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<div id="version" align=right><b>petsc-3.4.2 2013-07-02</b></div>
<A NAME="MatStoreValues"><H1>MatStoreValues</H1></A>
Stashes a copy of the matrix values; this allows, for example, reuse of the linear part of a Jacobian, while recomputing the nonlinear portion.
<H3><FONT COLOR="#CC3333">Synopsis</FONT></H3>
<PRE>
#include "petscmat.h"
PetscErrorCode MatStoreValues(Mat mat)
</PRE>
Collect on <A HREF="../Mat/Mat.html#Mat">Mat</A>
<P>
<H3><FONT COLOR="#CC3333">Input Parameters</FONT></H3>
<DT><B>mat </B> -the matrix (currently only AIJ matrices support this option)
<br>
<P>
<P>
<H3><FONT COLOR="#CC3333">Common Usage, with SNESSolve()</FONT></H3>
<pre>
Create Jacobian matrix
</pre>
<pre>
Set linear terms into matrix
</pre>
<pre>
Apply boundary conditions to matrix, at this time matrix must have
</pre>
<pre>
final nonzero structure (i.e. setting the nonlinear terms and applying
</pre>
<pre>
boundary conditions again will not change the nonzero structure
</pre>
<pre>
ierr = <A HREF="../Mat/MatSetOption.html#MatSetOption">MatSetOption</A>(mat,MAT_NEW_NONZERO_LOCATIONS,<A HREF="../Sys/PETSC_FALSE.html#PETSC_FALSE">PETSC_FALSE</A>);
</pre>
<pre>
ierr = <A HREF="../Mat/MatStoreValues.html#MatStoreValues">MatStoreValues</A>(mat);
</pre>
<pre>
Call <A HREF="../SNES/SNESSetJacobian.html#SNESSetJacobian">SNESSetJacobian</A>() with matrix
</pre>
<pre>
In your Jacobian routine
</pre>
<pre>
ierr = <A HREF="../Mat/MatRetrieveValues.html#MatRetrieveValues">MatRetrieveValues</A>(mat);
</pre>
<pre>
Set nonlinear terms in matrix
</pre>
<P>
<H3><FONT COLOR="#CC3333">Common Usage without SNESSolve(), i.e. when you handle nonlinear solve yourself</FONT></H3>
<pre>
// build linear portion of Jacobian
</pre>
<pre>
ierr = <A HREF="../Mat/MatSetOption.html#MatSetOption">MatSetOption</A>(mat,MAT_NEW_NONZERO_LOCATIONS,<A HREF="../Sys/PETSC_FALSE.html#PETSC_FALSE">PETSC_FALSE</A>);
</pre>
<pre>
ierr = <A HREF="../Mat/MatStoreValues.html#MatStoreValues">MatStoreValues</A>(mat);
</pre>
<pre>
loop over nonlinear iterations
</pre>
<pre>
ierr = <A HREF="../Mat/MatRetrieveValues.html#MatRetrieveValues">MatRetrieveValues</A>(mat);
</pre>
<pre>
// call <A HREF="../Mat/MatSetValues.html#MatSetValues">MatSetValues</A>(mat,...) to set nonliner portion of Jacobian
</pre>
<pre>
// call <A HREF="../Mat/MatAssemblyBegin.html#MatAssemblyBegin">MatAssemblyBegin</A>/End() on matrix
</pre>
<pre>
Solve linear system with Jacobian
</pre>
<pre>
endloop
</pre>
<P>
<H3><FONT COLOR="#CC3333">Notes</FONT></H3>
Matrix must already be assemblied before calling this routine
Must set the matrix option <A HREF="../Mat/MatSetOption.html#MatSetOption">MatSetOption</A>(mat,MAT_NEW_NONZERO_LOCATIONS,<A HREF="../Sys/PETSC_FALSE.html#PETSC_FALSE">PETSC_FALSE</A>); before
calling this routine.
<P>
When this is called multiple times it overwrites the previous set of stored values
and does not allocated additional space.
<P>
<H3><FONT COLOR="#CC3333">See Also</FONT></H3>
<A HREF="../Mat/MatRetrieveValues.html#MatRetrieveValues">MatRetrieveValues</A>()
<BR>
<P>
<P><B><P><B><FONT COLOR="#CC3333">Level:</FONT></B>advanced
<BR><FONT COLOR="#CC3333">Location:</FONT></B><A HREF="../../../src/mat/impls/aij/seq/aij.c.html#MatStoreValues">src/mat/impls/aij/seq/aij.c</A>
<BR><A HREF="./index.html">Index of all Mat routines</A>
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