PVS static analyzer - 5.0 Release: Difference between revisions

m
Mark bug fixed
m (Mark bug fixed)
m (Mark bug fixed)
Line 10,417: Line 10,417:
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (349)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (349)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v614/ V614]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v614/ V614]</td>
       <td style='width: 65%;'>Uninitialized variable 'info' used.</td>
       <td style='width: 65%;'>Uninitialized variable 'info' used.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (386)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (386)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v614/ V614]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v614/ V614]</td>
       <td style='width: 65%;'>Uninitialized variable 'info' used.</td>
       <td style='width: 65%;'>Uninitialized variable 'info' used.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (430)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (430)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison: sigma != 0.0. It's probably better to use a comparison with defined precision: fabs(A - B) &gt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison: sigma != 0.0. It's probably better to use a comparison with defined precision: fabs(A - B) &gt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (511)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (511)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison: rcond_plus_one == 1.0. It's probably better to use a comparison with defined precision: fabs(A - B) &lt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison: rcond_plus_one == 1.0. It's probably better to use a comparison with defined precision: fabs(A - B) &lt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (530)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (530)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison: sigma != 0.0. It's probably better to use a comparison with defined precision: fabs(A - B) &gt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison: sigma != 0.0. It's probably better to use a comparison with defined precision: fabs(A - B) &gt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (593)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (593)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison: rcond_plus_one == 1.0. It's probably better to use a comparison with defined precision: fabs(A - B) &lt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison: rcond_plus_one == 1.0. It's probably better to use a comparison with defined precision: fabs(A - B) &lt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (612)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (612)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison: std::real(sigma) != 0.0. It's probably better to use a comparison with defined precision: fabs(A - B) &gt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison: std::real(sigma) != 0.0. It's probably better to use a comparison with defined precision: fabs(A - B) &gt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (612)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (612)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison: std::imag(sigma) != 0.0. It's probably better to use a comparison with defined precision: fabs(A - B) &gt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison: std::imag(sigma) != 0.0. It's probably better to use a comparison with defined precision: fabs(A - B) &gt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (694)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (694)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison: rcond_plus_one == 1.0. It's probably better to use a comparison with defined precision: fabs(A - B) &lt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison: rcond_plus_one == 1.0. It's probably better to use a comparison with defined precision: fabs(A - B) &lt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (713)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (713)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison: std::real(sigma) != 0.0. It's probably better to use a comparison with defined precision: fabs(A - B) &gt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison: std::real(sigma) != 0.0. It's probably better to use a comparison with defined precision: fabs(A - B) &gt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (713)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (713)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison: std::imag(sigma) != 0.0. It's probably better to use a comparison with defined precision: fabs(A - B) &gt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison: std::imag(sigma) != 0.0. It's probably better to use a comparison with defined precision: fabs(A - B) &gt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (776)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (776)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison: rcond_plus_one == 1.0. It's probably better to use a comparison with defined precision: fabs(A - B) &lt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison: rcond_plus_one == 1.0. It's probably better to use a comparison with defined precision: fabs(A - B) &lt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1393)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1393)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison. It's probably better to use a comparison with defined precision: fabs(sigma) &gt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison. It's probably better to use a comparison with defined precision: fabs(sigma) &gt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1475)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1475)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison. It's probably better to use a comparison with defined precision: fabs(std::abs(sigma)) &lt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison. It's probably better to use a comparison with defined precision: fabs(std::abs(sigma)) &lt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1596)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1596)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1619)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1619)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1638)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1638)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1657)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1657)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1706)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1706)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v560/ V560]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v560/ V560]</td>
       <td style='width: 65%;'>A part of conditional expression is always true: mode == 1.</td>
       <td style='width: 65%;'>A part of conditional expression is always true: mode == 1.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1724)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (1724)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v560/ V560]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v560/ V560]</td>
       <td style='width: 65%;'>A part of conditional expression is always true: mode == 1.</td>
       <td style='width: 65%;'>A part of conditional expression is always true: mode == 1.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2021)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2021)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison: di[i] == 0. It's probably better to use a comparison with defined precision: fabs(A - B) &lt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison: di[i] == 0. It's probably better to use a comparison with defined precision: fabs(A - B) &lt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2397)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2397)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison: di[i] == 0.. It's probably better to use a comparison with defined precision: fabs(A - B) &lt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison: di[i] == 0.. It's probably better to use a comparison with defined precision: fabs(A - B) &lt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2503)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2503)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison. It's probably better to use a comparison with defined precision: fabs(sigmar) &gt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison. It's probably better to use a comparison with defined precision: fabs(sigmar) &gt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2586)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2586)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison. It's probably better to use a comparison with defined precision: fabs(std::abs(sigmar)) &lt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison. It's probably better to use a comparison with defined precision: fabs(std::abs(sigmar)) &lt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2711)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2711)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2734)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2734)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2753)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2753)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2772)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2772)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2840)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (2840)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v550/ V550]</td>
       <td style='width: 65%;'>An odd precise comparison: di[i] == 0.. It's probably better to use a comparison with defined precision: fabs(A - B) &lt; Epsilon.</td>
       <td style='width: 65%;'>An odd precise comparison: di[i] == 0.. It's probably better to use a comparison with defined precision: fabs(A - B) &lt; Epsilon.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (3783)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (3783)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (3806)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (3806)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (3825)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (3825)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
     </tr>
     </tr>
     <tr>
     <tr>
       <td style='width: 30%;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (3844)</div></td>
       <td style='width: 30%; text-decoration: line-through;'><div title="/home/pavel/oct/octave/liboctave/numeric/eigs-base.cc">eigs-base.cc (3844)</div></td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 5%;'>[https://www.viva64.com/en/w/v601/ V601]</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
       <td style='width: 65%;'>The 'false' value is implicitly cast to the integer type.</td>
1,073

edits