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foam-extend4.1-coherent-io/applications/utilities/postProcessing/dataConversion/foamToTecplot360/tecplotWriter.C
Henrik Rusche 07e9416f30 Bump version in headers
2016-06-21 15:04:12 +02:00

516 lines
15 KiB
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/*---------------------------------------------------------------------------*\
========= |
\\ / F ield | foam-extend: Open Source CFD
\\ / O peration | Version: 4.0
\\ / A nd | Web: http://www.foam-extend.org
\\/ M anipulation | For copyright notice see file Copyright
-------------------------------------------------------------------------------
License
This file is part of foam-extend.
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
Free Software Foundation, either version 3 of the License, or (at your
option) any later version.
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
along with foam-extend. If not, see <http://www.gnu.org/licenses/>.
\*---------------------------------------------------------------------------*/
#include "objectRegistry.H"
#include "tecplotWriter.H"
#include "fvMesh.H"
// * * * * * * * * * * * * * * * * Constructors * * * * * * * * * * * * * * //
// Construct from components
Foam::tecplotWriter::tecplotWriter(const Time& runTime)
:
runTime_(runTime)
{}
// * * * * * * * * * * * * * * * Member Functions * * * * * * * * * * * * * //
void Foam::tecplotWriter::writeInit
(
const word& name,
const string& varNames,
const fileName& fName,
INTEGER4 tecplotFileType
) const
{
Pout<< endl
<< endl
<< "Name:" << name
<< " varNames:" << varNames
<< " to file:" << fName
<< " of type:" << tecplotFileType
<< endl;
INTEGER4 IsDouble = 0; //float
INTEGER4 Debug = 0; //nodebug
if
(
!TECINI112
(
const_cast<char*>(name.c_str()), /* Data Set Title */
const_cast<char*>(varNames.c_str()), /* Variable List */
const_cast<char*>(fName.c_str()), /* File Name */
const_cast<char*>(runTime_.path().c_str()), /* Scratch Directory */
&tecplotFileType,
&Debug,
&IsDouble
)
)
{
// FatalErrorIn("tecplotWriter::writeInit(..) const")
// << "Error in TECINI112." << exit(FatalError);
}
}
void Foam::tecplotWriter::writePolyhedralZone
(
const word& zoneName,
INTEGER4 strandID,
const fvMesh& mesh,
const List<INTEGER4>& varLocArray,
INTEGER4 nFaceNodes
) const
{
/* Call TECZNE112 */
INTEGER4 NumNodes = mesh.nPoints(); /* number of unique nodes */
INTEGER4 NumElems = mesh.nCells(); /* number of elements */
INTEGER4 NumFaces = mesh.nFaces(); /* number of unique faces */
INTEGER4 ICellMax = 0; /* Not Used, set to zero */
INTEGER4 JCellMax = 0; /* Not Used, set to zero */
INTEGER4 KCellMax = 0; /* Not Used, set to zero */
double SolTime = runTime_.value(); /* solution time */
INTEGER4 ParentZone = 0; /* no parent zone */
INTEGER4 IsBlock = 1; /* block format */
INTEGER4 NFConns = 0; /* not used for FEPolyhedron
* zones
*/
INTEGER4 FNMode = 0; /* not used for FEPolyhedron
* zones
*/
Pout<< "zoneName:" << zoneName
//<< " varLocArray:" << varLocArray
<< " solTime:" << SolTime
<< endl;
INTEGER4 *PassiveVarArray = NULL;
INTEGER4 *VarShareArray = NULL;
INTEGER4 ShrConn = 0;
INTEGER4 NumBConns = 0; /* No Boundary Connections */
INTEGER4 NumBItems = 0; /* No Boundary Items */
INTEGER4 ZoneType = ZoneType_FEPolyhedron;
if
(
!TECZNE112
(
const_cast<char*>(zoneName.c_str()),
&ZoneType,
&NumNodes,
&NumElems,
&NumFaces,
&ICellMax,
&JCellMax,
&KCellMax,
&SolTime,
&strandID,
&ParentZone,
&IsBlock,
&NFConns,
&FNMode,
&nFaceNodes,
&NumBConns,
&NumBItems,
PassiveVarArray,
const_cast<INTEGER4*>(varLocArray.begin()),
VarShareArray,
&ShrConn
)
)
{
// FatalErrorIn("tecplotWriter::writePolyhedralZone(..) const")
// << "Error in TECZNE112." << exit(FatalError);
}
}
void Foam::tecplotWriter::writePolygonalZone
(
const word& zoneName,
INTEGER4 strandID,
const indirectPrimitivePatch& pp,
const List<INTEGER4>& varLocArray
) const
{
/* Call TECZNE112 */
INTEGER4 NumNodes = pp.nPoints(); /* number of unique nodes */
INTEGER4 NumElems = pp.size(); /* number of elements */
INTEGER4 NumFaces = pp.nEdges(); /* number of unique faces */
INTEGER4 ICellMax = 0; /* Not Used, set to zero */
INTEGER4 JCellMax = 0; /* Not Used, set to zero */
INTEGER4 KCellMax = 0; /* Not Used, set to zero */
double SolTime = runTime_.value(); /* solution time */
INTEGER4 ParentZone = 0; /* no parent zone */
INTEGER4 IsBlock = 1; /* block format */
INTEGER4 NFConns = 0; /* not used for FEPolyhedron
* zones
*/
INTEGER4 FNMode = 0; /* not used for FEPolyhedron
* zones
*/
INTEGER4 NumFaceNodes = 2*pp.nEdges();
Pout<< "zoneName:" << zoneName
<< " strandID:" << strandID
//<< " varLocArray:" << varLocArray
<< " solTime:" << SolTime
<< endl;
INTEGER4 *PassiveVarArray = NULL;
INTEGER4 *VarShareArray = NULL;
INTEGER4 ShrConn = 0;
INTEGER4 NumBConns = 0; /* No Boundary Connections */
INTEGER4 NumBItems = 0; /* No Boundary Items */
INTEGER4 ZoneType = ZoneType_FEPolygon;
if
(
!TECZNE112
(
const_cast<char*>(zoneName.c_str()),
&ZoneType,
&NumNodes,
&NumElems,
&NumFaces,
&ICellMax,
&JCellMax,
&KCellMax,
&SolTime,
&strandID,
&ParentZone,
&IsBlock,
&NFConns,
&FNMode,
&NumFaceNodes,
&NumBConns,
&NumBItems,
PassiveVarArray,
const_cast<INTEGER4*>(varLocArray.begin()),
VarShareArray,
&ShrConn
)
)
{
// FatalErrorIn("tecplotWriter::writePolygonalZone(..) const")
// << "Error in TECZNE112." << exit(FatalError);
}
}
void Foam::tecplotWriter::writeOrderedZone
(
const word& zoneName,
INTEGER4 strandID,
const label n,
const List<INTEGER4>& varLocArray
) const
{
/* Call TECZNE112 */
INTEGER4 IMax = n; /* number of unique nodes */
INTEGER4 JMax = 1; /* number of elements */
INTEGER4 KMax = 1; /* number of unique faces */
INTEGER4 ICellMax = 0; /* Not Used, set to zero */
INTEGER4 JCellMax = 0; /* Not Used, set to zero */
INTEGER4 KCellMax = 0; /* Not Used, set to zero */
double SolTime = runTime_.value(); /* solution time */
INTEGER4 ParentZone = 0; /* no parent zone */
INTEGER4 IsBlock = 1; /* block format */
INTEGER4 NFConns = 0; /* not used for FEPolyhedron
* zones
*/
INTEGER4 FNMode = 0; /* not used for FEPolyhedron
* zones
*/
INTEGER4 NumFaceNodes = 1;
INTEGER4 NumBConns = 1; /* No Boundary Connections */
INTEGER4 NumBItems = 1; /* No Boundary Items */
Pout<< "zoneName:" << zoneName
<< " strandID:" << strandID
//<< " varLocArray:" << varLocArray
<< " solTime:" << SolTime
<< endl;
INTEGER4 *PassiveVarArray = NULL;
INTEGER4 *VarShareArray = NULL;
INTEGER4 ShrConn = 0;
INTEGER4 ZoneType = ZoneType_Ordered;
if
(
!TECZNE112
(
const_cast<char*>(zoneName.c_str()),
&ZoneType,
&IMax,
&JMax,
&KMax,
&ICellMax,
&JCellMax,
&KCellMax,
&SolTime,
&strandID,
&ParentZone,
&IsBlock,
&NFConns,
&FNMode,
&NumFaceNodes,
&NumBConns,
&NumBItems,
PassiveVarArray,
const_cast<INTEGER4*>(varLocArray.begin()),
VarShareArray,
&ShrConn
)
)
{
// FatalErrorIn("tecplotWriter::writePolygonalZone(..) const")
// << "Error in TECZNE112." << exit(FatalError);
}
}
void Foam::tecplotWriter::writeConnectivity(const fvMesh& mesh) const
{
List<INTEGER4> FaceNodeCounts(mesh.nFaces());
forAll(mesh.faces(), faceI)
{
const face& f = mesh.faces()[faceI];
FaceNodeCounts[faceI] = INTEGER4(f.size());
}
INTEGER4 nFaceNodes = 0;
forAll(mesh.faces(), faceI)
{
nFaceNodes += mesh.faces()[faceI].size();
}
List<INTEGER4> FaceNodes(nFaceNodes);
label nodeI = 0;
forAll(mesh.faces(), faceI)
{
const face& f = mesh.faces()[faceI];
forAll(f, fp)
{
FaceNodes[nodeI++] = INTEGER4(f[fp]+1);
}
}
List<INTEGER4> FaceLeftElems(mesh.nFaces());
forAll(mesh.faceOwner(), faceI)
{
FaceLeftElems[faceI] = mesh.faceOwner()[faceI]+1;
}
List<INTEGER4> FaceRightElems(mesh.nFaces());
forAll(mesh.faceNeighbour(), faceI)
{
FaceRightElems[faceI] = mesh.faceNeighbour()[faceI]+1;
}
for
(
label faceI = mesh.nInternalFaces();
faceI < mesh.nFaces();
faceI++
)
{
FaceRightElems[faceI] = 0;
}
if
(
!TECPOLY112
(
FaceNodeCounts.begin(), /* The face node counts array */
FaceNodes.begin(), /* The face nodes array */
FaceLeftElems.begin(), /* The left elements array */
FaceRightElems.begin(), /* The right elements array */
NULL, /* No boundary connection counts */
NULL, /* No boundary connection elements */
NULL /* No boundary connection zones */
)
)
{
// FatalErrorIn("tecplotWriter::writeConnectivity(const fvMesh&) const")
// << "Error in TECPOLY112." << exit(FatalError);
}
}
void Foam::tecplotWriter::writeConnectivity
(
const indirectPrimitivePatch& pp
) const
{
INTEGER4 NumFaces = pp.nEdges(); /* number of unique faces */
INTEGER4 NumFaceNodes = 2*pp.nEdges();
// All faces (=edges) have 2 nodes
List<INTEGER4> FaceNodeCounts(NumFaces, 2);
List<INTEGER4> FaceNodes(NumFaceNodes);
label nodeI = 0;
forAll(pp.edges(), edgeI)
{
edge e = pp.edges()[edgeI];
if (e[0] > e[1])
{
e = e.reverseEdge();
}
FaceNodes[nodeI++] = INTEGER4(e[0]+1);
FaceNodes[nodeI++] = INTEGER4(e[1]+1);
}
/* Define the right and left elements of each face.
*
* The last step for writing out the polyhedral data is to
* define the right and left neighboring elements for each
* face. The neighboring elements can be determined using the
* right-hand rule. For each face, place your right-hand along
* the face which your fingers pointing the direction of
* incrementing node numbers (i.e. from node 1 to node 2).
* Your right thumb will point towards the right element; the
* element on the other side of your hand is the left element.
*
* The number zero is used to indicate that there isn't an
* element on that side of the face.
*
* Because of the way we numbered the nodes and faces, the
* right element for every face is the element itself
* (element 1) and the left element is "no-neighboring element"
* (element 0).
*/
List<INTEGER4> FaceLeftElems(NumFaces);
List<INTEGER4> FaceRightElems(NumFaces);
const labelListList& edgeFaces = pp.edgeFaces();
forAll(edgeFaces, edgeI)
{
const labelList& eFaces = edgeFaces[edgeI];
if (eFaces.size() == 1)
{
FaceLeftElems[edgeI] = 0;
FaceRightElems[edgeI] = eFaces[0]+1;
}
else if (eFaces.size() == 2)
{
edge e = pp.edges()[edgeI];
if (e[0] > e[1])
{
e = e.reverseEdge();
}
const face& f0 = pp.localFaces()[eFaces[0]];
// The face that uses the vertices of e in increasing order
// is the left face.
label fp = findIndex(f0, e[0]);
bool f0IsLeft = (f0.nextLabel(fp) == e[1]);
if (f0IsLeft)
{
FaceLeftElems[edgeI] = eFaces[0]+1;
FaceRightElems[edgeI] = eFaces[1]+1;
}
else
{
FaceLeftElems[edgeI] = eFaces[1]+1;
FaceRightElems[edgeI] = eFaces[0]+1;
}
}
else
{
// non-manifold. Treat as if open.
FaceLeftElems[edgeI] = 0;
FaceRightElems[edgeI] = eFaces[0]+1;
}
}
/* Write the face map (created above) using TECPOLY112. */
if
(
!TECPOLY112
(
FaceNodeCounts.begin(), /* The face node counts array */
FaceNodes.begin(), /* The face nodes array */
FaceLeftElems.begin(), /* The left elements array */
FaceRightElems.begin(), /* The right elements array */
NULL, /* No boundary connection counts */
NULL, /* No boundary connection elements */
NULL /* No boundary connection zones */
)
)
{
// FatalErrorIn("tecplotWriter::writeConnectivity(..) const")
// << "Error in TECPOLY112." << exit(FatalError);
}
}
void Foam::tecplotWriter::writeEnd() const
{
Pout<< "writeEnd" << endl;
if (!TECEND112())
{
// FatalErrorIn("tecplotWriter::writeEnd() const")
// << "Error in TECEND112." << exit(FatalError);
}
}
// ************************************************************************* //
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