- weight fields are combined by multiplication
- volFieldValue:
* 0-N scalar fields
- surfaceFieldValue:
* 0-N scalar fields
* 0-1 vector fields
In some cases this can be used to avoid creating additional
fields.
weightFields (rho U);
vs.
derivedFields (rhoU);
weightField rhoU;
- additional "names" entry to specify a word/regex list of selections
For example,
{
type patch;
name inlets;
names ("inlet_[0-9].*" inlet);
}
- if "names" exists AND contains a literal (non-regex) that can be used
as a suitable value for "name", the "name" entry becomes optional.
For example,
{
type patch;
names ("inlet_[0-9].*" inlet);
// inferred name = inlet
}
- reduce some overhead in surfaceFieldValue
TUT: surfaceFieldValue on patches : reactingParcelFoam/verticalChannel
- deprecate get(key, deflt) in favour of lookup(key, deflt).
Method name compatibility with HashTable.
- deprecate operator().
The meaning is too opaque and equally served by other means:
- use get(key) instead of operator()(key).
Const access whereas HashTable::operator()(key)
creates missing entry.
- lookup(key, deflt) - instead of operator()(key, deflt).
Const access whereas HashTable::operator()(key, deflt)
creates a missing entry.
- make Enum iterable to allow participation in range-for etc.
- deprecated Feb-2018, but not marked as such.
The set() method originally enforce an additional run-time check
(Fatal if pointer was already set), but this was rarely used.
In fact, the set() method was invariably used in constructors
where the pointer by definition was unset.
Can now mark as deprecated to catch the last of these.
We prefer reset() for similarity with std::unique_ptr
Eg,
FOAM_EXTRA_CXXFLAGS="-DFoam_autoPtr_deprecate_setMethod" wmake
DOC: heatTransferCoeff models: complete remaining header docs
STYLE: heatTransferCoeff models: use auto specifier when appropriate
Optionally, the Nusselt number (i.e. the ratio of convective to conductive
heat transfer at a boundary in a fluid) can be output:
```math
Nu = \frac{h L}{\kappa}
```
where
```
Nu | Nusselt number
h | Convective heat transfer coefficient of the flow
L | Characteristic length that defines the scale of the physical system
\kappa | Thermal conductivity of the fluid
```
- make handling of verbosity more consistent.
Make all setter return the old value, remove (unused) default
parameter as being counter-intuitive. This makes it easier to
restore the original values.
For example,
const bool oldVerbose = sampler.verbose(false);
...
sampler.verbose(oldVerbose);
- returns a range of `int` values that can be iterated across.
For example,
for (const int proci : Pstream::subProcs()) { ... }
instead of
for
(
int proci = Pstream::firstSlave();
proci <= Pstream::lastSlave();
++proci
)
{
...
}
- returns a range of `int` values that can be iterated across.
For example,
for (const int proci : Pstream::allProcs()) { ... }
instead of
for (label proci = 0; proci < Pstream::nProcs(); ++proci) { ... }
- originally (incorrectly) was a Field(0.0), which was generalized
to Field(Zero), but Field() is the correct form
STYLE: rename 'mustGet' to more standard 'mandatory' variable
- read header info once and reuse
- short-circuit logic to avoid unneeded checks
- additional debug information if field cannot be found
STYLE: remove unused old code remnants from #1206
- with '&&' conditions, often better to check for non-null autoPtr
first (it is cheap)
- check as bool instead of valid() method for cleaner code, especially
when the wrapped item itself has a valid/empty or good.
Also when handling multiple checks.
Now
if (ptr && ptr->valid())
if (ptr1 || ptr2)
instead
if (ptr.valid() && ptr->valid())
if (ptr1.valid() || ptr2.valid())
- This reflects the pre-existing coding situation where const_cast was
used throughout to effect the same.
STYLE: fix private/protected access
- CodedField, codedMixedFvPatchField
- related to change c3571b7357 (does not affect 1912 or older).
Remnant check for data() should have used valid() method instead.
TUT: add fluxSummary cellZoneAndDirection to angledDuct/implicit
The function object now computes the acoustic pressure at a list of user
specified locations, or from the face centres of a user-supplied surface.
When operating on an input surface, the output can be written back to the
surface or as a list of point values.
Example of function object specification:
Curle1
{
type Curle;
libs ("libfieldFunctionObjects.so");
...
patches (surface1 surface2);
c0 330;
// Input - either points or surface
input points;
observerPositions ((0 0 0)(1 0 0));
//input surface;
//surface "inputSurface.obj"
// Output - either points or surface
output points;
//output surface;
//surfaceType ensight;
}
Where the entries comprise:
Property | Description | Required | Default value
type | Type name: Curle | yes |
p | Pressure field name | no | p
patches | Sound generation patch names | yes |
c0 | Reference speed of sound | yes |
input | Input type | yes |
observerPositions | List of observer positions (x y z) | no |
surface | Input surface file name | no |
output | Output type | yes |
surfaceType | Output surface type | no |
ENH: add log FO
ENH: improve log with scale, and offset entries
BUG: ensure extrueMesh does not fail in parallel with wedge extrusion
BUG: add missing clone and mapping funcs to copiedFixedValue, fixedMultiPhaseHeatFlux
ENH: meshToMesh0::cellAddressing slight speed up for some geometries
BUG:0003495: Divide-by-zero in SHF particle break-up model
BUG:0003492: The formula in the OF is inconsistent with the Rosin-Rammler distribution theory formula
- replace ':' scoping with IOobject::scopedName(), which automatically
uses '_' for Windows compilations where the ':' is a meta-character
(drive separator)
- apply similar local change for the momentum function object.
*** This topic will be revisited in the future ***
ENH: update libs of etc/caseDicts/postProcess items
ENH: ensure destructor=default
ENH: ensure constness
ENH: ensure no 'copy construct' and 'no copy assignment' exist
TUT: add examples of function objects with full set
of settings into a TUT if unavailable
TUT: update pisoFoam/RAS/cavity tutorial in terms of usage
STDMD (i.e. Streaming Total Dynamic Mode Decomposition) is a variant of
a data-driven dimensionality reduction method.
STDMD is being used as a mathematical post-processing tool to compute
a set of dominant modes out of a given flow (or dataset) each of which is
associated with a constant frequency and decay rate, so that dynamic
features of a given flow may become interpretable, and tractable.
Among other Dynamic Mode Decomposition (DMD) variants, STDMD is presumed
to provide the general DMD method capabilities alongside economised and
feasible memory and CPU usage.
Please refer to the header file documentation for further details.
ENH: add new STDMD tutorial, pimpleFoam/laminar/cylinder2D
The phase systems tables for multiphase solvers create conflict
between each other as they are defined in the same namespace and using
similar class names.
Therefore a special htc function object for reactingEulerSolver was
added (reactingEulerHtcModel), located under
src/phaseSystemModels/reactingEulerFoam/functionObjects/
This commit includes the following:
- Relocate solvers/reactingEulerFoam functionObjects to
src/phaseSystemModels
- Remove links for fieldFunctionObject to multiphase libs to avoid
conflicts
- New FO for htc for reactingEulerFoam called reactingEulerHtcModel
- previously introduced `getOrDefault` as a dictionary _get_ method,
now complete the transition and use it everywhere instead of
`lookupOrDefault`. This avoids mixed usage of the two methods that
are identical in behaviour, makes for shorter names, and promotes
the distinction between "lookup" access (ie, return a token stream,
locate and return an entry) and "get" access (ie, the above with
conversion to concrete types such as scalar, label etc).
- before (-lreactingPhaseSystem -ltwoPhaseReactingTurbulenceModels)
after (-ltwoPhaseReactingTurbulenceModels -lreactingPhaseSystem)
to fix symbol resolution issue on clang.
multiphaseReactingTurbulenceModels and twoPhaseReactingTurbulenceModels
add models to the same table TurbulenceModel. These two libs were removed
from libreactingPhaseSystem which created the conflict.
The multiphaseReactingTurbulenceModels was added to
reactingMultiPhaseEulerFoam solver and twoPhaseReactingTurbulenceModels to
twoPhaseReactingEulerFoam solver
The FO heatTransferCoeffs for libfieldFunctionObjects needs
twoPhaseReactingTurbulenceModels.
These change avoids linking conflict from multiphaseReactingTurbulenceModels
and twoPhaseReactingTurbulenceModels being linked in the same lib.
