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foam-extend4.1-coherent-io/src/OpenFOAM/meshes/polyMesh/polyMeshIO.C
2010-08-24 16:19:39 +01:00

457 lines
12 KiB
C

/*---------------------------------------------------------------------------*\
========= |
\\ / 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 "polyMesh.H"
#include "Time.H"
#include "cellIOList.H"
// * * * * * * * * * * * * * * * Member Functions * * * * * * * * * * * * * //
void Foam::polyMesh::setInstance(const fileName& inst)
{
if (debug)
{
Info<< "void polyMesh::setInstance(const fileName& inst) : "
<< "Resetting file instance to " << inst << endl;
}
allPoints_.writeOpt() = IOobject::AUTO_WRITE;
allPoints_.instance() = inst;
allFaces_.writeOpt() = IOobject::AUTO_WRITE;
allFaces_.instance() = inst;
owner_.writeOpt() = IOobject::AUTO_WRITE;
owner_.instance() = inst;
neighbour_.writeOpt() = IOobject::AUTO_WRITE;
neighbour_.instance() = inst;
boundary_.writeOpt() = IOobject::AUTO_WRITE;
boundary_.instance() = inst;
pointZones_.writeOpt() = IOobject::AUTO_WRITE;
pointZones_.instance() = inst;
faceZones_.writeOpt() = IOobject::AUTO_WRITE;
faceZones_.instance() = inst;
cellZones_.writeOpt() = IOobject::AUTO_WRITE;
cellZones_.instance() = inst;
}
Foam::polyMesh::readUpdateState Foam::polyMesh::readUpdate()
{
if (debug)
{
Info<< "polyMesh::readUpdateState polyMesh::readUpdate() : "
<< "Updating mesh based on saved data." << endl;
}
// Find the point and cell instance
fileName pointsInst(time().findInstance(meshDir(), "points"));
fileName facesInst(time().findInstance(meshDir(), "faces"));
if (debug)
{
Info<< "Faces instance: old = " << facesInstance()
<< " new = " << facesInst << nl
<< "Points instance: old = " << pointsInstance()
<< " new = " << pointsInst << endl;
}
if (facesInst != facesInstance())
{
// Topological change
if (debug)
{
Info << "Topological change" << endl;
}
clearOut();
// Set instance to new instance. Note that points instance can differ
// from from faces instance.
setInstance(facesInst);
allPoints_.instance() = pointsInst;
allPoints_ = pointIOField
(
IOobject
(
"points",
pointsInst,
meshSubDir,
*this,
IOobject::MUST_READ,
IOobject::NO_WRITE,
false
)
);
allFaces_ = faceIOList
(
IOobject
(
"faces",
facesInst,
meshSubDir,
*this,
IOobject::MUST_READ,
IOobject::NO_WRITE,
false
)
);
owner_ = labelIOList
(
IOobject
(
"owner",
facesInst,
meshSubDir,
*this,
IOobject::READ_IF_PRESENT,
IOobject::NO_WRITE,
false
)
);
neighbour_ = labelIOList
(
IOobject
(
"neighbour",
facesInst,
meshSubDir,
*this,
IOobject::READ_IF_PRESENT,
IOobject::NO_WRITE,
false
)
);
// Reset the boundary patches
polyBoundaryMesh newBoundary
(
IOobject
(
"boundary",
facesInst,
meshSubDir,
*this,
IOobject::MUST_READ,
IOobject::NO_WRITE,
false
),
*this
);
// Check that patch types and names are unchanged
bool boundaryChanged = false;
if (newBoundary.size() != boundary_.size())
{
boundaryChanged = true;
}
else
{
wordList newTypes = newBoundary.types();
wordList newNames = newBoundary.names();
wordList oldTypes = boundary_.types();
wordList oldNames = boundary_.names();
forAll (oldTypes, patchI)
{
if
(
oldTypes[patchI] != newTypes[patchI]
|| oldNames[patchI] != newNames[patchI]
)
{
boundaryChanged = true;
break;
}
}
}
if (boundaryChanged)
{
WarningIn("polyMesh::readUpdateState polyMesh::readUpdate()")
<< "Number of patches has changed. This may have "
<< "unexpected consequences. Proceed with care." << endl;
boundary_.clear();
boundary_.setSize(newBoundary.size());
forAll (newBoundary, patchI)
{
boundary_.set(patchI, newBoundary[patchI].clone(boundary_));
}
}
else
{
forAll (boundary_, patchI)
{
boundary_[patchI] = polyPatch
(
newBoundary[patchI].name(),
newBoundary[patchI].size(),
newBoundary[patchI].start(),
patchI,
boundary_
);
}
}
// Boundary is set so can use initMesh now (uses boundary_ to
// determine internal and active faces)
if (exists(owner_.objectPath()))
{
initMesh();
}
else
{
cellIOList cells
(
IOobject
(
"cells",
facesInst,
meshSubDir,
*this,
IOobject::MUST_READ,
IOobject::NO_WRITE,
false
)
);
// Recalculate the owner/neighbour addressing and reset the
// primitiveMesh
initMesh(cells);
}
// Even if number of patches stayed same still recalculate boundary
// data.
// Calculate topology for the patches (processor-processor comms etc.)
boundary_.updateMesh();
// Calculate the geometry for the patches (transformation tensors etc.)
boundary_.calcGeometry();
// Derived info
bounds_ = boundBox(allPoints_);
geometricD_ = Vector<label>::zero;
solutionD_ = Vector<label>::zero;
// Zones
pointZoneMesh newPointZones
(
IOobject
(
"pointZones",
facesInst,
meshSubDir,
*this,
IOobject::READ_IF_PRESENT,
IOobject::NO_WRITE,
false
),
*this
);
label oldSize = pointZones_.size();
if (newPointZones.size() <= pointZones_.size())
{
pointZones_.setSize(newPointZones.size());
}
// Reset existing ones
forAll (pointZones_, czI)
{
pointZones_[czI] = newPointZones[czI];
}
// Extend with extra ones
pointZones_.setSize(newPointZones.size());
for (label czI = oldSize; czI < newPointZones.size(); czI++)
{
pointZones_.set(czI, newPointZones[czI].clone(pointZones_));
}
pointZones_.setSize(newPointZones.size());
forAll (pointZones_, pzI)
{
pointZones_[pzI] = newPointZones[pzI];
}
faceZoneMesh newFaceZones
(
IOobject
(
"faceZones",
facesInst,
meshSubDir,
*this,
IOobject::READ_IF_PRESENT,
IOobject::NO_WRITE,
false
),
*this
);
oldSize = faceZones_.size();
if (newFaceZones.size() <= faceZones_.size())
{
faceZones_.setSize(newFaceZones.size());
}
// Reset existing ones
forAll (faceZones_, fzI)
{
faceZones_[fzI].resetAddressing
(
newFaceZones[fzI],
newFaceZones[fzI].flipMap()
);
}
// Extend with extra ones
faceZones_.setSize(newFaceZones.size());
for (label fzI = oldSize; fzI < newFaceZones.size(); fzI++)
{
faceZones_.set(fzI, newFaceZones[fzI].clone(faceZones_));
}
cellZoneMesh newCellZones
(
IOobject
(
"cellZones",
facesInst,
meshSubDir,
*this,
IOobject::READ_IF_PRESENT,
IOobject::NO_WRITE,
false
),
*this
);
oldSize = cellZones_.size();
if (newCellZones.size() <= cellZones_.size())
{
cellZones_.setSize(newCellZones.size());
}
// Reset existing ones
forAll (cellZones_, czI)
{
cellZones_[czI] = newCellZones[czI];
}
// Extend with extra ones
cellZones_.setSize(newCellZones.size());
for (label czI = oldSize; czI < newCellZones.size(); czI++)
{
cellZones_.set(czI, newCellZones[czI].clone(cellZones_));
}
if (boundaryChanged)
{
return polyMesh::TOPO_PATCH_CHANGE;
}
else
{
return polyMesh::TOPO_CHANGE;
}
}
else if (pointsInst != pointsInstance())
{
// Points moved
if (debug)
{
Info << "Point motion" << endl;
}
clearGeom();
allPoints_.instance() = pointsInst;
allPoints_ = pointIOField
(
IOobject
(
"points",
pointsInst,
meshSubDir,
*this,
IOobject::MUST_READ,
IOobject::NO_WRITE,
false
)
);
// Reset points, mesh is not moved
points_ = pointField::subField(allPoints_, nPoints());
// Derived info
bounds_ = boundBox(allPoints_);
// Rotation can cause direction vector to change
geometricD_ = Vector<label>::zero;
solutionD_ = Vector<label>::zero;
return polyMesh::POINTS_MOVED;
}
else
{
if (debug)
{
Info << "No change" << endl;
}
return polyMesh::UNCHANGED;
}
}
// ************************************************************************* //