this file.</a><h2>Compounds</h2>
<ul>
<li>class <a class="el" href="classElemForEach.html">ElemForEach</a>
</ul>
<h2>Defines</h2>
<ul>
<li>#define <a class="el" href="ElemForEach_8hpp.html#a0">XALAN_ELEMFOREACH_HEADER_GUARD</a>
</ul>
<h2>Variables</h2>
<ul>
<li>XALAN_CPP_NAMESPACE_BEGIN <br>
class <a class="el" href="ElemForEach_8hpp.html#a1">ElemSort</a>
</ul>
<hr><h2>Define Documentation</h2>
<a name="a0" doxytag="ElemForEach.hpp::XALAN_ELEMFOREACH_HEADER_GUARD"></a><p>
<table width="100%" cellpadding="2" cellspacing="0" border="0">
  <tr>
    <td class="md">
      <table cellpadding="0" cellspacing="0" border="0">
        <tr>
          <td nowrap valign="top"><b> 
#define XALAN_ELEMFOREACH_HEADER_GUARD
      </table>
    </td>
  </tr>
</table>
<table cellspacing=5 cellpadding=0 border=0>
  <tr>
    <td>
      &nbsp;
    </td>
    <td>

<p>
    </td>
  </tr>
</table>
<hr><h2>Variable Documentation</h2>
<a name="a1" doxytag="ElemForEach.hpp::ElemSort"></a><p>
<table width="100%" cellpadding="2" cellspacing="0" border="0">
  <tr>
    <td class="md">
      <table cellpadding="0" cellspacing="0" border="0">
        <tr>
          <td nowrap valign="top"><b> 
XALAN_CPP_NAMESPACE_BEGIN class ElemSort
          </b></td>
        </tr>

      </table>
    </td>
  </tr>
</table>
<table cellspacing=5 cellpadding=0 border=0>
  <tr>
    <td>
      &nbsp;
    </td>
    <td>

<p>
    </td>
  </tr>
</table>
<p align="center"><a href="diagramnotes.html">Interpreting class diagrams</a></p>
<p><FONT color="#000000" face="arial,helvetica,sanserif" size="-1">
<i><A href="http://www.stack.nl/~dimitri/doxygen/">Doxygen</A> and 
<A href="http://www.research.att.com/sw/tools/graphviz/">GraphViz</A> are used to generate this API documentation from the Xalan-C header files.</I></FONT></p>

<TABLE border="0" cellpadding="0" cellspacing="0" width="820"><TR><TD bgcolor="#0086b2"><IMG height="1" src="../resources/dot.gif" width="1" alt="dot"></TD></TR></TABLE>
<TABLE BORDER="0" CELLPADDING="0" CELLSPACING="0" WIDTH="80%">
	<TR>
		<TD WIDTH="80%" VALIGN="TOP">
			<P ALIGN="CENTER"><B>Xalan-C++ XSLT Processor Version 1.10</B><BR>
			Copyright &copy; 1999-2004 The Apache Software Foundation. All Rights Reserved.</i></p>
		</TD>
	</TR>
	<TR>
		<TD WIDTH="100%">
			<P ALIGN="CENTER"><IMG SRC="ApacheLogo.jpg" WIDTH="387" HEIGHT="100" ALIGN="BOTTOM" BORDER="0" ALT="Apache Logo">
		</TD>
	</TR>
</TABLE>
