/*---------------------------------------------------------------------------*\ ========= | \\ / 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 Description Create intermediate mesh files from PROSTAR files \*---------------------------------------------------------------------------*/ #include "starMesh.H" #include "polyPatch.H" // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * // void starMesh::createPolyBoundary() { label nBoundaryFacesFound = 0; polyBoundaryPatchStartIndices_.setSize(boundary_.size()); label nCreatedFaces = nInternalFaces_; const labelListList& PointCells = pointCells(); forAll (boundary_, patchI) { const faceList& curShapePatch = boundary_[patchI]; polyBoundaryPatchStartIndices_[patchI] = nCreatedFaces; forAll (curShapePatch, faceI) { bool found = false; const face& curFace = curShapePatch[faceI]; meshFaces_[nCreatedFaces] = curFace; // Must find which cell this face belongs to in order to // mark it in the cellPolys_ const labelList& facePoints = curFace; forAll(facePoints, pointI) { const labelList& facePointCells = PointCells[facePoints[pointI]]; forAll(facePointCells, cellI) { const faceList& curCellFaces = cellFaces_[facePointCells[cellI]]; forAll(curCellFaces, cellFaceI) { if (curCellFaces[cellFaceI] == curFace) { // Found the cell face corresponding to this face found = true; // Debugging if ( cellPolys_[facePointCells[cellI]][cellFaceI] != -1 ) { if ( cellPolys_[facePointCells[cellI]][cellFaceI] > nInternalFaces_ ) { Info << "void starMesh::createPolyBoundary()" << ": Problem with face: " << curFace << "\nProbably multiple definitions " << "of a single boundary face. " << endl << "Other boundary face: " << curCellFaces[cellFaceI] << endl; Info << "PROSTAR Command: vset,news,vlis"; forAll (curCellFaces[cellFaceI], spI) { // check if the point is given by STAR // or created locally if ( curCellFaces[cellFaceI][spI] > -1 && curCellFaces[cellFaceI][spI] < starPointID_.size() ) { Info << "," << starPointID_ [curCellFaces[cellFaceI][spI]]; } else { Info << ",???"; } } Info << " $ bset,add,vset,all" << endl; } else { Info << "void starMesh::createPolyBoundary()" << ": Problem with face: " << curFace << "\nProbably trying to define a " << "boundary face on a previously " << "matched internal face. " << endl << "Internal face: " << curCellFaces[cellFaceI] << endl; Info << "PROSTAR Command: vset,news,vlis"; forAll (curCellFaces[cellFaceI], spI) { // check if the point is given by STAR // or created locally if ( curCellFaces[cellFaceI][spI] > -1 && curCellFaces[cellFaceI][spI] < starPointID_.size() ) { Info << "," << starPointID_ [curCellFaces[cellFaceI][spI]]; } else { Info << ",???"; } } Info << " $ bset,add,vset,all" << endl; } } cellPolys_[facePointCells[cellI]][cellFaceI] = nCreatedFaces; nBoundaryFacesFound++; } if (found) break; } if (found) break; } if (found) break; } nCreatedFaces++; } } // check all cellPolys_ to see if there are any missing faces label nMissingFaceFound = 0; forAll (cellPolys_, cellI) { const labelList& curFaces = cellPolys_[cellI]; forAll (curFaces, faceI) { if (curFaces[faceI] < 0) { const face& missingFace = cellFaces_[cellI][faceI]; Info << "starMesh::createPolyBoundary() : " << "missing face found in cell " << cellI << ".\nType: " << cellShapes_[cellI].model().name() << ". STAR cell number: " << starCellID_[cellI] << ". Face: " << missingFace << endl; nMissingFaceFound++; Info << "PROSTAR Command: vset,news,vlis"; forAll (missingFace, spI) { // check if the point is given by STAR or created locally if ( missingFace[spI] > -1 && missingFace[spI] < starPointID_.size() ) { Info << "," << starPointID_[missingFace[spI]]; } else { Info << ",???"; } } Info << " $ bset,add,vset,all" << endl; } } } if (nMissingFaceFound > 0) { Info << "Number of unmatched faces: " << nMissingFaceFound << endl; } // reset the size of the face list meshFaces_.setSize(nCreatedFaces); // check the mesh for face mismatch // (faces addressed once or more than twice) labelList markupFaces(meshFaces_.size(), 0); forAll (cellPolys_, cellI) { const labelList& curFaces = cellPolys_[cellI]; forAll (curFaces, faceI) { markupFaces[curFaces[faceI]]++; } } for (label i = nInternalFaces_; i < markupFaces.size(); i++) { markupFaces[i]++; } label nProblemFacesFound = 0; forAll (markupFaces, faceI) { if (markupFaces[faceI] != 2) { const face& problemFace = meshFaces_[faceI]; Info << "starMesh::createPolyBoundary() : " << "problem with face " << faceI << ": addressed " << markupFaces[faceI] << " times (should be 2!). Face: " << problemFace << endl; nProblemFacesFound++; Info << "PROSTAR Command: vset,news,vlis"; forAll (problemFace, spI) { // check if the point is given by STAR or created locally if ( problemFace[spI] > -1 && problemFace[spI] < starPointID_.size() ) { Info << "," << starPointID_[problemFace[spI]]; } else { Info << ",???"; } } Info << " $ bset,add,vset,all" << endl; } } if (nProblemFacesFound > 0) { Info << "Number of incorrectly matched faces: " << nProblemFacesFound << endl; } Info << "Number of boundary faces: " << nBoundaryFacesFound << endl; Info << "Total number of faces: " << nCreatedFaces << endl; } List starMesh::polyBoundaryPatches(const polyMesh& pMesh) { List p(boundary_.size()); forAll (boundary_, patchI) { p[patchI] = polyPatch::New ( patchTypes_[patchI], patchNames_[patchI], boundary_[patchI].size(), polyBoundaryPatchStartIndices_[patchI], patchI, pMesh.boundaryMesh() ).ptr(); } return p; } // ************************************************************************* //