<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN"> <html><head><meta http-equiv="Content-Type" content="text/html;charset=iso-8859-1"> <title>Fixed Size Matrix Triple Product</title> <link href="doxygen.css" rel="stylesheet" type="text/css"> </head><body> <!-- Generated by Doxygen 1.2.14 --> <center> <a class="qindex" href="index.html">Main Page</a> &nbsp; <a class="qindex" href="modules.html">Modules</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>Fixed Size Matrix Triple Product<br> <small> [<a class="el" href="group__FixedSizeMatrix.html">Fixed Size Matrices</a>,&nbsp;<a class="el" href="group__FixedSizeMatVec.html">Fixed Size Matrices and Vectors</a>]</small> </h1><table border=0 cellpadding=0 cellspacing=0> <tr><td colspan=2><br><h2>Functions</h2></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a>&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a0">gan_symmat22_lrmultm22T_s</a> (<a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *A, <a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *B, <a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *C)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Matrix triple product involving symmetric matrices.</em> <a href="#a0">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a>&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a1">gan_symmat22_lrmultm22_s</a> (<a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *A, <a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *B, <a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *C)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Matrix triple product involving symmetric matrices.</em> <a href="#a1">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a2">gan_symmat22_lrmultm22T_q</a> (<a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *A, <a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *B, <a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *C, <a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *D)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Macro: Matrix triple product involving symmetric matrices.</em> <a href="#a2">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a3">gan_symmat22_lrmultm22_q</a> (<a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *A, <a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *B, <a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *C, <a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *D)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Macro: Matrix triple product involving symmetric matrices.</em> <a href="#a3">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a>&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a4">gan_symmat22f_lrmultm22T_s</a> (<a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> *A, <a class="el" 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nowrap align=right valign=top><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a>&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a12">gan_symmat22f_lrmultm23T_s</a> (<a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> *A, <a class="el" href="structGan__Matrix23__f.html">Gan_Matrix23_f</a> *B, <a class="el" href="structGan__Matrix23__f.html">Gan_Matrix23_f</a> *C)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Matrix triple product involving symmetric matrices.</em> <a href="#a12">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a>&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a13">gan_symmat33f_lrmultm23_s</a> (<a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *A, <a class="el" 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<tr><td>&nbsp;</td><td><font size=-1><em>Macro: Matrix triple product involving symmetric matrices.</em> <a href="#a26">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a27">gan_symmat33_lrmultm33_q</a> (<a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *A, <a class="el" href="structGan__Matrix33.html">Gan_Matrix33</a> *B, <a class="el" href="structGan__Matrix33.html">Gan_Matrix33</a> *C, <a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *D)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Macro: Matrix triple product involving symmetric matrices.</em> <a href="#a27">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a>&nbsp;</td><td valign=bottom><a 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size=-1><em>Matrix triple product involving symmetric matrices.</em> <a href="#a29">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a30">gan_symmat33f_lrmultm33T_q</a> (<a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *A, <a class="el" href="structGan__Matrix33__f.html">Gan_Matrix33_f</a> *B, <a class="el" href="structGan__Matrix33__f.html">Gan_Matrix33_f</a> *C, <a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *D)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Macro: Matrix triple product involving symmetric matrices.</em> <a href="#a30">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a31">gan_symmat33f_lrmultm33_q</a> (<a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *A, <a class="el" href="structGan__Matrix33__f.html">Gan_Matrix33_f</a> *B, <a class="el" href="structGan__Matrix33__f.html">Gan_Matrix33_f</a> *C, <a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *D)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Macro: Matrix triple product involving symmetric matrices.</em> <a href="#a31">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a>&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a32">gan_symmat33_lrmultm34T_s</a> (<a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *A, <a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *B, <a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *C)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Matrix triple product involving symmetric matrices.</em> <a href="#a32">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a>&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a33">gan_symmat44_lrmultm34_s</a> (<a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *A, <a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *B, <a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *C)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Matrix triple product involving symmetric matrices.</em> <a href="#a33">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a34">gan_symmat33_lrmultm34T_q</a> (<a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *A, <a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *B, <a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *C, <a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *D)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Macro: Matrix triple product involving symmetric matrices.</em> <a href="#a34">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a35">gan_symmat44_lrmultm34_q</a> (<a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *A, <a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *B, <a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *C, <a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *D)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Macro: Matrix triple product involving symmetric matrices.</em> <a href="#a35">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a>&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a36">gan_symmat33f_lrmultm34T_s</a> (<a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *A, <a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *B, <a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *C)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Matrix triple product involving symmetric matrices.</em> <a href="#a36">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a>&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a37">gan_symmat44f_lrmultm34_s</a> (<a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *A, <a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *B, <a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *C)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Matrix triple product involving symmetric matrices.</em> <a href="#a37">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a38">gan_symmat33f_lrmultm34T_q</a> (<a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *A, <a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *B, <a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *C, <a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *D)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Macro: Matrix triple product involving symmetric matrices.</em> <a href="#a38">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a39">gan_symmat44f_lrmultm34_q</a> (<a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *A, <a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *B, <a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *C, <a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *D)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Macro: Matrix triple product involving symmetric matrices.</em> <a href="#a39">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a>&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a40">gan_symmat44_lrmultm44T_s</a> (<a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *A, <a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *B, <a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *C)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Matrix triple product involving symmetric matrices.</em> <a href="#a40">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a>&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a41">gan_symmat44_lrmultm44_s</a> (<a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *A, <a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *B, <a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *C)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Matrix triple product involving symmetric matrices.</em> <a href="#a41">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a42">gan_symmat44_lrmultm44T_q</a> (<a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *A, <a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *B, <a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *C, <a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *D)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Macro: Matrix triple product involving symmetric matrices.</em> <a href="#a42">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a43">gan_symmat44_lrmultm44_q</a> (<a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *A, <a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *B, <a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *C, <a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *D)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Macro: Matrix triple product involving symmetric matrices.</em> <a href="#a43">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a>&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a44">gan_symmat44f_lrmultm44T_s</a> (<a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *A, <a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *B, <a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *C)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Matrix triple product involving symmetric matrices.</em> <a href="#a44">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a>&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a45">gan_symmat44f_lrmultm44_s</a> (<a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *A, <a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *B, <a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *C)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Matrix triple product involving symmetric matrices.</em> <a href="#a45">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a46">gan_symmat44f_lrmultm44T_q</a> (<a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *A, <a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *B, <a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *C, <a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *D)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Macro: Matrix triple product involving symmetric matrices.</em> <a href="#a46">More...</a><em></em></font><br><br></td></tr> <tr><td nowrap align=right valign=top><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td><td valign=bottom><a class="el" href="group__FixedSizeTripleMatrixProduct.html#a47">gan_symmat44f_lrmultm44_q</a> (<a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *A, <a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *B, <a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *C, <a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *D)</td></tr> <tr><td>&nbsp;</td><td><font size=-1><em>Macro: Matrix triple product involving symmetric matrices.</em> <a href="#a47">More...</a><em></em></font><br><br></td></tr> </table> <hr><h2>Function Documentation</h2> <a name="a3" doxytag="2x2matrix.h::gan_symmat22_lrmultm22_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a>* gan_symmat22_lrmultm22_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_57.gif">  as symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_55.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a1" doxytag="2x2matrix.c::gan_symmat22_lrmultm22_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> gan_symmat22_lrmultm22_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_57.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a2" doxytag="2x2matrix.h::gan_symmat22_lrmultm22T_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a>* gan_symmat22_lrmultm22T_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_51.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a0" doxytag="2x2matrix.c::gan_symmat22_lrmultm22T_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> gan_symmat22_lrmultm22T_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22.html">Gan_Matrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a10" doxytag="2x3matrix.h::gan_symmat22_lrmultm23T_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a>* gan_symmat22_lrmultm23T_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23.html">Gan_Matrix23</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23.html">Gan_Matrix23</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_51.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a8" doxytag="2x3matrix.c::gan_symmat22_lrmultm23T_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> gan_symmat22_lrmultm23T_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23.html">Gan_Matrix23</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23.html">Gan_Matrix23</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a18" doxytag="2x4matrix.h::gan_symmat22_lrmultm24T_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a>* gan_symmat22_lrmultm24T_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24.html">Gan_Matrix24</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24.html">Gan_Matrix24</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_51.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a16" doxytag="2x4matrix.c::gan_symmat22_lrmultm24T_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> gan_symmat22_lrmultm24T_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24.html">Gan_Matrix24</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24.html">Gan_Matrix24</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a7" doxytag="2x2matrixf.h::gan_symmat22f_lrmultm22_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a>* gan_symmat22f_lrmultm22_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22__f.html">Gan_Matrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22__f.html">Gan_Matrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_57.gif">  as symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_55.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a5" doxytag="2x2matrixf.c::gan_symmat22f_lrmultm22_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> gan_symmat22f_lrmultm22_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22__f.html">Gan_Matrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22__f.html">Gan_Matrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_57.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a6" doxytag="2x2matrixf.h::gan_symmat22f_lrmultm22T_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a>* gan_symmat22f_lrmultm22T_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22__f.html">Gan_Matrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22__f.html">Gan_Matrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_51.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a4" doxytag="2x2matrixf.c::gan_symmat22f_lrmultm22T_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> gan_symmat22f_lrmultm22T_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22__f.html">Gan_Matrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix22__f.html">Gan_Matrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a14" doxytag="2x3matrixf.h::gan_symmat22f_lrmultm23T_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a>* gan_symmat22f_lrmultm23T_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23__f.html">Gan_Matrix23_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23__f.html">Gan_Matrix23_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_51.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a12" doxytag="2x3matrixf.c::gan_symmat22f_lrmultm23T_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> gan_symmat22f_lrmultm23T_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23__f.html">Gan_Matrix23_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23__f.html">Gan_Matrix23_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a22" doxytag="2x4matrixf.h::gan_symmat22f_lrmultm24T_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a>* gan_symmat22f_lrmultm24T_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24__f.html">Gan_Matrix24_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24__f.html">Gan_Matrix24_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_51.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a20" doxytag="2x4matrixf.c::gan_symmat22f_lrmultm24T_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> gan_symmat22f_lrmultm24T_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24__f.html">Gan_Matrix24_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24__f.html">Gan_Matrix24_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a11" doxytag="2x3matrix.h::gan_symmat33_lrmultm23_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a>* gan_symmat33_lrmultm23_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23.html">Gan_Matrix23</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23.html">Gan_Matrix23</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_57.gif">  as symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_55.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a9" doxytag="2x3matrix.c::gan_symmat33_lrmultm23_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> gan_symmat33_lrmultm23_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23.html">Gan_Matrix23</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23.html">Gan_Matrix23</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_57.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a27" doxytag="3x3matrix.h::gan_symmat33_lrmultm33_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a>* gan_symmat33_lrmultm33_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33.html">Gan_Matrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33.html">Gan_Matrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_57.gif">  as symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_55.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a25" doxytag="3x3matrix.c::gan_symmat33_lrmultm33_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> gan_symmat33_lrmultm33_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33.html">Gan_Matrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33.html">Gan_Matrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_57.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a26" doxytag="3x3matrix.h::gan_symmat33_lrmultm33T_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a>* gan_symmat33_lrmultm33T_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33.html">Gan_Matrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33.html">Gan_Matrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_51.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a24" doxytag="3x3matrix.c::gan_symmat33_lrmultm33T_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> gan_symmat33_lrmultm33T_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33.html">Gan_Matrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33.html">Gan_Matrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a34" doxytag="3x4matrix.h::gan_symmat33_lrmultm34T_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a>* gan_symmat33_lrmultm34T_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_51.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a32" doxytag="3x4matrix.c::gan_symmat33_lrmultm34T_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> gan_symmat33_lrmultm34T_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a15" doxytag="2x3matrixf.h::gan_symmat33f_lrmultm23_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a>* gan_symmat33f_lrmultm23_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23__f.html">Gan_Matrix23_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23__f.html">Gan_Matrix23_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_57.gif">  as symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_55.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a13" doxytag="2x3matrixf.c::gan_symmat33f_lrmultm23_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> gan_symmat33f_lrmultm23_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23__f.html">Gan_Matrix23_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix23__f.html">Gan_Matrix23_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_57.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a31" doxytag="3x3matrixf.h::gan_symmat33f_lrmultm33_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a>* gan_symmat33f_lrmultm33_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33__f.html">Gan_Matrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33__f.html">Gan_Matrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_57.gif">  as symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_55.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a29" doxytag="3x3matrixf.c::gan_symmat33f_lrmultm33_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> gan_symmat33f_lrmultm33_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33__f.html">Gan_Matrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33__f.html">Gan_Matrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_57.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a30" doxytag="3x3matrixf.h::gan_symmat33f_lrmultm33T_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a>* gan_symmat33f_lrmultm33T_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33__f.html">Gan_Matrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33__f.html">Gan_Matrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_51.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a28" doxytag="3x3matrixf.c::gan_symmat33f_lrmultm33T_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> gan_symmat33f_lrmultm33T_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33__f.html">Gan_Matrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix33__f.html">Gan_Matrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a38" doxytag="3x4matrixf.h::gan_symmat33f_lrmultm34T_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a>* gan_symmat33f_lrmultm34T_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_51.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a36" doxytag="3x4matrixf.c::gan_symmat33f_lrmultm34T_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> gan_symmat33f_lrmultm34T_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a19" doxytag="2x4matrix.h::gan_symmat44_lrmultm24_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a>* gan_symmat44_lrmultm24_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24.html">Gan_Matrix24</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24.html">Gan_Matrix24</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_57.gif">  as symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_55.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a17" doxytag="2x4matrix.c::gan_symmat44_lrmultm24_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22.html">Gan_SquMatrix22</a> gan_symmat44_lrmultm24_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24.html">Gan_Matrix24</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24.html">Gan_Matrix24</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_57.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a35" doxytag="3x4matrix.h::gan_symmat44_lrmultm34_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a>* gan_symmat44_lrmultm34_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_57.gif">  as symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_55.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a33" doxytag="3x4matrix.c::gan_symmat44_lrmultm34_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33.html">Gan_SquMatrix33</a> gan_symmat44_lrmultm34_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34.html">Gan_Matrix34</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_57.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a43" doxytag="4x4matrix.h::gan_symmat44_lrmultm44_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a>* gan_symmat44_lrmultm44_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_57.gif">  as symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_55.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a41" doxytag="4x4matrix.c::gan_symmat44_lrmultm44_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> gan_symmat44_lrmultm44_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_57.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a42" doxytag="4x4matrix.h::gan_symmat44_lrmultm44T_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a>* gan_symmat44_lrmultm44T_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_51.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a40" doxytag="4x4matrix.c::gan_symmat44_lrmultm44T_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> gan_symmat44_lrmultm44T_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44.html">Gan_SquMatrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44.html">Gan_Matrix44</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a23" doxytag="2x4matrixf.h::gan_symmat44f_lrmultm24_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a>* gan_symmat44f_lrmultm24_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24__f.html">Gan_Matrix24_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24__f.html">Gan_Matrix24_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_57.gif">  as symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_55.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a21" doxytag="2x4matrixf.c::gan_symmat44f_lrmultm24_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix22__f.html">Gan_SquMatrix22_f</a> gan_symmat44f_lrmultm24_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24__f.html">Gan_Matrix24_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix24__f.html">Gan_Matrix24_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_57.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a39" doxytag="3x4matrixf.h::gan_symmat44f_lrmultm34_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a>* gan_symmat44f_lrmultm34_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_57.gif">  as symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_55.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a37" doxytag="3x4matrixf.c::gan_symmat44f_lrmultm34_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix33__f.html">Gan_SquMatrix33_f</a> gan_symmat44f_lrmultm34_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix34__f.html">Gan_Matrix34_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_57.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a47" doxytag="4x4matrixf.h::gan_symmat44f_lrmultm44_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a>* gan_symmat44f_lrmultm44_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_57.gif">  as symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_55.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a45" doxytag="4x4matrixf.c::gan_symmat44f_lrmultm44_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> gan_symmat44f_lrmultm44_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_57.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <a name="a46" doxytag="4x4matrixf.h::gan_symmat44f_lrmultm44T_q"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a>* gan_symmat44f_lrmultm44T_q </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>D</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Macro: Matrix triple product involving symmetric matrices. <p>  <p>  Computes the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>, writing the result into symmetric matrix <em>D</em>. The intermediate result <img align="top" src="form_51.gif">  is written into matrix <em>C</em>. <p> <dl compact><dt><b> Returns: </b><dd> Pointer to result symmetric matrix <em>D</em>. </dl>    </td>   </tr> </table> <a name="a44" doxytag="4x4matrixf.c::gan_symmat44f_lrmultm44T_s"></a><p> <table width="100%" cellpadding="2" cellspacing="0" border="0">   <tr>     <td class="md">       <table cellpadding="0" cellspacing="0" border="0">         <tr>           <td class="md" nowrap valign="top"> <a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> gan_symmat44f_lrmultm44T_s </td>           <td class="md" valign="top">(&nbsp;</td>           <td class="md" nowrap valign="top"><a class="el" href="structGan__SquMatrix44__f.html">Gan_SquMatrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>A</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>B</em>, </td>         </tr>         <tr>           <td></td>           <td></td>           <td class="md" nowrap><a class="el" href="structGan__Matrix44__f.html">Gan_Matrix44_f</a> *&nbsp;</td>           <td class="mdname" nowrap>&nbsp; <em>C</em></td>         </tr>         <tr>           <td></td>           <td class="md">)&nbsp;</td>           <td class="md" colspan="2"></td>         </tr>        </table>     </td>   </tr> </table> <table cellspacing=5 cellpadding=0 border=0>   <tr>     <td>       &nbsp;     </td>     <td>  <p> Matrix triple product involving symmetric matrices. <p>  <p>  Returns the triple product <img align="top" src="form_56.gif">  as a symmetric matrix, for generic matrix <em>B</em> and symmetric matrix <em>A</em>.     </td>   </tr> </table> <hr><address><small>Generated on Mon Apr 29 10:47:18 2002 by <a href="http://www.doxygen.org/index.html"> <img src="doxygen.gif" alt="doxygen" align="middle" border=0  width=110 height=53></a>1.2.14 written by <a href="mailto:dimitri@stack.nl">Dimitri van Heesch</a>,  &copy;&nbsp;1997-2002</small></address> </body> </html> 
