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foam-extend4.1-coherent-io/applications/utilities/mesh/conversion/starToFoam/readCells.C

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/*---------------------------------------------------------------------------*\
========= |
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\\ / F ield | foam-extend: Open Source CFD
2016-06-20 15:00:40 +00:00
\\ / O peration | Version: 4.0
\\ / A nd | Web: http://www.foam-extend.org
\\/ M anipulation | For copyright notice see file Copyright
-------------------------------------------------------------------------------
License
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This file is part of foam-extend.
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foam-extend is free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
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Free Software Foundation, either version 3 of the License, or (at your
option) any later version.
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foam-extend 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
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along with foam-extend. If not, see <http://www.gnu.org/licenses/>.
Description
Create intermediate mesh from Prostar files
\*---------------------------------------------------------------------------*/
#include "starMesh.H"
#include "IFstream.H"
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
void starMesh::addRegularCell
(
const labelList& labels,
const label nCreatedCells
)
{
// Momory management
static labelList labelsHex(8);
static labelList labelsPrism(6);
static labelList labelsPyramid(5);
static labelList labelsTet(4);
static labelList labelsTetWedge(5);
label regularTypeFlag = -1;
// grab the shape from the table
const cellModel* curModelPtr = reinterpret_cast<cellModel*>(0);
if // Tetrahedron
(
labels[2] == labels[3]
&& labels[4] == labels[5]
&& labels[5] == labels[6]
&& labels[6] == labels[7]
)
{
regularTypeFlag = 0;
curModelPtr = tetPtr_;
}
else if // Square-based pyramid
(
labels[4] == labels[5]
&& labels[5] == labels[6]
&& labels[6] == labels[7]
)
{
regularTypeFlag = 1;
curModelPtr = pyrPtr_;
}
else if // Tet Wedge
(
labels[2] == labels[3]
&& labels[4] == labels[5]
&& labels[6] == labels[7]
)
{
regularTypeFlag = 2;
curModelPtr = tetWedgePtr_;
}
else if // Triangular prism
(
labels[2] == labels[3]
&& labels[6] == labels[7]
)
{
regularTypeFlag = 3;
curModelPtr = prismPtr_;
}
else if // Wedge
(
labels[4] == labels[7]
)
{
regularTypeFlag = 4;
curModelPtr = wedgePtr_;
}
else // Hex
{
regularTypeFlag = 5;
curModelPtr = hexPtr_;
}
labelList regularCellLabels(curModelPtr->nPoints(), -1);
// get reference to the addressing list
const label* addressing = regularAddressingTable[regularTypeFlag];
forAll (regularCellLabels, labelI)
{
regularCellLabels[labelI] = labels[addressing[labelI]];
}
cellShapes_[nCreatedCells] = cellShape(*curModelPtr, regularCellLabels);
}
void starMesh::addSAMMcell
(
const labelList& labels,
const label nCreatedCells
)
{
// get type, reg and permutation flag
label typeFlag = labels[21];
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// label regularityFlag = labels[22]; // Not used. HJ, 10/Jul/2001
label permutationFlag = labels[23];
// grab the shape from the table
label sammTypeFlag = -1;
const cellModel* curModelPtr = reinterpret_cast<cellModel*>(0);
switch (typeFlag)
{
case 1:
{
sammTypeFlag = 1;
curModelPtr = sammTrim1Ptr_;
break;
}
case 2:
{
sammTypeFlag = 2;
curModelPtr = sammTrim2Ptr_;
break;
}
case 7:
{
if (labels[0] != -1)
{
sammTypeFlag = 3;
curModelPtr = sammTrim3Ptr_;
}
else
{
sammTypeFlag = 5;
curModelPtr = sammTrim5Ptr_;
}
break;
}
case 8:
{
sammTypeFlag = 4;
curModelPtr = sammTrim4Ptr_;
break;
}
case 85:
{
sammTypeFlag = 8;
curModelPtr = sammTrim8Ptr_;
break;
}
default:
{
FatalErrorIn
(
"starMesh::addSAMMcell"
"(const labelList& labels, const label nCreatedCells)"
) << "SAMM type " << sammTypeFlag << " is invalid"
<< abort(FatalError);
}
}
// make a list of labels
labelList sammCellLabels(curModelPtr->nPoints(), -1);
// get reference to the addressing list
const label* addressing = sammAddressingTable[sammTypeFlag];
forAll (sammCellLabels, labelI)
{
sammCellLabels[labelI] = labels[addressing[labelI]];
}
cellShapes_[nCreatedCells] = cellShape(*curModelPtr, sammCellLabels);
// set permutation flag for cell
starCellPermutation_[nCreatedCells] = permutationFlag;
}
void starMesh::readCells()
{
label nCells = 0;
label maxLabel = -1;
fileName cellsFileName(casePrefix_ + ".cel");
{
IFstream cellsFile(cellsFileName);
if (cellsFile.good())
{
label lineLabel, pointLabel, regionLabel, typeFlag;
maxLabel = -1;
while (!(cellsFile >> lineLabel).eof())
{
maxLabel = max(maxLabel, lineLabel);
for (int i=0; i<8; i++)
{
cellsFile >> pointLabel;
}
cellsFile >> regionLabel;
cellsFile >> typeFlag;
// lines with typeFlag of zero are continuation lines.
if (typeFlag != 0)
{
nCells++;
}
// backward compatibility: number of trailing rubbish in
2012-01-29 11:43:34 +00:00
// STAR is unknown. HJ, 11/Jun/2001
// Fixed to cope with missing \n on last line.
readToNl(cellsFile);
}
}
else
{
FatalErrorIn("starMesh::readCells()")
<< "Cannot read file " << cellsFileName
<< abort(FatalError);
}
}
Info<< "Number of cells = " << nCells << endl << endl;
cellShapes_.setSize(nCells);
starCellID_.setSize(nCells);
starCellPermutation_.setSize(nCells);
// reset permutation to invalid value
forAll (starCellPermutation_, i)
{
starCellPermutation_[i] = -1;
}
starCellLabelLookup_.setSize(maxLabel+1);
// reset point labels to invalid value
forAll (starCellLabelLookup_, i)
{
starCellLabelLookup_[i] = -1;
}
if (nCells > 0)
{
IFstream cellsFile(cellsFileName);
labelList labels(24, -1);
label lineLabel, starLabel, regionLabel, typeFlag;
for (label cellI = 0; cellI < nCells; cellI++)
{
label nLabels = 0;
label addOnToCell = 0;
// reset the labels to -1. Debugging.
forAll (labels, i)
{
labels[i] = -1;
}
do
{
if ((cellsFile >> lineLabel).eof())
{
FatalErrorIn("starMesh::readCells()")
<< "Reached end of cells file before "
<< "all cells are read in."
<< abort(FatalError);
}
nLabels += 8;
for (int i=nLabels-8; i<nLabels; i++)
{
cellsFile >> starLabel;
if (i < 21)
{
if (starLabel != 0)
{
// Convert Star vertex number to point label
labels[i] = starPointLabelLookup_[starLabel];
if (labels[i] < 0)
{
Info<< "Cells not consistent with vertex file. "
<< "Star vertex number " << starLabel
<< " does not exist\n";
}
}
else
{
labels[i] = -1;
}
}
else
{
labels[i] = starLabel;
}
}
cellsFile >> regionLabel;
cellsFile >> typeFlag;
// check for continuation line
if (typeFlag == -1)
{
addOnToCell = 2;
}
// backward compatibility: number of trailing rubbish in
// STAR is unknown.
readToNl(cellsFile);
addOnToCell--;
} while (addOnToCell >= 0);
// Record STAR cell number (used for debugging)
starCellID_[cellI] = lineLabel;
// insert STAR lookup addressing
starCellLabelLookup_[lineLabel] = cellI;
if (nLabels == 8)
{
addRegularCell(labels, cellI);
}
else
{
addSAMMcell(labels, cellI);
}
// check cell labels
const labelList& curShapeLabels = cellShapes_[cellI];
forAll (curShapeLabels, i)
{
if (curShapeLabels[i] < 0)
{
FatalErrorIn("starMesh::readCells()")
<< "Invalid vertex found in cell " << cellI
<< ". STAR cell no: " << lineLabel
<< " labels: " << curShapeLabels
<< abort(FatalError);
}
}
}
}
else
{
FatalErrorIn("starMesh::readCells()")
<< "No cells in file " << cellsFileName
<< abort(FatalError);
}
}
// ************************************************************************* //