This is a design principle question for classes dealing with mathematical/physical equations where the user is allowed to set any parameter upon which the remaining are being calculated. In this example I would like to be able to let the frequency be set as well while avoiding circular dependencies.
from traits.api import HasTraits, Float, Property from scipy.constants import c, h class Photon(HasTraits): wavelength = Float # would like to do Property, but that would be circular? frequency = Property(depends_on = 'wavelength') energy = Property(depends_on = ['wavelength, frequency']) def _get_frequency(self): return c/self.wavelength def _get_energy(self): return h*self.frequency
I'm also aware of an update trigger timing problem here, because I don't know the sequence the updates will be triggered:
- Wavelength is being changed
- That triggers an updated of both dependent entities: frequency and energy
- But energy needs frequency to be updated so that energy has the value fitting to the new wavelength!
(The answer to be accepted should also address this potential timing problem.)
So, what' the best design pattern to get around these inter-dependent problems? At the end I want the user to be able to update either wavelength or frequency and frequency/wavelength and energy shall be updated accordingly.
This kind of problems of course do arise in basically all classes that try to deal with equations.
Let the competition begin! ;)