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<h4 class="subsection">8.4.13 Example programs for matrices</h4>

<p>The program below shows how to allocate, initialize and read from a matrix
using the functions <code>gsl_matrix_alloc</code>, <code>gsl_matrix_set</code> and
<code>gsl_matrix_get</code>.

<pre class="example"><pre class="verbatim">     #include &lt;stdio.h>
     #include &lt;gsl/gsl_matrix.h>
     
     int
     main (void)
     {
       int i, j; 
       gsl_matrix * m = gsl_matrix_alloc (10, 3);
       
       for (i = 0; i &lt; 10; i++)
         for (j = 0; j &lt; 3; j++)
           gsl_matrix_set (m, i, j, 0.23 + 100*i + j);
       
       for (i = 0; i &lt; 100; i++)  /* OUT OF RANGE ERROR */
         for (j = 0; j &lt; 3; j++)
           printf ("m(%d,%d) = %g\n", i, j, 
                   gsl_matrix_get (m, i, j));
     
       gsl_matrix_free (m);
     
       return 0;
     }
</pre></pre>
   <p class="noindent">Here is the output from the program.  The final loop attempts to read
outside the range of the matrix <code>m</code>, and the error is trapped by
the range-checking code in <code>gsl_matrix_get</code>.

<pre class="example">     $ ./a.out
     m(0,0) = 0.23
     m(0,1) = 1.23
     m(0,2) = 2.23
     m(1,0) = 100.23
     m(1,1) = 101.23
     m(1,2) = 102.23
     ...
     m(9,2) = 902.23
     gsl: matrix_source.c:13: ERROR: first index out of range
     Default GSL error handler invoked.
     Aborted (core dumped)
</pre>
   <p class="noindent">The next program shows how to write a matrix to a file.

<pre class="example"><pre class="verbatim">     #include &lt;stdio.h>
     #include &lt;gsl/gsl_matrix.h>
     
     int
     main (void)
     {
       int i, j, k = 0; 
       gsl_matrix * m = gsl_matrix_alloc (100, 100);
       gsl_matrix * a = gsl_matrix_alloc (100, 100);
       
       for (i = 0; i &lt; 100; i++)
         for (j = 0; j &lt; 100; j++)
           gsl_matrix_set (m, i, j, 0.23 + i + j);
     
       {  
          FILE * f = fopen ("test.dat", "wb");
          gsl_matrix_fwrite (f, m);
          fclose (f);
       }
     
       {  
          FILE * f = fopen ("test.dat", "rb");
          gsl_matrix_fread (f, a);
          fclose (f);
       }
     
       for (i = 0; i &lt; 100; i++)
         for (j = 0; j &lt; 100; j++)
           {
             double mij = gsl_matrix_get (m, i, j);
             double aij = gsl_matrix_get (a, i, j);
             if (mij != aij) k++;
           }
     
       gsl_matrix_free (m);
       gsl_matrix_free (a);
     
       printf ("differences = %d (should be zero)\n", k);
       return (k > 0);
     }
</pre></pre>
   <p class="noindent">After running this program the file <samp><span class="file">test.dat</span></samp> should contain the
elements of <code>m</code>, written in binary format.  The matrix which is read
back in using the function <code>gsl_matrix_fread</code> should be exactly
equal to the original matrix.

   <p>The following program demonstrates the use of vector views.  The program
computes the column norms of a matrix.

<pre class="example"><pre class="verbatim">     #include &lt;math.h>
     #include &lt;stdio.h>
     #include &lt;gsl/gsl_matrix.h>
     #include &lt;gsl/gsl_blas.h>
     
     int
     main (void)
     {
       size_t i,j;
     
       gsl_matrix *m = gsl_matrix_alloc (10, 10);
     
       for (i = 0; i &lt; 10; i++)
         for (j = 0; j &lt; 10; j++)
           gsl_matrix_set (m, i, j, sin (i) + cos (j));
     
       for (j = 0; j &lt; 10; j++)
         {
           gsl_vector_view column = gsl_matrix_column (m, j);
           double d;
     
           d = gsl_blas_dnrm2 (&amp;column.vector);
     
           printf ("matrix column %d, norm = %g\n", j, d);
         }
     
       gsl_matrix_free (m);
     
       return 0;
     }
</pre></pre>
   <p class="noindent">Here is the output of the program,

<pre class="example">     $ ./a.out
<pre class="verbatim">     matrix column 0, norm = 4.31461
     matrix column 1, norm = 3.1205
     matrix column 2, norm = 2.19316
     matrix column 3, norm = 3.26114
     matrix column 4, norm = 2.53416
     matrix column 5, norm = 2.57281
     matrix column 6, norm = 4.20469
     matrix column 7, norm = 3.65202
     matrix column 8, norm = 2.08524
     matrix column 9, norm = 3.07313
</pre></pre>
   <p class="noindent">The results can be confirmed using <span class="sc">gnu octave</span>,

<pre class="example">     $ octave
     GNU Octave, version 2.0.16.92
     octave&gt; m = sin(0:9)' * ones(1,10)
                    + ones(10,1) * cos(0:9);
     octave&gt; sqrt(sum(m.^2))
     ans =
       4.3146  3.1205  2.1932  3.2611  2.5342  2.5728
       4.2047  3.6520  2.0852  3.0731
</pre>
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