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110 | /*=========================================================================
Module: $RCSfile: V_WedgeMetric.cpp,v $
Copyright (c) 2006 Sandia Corporation.
All rights reserved.
See Copyright.txt or http://www.kitware.com/Copyright.htm for details.
This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE. See the above copyright notice for more information.
=========================================================================*/
/*
*
* WedgeMetric.cpp contains quality calculations for wedges
*
* This file is part of VERDICT
*
*/
#define VERDICT_EXPORTS
#include "moab/verdict.h"
#include "VerdictVector.hpp"
#include <memory.h>
/*
the wedge element
5
^
/ \
/ | \
/ /2\ \
6/_______\4
| / \ |
|/_____\|
3 1
*/
/*!
calculate the volume of a wedge
this is done by dividing the wedge into 3 tets
and summing the volume of each tet
*/
C_FUNC_DEF double v_wedge_volume( int num_nodes, double coordinates[][3] )
{
double volume = 0;
VerdictVector side1, side2, side3;
if( num_nodes == 6 )
{
// divide the wedge into 3 tets and calculate each volume
side1.set( coordinates[1][0] - coordinates[0][0], coordinates[1][1] - coordinates[0][1],
coordinates[1][2] - coordinates[0][2] );
side2.set( coordinates[2][0] - coordinates[0][0], coordinates[2][1] - coordinates[0][1],
coordinates[2][2] - coordinates[0][2] );
side3.set( coordinates[3][0] - coordinates[0][0], coordinates[3][1] - coordinates[0][1],
coordinates[3][2] - coordinates[0][2] );
volume = side3 % ( side1 * side2 ) / 6;
side1.set( coordinates[4][0] - coordinates[1][0], coordinates[4][1] - coordinates[1][1],
coordinates[4][2] - coordinates[1][2] );
side2.set( coordinates[5][0] - coordinates[1][0], coordinates[5][1] - coordinates[1][1],
coordinates[5][2] - coordinates[1][2] );
side3.set( coordinates[3][0] - coordinates[1][0], coordinates[3][1] - coordinates[1][1],
coordinates[3][2] - coordinates[1][2] );
volume += side3 % ( side1 * side2 ) / 6;
side1.set( coordinates[5][0] - coordinates[1][0], coordinates[5][1] - coordinates[1][1],
coordinates[5][2] - coordinates[1][2] );
side2.set( coordinates[2][0] - coordinates[1][0], coordinates[2][1] - coordinates[1][1],
coordinates[2][2] - coordinates[1][2] );
side3.set( coordinates[3][0] - coordinates[1][0], coordinates[3][1] - coordinates[1][1],
coordinates[3][2] - coordinates[1][2] );
volume += side3 % ( side1 * side2 ) / 6;
}
return (double)volume;
}
C_FUNC_DEF void v_wedge_quality( int num_nodes,<--- The function 'v_wedge_quality' is never used.
double coordinates[][3],
unsigned int metrics_request_flag,
WedgeMetricVals* metric_vals )
{
memset( metric_vals, 0, sizeof( WedgeMetricVals ) );
if( metrics_request_flag & V_WEDGE_VOLUME ) metric_vals->volume = v_wedge_volume( num_nodes, coordinates );
}
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