a3681c3428
Replaces MeshObject, providing a formalised method for creating demand-driven
mesh objects, optionally supporting update functions called by the mesh
following mesh changes.
Class
Foam::DemandDrivenMeshObject
Description
Templated abstract base-class for demand-driven mesh objects used to
automate their allocation to the mesh database and the mesh-modifier
event-loop.
DemandDrivenMeshObject is templated on the type of mesh it is allocated
to, the type of the mesh object (TopologicalMeshObject, GeometricMeshObject,
MoveableMeshObject, DistributeableMeshObject, UpdateableMeshObject) and the
type of the actual object it is created for example:
\verbatim
class leastSquaresVectors
:
public DemandDrivenMeshObject
<
fvMesh,
MoveableMeshObject,
leastSquaresVectors
>
{
.
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.
//- Delete the least square vectors when the mesh moves
virtual bool movePoints();
};
\endverbatim
MeshObject types:
- TopologicalMeshObject: mesh object to be deleted on topology change
- GeometricMeshObject: mesh object to be deleted on geometry change
- MoveableMeshObject: mesh object to be updated in movePoints
- UpdateableMeshObject: mesh object to be updated in topoChange or
movePoints
- PatchMeshObject: mesh object to be additionally updated patch changes
DemandDrivenMeshObject should always be constructed and accessed via the New
methods provided so that they are held and maintained by the objectRegistry.
To ensure this use constructors of the concrete derived types should be
private or protected and friendship with the DemandDrivenMeshObject
base-class declared so that the New functions can call the the constructors.
Additionally the mesh-object types (TopologicalMeshObject, GeometricMeshObject,
MoveableMeshObject, DistributeableMeshObject, UpdateableMeshObject) can now be
used as mix-in types for normally allocated objects providing the same interface
to mesh-change update functions, see the Fickian fluid
thermophysicalTransportModel or anisotropic solid thermophysicalTransportModel.
This new approach to adding mesh-update functions to classes will be applied to
other existing classes and future developments to simplify the support and
maintenance of run-time mesh changes, in particular mesh refinement/unrefinement
and mesh-to-mesh mapping.
224 lines
5.8 KiB
C++
224 lines
5.8 KiB
C++
/*---------------------------------------------------------------------------*\
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========= |
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\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
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\\ / O peration | Website: https://openfoam.org
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\\ / A nd | Copyright (C) 2011-2022 OpenFOAM Foundation
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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
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the Free Software Foundation, either version 3 of the License, or
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(at your 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, see <http://www.gnu.org/licenses/>.
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Application
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surfaceMeshImport
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Description
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Import from various third-party surface formats into surfMesh
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with optional scaling or transformations (rotate/translate)
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on a coordinateSystem.
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Usage
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\b surfaceMeshImport inputFile [OPTION]
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Options:
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- \par -clean \n
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Perform some surface checking/cleanup on the input surface.
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- \par -name \<name\> \n
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Specify an alternative surface name when writing.
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- \par -scaleIn \<scale\> \n
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Specify a scaling factor when reading files.
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- \par -scaleOut \<scale\> \n
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Specify a scaling factor when writing files.
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- \par -from \<coordinateSystem\> \n
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Specify a coordinate system when reading files.
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- \par -to \<coordinateSystem\> \n
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Specify a coordinate system when writing files.
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Note:
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The filename extensions are used to determine the file format type.
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\*---------------------------------------------------------------------------*/
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#include "argList.H"
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#include "Time.H"
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#include "MeshedSurfaces.H"
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#include "coordinateSystems.H"
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using namespace Foam;
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// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
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int main(int argc, char *argv[])
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{
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argList::addNote
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(
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"import from various third-party surface formats into surfMesh"
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);
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argList::noParallel();
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argList::validArgs.append("surface file");
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argList::addBoolOption
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(
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"clean",
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"perform some surface checking/cleanup on the input surface"
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);
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argList::addOption
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(
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"name",
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"name",
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"specify an alternative surface name when writing - "
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"default is 'default'"
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);
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argList::addOption
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(
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"scaleIn",
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"factor",
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"geometry scaling factor on input - default is 1"
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);
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argList::addOption
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(
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"scaleOut",
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"factor",
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"geometry scaling factor on output - default is 1"
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);
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argList::addOption
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(
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"from",
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"coordinateSystem",
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"specify a local coordinate system when reading files."
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);
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argList::addOption
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(
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"to",
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"coordinateSystem",
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"specify a local coordinate system when writing files."
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);
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#include "setRootCase.H"
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#include "createTime.H"
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// try for the latestTime, but create "constant" as needed
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instantList Times = runTime.times();
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if (Times.size())
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{
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label startTime = Times.size()-1;
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runTime.setTime(Times[startTime], startTime);
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}
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else
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{
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runTime.setTime(instant(0, runTime.constant()), 0);
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}
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const fileName importName = args[1];
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const word exportName = args.optionLookupOrDefault<word>("name", "default");
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// check that reading is supported
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if (!MeshedSurface<face>::canRead(importName, true))
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{
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return 1;
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}
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// Get the coordinate transformations
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autoPtr<coordinateSystem> fromCsys;
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autoPtr<coordinateSystem> toCsys;
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if (args.optionFound("from") || args.optionFound("to"))
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{
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const coordinateSystems::coordinateSystems& csLst
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(
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coordinateSystems::coordinateSystems::New(runTime)
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);
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if (args.optionFound("from"))
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{
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const word csName = args["from"];
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fromCsys = csLst[csName].clone();
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}
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if (args.optionFound("to"))
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{
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const word csName = args["to"];
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toCsys = csLst[csName].clone();
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}
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}
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MeshedSurface<face> surf(importName);
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if (args.optionFound("clean"))
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{
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surf.cleanup(true);
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}
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scalar scaleIn = 0;
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if (args.optionReadIfPresent("scaleIn", scaleIn) && scaleIn > 0)
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{
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Info<< " -scaleIn " << scaleIn << endl;
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surf.scalePoints(scaleIn);
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}
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if (fromCsys.valid())
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{
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Info<< " -from " << fromCsys().name() << endl;
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tmp<pointField> tpf = fromCsys().localPosition(surf.points());
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surf.movePoints(tpf());
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}
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if (toCsys.valid())
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{
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Info<< " -to " << toCsys().name() << endl;
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tmp<pointField> tpf = toCsys().globalPosition(surf.points());
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surf.movePoints(tpf());
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}
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scalar scaleOut = 0;
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if (args.optionReadIfPresent("scaleOut", scaleOut) && scaleOut > 0)
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{
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Info<< " -scaleOut " << scaleOut << endl;
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surf.scalePoints(scaleOut);
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}
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surfMesh smesh
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(
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IOobject
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(
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exportName,
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runTime.constant(),
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runTime
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),
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move(surf)
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);
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Info<< "writing surfMesh:\n " << smesh.relativeObjectPath() << endl;
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smesh.write();
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Info<< "\nEnd\n" << endl;
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return 0;
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}
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// ************************************************************************* //
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