Commit graph

10 commits

Author SHA1 Message Date
Henry Weller
a4e2afa4b3 Completed boundaryField() -> boundaryFieldRef()
Resolves bug-report http://www.openfoam.org/mantisbt/view.php?id=1938

Because C++ does not support overloading based on the return-type there
is a problem defining both const and non-const member functions which
are resolved based on the const-ness of the object for which they are
called rather than the intent of the programmer declared via the
const-ness of the returned type.  The issue for the "boundaryField()"
member function is that the non-const version increments the
event-counter and checks the state of the stored old-time fields in case
the returned value is altered whereas the const version has no
side-effects and simply returns the reference.  If the the non-const
function is called within the patch-loop the event-counter may overflow.
To resolve this it in necessary to avoid calling the non-const form of
"boundaryField()" if the results is not altered and cache the reference
outside the patch-loop when mutation of the patch fields is needed.

The most straight forward way of resolving this problem is to name the
const and non-const forms of the member functions differently e.g. the
non-const form could be named:

    mutableBoundaryField()
    mutBoundaryField()
    nonConstBoundaryField()
    boundaryFieldRef()

Given that in C++ a reference is non-const unless specified as const:
"T&" vs "const T&" the logical convention would be

    boundaryFieldRef()
    boundaryFieldConstRef()

and given that the const form which is more commonly used is it could
simply be named "boundaryField()" then the logical convention is

    GeometricBoundaryField& boundaryFieldRef();

    inline const GeometricBoundaryField& boundaryField() const;

This is also consistent with the new "tmp" class for which non-const
access to the stored object is obtained using the ".ref()" member function.

This new convention for non-const access to the components of
GeometricField will be applied to "dimensionedInternalField()" and "internalField()" in the
future, i.e. "dimensionedInternalFieldRef()" and "internalFieldRef()".
2016-04-25 16:16:05 +01:00
Henry Weller
287603474a vector::zero -> Zero 2016-04-16 18:34:41 +01:00
Henry Weller
7859083246 OpenFOAM: Updated all libraries, solvers and utilities to use the new const-safe tmp
The deprecated non-const tmp functionality is now on the compiler switch
NON_CONST_TMP which can be enabled by adding -DNON_CONST_TMP to EXE_INC
in the Make/options file.  However, it is recommended to upgrade all
code to the new safer tmp by using the '.ref()' member function rather
than the non-const '()' dereference operator when non-const access to
the temporary object is required.

Please report any problems on Mantis.

Henry G. Weller
CFD Direct.
2016-02-26 17:31:28 +00:00
Henry Weller
7d192447f0 Boundary conditions: Added extrapolatedCalculatedFvPatchField
To be used instead of zeroGradientFvPatchField for temporary fields for
which zero-gradient extrapolation is use to evaluate the boundary field
but avoiding fields derived from temporary field using field algebra
inheriting the zeroGradient boundary condition by the reuse of the
temporary field storage.

zeroGradientFvPatchField should not be used as the default patch field
for any temporary fields and should be avoided for non-temporary fields
except where it is clearly appropriate;
extrapolatedCalculatedFvPatchField and calculatedFvPatchField are
generally more suitable defaults depending on the manner in which the
boundary values are specified or evaluated.

The entire OpenFOAM-dev code-base has been updated following the above
recommendations.

Henry G. Weller
CFD Direct
2016-02-20 22:44:37 +00:00
Henry Weller
10aea96ae5 applications: Update ...ErrorIn -> ...ErrorInFunction
Avoids the clutter and maintenance effort associated with providing the
function signature string.
2015-11-10 17:53:31 +00:00
Henry Weller
3d14a632a5 reactingMultiphaseEulerFoam, multiphaseEulerFoam: Correct flux averaging for sub-cycling 2015-10-05 17:43:33 +01:00
Henry Weller
cc5f67a0ff reactingMultiphaseEulerFoam: New Euler-Euler multiphase solver
Supporting any number of phases with heat and mass transfer, phase-change and reactions
2015-09-11 15:33:12 +01:00
Henry
e5a52c90e8 Update headers 2015-04-29 14:44:53 +01:00
Henry
3e2b64c08d MULES: nLimiterIter and smoothLimiter are now user-input via the corresponding fvSolution sub-dict
nLimiterIter: Number of iterations during limiter construction
    3 (default) is sufficient for 3D simulations with a Courant number 0.5 or so
    For larger Courant numbers larger values may be needed but this is
    only relevant for IMULES and CMULES

smoothLimiter: Coefficient to smooth the limiter to avoid "diamond"
    staggering patters seen in regions of low particle phase-fraction in
    fluidised-bed simulations.

    The default is 0 as it is not needed for all simulations.
    A value of 0.1 is appropriate for fluidised-bed simulations.
    The useful range is 0 -> 0.5.
    Values larger than 0.5 may cause excessive smearing of the solution.
2015-04-29 14:37:41 +01:00
Henry
446e5777f0 Add the OpenFOAM source tree 2014-12-10 22:40:10 +00:00