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I recently ran into a situatiton where I needed to subclass datetime.datetime and datetime.timedelta in order to add a few methods. I immediately found, though, that any arithmetic operations would return a datetime.datetime object when I expected it to return a mydatetime.mydatetime instance instead. Below is the solution that a co-worker helped me out with for this problem. Does anyone have a more concise or convenient suggestion? Are there any dangers to what I have done here? Am I missing anything important?

from datetime import datetime, timedelta

def _to_mydatetime(native):
    '''Instantiates object of appropriate class based on class
    of the input object.'''
    if hasattr(native, 'timetuple'):
        return mydatetime(*native.timetuple()[:6])
        return mytimedelta(native.days, native.seconds)

class mydatetime(datetime):
    '''Subclass of datetime'''
    def __add__(self, other):
        result = super(mydatetime, self).__add__(other)
        return _to_mydatetime(result)

    def __sub__(self, other):
        result = super(mydatetime, self).__sub__(other)
        return _to_mydatetime(result)

class mytimedelta(timedelta):
    def __add__(self, other):
        result = super(mytimedelta, self).__add__(other)
        return _to_mydatetime(result)

    def __sub__(self, other):
        result = super(mytimedelta, self).__sub__(other)
        return _to_mydatetime(result)

    def __div__(self, other):
        result = super(mytimedelta, self).__div__(other)
        return _to_mydatetime(result)

    def __rmul__(self, other):
        result = super(mytimedelta, self).__rmul__(other)
        return _to_mydatetime(result)

    def __mul__(self, other):
        result = super(mytimedelta, self).__mul__(other)
        return _to_mydatetime(result)
share|improve this question
Just want to mention you should use StudlyCaps class names per standard convention. – Derek Litz Nov 29 '11 at 4:02
Yeah, that's a good point. I'll go fix that tomorrow. Thanks. – Vorticity Nov 29 '11 at 6:37

1 Answer 1

up vote 1 down vote accepted

Well, this is the right way to do it (i'd just split the converter method into two). Python allows you to reduce code duplication though:

from datetime import *

def convproxy(methods,converter):
    def f(cls):
        def _proxyfactory(method):
            def _convproxy(self,*args,**kwargs):
                return converter(getattr(super(cls,self),method)(*args,**kwargs))
            return _convproxy
        for m in methods:
        return cls
    return f

@convproxy(('__add__','__sub__'),lambda d:mydatetime(d.timetuple()[:6]))
class mydatetime(datetime):

        lambda t:mytimetuple(t.days,t.seconds))
class mytimedelta(timedelta):

The cryptic code under convproxy is just a smart-aleck way to generate the specified methods when creating a class, each of which calls a superclass method and creates a subclass from the result using the specified converter function.

share|improve this answer
While this solution is interesting, and less lines of code, IMHO this unnecessarily complicates the implementation for THIS problem. Another more complex problem might warrant something like this though. – Derek Litz Nov 29 '11 at 4:20
Thanks for the response. I can definitely see where convproxy could come in handy. I think that Derek is right in this situation that convproxy is probably a good way to confuse the issue in a simple problem like this. I feel better about the solution I'm using for this situation now. – Vorticity Nov 29 '11 at 6:40
BTW, I shouldn't have split the conversion method into two. I didn't put into consideration that datetime's methods may return timedelta and vice-versa. – ivan_pozdeev Mar 9 '12 at 22:15

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