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Mesh Oriented datABase
(version 5.4.1)
Array-based unstructured mesh datastructure
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Mesh Oriented datABase
(version 5.4.1)
Array-based unstructured mesh datastructure
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#include <LinearHex.hpp>
Static Public Member Functions | |
| static ErrorCode | evalFcn (const double *params, const double *field, const int ndim, const int num_tuples, double *work, double *result) |
| Forward-evaluation of field at parametric coordinates. | |
| static ErrorCode | reverseEvalFcn (EvalFcn eval, JacobianFcn jacob, InsideFcn ins, const double *posn, const double *verts, const int nverts, const int ndim, const double iter_tol, const double inside_tol, double *work, double *params, int *is_inside) |
| Reverse-evaluation of parametric coordinates at physical space position. | |
| static ErrorCode | normalFcn (const int ientDim, const int facet, const int nverts, const double *verts, double normal[]) |
| Evaluate the normal at a specified facet. | |
| static ErrorCode | jacobianFcn (const double *params, const double *verts, const int nverts, const int ndim, double *work, double *result) |
| Evaluate the jacobian at a specified parametric position. | |
| static ErrorCode | integrateFcn (const double *field, const double *verts, const int nverts, const int ndim, const int num_tuples, double *work, double *result) |
| Forward-evaluation of field at parametric coordinates. | |
| static int | insideFcn (const double *params, const int ndim, const double tol) |
| Function that returns whether or not the parameters are inside the natural space of the element. | |
| static EvalSet | eval_set () |
| static bool | compatible (EntityType tp, int numv, EvalSet &eset) |
Static Protected Attributes | |
| static const double | corner [8][3] |
| static const double | gauss [1][2] = { { 2.0, 0.0 } } |
| static const unsigned int | corner_count = 8 |
| static const unsigned int | gauss_count = 1 |
Definition at line 12 of file LinearHex.hpp.
| static bool moab::LinearHex::compatible | ( | EntityType | tp, |
| int | numv, | ||
| EvalSet & | eset | ||
| ) | [inline, static] |
Definition at line 70 of file LinearHex.hpp.
References eval_set(), and MBHEX.
Referenced by moab::EvalSet::get_eval_set().
| static EvalSet moab::LinearHex::eval_set | ( | ) | [inline, static] |
Definition at line 65 of file LinearHex.hpp.
Referenced by compatible().
{
return EvalSet( evalFcn, reverseEvalFcn, normalFcn, jacobianFcn, integrateFcn, (InitFcn)NULL, insideFcn );
}
| ErrorCode moab::LinearHex::evalFcn | ( | const double * | params, |
| const double * | field, | ||
| const int | ndim, | ||
| const int | num_tuples, | ||
| double * | work, | ||
| double * | result | ||
| ) | [static] |
Forward-evaluation of field at parametric coordinates.
Definition at line 51 of file LinearHex.cpp.
References corner, and MB_SUCCESS.
Referenced by integrateFcn().
{
assert( params && field && num_tuples != -1 );
for( int i = 0; i < num_tuples; i++ )
result[i] = 0.0;
for( unsigned i = 0; i < 8; ++i )
{
const double N_i =
( 1 + params[0] * corner[i][0] ) * ( 1 + params[1] * corner[i][1] ) * ( 1 + params[2] * corner[i][2] );
for( int j = 0; j < num_tuples; j++ )
result[j] += N_i * field[i * num_tuples + j];
}
for( int i = 0; i < num_tuples; i++ )
result[i] *= 0.125;
return MB_SUCCESS;
}
| int moab::LinearHex::insideFcn | ( | const double * | params, |
| const int | ndim, | ||
| const double | tol | ||
| ) | [static] |
Function that returns whether or not the parameters are inside the natural space of the element.
Definition at line 133 of file LinearHex.cpp.
References moab::EvalSet::inside_function().
{
return EvalSet::inside_function( params, ndim, tol );
}
| ErrorCode moab::LinearHex::integrateFcn | ( | const double * | field, |
| const double * | verts, | ||
| const int | nverts, | ||
| const int | ndim, | ||
| const int | num_tuples, | ||
| double * | work, | ||
| double * | result | ||
| ) | [static] |
Forward-evaluation of field at parametric coordinates.
Definition at line 74 of file LinearHex.cpp.
References moab::CartVect::array(), moab::Matrix3::determinant(), ErrorCode, evalFcn(), gauss, gauss_count, jacobianFcn(), and MB_SUCCESS.
{
assert( field && verts && num_tuples != -1 );
double tmp_result[8];
ErrorCode rval = MB_SUCCESS;
for( int i = 0; i < num_tuples; i++ )
result[i] = 0.0;
CartVect x;
Matrix3 J;
for( unsigned int j1 = 0; j1 < LinearHex::gauss_count; ++j1 )
{
x[0] = LinearHex::gauss[j1][1];
double w1 = LinearHex::gauss[j1][0];
for( unsigned int j2 = 0; j2 < LinearHex::gauss_count; ++j2 )
{
x[1] = LinearHex::gauss[j2][1];
double w2 = LinearHex::gauss[j2][0];
for( unsigned int j3 = 0; j3 < LinearHex::gauss_count; ++j3 )
{
x[2] = LinearHex::gauss[j3][1];
double w3 = LinearHex::gauss[j3][0];
rval = evalFcn( x.array(), field, ndim, num_tuples, NULL, tmp_result );
if( MB_SUCCESS != rval ) return rval;
rval = jacobianFcn( x.array(), verts, nverts, ndim, work, J[0] );
if( MB_SUCCESS != rval ) return rval;
double tmp_det = w1 * w2 * w3 * J.determinant();
for( int i = 0; i < num_tuples; i++ )
result[i] += tmp_result[i] * tmp_det;
}
}
}
return MB_SUCCESS;
} // LinearHex::integrate_vector()
| ErrorCode moab::LinearHex::jacobianFcn | ( | const double * | params, |
| const double * | verts, | ||
| const int | nverts, | ||
| const int | ndim, | ||
| double * | work, | ||
| double * | result | ||
| ) | [static] |
Evaluate the jacobian at a specified parametric position.
Definition at line 19 of file LinearHex.cpp.
References corner, and MB_SUCCESS.
Referenced by integrateFcn().
{
assert( params && verts );
Matrix3* J = reinterpret_cast< Matrix3* >( result );
*J = Matrix3( 0.0 );
for( unsigned i = 0; i < 8; ++i )
{
const double params_p = 1 + params[0] * corner[i][0];
const double eta_p = 1 + params[1] * corner[i][1];
const double zeta_p = 1 + params[2] * corner[i][2];
const double dNi_dparams = corner[i][0] * eta_p * zeta_p;
const double dNi_deta = corner[i][1] * params_p * zeta_p;
const double dNi_dzeta = corner[i][2] * params_p * eta_p;
( *J )( 0, 0 ) += dNi_dparams * verts[i * ndim + 0];
( *J )( 1, 0 ) += dNi_dparams * verts[i * ndim + 1];
( *J )( 2, 0 ) += dNi_dparams * verts[i * ndim + 2];
( *J )( 0, 1 ) += dNi_deta * verts[i * ndim + 0];
( *J )( 1, 1 ) += dNi_deta * verts[i * ndim + 1];
( *J )( 2, 1 ) += dNi_deta * verts[i * ndim + 2];
( *J )( 0, 2 ) += dNi_dzeta * verts[i * ndim + 0];
( *J )( 1, 2 ) += dNi_dzeta * verts[i * ndim + 1];
( *J )( 2, 2 ) += dNi_dzeta * verts[i * ndim + 2];
}
( *J ) *= 0.125;
return MB_SUCCESS;
} // LinearHex::jacobian()
| ErrorCode moab::LinearHex::normalFcn | ( | const int | ientDim, |
| const int | facet, | ||
| const int | nverts, | ||
| const double * | verts, | ||
| double | normal[] | ||
| ) | [static] |
Evaluate the normal at a specified facet.
Definition at line 138 of file LinearHex.cpp.
References moab::CN::ConnMap::conn, MB_SET_ERR, MB_SUCCESS, MBHEX, and moab::CN::mConnectivityMap.
{
// assert(facet < 6 && ientDim == 2 && nverts == 8);
if( nverts != 8 ) MB_SET_ERR( MB_FAILURE, "Incorrect vertex count for passed hex :: expected value = 8 " );
if( ientDim != 2 ) MB_SET_ERR( MB_FAILURE, "Requesting normal for unsupported dimension :: expected value = 2 " );
if( facet > 6 || facet < 0 ) MB_SET_ERR( MB_FAILURE, "Incorrect local face id :: expected value = one of 0-5" );
int id0 = CN::mConnectivityMap[MBHEX][ientDim - 1].conn[facet][0];
int id1 = CN::mConnectivityMap[MBHEX][ientDim - 1].conn[facet][1];
int id2 = CN::mConnectivityMap[MBHEX][ientDim - 1].conn[facet][3];
double x0[3], x1[3];
for( int i = 0; i < 3; i++ )
{
x0[i] = verts[3 * id1 + i] - verts[3 * id0 + i];
x1[i] = verts[3 * id2 + i] - verts[3 * id0 + i];
}
double a = x0[1] * x1[2] - x1[1] * x0[2];
double b = x1[0] * x0[2] - x0[0] * x1[2];
double c = x0[0] * x1[1] - x1[0] * x0[1];
double nrm = sqrt( a * a + b * b + c * c );
if( nrm > std::numeric_limits< double >::epsilon() )
{
normal[0] = a / nrm;
normal[1] = b / nrm;
normal[2] = c / nrm;
}
return MB_SUCCESS;
}
| ErrorCode moab::LinearHex::reverseEvalFcn | ( | EvalFcn | eval, |
| JacobianFcn | jacob, | ||
| InsideFcn | ins, | ||
| const double * | posn, | ||
| const double * | verts, | ||
| const int | nverts, | ||
| const int | ndim, | ||
| const double | iter_tol, | ||
| const double | inside_tol, | ||
| double * | work, | ||
| double * | params, | ||
| int * | is_inside | ||
| ) | [static] |
Reverse-evaluation of parametric coordinates at physical space position.
Definition at line 115 of file LinearHex.cpp.
References moab::EvalSet::evaluate_reverse().
{
assert( posn && verts );
return EvalSet::evaluate_reverse( eval, jacob, ins, posn, verts, nverts, ndim, iter_tol, inside_tol, work, params,
is_inside );
}
const double moab::LinearHex::corner [static, protected] |
{ { -1, -1, -1 }, { 1, -1, -1 }, { 1, 1, -1 }, { -1, 1, -1 },
{ -1, -1, 1 }, { 1, -1, 1 }, { 1, 1, 1 }, { -1, 1, 1 } }
Definition at line 83 of file LinearHex.hpp.
Referenced by evalFcn(), and jacobianFcn().
const unsigned int moab::LinearHex::corner_count = 8 [static, protected] |
Definition at line 85 of file LinearHex.hpp.
const double moab::LinearHex::gauss = { { 2.0, 0.0 } } [static, protected] |
Definition at line 84 of file LinearHex.hpp.
Referenced by integrateFcn().
const unsigned int moab::LinearHex::gauss_count = 1 [static, protected] |
Definition at line 86 of file LinearHex.hpp.
Referenced by integrateFcn().
1.7.6.1.
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