I have an class inheriting from an immutable type which uses
__new__. How would I add a new parameter to one function and elegantly pass it to a second function, which I know is in the chain of execution?
class ImmutableClass(ImmutableType): def functionA(param1=None, param2=None): # Do some stuff stuff self.functionB(param2) # Do some more stuff return stuff def functionB(param2): # Do some stuff newObjects = [ImmutableClass() for x in range(len(param2))] stuff = self.functionC(newObjects) # Do some more stuff return stuff def functionC(param3=None): # Do some stuff return stuff class SomeClass(ImmutableClass): def __new__(cls, *args, **kwargs): return ImmutableClass.__new__(SomeClass, *args, **kwargs) def functionA(self, newParameter=True): # How do I pass newParameter to functionC? return super(ImmutableClass, self).functionA(*args, **kwargs) def functionC(self, newParameter=True): # How do I get the parameter from functionA? if not newParameter: print 'Success!' return super(ImmutableClass, self).functionC(*args, **kwargs)
I know I can add **kwargs to all of
ImmutableClass's functions in the chain, but this felt a bit messy. Callers to these functions could pass invalid arguments for quite some time before erroring out, or passing a flag to some unintended function. I'm hoping there's some obvious solution I'm not seeing.
functionB, which then calls
functionC. However, the call in
functionB is in the middle of the code, so I can't simply prepend/append the new call. I can't use a member variable (as far as I know), because of
__new__ re-initializing it half way through the call. I have access to
ImmutableClass's source, but I'd prefer to not alter it, as
ImmutableClass should have no knowledge of
SomeClass. I've thought of using a global variable, but I'm afraid that could do unexpected things if section of
SomeClass starts a second, call of functionA.