db7fac3f24
git-svn-id: https://openfoam-extend.svn.sourceforge.net/svnroot/openfoam-extend/trunk/Core/OpenFOAM-1.5-dev@1731 e4e07f05-0c2f-0410-a05a-b8ba57e0c909
877 lines
22 KiB
Text
877 lines
22 KiB
Text
/*---------------------------------------------------------------------------*\
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========= |
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\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
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\\ / O peration |
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\\ / A nd | Copyright held by original author
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\\/ M anipulation |
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-------------------------------------------------------------------------------
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License
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This file is part of OpenFOAM.
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OpenFOAM is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published by the
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Free Software Foundation; either version 2 of the License, or (at your
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option) any later version.
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OpenFOAM is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
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You should have received a copy of the GNU General Public License
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along with OpenFOAM; if not, write to the Free Software Foundation,
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Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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Application
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gambitToFoam
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Description
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Converts a GAMBIT mesh to FOAM format.
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\*---------------------------------------------------------------------------*/
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%{
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#undef yyFlexLexer
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/* ------------------------------------------------------------------------- *\
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------ local definitions
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\* ------------------------------------------------------------------------- */
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#include "scalarList.H"
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#include "IStringStream.H"
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using namespace Foam;
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#include "argList.H"
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#include "Time.H"
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#include "polyMesh.H"
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#include "emptyPolyPatch.H"
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#include "preservePatchTypes.H"
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#include "cellModeller.H"
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#include "cellShape.H"
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#include "SLList.H"
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#include "SLPtrList.H"
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label nPoints = 0;
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label nCells = 0;
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label nCellStreams = 0;
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label nPatches = 0;
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label nCoordDirections = 0;
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label nVectorComponents = 0;
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pointField points(0);
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labelList pointMap(0);
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PtrList<labelList> cellLabels(0);
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labelList cellMap(0);
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labelList cellTypes(0);
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labelList cellStreamIDs(0);
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wordList patchNames(0);
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labelListList patchCells(0);
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labelListList patchCellFaces(0);
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label nValuesForPatchFaces = 0;
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// Dummy yywrap to keep yylex happy at compile time.
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// It is called by yylex but is not used as the mechanism to change file.
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// See <<EOF>>
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#if YY_FLEX_SUBMINOR_VERSION < 34
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extern "C" int yywrap()
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#else
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int yyFlexLexer::yywrap()
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#endif
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{
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return 1;
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}
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%}
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one_space [ \t\f\r]
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space {one_space}*
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some_space {one_space}+
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cspace ","{space}
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spaceNl ({space}|\n)*
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alpha [_[:alpha:]]
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digit [[:digit:]]
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dec_digit [[:digit:]]
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octal_digit [0-7]
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hex_digit [[:xdigit:]]
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lbrac "("
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rbrac ")"
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quote \"
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dash "-"
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dotColonDash [.:-]
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identifier {alpha}({alpha}|{digit})*
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integer {dec_digit}+
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label [0-9]{dec_digit}*
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zeroLabel {digit}*
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word ({alpha}|{digit}|{dotColonDash})*
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exponent_part [eE][-+]?{digit}+
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fractional_constant [-+]?(({digit}*"."{digit}+)|({digit}+"."?))
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double ((({fractional_constant}{exponent_part}?)|({digit}+{exponent_part}))|0)
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x {double}
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y {double}
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z {double}
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scalar {double}
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labelListElement {space}{zeroLabel}
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scalarListElement {space}{double}
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labelList ({labelListElement}+{space})
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scalarList ({scalarListElement}+{space})
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starStar ("**")
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text ({space}({word}*{space})*\n)
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dateDDMMYYYY ({digit}{digit}"/"{digit}{digit}"/"{digit}{digit}{digit}{digit})
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dateDDMonYYYY ((({digit}{digit}{space})|({digit}{space})){alpha}*{space}{digit}{digit}{digit}{digit})
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time ({digit}{digit}":"{digit}{digit}":"{digit}{digit})
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versionNumber ({digit}|".")*
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controlInfo ^{space}"CONTROL INFO"{space}{versionNumber}
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applicationData ^{space}"APPLICATION DATA"{space}{versionNumber}
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nodalCoords ^{space}"NODAL COORDINATES"{space}{versionNumber}
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cellsAndElements ^{space}"ELEMENTS/CELLS"{space}{versionNumber}
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cellStreams ^{space}"ELEMENT GROUP"{space}{versionNumber}
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boundaryPatch ^{space}"BOUNDARY CONDITIONS"{space}{versionNumber}
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faceConnectivity ^{space}"FACE CONNECTIVITY"{space}{versionNumber}
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endOfSection ^{space}"ENDOFSECTION"{space}
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program {space}"PROGRAM:"{space}
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version {space}"VERSION:"{space}
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group {space}"GROUP:"{space}
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elements {space}"ELEMENTS:"{space}
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material {space}"MATERIAL:"{space}
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nFlags {space}"NFLAGS:"{space}
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mtype {space}"MTYPE:"{space}
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/* ------------------------------------------------------------------------- *\
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----- Exclusive start states -----
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\* ------------------------------------------------------------------------- */
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%option stack
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%x controlInfo
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%x readControlHeader
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%x readTitle
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%x readProgramID
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%x readVersionID
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%x applicationData
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%x nodalCoords
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%x cellsAndElements
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%x cellStreams
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%x cellStreamTitle
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%x cellStreamFlags
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%x cellStreamLabels
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%x readCellStreamGroupID
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%x readCellStreamNElements
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%x readCellStreamMaterial
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%x readCellStreamNFlags
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%x boundaryPatch
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%x boundaryPatchParams
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%x boundaryPatchFaces
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%x faceConnectivity
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%x globalMeshData
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%x cellContLine
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%%
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%{
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label nCellContinuationLines = 0;
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label curNumberOfNodes = 0;
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label curNumberOfCells = 0;
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label curGroupID = 0;
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label nFlagsForStream = 0;
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label curBoundaryPatch = 0;
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label curPatchFace = 0;
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%}
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/* ------------------------------------------------------------------------- *\
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------ Start Lexing ------
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\* ------------------------------------------------------------------------- */
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/* ------ Reading control header ------ */
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{controlInfo} {
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BEGIN(readControlHeader);
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}
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<readControlHeader>{starStar}{space}{text} {
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BEGIN(readTitle);
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}
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<readTitle>{text} {
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Info << "Title: " << YYText();
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BEGIN(controlInfo);
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}
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<controlInfo>{spaceNl}{program} {
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BEGIN(readProgramID);
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}
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<readProgramID>{space}{word} {
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Info << "Written by " << YYText() << " ";
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BEGIN(controlInfo);
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}
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<controlInfo>{spaceNl}{version} {
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BEGIN(readVersionID);
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}
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<readVersionID>{space}{versionNumber} {
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Info << " version " << YYText() << endl;
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BEGIN(controlInfo);
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}
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<controlInfo>{space}{dateDDMonYYYY}{space}{time} {
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Info << "File written on " << YYText() << endl;
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}
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<controlInfo>{space}{dateDDMMYYYY}{space}{time} {
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Info << "File written on " << YYText() << endl;
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}
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<controlInfo>{spaceNl}"NUMNP"{space}"NELEM"{space}"NGRPS"{space}"NBSETS"{space}("NDFCD"|"NDCFD"){space}"NDFVL"{space}\n {
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BEGIN(globalMeshData);
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}
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<globalMeshData>{spaceNl}{label}{space}{label}{space}{label}{space}{label}{space}{label}{space}{label}{space}\n {
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IStringStream nodeStream(YYText());
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nPoints = readLabel(nodeStream);
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nCells = readLabel(nodeStream);
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nCellStreams = readLabel(nodeStream);
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nPatches = readLabel(nodeStream);
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nCoordDirections = readLabel(nodeStream);
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nVectorComponents = readLabel(nodeStream);
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// reset list sizes - now known!
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points.setSize(nPoints);
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pointMap.setSize(nPoints);
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cellLabels.setSize(nCells);
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cellMap.setSize(nCells);
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cellTypes.setSize(nCells);
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cellStreamIDs.setSize(nCells);
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patchNames.setSize(nPatches);
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patchCells.setSize(nPatches);
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patchCellFaces.setSize(nPatches);
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Info<< " number of points: " << nPoints << endl
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<< " number of cells: " << nCells << endl
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<< " number of patches: " << nPatches << endl;
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BEGIN(controlInfo);
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}
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/* ------ Reading nodal coordinates ------ */
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{nodalCoords}{spaceNl} {
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curNumberOfNodes = 0;
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Info << "Reading nodal coordinates" << endl;
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BEGIN(nodalCoords);
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}
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<nodalCoords>{spaceNl}{label}{space}{x}{space}{y}{space}{z}{space}\n {
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IStringStream nodeStream(YYText());
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label nodeI(readLabel(nodeStream));
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// Note: coordinates must be read one at the time.
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scalar x = readScalar(nodeStream);
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scalar y = readScalar(nodeStream);
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scalar z = readScalar(nodeStream);
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// add mapping and scalced node to the list
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pointMap[curNumberOfNodes] = nodeI;
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points[curNumberOfNodes] = point(x, y, z);
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curNumberOfNodes++;
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}
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/* ------ Reading cells and elements ------ */
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{cellsAndElements}{spaceNl} {
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curNumberOfCells = 0;
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Info << "Reading cells" << endl;
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BEGIN(cellsAndElements);
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}
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<cellsAndElements>{spaceNl}{label}{space}{label}{space}{label}{labelList} {
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IStringStream elementStream(YYText());
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label cellI(readLabel(elementStream));
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label cellType(readLabel(elementStream));
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label nVertices(readLabel(elementStream));
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// reset number of continuation lines
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nCellContinuationLines = 0;
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cellMap[curNumberOfCells] = cellI;
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cellTypes[curNumberOfCells] = cellType;
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cellLabels.set(curNumberOfCells, new labelList(nVertices));
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labelList& curLabels = cellLabels[curNumberOfCells];
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// Find out how many labels are expected. If less or equal to
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// seven, read them all and finish with it. If there is more,
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// set read of the next line
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label labelsToRead = min(8, nVertices);
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label labelI = 0;
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for (; labelI < labelsToRead; labelI++)
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{
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if (elementStream.eof()) break;
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// Check token to avoid trailing space.
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token curLabelTok(elementStream);
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if (curLabelTok.isLabel())
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{
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curLabels[labelI] = curLabelTok.labelToken();
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}
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else
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{
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break;
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}
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}
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if (labelI < nVertices)
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{
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BEGIN(cellContLine);
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}
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else
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{
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curNumberOfCells++;
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}
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}
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<cellContLine>{spaceNl}{labelList} {
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IStringStream elementStream(YYText());
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nCellContinuationLines++;
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labelList& curLabels = cellLabels[curNumberOfCells];
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label labelsToRead = min
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(
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(nCellContinuationLines + 1)*7,
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curLabels.size()
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);
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for
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(
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label labelI = nCellContinuationLines*7;
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labelI < labelsToRead;
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labelI++
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)
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{
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curLabels[labelI] = readLabel(elementStream);
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}
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// if read is finished, go back to reading cells
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if (curLabels.size() < (nCellContinuationLines + 1)*7)
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{
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curNumberOfCells++;
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BEGIN(cellsAndElements);
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}
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}
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/* ------ Reading element group information ------ */
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{cellStreams}{spaceNl} {
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Info << "Reading cell streams" << endl;
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BEGIN(cellStreams);
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}
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<cellStreams>{spaceNl}{group} {
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BEGIN(readCellStreamGroupID);
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}
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<readCellStreamGroupID>{space}{label} {
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IStringStream groupStream(YYText());
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if (curGroupID > 0)
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{
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FatalErrorIn("gambitToFoam::main")
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<< "<readCellStreamGroupID>{space}{label} : "
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<< "trying to reset group ID while active"
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<< abort(FatalError);
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}
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else
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{
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curGroupID = readLabel(groupStream);;
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}
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BEGIN(cellStreams);
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}
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<cellStreams>{spaceNl}{elements} {
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BEGIN(readCellStreamNElements);
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}
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<readCellStreamNElements>{space}{label} {
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IStringStream nElementsStream(YYText());
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readLabel(nElementsStream);
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BEGIN(cellStreams);
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}
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<cellStreams>{spaceNl}{material} {
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BEGIN(readCellStreamMaterial);
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}
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<readCellStreamMaterial>{space}{label} {
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IStringStream materialIDstream(YYText());
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readLabel(materialIDstream);
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BEGIN(cellStreams);
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}
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<cellStreams>{spaceNl}{nFlags} {
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BEGIN(readCellStreamNFlags);
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}
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<readCellStreamNFlags>{space}{label} {
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IStringStream nFlagsStream(YYText());
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nFlagsForStream = readLabel(nFlagsStream);
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BEGIN(cellStreamTitle);
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}
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<cellStreamTitle>{spaceNl}{word}{spaceNl} {
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word streamName(Foam::string::validate<word>(YYText()));
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BEGIN(cellStreamFlags);
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}
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<cellStreamFlags>{labelList} {
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Info << "Reading cell stream labels" << endl;
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BEGIN(cellStreamLabels);
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}
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<cellStreamLabels>{spaceNl}{labelList} {
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IStringStream nFlagsStream(YYText());
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label cellLabel;
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while (nFlagsStream.read(cellLabel))
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{
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cellStreamIDs[cellLabel - 1] = curGroupID;
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}
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// reset current group ID and a number of flags
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curGroupID = 0;
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nFlagsForStream = 0;
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}
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/* ------ Reading end of section and others ------ */
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<cellStreamLabels>{endOfSection}\n {
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Info << "Finished reading cell stream labels" << endl;
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// reset current group ID and a number of flags
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curGroupID = 0;
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nFlagsForStream = 0;
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BEGIN(INITIAL);
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}
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{boundaryPatch}{spaceNl} {
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curPatchFace = 0;
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Info << "Reading patches" << endl;
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BEGIN(boundaryPatchParams);
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}
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<boundaryPatchParams>{spaceNl}{word}{labelList} {
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IStringStream patchParamsStream(YYText());
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patchParamsStream.read(patchNames[curBoundaryPatch]);
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readLabel(patchParamsStream);
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label nEntry(readLabel(patchParamsStream));
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nValuesForPatchFaces = readLabel(patchParamsStream);
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patchCells[curBoundaryPatch].setSize(nEntry);
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patchCellFaces[curBoundaryPatch].setSize(nEntry);
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Info<< "patch " << curBoundaryPatch
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<< ": name: " << patchNames[curBoundaryPatch]
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<< endl;
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BEGIN(boundaryPatchFaces);
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}
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<boundaryPatchFaces>{spaceNl}{label}{space}{label}{space}{label}({scalarList}|{space}\n) {
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// Face-based boundary condition
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IStringStream patchFacesStream(YYText());
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patchCells[curBoundaryPatch][curPatchFace] =
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readLabel(patchFacesStream);
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readLabel(patchFacesStream);
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patchCellFaces[curBoundaryPatch][curPatchFace] =
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readLabel(patchFacesStream);
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// patch face values currently discarded
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if (nValuesForPatchFaces > 0)
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{
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scalarList patchFaceValues(nValuesForPatchFaces);
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forAll (patchFaceValues, fI)
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{
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patchFaceValues[fI] = readScalar(patchFacesStream);
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}
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}
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curPatchFace++;
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}
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<boundaryPatchFaces>{spaceNl}{label}({scalarList}|\n) {
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// Vertex-based boundary condition
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FatalErrorIn("gambitToFoam::main")
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<< "<boundaryPatchFaces>{spaceNl}{label}{scalarList} : "
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<< "boundary condition specified on vertices not supported"
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<< abort(FatalError);
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}
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<boundaryPatchFaces>{endOfSection}\n {
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curBoundaryPatch++;
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BEGIN(INITIAL);
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}
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/* ------ Reading end of section and others ------ */
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<controlInfo,nodalCoords,cellsAndElements>{endOfSection}\n {
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BEGIN(INITIAL);
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}
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/* ------ Ignore remaining space and \n s. Any other characters are errors. */
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.|\n {}
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/* ------ On EOF return to previous file, if none exists terminate. ------ */
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<<EOF>> {
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yyterminate();
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}
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%%
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#include "fileName.H"
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#include <fstream>
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using std::ifstream;
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int main(int argc, char *argv[])
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{
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argList::noParallel();
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argList::validArgs.append("GAMBIT file");
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argList::validOptions.insert("scale", "scale factor");
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argList args(argc, argv);
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if (!args.check())
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{
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FatalError.exit();
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}
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scalar scaleFactor = 1.0;
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if (args.options().found("scale"))
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{
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scaleFactor = atof(args.options()["scale"].c_str());
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}
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# include "createTime.H"
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fileName gambitFile(args.additionalArgs()[0]);
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ifstream gambitStream(gambitFile.c_str());
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if (!gambitStream)
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{
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FatalErrorIn("gambitToFoam::main")
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<< args.executable()
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<< ": file " << gambitFile << " not found"
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<< abort(FatalError);
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}
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yyFlexLexer lexer(&gambitStream);
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while(lexer.yylex() != 0)
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{}
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Info << "Finished lexing" << endl;
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// make a point mapping array
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label maxPointIndex = 0;
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forAll (pointMap, pointI)
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{
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if (pointMap[pointI] > maxPointIndex)
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{
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maxPointIndex = pointMap[pointI];
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}
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}
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labelList pointLookup(maxPointIndex + 1, -1);
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forAll (pointMap, pointI)
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{
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pointLookup[pointMap[pointI] ] = pointI;
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}
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// make a cell mapping array
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label maxCellIndex = 0;
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forAll (cellMap, cellI)
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{
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if (cellMap[cellI] > maxCellIndex)
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{
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maxCellIndex = cellMap[cellI];
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}
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}
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labelList cellLookup(maxCellIndex + 1);
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forAll (cellMap, cellI)
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{
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cellLookup[cellMap[cellI] ] = cellI;
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}
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const cellModel& hex = *(cellModeller::lookup("hex"));
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const cellModel& prism = *(cellModeller::lookup("prism"));
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const cellModel& pyr = *(cellModeller::lookup("pyr"));
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const cellModel& tet = *(cellModeller::lookup("tet"));
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labelList labelsHex(8);
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labelList labelsPrism(6);
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labelList labelsPyramid(5);
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labelList labelsTet(4);
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|
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cellShapeList cells(cellLabels.size());
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forAll (cellTypes, cellI)
|
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{
|
|
const labelList& curCellLabels = cellLabels[cellI];
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|
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// Tetrahedron
|
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if (cellTypes[cellI] == 6)
|
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{
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labelsTet[0] = pointLookup[curCellLabels[0] ];
|
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labelsTet[1] = pointLookup[curCellLabels[2] ];
|
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labelsTet[2] = pointLookup[curCellLabels[3] ];
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labelsTet[3] = pointLookup[curCellLabels[1] ];
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|
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cells[cellI] = cellShape(tet, labelsTet);
|
|
}
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|
|
|
// Square-based pyramid
|
|
else if (cellTypes[cellI] == 7)
|
|
{
|
|
labelsPyramid[0] = pointLookup[curCellLabels[0] ];
|
|
labelsPyramid[1] = pointLookup[curCellLabels[1] ];
|
|
labelsPyramid[2] = pointLookup[curCellLabels[3] ];
|
|
labelsPyramid[3] = pointLookup[curCellLabels[2] ];
|
|
labelsPyramid[4] = pointLookup[curCellLabels[4] ];
|
|
|
|
cells[cellI] = cellShape(pyr, labelsPyramid);
|
|
}
|
|
|
|
// Triangular prism
|
|
else if (cellTypes[cellI] == 5)
|
|
{
|
|
labelsPrism[0] = pointLookup[curCellLabels[0] ];
|
|
labelsPrism[1] = pointLookup[curCellLabels[1] ];
|
|
labelsPrism[2] = pointLookup[curCellLabels[2] ];
|
|
labelsPrism[3] = pointLookup[curCellLabels[3] ];
|
|
labelsPrism[4] = pointLookup[curCellLabels[4] ];
|
|
labelsPrism[5] = pointLookup[curCellLabels[5] ];
|
|
|
|
cells[cellI] = cellShape(prism, labelsPrism);
|
|
}
|
|
|
|
// Hex
|
|
else if (cellTypes[cellI] == 4)
|
|
{
|
|
labelsHex[0] = pointLookup[curCellLabels[0] ];
|
|
labelsHex[1] = pointLookup[curCellLabels[1] ];
|
|
labelsHex[2] = pointLookup[curCellLabels[3] ];
|
|
labelsHex[3] = pointLookup[curCellLabels[2] ];
|
|
labelsHex[4] = pointLookup[curCellLabels[4] ];
|
|
labelsHex[5] = pointLookup[curCellLabels[5] ];
|
|
labelsHex[6] = pointLookup[curCellLabels[7] ];
|
|
labelsHex[7] = pointLookup[curCellLabels[6] ];
|
|
|
|
cells[cellI] = cellShape(hex, labelsHex);
|
|
}
|
|
}
|
|
|
|
// give foam model face number given a fluent model face number
|
|
label faceIndex[8][6] =
|
|
{
|
|
{-1, -1, -1, -1, -1, -1}, // 0
|
|
{-1, -1, -1, -1, -1, -1}, // 1
|
|
{-1, -1, -1, -1, -1, -1}, // 2
|
|
{ 2, 1, 3, 0, 4, 5}, // Hex (3)
|
|
{-1, -1, -1, -1, -1, -1}, // 4
|
|
{ 4, 3, 2, 0, 1, -1}, // Triangular prism (5)
|
|
{ 0, 4, 3, 2, 1, -1}, // Pyramid (6)
|
|
{ 2, 1, 0, 3, -1, -1} // Tet (7)
|
|
};
|
|
|
|
faceListList boundary(patchCells.size());
|
|
|
|
forAll(patchCells, patchI)
|
|
{
|
|
labelList& curCells = patchCells[patchI];
|
|
labelList& curFaces = patchCellFaces[patchI];
|
|
|
|
faceList& patchFaces = boundary[patchI];
|
|
patchFaces.setSize(curCells.size());
|
|
|
|
forAll (curCells, faceI)
|
|
{
|
|
patchFaces[faceI] =
|
|
cells[cellLookup[curCells[faceI] ] ].faces()
|
|
[
|
|
faceIndex
|
|
[
|
|
// this picks a cell type
|
|
cells[cellLookup[curCells[faceI] ] ]
|
|
.model().index()
|
|
]
|
|
[curFaces[faceI] - 1] // this gives a fluent face - 1
|
|
];
|
|
|
|
}
|
|
}
|
|
|
|
Info << "gambitToFoam: " << endl
|
|
<< "Gambit file format does not provide information about the type of "
|
|
<< "the patch (eg. wall, symmetry plane, cyclic etc)." << endl
|
|
<< "All the patches have been created "
|
|
<< "as type patch. Please reset after mesh conversion as necessary."
|
|
<< endl;
|
|
|
|
// Scale points
|
|
points *= scaleFactor;
|
|
|
|
wordList patchTypes(boundary.size(), polyPatch::typeName);
|
|
word defaultFacesName = "defaultFaces";
|
|
word defaultFacesType = emptyPolyPatch::typeName;
|
|
wordList patchPhysicalTypes(boundary.size());
|
|
|
|
preservePatchTypes
|
|
(
|
|
runTime,
|
|
runTime.constant(),
|
|
polyMesh::defaultRegion,
|
|
patchNames,
|
|
patchTypes,
|
|
defaultFacesName,
|
|
defaultFacesType,
|
|
patchPhysicalTypes
|
|
);
|
|
|
|
// Mesh will auto-write on construction
|
|
polyMesh pShapeMesh
|
|
(
|
|
IOobject
|
|
(
|
|
polyMesh::defaultRegion,
|
|
runTime.constant(),
|
|
runTime
|
|
),
|
|
points,
|
|
cells,
|
|
boundary,
|
|
patchNames,
|
|
patchTypes,
|
|
defaultFacesName,
|
|
defaultFacesType,
|
|
patchPhysicalTypes
|
|
);
|
|
|
|
// Set the precision of the points data to 10
|
|
IOstream::defaultPrecision(10);
|
|
|
|
Info << "Writing polyMesh" << endl;
|
|
pShapeMesh.write();
|
|
|
|
Info<< nl << "End" << endl;
|
|
return 0;
|
|
}
|
|
|
|
|
|
/* ------------------------------------------------------------------------- *\
|
|
------ End of gambitToFoam.L
|
|
\* ------------------------------------------------------------------------- */
|