/usr/include/freefoam/finiteVolume/FitData.C is in libfreefoam-dev 0.1.0+dfsg-1build1.
This file is owned by root:root, with mode 0o644.
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========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration |
\\ / A nd | Copyright (C) 1991-2010 OpenCFD Ltd.
\\/ M anipulation |
-------------------------------------------------------------------------------
License
This file is part of OpenFOAM.
OpenFOAM is free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
OpenFOAM is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with OpenFOAM. If not, see <http://www.gnu.org/licenses/>.
\*---------------------------------------------------------------------------*/
#include "FitData.H"
#include <finiteVolume/surfaceFields.H>
#include <finiteVolume/volFields.H>
#include <OpenFOAM/SVD.H>
// * * * * * * * * * * * * * * * * Constructors * * * * * * * * * * * * * * //
template<class Form, class ExtendedStencil, class Polynomial>
Foam::FitData<Form, ExtendedStencil, Polynomial>::FitData
(
const fvMesh& mesh,
const ExtendedStencil& stencil,
const bool linearCorrection,
const scalar linearLimitFactor,
const scalar centralWeight
)
:
MeshObject<fvMesh, Form>(mesh),
stencil_(stencil),
linearCorrection_(linearCorrection),
linearLimitFactor_(linearLimitFactor),
centralWeight_(centralWeight),
# ifdef SPHERICAL_GEOMETRY
dim_(2),
# else
dim_(mesh.nGeometricD()),
# endif
minSize_(Polynomial::nTerms(dim_))
{
// Check input
if (linearLimitFactor <= SMALL || linearLimitFactor > 3)
{
FatalErrorIn("FitData<Polynomial>::FitData(..)")
<< "linearLimitFactor requested = " << linearLimitFactor
<< " should be between zero and 3"
<< exit(FatalError);
}
}
// * * * * * * * * * * * * * * * Member Functions * * * * * * * * * * * * * //
template<class FitDataType, class ExtendedStencil, class Polynomial>
void Foam::FitData<FitDataType, ExtendedStencil, Polynomial>::findFaceDirs
(
vector& idir, // value changed in return
vector& jdir, // value changed in return
vector& kdir, // value changed in return
const label facei
)
{
const fvMesh& mesh = this->mesh();
idir = mesh.faceAreas()[facei];
idir /= mag(idir);
# ifndef SPHERICAL_GEOMETRY
if (mesh.nGeometricD() <= 2) // find the normal direction
{
if (mesh.geometricD()[0] == -1)
{
kdir = vector(1, 0, 0);
}
else if (mesh.geometricD()[1] == -1)
{
kdir = vector(0, 1, 0);
}
else
{
kdir = vector(0, 0, 1);
}
}
else // 3D so find a direction in the plane of the face
{
const face& f = mesh.faces()[facei];
kdir = mesh.points()[f[0]] - mesh.faceCentres()[facei];
}
# else
// Spherical geometry so kdir is the radial direction
kdir = mesh.faceCentres()[facei];
# endif
if (mesh.nGeometricD() == 3)
{
// Remove the idir component from kdir and normalise
kdir -= (idir & kdir)*idir;
scalar magk = mag(kdir);
if (magk < SMALL)
{
FatalErrorIn("findFaceDirs(..)") << " calculated kdir = zero"
<< exit(FatalError);
}
else
{
kdir /= magk;
}
}
jdir = kdir ^ idir;
}
template<class FitDataType, class ExtendedStencil, class Polynomial>
void Foam::FitData<FitDataType, ExtendedStencil, Polynomial>::calcFit
(
scalarList& coeffsi,
const List<point>& C,
const scalar wLin,
const label facei
)
{
vector idir(1,0,0);
vector jdir(0,1,0);
vector kdir(0,0,1);
findFaceDirs(idir, jdir, kdir, facei);
// Setup the point weights
scalarList wts(C.size(), scalar(1));
wts[0] = centralWeight_;
if (linearCorrection_)
{
wts[1] = centralWeight_;
}
// Reference point
point p0 = this->mesh().faceCentres()[facei];
// Info << "Face " << facei << " at " << p0 << " stencil points at:\n"
// << C - p0 << endl;
// p0 -> p vector in the face-local coordinate system
vector d;
// Local coordinate scaling
scalar scale = 1;
// Matrix of the polynomial components
scalarRectangularMatrix B(C.size(), minSize_, scalar(0));
for(label ip = 0; ip < C.size(); ip++)
{
const point& p = C[ip];
d.x() = (p - p0)&idir;
d.y() = (p - p0)&jdir;
# ifndef SPHERICAL_GEOMETRY
d.z() = (p - p0)&kdir;
# else
d.z() = mag(p) - mag(p0);
# endif
if (ip == 0)
{
scale = cmptMax(cmptMag((d)));
}
// Scale the radius vector
d /= scale;
Polynomial::addCoeffs
(
B[ip],
d,
wts[ip],
dim_
);
}
// Additional weighting for constant and linear terms
for(label i = 0; i < B.n(); i++)
{
B[i][0] *= wts[0];
B[i][1] *= wts[0];
}
// Set the fit
label stencilSize = C.size();
coeffsi.setSize(stencilSize);
bool goodFit = false;
for(int iIt = 0; iIt < 8 && !goodFit; iIt++)
{
SVD svd(B, SMALL);
scalar maxCoeff = 0;
label maxCoeffi = 0;
for(label i=0; i<stencilSize; i++)
{
coeffsi[i] = wts[0]*wts[i]*svd.VSinvUt()[0][i];
if (mag(coeffsi[i]) > maxCoeff)
{
maxCoeff = mag(coeffsi[i]);
maxCoeffi = i;
}
}
if (linearCorrection_)
{
goodFit =
(mag(coeffsi[0] - wLin) < linearLimitFactor_*wLin)
&& (mag(coeffsi[1] - (1 - wLin)) < linearLimitFactor_*(1 - wLin))
&& maxCoeffi <= 1;
}
else
{
// Upwind: weight on face is 1.
goodFit =
(mag(coeffsi[0] - 1.0) < linearLimitFactor_*1.0)
&& maxCoeffi <= 1;
}
// if (goodFit && iIt > 0)
// {
// Info << "FitData<Polynomial>::calcFit"
// << "(const List<point>& C, const label facei" << nl
// << "Can now fit face " << facei << " iteration " << iIt
// << " with sum of weights " << sum(coeffsi) << nl
// << " Weights " << coeffsi << nl
// << " Linear weights " << wLin << " " << 1 - wLin << nl
// << " sing vals " << svd.S() << endl;
// }
if (!goodFit) // (not good fit so increase weight in the centre and weight
// for constant and linear terms)
{
// if (iIt == 7)
// {
// WarningIn
// (
// "FitData<Polynomial>::calcFit"
// "(const List<point>& C, const label facei"
// ) << "Cannot fit face " << facei << " iteration " << iIt
// << " with sum of weights " << sum(coeffsi) << nl
// << " Weights " << coeffsi << nl
// << " Linear weights " << wLin << " " << 1 - wLin << nl
// << " sing vals " << svd.S() << endl;
// }
wts[0] *= 10;
if (linearCorrection_)
{
wts[1] *= 10;
}
for(label j = 0; j < B.m(); j++)
{
B[0][j] *= 10;
B[1][j] *= 10;
}
for(label i = 0; i < B.n(); i++)
{
B[i][0] *= 10;
B[i][1] *= 10;
}
}
}
if (goodFit)
{
if (linearCorrection_)
{
// Remove the uncorrected linear coefficients
coeffsi[0] -= wLin;
coeffsi[1] -= 1 - wLin;
}
else
{
// Remove the uncorrected upwind coefficients
coeffsi[0] -= 1.0;
}
}
else
{
// if (debug)
// {
WarningIn
(
"FitData<Polynomial>::calcFit(..)"
) << "Could not fit face " << facei
<< " Weights = " << coeffsi
<< ", reverting to linear." << nl
<< " Linear weights " << wLin << " " << 1 - wLin << endl;
// }
coeffsi = 0;
}
}
template<class FitDataType, class ExtendedStencil, class Polynomial>
bool Foam::FitData<FitDataType, ExtendedStencil, Polynomial>::movePoints()
{
calcFit();
return true;
}
// ************************ vim: set sw=4 sts=4 et: ************************ //
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