- deprecate dimensionedType constructors using an Istream in favour of
versions accepting a keyword and a dictionary.
Dictionary entries are almost the exclusive means of read
constructing a dimensionedType. By construct from the dictionary
entry instead of doing a lookup() first, we can detect possible
input errors such as too many tokens as a result of a input syntax
error.
Constructing a dimensionedType from a dictionary entry now has
two forms.
1. dimensionedType(key, dims, dict);
This is the constructor that will normally be used.
It accepts entries with optional leading names and/or
dimensions. If the entry contains dimensions, they are
verified against the expected dimensions and an IOError is
raised if they do not correspond. On conclusion, checks the
token stream for any trailing rubbish.
2. dimensionedType(key, dict);
This constructor is used less frequently.
Similar to the previous description, except that it is initially
dimensionless. If entry contains dimensions, they are used
without further verification. The constructor also includes a
token stream check.
This constructor is useful when the dimensions are entirely
defined from the dictionary input, but also when handling
transition code where the input dimensions are not obvious from
the source.
This constructor can also be handy when obtaining values from
a dictionary without needing to worry about the input dimensions.
For example,
Info<< "rho: " << dimensionedScalar("rho", dict).value() << nl;
This will accept a large range of inputs without hassle.
ENH: consistent handling of dimensionedType for inputs (#1083)
BUG: incorrect Omega dimensions (fixes#2084)
- when constructing dimensioned fields that are to be zero-initialized,
it is preferrable to use a form such as
dimensionedScalar(dims, Zero)
dimensionedVector(dims, Zero)
rather than
dimensionedScalar("0", dims, 0)
dimensionedVector("zero", dims, vector::zero)
This reduces clutter and also avoids any suggestion that the name of
the dimensioned quantity has any influence on the field's name.
An even shorter version is possible. Eg,
dimensionedScalar(dims)
but reduces the clarity of meaning.
- NB: UniformDimensionedField is an exception to these style changes
since it does use the name of the dimensioned type (instead of the
regIOobject).
- use succincter method names that more closely resemble dictionary
and HashTable method names. This improves method name consistency
between classes and also requires less typing effort:
args.found(optName) vs. args.optionFound(optName)
args.readIfPresent(..) vs. args.optionReadIfPresent(..)
...
args.opt<scalar>(optName) vs. args.optionRead<scalar>(optName)
args.read<scalar>(index) vs. args.argRead<scalar>(index)
- the older method names forms have been retained for code compatibility,
but are now deprecated
When using models which require the wallDist e.g. kOmegaSST it will
request the method to be used from the wallDist sub-dictionary in
fvSchemes e.g.
wallDist
{
method meshWave;
}
specifies the mesh-wave method as hard-coded in previous OpenFOAM versions.
