/*---------------------------------------------------------------------------*\ ========= | \\ / F ield | OpenFOAM: The Open Source CFD Toolbox \\ / O peration | \\ / A nd | Copyright held by original author \\/ 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 2 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, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA \*---------------------------------------------------------------------------*/ #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(name.c_str()), /* Data Set Title */ const_cast(varNames.c_str()), /* Variable List */ const_cast(fName.c_str()), /* File Name */ const_cast(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& 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(zoneName.c_str()), &ZoneType, &NumNodes, &NumElems, &NumFaces, &ICellMax, &JCellMax, &KCellMax, &SolTime, &strandID, &ParentZone, &IsBlock, &NFConns, &FNMode, &nFaceNodes, &NumBConns, &NumBItems, PassiveVarArray, const_cast(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& 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(zoneName.c_str()), &ZoneType, &NumNodes, &NumElems, &NumFaces, &ICellMax, &JCellMax, &KCellMax, &SolTime, &strandID, &ParentZone, &IsBlock, &NFConns, &FNMode, &NumFaceNodes, &NumBConns, &NumBItems, PassiveVarArray, const_cast(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& 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(zoneName.c_str()), &ZoneType, &IMax, &JMax, &KMax, &ICellMax, &JCellMax, &KCellMax, &SolTime, &strandID, &ParentZone, &IsBlock, &NFConns, &FNMode, &NumFaceNodes, &NumBConns, &NumBItems, PassiveVarArray, const_cast(varLocArray.begin()), VarShareArray, &ShrConn ) ) { // FatalErrorIn("tecplotWriter::writePolygonalZone(..) const") // << "Error in TECZNE112." << exit(FatalError); } } void Foam::tecplotWriter::writeConnectivity(const fvMesh& mesh) const { List 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 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 FaceLeftElems(mesh.nFaces()); forAll(mesh.faceOwner(), faceI) { FaceLeftElems[faceI] = mesh.faceOwner()[faceI]+1; } List 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 FaceNodeCounts(NumFaces, 2); List 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 FaceLeftElems(NumFaces); List 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); } } // ************************************************************************* //