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foam-extend4.1-coherent-io/applications/utilities/postProcessing/graphics/newEnsightFoamReader/getSecondMeshFieldTensor.H

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label offset = Num_variables - nSecondMeshVariables - nFaMeshVariables;
if (nVar < offset || nVar >= (Num_variables-nFaMeshVariables))
{
return Z_UNDEF;
}
IOobject fieldObjectPtr
(
secondMeshFieldNames[secondMeshVar2field[nVar-offset]],
runTime.timeName(),
*secondMeshPtr,
IOobject::NO_READ
);
if (!fieldObjectPtr.headerOk())
{
return Z_UNDEF;
}
IOobject fieldObject
(
secondMeshFieldNames[secondMeshVar2field[nVar-offset]],
runTime.timeName(),
*secondMeshPtr,
IOobject::MUST_READ,
IOobject::NO_WRITE
);
volTensorField tf
(
fieldObject,
*secondMeshPtr
);
const cellShapeList& cellShapes = secondMeshPtr->cellShapes();
// hexa's
if (which_type == Z_HEX08)
{
const cellModel& hex = *(cellModeller::lookup("hex"));
//const cellModel& wedge = *(cellModeller::lookup("wedge"));
label counter = 1;
for (label n=0; n<nCells; n++)
{
const cellShape& cellShape = cellShapes[n];
const cellModel& cellModel = cellShape.model();
if (cellModel == hex) // || (cellModel == wedge))
{
# include "tensorConversion.H"
}
}
}
// penta's
if (which_type == Z_PEN06)
{
const cellModel& prism = *(cellModeller::lookup("prism"));
label counter = 1;
for (label n=0; n<nCells; n++)
{
const cellShape& cellShape = cellShapes[n];
const cellModel& cellModel = cellShape.model();
if (cellModel == prism)
{
# include "tensorConversion.H"
}
}
}
// pyramids's
if (which_type == Z_PYR05)
{
const cellModel& pyr = *(cellModeller::lookup("pyr"));
label counter = 1;
for (label n=0; n<nCells; n++)
{
const cellShape& cellShape = cellShapes[n];
const cellModel& cellModel = cellShape.model();
if (cellModel == pyr)
{
# include "tensorConversion.H"
}
}
}
// penta's
if (which_type == Z_TET04)
{
const cellModel& tet = *(cellModeller::lookup("tet"));
label counter = 1;
for (label n=0; n<nCells; n++)
{
const cellShape& cellShape = cellShapes[n];
const cellModel& cellModel = cellShape.model();
if (cellModel == tet)
{
# include "tensorConversion.H"
}
}
}
if (which_type == Z_NFACED)
{
const cellList& cells = secondMeshPtr->cells();
label counter = 1;
for (label n=0; n<nCells; n++)
{
const labelList& points = cellShapes[n];
label nFacesInCell = cells[n].size();
if ((nFacesInCell == 6) && (points.size() == 8))
{}
else if ((nFacesInCell == 4) && (points.size() == 4))
{}
else if (nFacesInCell == 5)
{
if (points.size() == 6)
{}
else if (points.size() == 5)
{}
else
{
# include "tensorConversion.H"
}
}
else
{
# include "tensorConversion.H"
}
}
}