EpsilonFilter2D Class

class plask.flow.EpsilonFilter2D(geometry)

Data filter for permittivity tensor into Cartesian2D geometry.

Parameters:

geometry (geometry.Cartesian2D) – Target geometry.

See also

plask.filter for details on filter usage.

Methods

initialize()

Initialize solver.

invalidate()

Set the solver back to uninitialized state.

load_xpl(xpl, manager)

Load configuration from XPL reader.

Attributes

id

Id of the solver object.

initialized

True if the solver has been initialized.

out

Filter output provider.

outEpsilon

Filter output provider.

Descriptions

Method Details

EpsilonFilter2D.initialize()

Initialize solver.

This method manually initialized the solver and sets initialized to True. Normally calling it is not necessary, as each solver automatically initializes itself when needed.

Returns:

solver initialized state prior to this method call.

Return type:

bool

EpsilonFilter2D.invalidate()

Set the solver back to uninitialized state.

This method frees the memory allocated by the solver and sets initialized to False.

EpsilonFilter2D.load_xpl(xpl, manager)

Load configuration from XPL reader.

This method should be overridden in custom Python solvers.

Example

def load_xpl(self, xpl, manager):
    for tag in xpl:
        if tag == 'config':
            self.a = tag['a']
            self.b = tag.get('b', 0)
            if 'c' in tag:
                self.c = tag['c']
        if tag == 'combined':
            for subtag in tag:
                if subtag == 'withtext':
                    self.data = subtag.attrs
                    # Text must be read last
                    self.text = subtag.text
        elif tag == 'geometry':
            self.geometry = tag.getitem(manager.geo, 'ref')

Attribute Details

EpsilonFilter2D.id = <property object>

Id of the solver object. (read only)

Example

>>> mysolver.id
mysolver:category.type
EpsilonFilter2D.initialized = <property object>

True if the solver has been initialized. (read only)

Solvers usually get initialized at the beginning of the computations. You can clean the initialization state and free the memory by calling the invalidate() method.

EpsilonFilter2D.out = <property object>

Filter output provider.

Example

>>> some_solver.inEpsilon = my_filter.outEpsilon
EpsilonFilter2D.outEpsilon = <property object>

Filter output provider.

Example

>>> some_solver.inEpsilon = my_filter.outEpsilon