Model Properties

1. Class ModelProperties

This class gathers the properties of the model, that can be set from a JSON file.

  • __init__(filename: str = '', directoryLibExpr: str = '', worldComm: feelpp._core.WorldComm, prefix: str = '') → None : initialize ModelProperties.

  • materials() → feelpp._models.ModelMaterials : get the materials of the model (see section below).

  • parameters(self: feelpp._models.ModelProperties) → feelpp._models.ModelParameters : get parameters of the model (see below).

  • setup(self: feelpp._models.ModelProperties, arg0: str) → None : setup from a filename

If a model is already loaded in the environment, for example with a toolbox heatBox, a way to get the instance of ModelProperties is

m = heatBox.modelProperties()

2. Class ModelMaterials

This class gathers the different materials present in the model.

  • __getitem__(str) → feelpp._models.ModelMaterial : returns the ModelMaterial named str. If mo is the instance of ModelMaterials, the material s is called with the command mo[s].

  • __init__(self: feelpp._models.ModelMaterials, worldComm: feelpp._core.WorldComm) → None

  • __iter__() → iterator : returns an iterator on the matrials (for a for loop for instance : for mat in mo: …​)

  • __len__() → int : returns the number of materials in the model.

  • __str__() → str : print the list of materials of the model

  • at(arg0: str) → feelpp._models.ModelMaterial : mo.at(s) is equivalent to mo[s].

  • clear(self: Dict[str, feelpp._models.ModelMaterial]) → None

  • items() → iterator : equivalent to getitem

  • setParameterValues(arg0: Dict[str, float]) → None

3. Class ModelMaterial

  • __getitem__(self: feelpp._models.ModelMaterial, arg0: str) → str

  • __init__(self: feelpp._models.ModelMaterial) → None

  • __str__(self: feelpp._models.ModelMaterial) → str

  • getString(self: feelpp._models.ModelMaterial, arg0: str) → str : returns the string from key if the value is a string

  • hasProperty(self: feelpp._models.ModelMaterial, arg0: str) → bool : returns True of the property exists, False otherwise

  • hasPropertyConstant(self: feelpp._models.ModelMaterial, arg0: str) → bool : returns True if the property exists and is constant, False otherwise

  • hasPropertyScalar(self: feelpp._models.ModelMaterial, arg0: str) → bool : returns True if the property exists and is a scalar expression, False otherwise

  • propertyConstant(self: feelpp._models.ModelMaterial, arg0: str) → float : return the value of the constant property

  • setParameterValues(self: feelpp._models.ModelMaterial, arg0: Dict[str, float]) → None : set parameter values from a map of string/double pairs

  • setProperty(self: feelpp._models.ModelMaterial, arg0: str, arg1: str) → None : set a property to an expression. The expression can involve symbols, see the documentation.

Example of usage of the functions described above :

>>> m = heatBox.modelProperties()
>>> mos = m.materials()
>>> mo = mo['Marker']
>>> print(mo)
Post
 . markers: Post
 . physics:
 . properties:
   {Cp, 1.4e+06}
   {Cp, 1400000.000000}
   {k, k_0:k_0}
   {rho, 1}
   {rho, 1.000000}
>>> mo.hasProperty('Cp')
`True`
>>> mo.hasProertry('kappa')
`False`
>>>
>>> mo.setProperty('Cp', 'Cp_param:Cp_param')
>>> mm['Cp']
'Cp_param:Cp_param'

4. Class ModelParameters

This class gathers all the parameters used in the model.

  • __init__(self: feelpp._models.ModelParameters, worldComm: feelpp._core.WorldComm) → None

  • __iter__() → iterator

  • __len__() → int

  • __str__() → str

  • at(arg0: str) → feelpp._models.ModelParameter

  • clear(self: Dict[str, feelpp._models.ModelParameter]) → None

  • setParameterValues(arg0: Dict[str, float]) → None : set parameter values from a map of string/double pairs

  • toParameterValues(self: feelpp._models.ModelParameters) → Dict[str, float] : get a dictionary from the map of parameter values

5. Class ModelParameter

  • __init__(self: feelpp._models.ModelParameter) → None

  • __str__(self: feelpp._models.ModelParameter) → str

  • description(self: feelpp._models.ModelParameter) → str : get description

  • hasFitInterpolator(self: feelpp._models.ModelParameter) → bool : return True if the parameter has a fit interpolator, False otherwise

  • hasMinMax(self: feelpp._models.ModelParameter) → bool : check if the parameter has min and max values

  • max(self: feelpp._models.ModelParameter) → float : get maximal value

  • min(self: feelpp._models.ModelParameter) → float : get minimal value

For the two last functions, if a parameter has no max or min, the returned valued will be 0.

  • name(self: feelpp._models.ModelParameter) → str name of the parameter

  • setMax(self: feelpp._models.ModelParameter, arg0: float) → None : set maximal value

  • setMin(self: feelpp._models.ModelParameter, arg0: float) → None : set minimal value

  • setParameterValues(self: feelpp._models.ModelParameter, arg0: Dict[str, float]) → None : set parameter values from a map of string/double pairs

  • setValue(self: feelpp._models.ModelParameter, arg0: float) → None : set value of the parameter

  • type(self: feelpp._models.ModelParameter) → str : type of the parameter: value, expression, fit

  • value(self: feelpp._models.ModelParameter) → float : value of the parameter