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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])
    else:
        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)
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2  
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:
            setattr(cls,m,_proxyfactory(m))
        return cls
    return f

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

@convproxy(('__add__','__sub__','__div__','__rmul__','__mul__'),\
        lambda t:mytimetuple(t.days,t.seconds))
class mytimedelta(timedelta):
    pass

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.

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1  
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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