- improved separation of patch creation that is also parallel-aware,
which now allows creation in parallel
- memory-safe use of PtrList for adding patches, with a more generalized
faPatchData helper
- use uindirectPrimitivePatch instead of indirectPrimitivePatch
for internal patch handling.
- align boundary methods with polyMesh equivalents
- system/faMeshDefinition instead of constant/faMesh/faMeshDefinition
as per blockMesh convention. Easier to manage definitions, easier
for cleanup.
- drop inheritence from GeoMesh.
- intended for the following type of use:
auto oldHandler = fileHandler(fileOperation::NewUncollated());
... do something that only works with uncollated
// Restore previous (if any)
if (oldHandler)
{
fileHandler(std::move(oldHandler));
}
ENH: make fileOperation distributed(bool) mutable
- use is "static-like" and akin to Pstream::parRun(bool),
thus allow toggling of the switch without a const_cast
- reduces code, simplifies creation of new, specialized polyData
writers.
- new templated vtk::GenericPatchWriter, which adds support for
writing both uindirectPrimitivePatch + indirectPrimitivePatch types.
- handle geometric fields separately from regular fields with
* vtk:GenericPatchGeoFieldsWriter
* vtk:indirectPatchGeoFieldsWriter
* vtk:uindirectPatchGeoFieldsWriter
Step 1.
include "addAllRegionOptions.H"
Adds the -allRegions, -regions and -region options to argList.
Step 2.
include "getAllRegionOptions.H"
Processes the options with -allRegions selecting everything
from the regionProperties.
OR use -regions to specify multiple regions (from
regionProperties), and can also contain regular expressions
OR use the -region option
Specifying a single -regions NAME (not a regular expresssion)
is the same as -region NAME and doesn't use regionProperties
Creates a `wordList regionNames`
Step 3.
Do something with the region names.
Either directly, or quite commonly with the following
include "createNamedMeshes.H"
Creates a `PtrList<fvMesh> meshes`
STYLE: add description to some central include files
- wrap command-line retrieval of fileName with an implicit validate.
Instead of this:
fileName input(args[1]);
fileName other(args["someopt"]);
Now use this:
auto input = args.get<fileName>(1);
auto other = args.get<fileName>("someopt");
which adds a fileName::validate on the inputs
Because of how it is implemented, it will automatically also apply
to argList getOrDefault<fileName>, readIfPresent<fileName> etc.
- adjust fileName::validate and clean to handle backslash conversion.
This makes it easier to ensure that path names arising from MS-Windows
are consistently handled internally.
- dictionarySearch: now check for initial '/' directly instead of
relying on fileName isAbsolute(), which now does more things
BREAKING: remove fileName::clean() const method
- relying on const/non-const to control the behaviour (inplace change
or return a copy) is too fragile and the const version was
almost never used.
Replace:
fileName sanitized = constPath.clean();
With:
fileName sanitized(constPath);
sanitized.clean());
STYLE: test empty() instead of comparing with fileName::null
- simplifies local toggling.
- centralize fileModification static variables into IOobject.
They were previously scattered between IOobject and regIOobject
- direct check of punctuation.
For example,
while (!tok.isPunctuation(token::BEGIN_LIST)) ..
instead of
while (!(tok.isPunctuation() && tok.pToken() == token::BEGIN_LIST)) ..
Using direct comparison (tok != token::BEGIN_LIST) can be fragile
when comparing int values:
int c = readChar(is);
while (tok != c) .. // Danger, uses LABEL comparison!
- direct check of word.
For example,
if (tok.isWord("uniform")) ..
instead of
if (tok.isWord() && tok.wordToken() == "uniform") ..
- make token lineNumber() a setter method
ENH: adjust internal compound method empty() -> moved()
- support named compound tokens
STYLE: setter method for stream indentation
The SPL can now be weighted according to the new 'SPLweighting' entry
that can be set to:
- none: no weighting
- dBA : dB(A)
- dBB : dB(B)
- dBC : dB(C)
- dBD : dB(D)
This commit also includes code refactoring of the noiseModel class to
remove the dependency on noiseFFT/declutter.
- robuster matching behaviour when encountering paths that themselves
contain the word "processor" in them. For example,
"/path/processor0generation2/case1/processor10/system"
will now correctly match on processor10 instead of failing.
- use procRangeType for encapsulating the processor ranges
- provision for information of distributed vs non-distributed roots.
The information is currently available from the initial setup, but
can useful to access directly within fileOperation.
STYLE: modernize list iteration
- the problem arises when output fields are missing on some
processors.
When the information is combined, the resulting HashTables can have
different insertion orders. This poses an issue when there are hash
key collisions and thus different chaining.
- Use sorted order.
- introduce WM_COMPILE_CONTROL variable to convey control information
into the build rules.
The convention (as per spack):
- '+' to select a feature
- '~' to deselect a feature
Eg, to select the gold linker, and disable openmp
(spaces are not required):
WM_COMPILE_CONTROL="+gold ~openmp"
CONFIG: accept FOAM_EXTRA_LDFLAGS for AMD, gold, Mingw linkers
CONFIG: generalize PROJECT_LIBS (-ldl used almost universally)
- 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())
- the earlier implementation of externally controlled lumped point
motion (see merge request !120 and OpenFOAM-v1706 release notes) was
conceived for the motion of simple structures such as buildings or
simple beams. The motion controller was simply defined in terms of
an orientation axis and divisions along that axis.
To include complex structures, multiple motion controllers are
defined in terms of support points and connectivity.
The points can have additional node Ids associated with them, which
makes it easier to map to/from FEA models.
OLD system/lumpedPointMovement specification
--------------------------------------------
//- Reference axis for the locations
axis (0 0 1);
//- Locations of the lumped points
locations (0 0.05 .. 0.5);
NEW system/lumpedPointMovement specification
--------------------------------------------
// Locations of the lumped points
points
(
(0 0 0.00)
(0 0 0.05)
...
(0 0 0.50)
);
//- Connectivity for motion controllers
controllers
{
vertical
{
pointLabels (0 1 2 3 4 5 6 7 8 9 10);
}
}
And the controller(s) must be associated with the given
pointDisplacement patch. Eg,
somePatch
{
type lumpedPointDisplacement;
value uniform (0 0 0);
controllers ( vertical ); // <-- NEW
}
TUT: adjust building motion tutorial
- use new controllor definitions
- replace building response file with executable
- add updateControl in dynamicMeshDict for slowly moving structure
- 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).
- Favour use of argList methods that are more similar to dictionary
method names with the aim of reducing the cognitive load.
* Silently deprecate two-parameter get() method in favour of the
more familiar getOrDefault.
* Silently deprecate opt() method in favour of get()
These may be verbosely deprecated in future versions.
- includes restructuring and simplification of low-level ensight part
handling and refactor of backends to improve code reuse.
foamToEnsight
-------------
* new cellZone support.
This was previously only possible via a separate foamToEnsightParts
utility that was not parallelized.
* support for point fields.
* `-nearCellValue` option (as per foamToVTK)
* data indexing now uses values from the time index.
This is consistent with the ensightWrite function object and
can help with restarts.
* existing ensight directories are removed, unless the -no-overwrite
option is supplied
foamToEnsightParts
------------------
* now redundant and removed.
ensightOutputSurface (new class)
--------------------------------
* a lightweight wrapper for point/face references that is tailored
for the ensightSurfaceWriter. It uses compact face/point information
and is serial only, since this is the format requirements from the
surfaceWriter class.
ensightMesh (revised class)
---------------------------
* now only holds a polyMesh reference, which removes its dependency
on finiteVolume and allows it to be relocated under fileFormats
instead of conversion.
Removed classes: ensightParts, ensighPartFaces, ensightPartCells
- these were used by foamToEnsightParts, but not needed anymore.
The adjoint library is enhanced with new functionality enabling
automated shape optimisation loops. A parameterisation scheme based on
volumetric B-Splines is introduced, the control points of which act as
the design variables in the optimisation loop [1, 2]. The control
points of the volumetric B-Splines boxes can be defined in either
Cartesian or cylindrical coordinates.
The entire loop (solution of the flow and adjoint equations, computation
of sensitivity derivatives, update of the design variables and mesh) is
run within adjointOptimisationFoam. A number of methods to update the
design variables are implemented, including popular Quasi-Newton methods
like BFGS and methods capable of handling constraints like loop using
the SQP or constraint projection.
The software was developed by PCOpt/NTUA and FOSS GP, with contributions from
Dr. Evangelos Papoutsis-Kiachagias,
Konstantinos Gkaragounis,
Professor Kyriakos Giannakoglou,
Andy Heather
[1] E.M. Papoutsis-Kiachagias, N. Magoulas, J. Mueller, C. Othmer,
K.C. Giannakoglou: 'Noise Reduction in Car Aerodynamics using a
Surrogate Objective Function and the Continuous Adjoint Method with
Wall Functions', Computers & Fluids, 122:223-232, 2015
[2] E. M. Papoutsis-Kiachagias, V. G. Asouti, K. C. Giannakoglou,
K. Gkagkas, S. Shimokawa, E. Itakura: ‘Multi-point aerodynamic shape
optimization of cars based on continuous adjoint’, Structural and
Multidisciplinary Optimization, 59(2):675–694, 2019
- silently deprecate 'startsWith', 'endsWith' methods
(added in 2016: 2b14360662), in favour of
'starts_with', 'ends_with' methods, corresponding to C++20 and
allowing us to cull then in a few years.
- handle single character versions of starts_with, ends_with.
- add single character version of removeEnd and silently deprecate
removeTrailing which did the same thing.
- drop the const versions of removeRepeated, removeTrailing.
Unused and with potential confusion.
STYLE: use shrink_to_fit(), erase()
