- simplifies construction/inheritance
ENH: add {fa,fv}PatchField::zeroGradientType() static
- can be used to avoid literal "zeroGradient" in places
STYLE: adjust naming of pointPatch runtime selection table
- simply use 'patch' as per fa/fv fields
STYLE: add zero-size guard to patch constraintType(const word&)
- this allows the "relocation" of sampled surfaces. For example,
to reposition into a different coordinate system for importing
into CAD.
- incorporate output scaling for all surface writer types.
This was previously done on an adhoc basis for different writers,
but with now included in the base-level so that all writers
can automatically use scale + transform.
Example:
formatOptions
{
vtk
{
scale 1000; // m -> mm
transform
{
origin (0.05 0 0);
rotation axisAngle;
axis (0 0 1);
angle -45;
}
}
}
- simpler to write for sampled cutting planes etc.
For example,
slice
{
type cuttingPlane;
point (0 0 0);
normal (0 0 1);
interpolate true;
}
instead of
slice
{
type cuttingPlane;
planeType pointAndNormal;
pointAndNormalDict
{
point (0 0 0);
normal (0 0 1);
}
interpolate true;
}
STYLE: add noexcept to some plane methods
- use simpler decomposeParDict in tutorials, several had old
'boilerplate' decomposeParDict
- use simpler libs () format
- update surface sampling to use dictionary format
- previously the store() method just set the ownedByRegistry flag.
Now ensure that it is indeed registered first.
- support register/store of tmp<> items.
The tmp parameter is not cleared, but changed from PTR to CREF
to allow further use.
The implicit registration allows code simplification using the
GeometricField::New factory method, for example.
Old Code
========
volScalarField* ptr = new volScalarField
(
IOobject
(
fieldName,
mesh.time().timeName(),
mesh,
IOobject::NO_READ,
IOobject::NO_WRITE,
true // Register
),
mesh,
dimless,
zeroGradientFvPatchField<scalar>::typeName
);
ptr->store();
New Code
========
auto tptr = volScalarField::New
(
fieldName,
mesh,
dimless,
zeroGradientFvPatchField<scalar>::typeName
);
regIOobject::store(tptr);
or even
regIOobject::store
(
volScalarField::New
(
fieldName,
mesh,
dimless,
zeroGradientFvPatchField<scalar>::typeName
)
);
