I was checking the code of the toolz library's groupby function in Python and I found this:

def groupby(key, seq):
    """ Group a collection by a key function
    if not callable(key):
        key = getter(key)
    d = collections.defaultdict(lambda: [].append)
    for item in seq:
    rv = {}
    for k, v in d.items():
        rv[k] = v.__self__
    return rv

Is there any reason to use rv[k] = v.__self__ instead of rv[k] = v?

  • I believe it is referring to all the individual attributes of 'itself'. Using the self collects all unique values of the individual object
    – Sidney
    Sep 21 at 14:41
  • 2
    docs.python.org/3/reference/…, under "Instance methods"
    – deceze
    Sep 21 at 14:42
  • 5
    d is a mapping of key to the append method of the lists created by the lambda expression, so rv[k] = v.__self__ is building a mapping of key to the actual list. There's context on why this somewhat baffling implementation was used (TL;DR: speed) here.
    – jonrsharpe
    Sep 21 at 14:49

This is a somewhat confusing trick to save a small amount of time:

We are creating a defaultdict with a factory function that returns a bound append method of a new list instance with [].append. Then we can just do d[key(item)](item) instead of d[key(item)].append(item) like we would have if we create a defaultdict that contains lists. If we don't lookup append everytime, we gain a small amount of time.

But now the dict contains bound methods instead of the lists, so we have to get the original list instance back via __self__.

__self__ is an attribute described for instance methods that returns the original instance. You can verify that with this for example:

>>> a = []
>>> a.append.__self__ is a
  • 10
    @don'ttalkjustcode I stand by that. It is not the most clear possible code that could be used here (but it also isn't the most confusing variation they could have chosen). IMO, anything that warrants a nonterrible question on SO to just explain it could be classified as confusing.
    – MegaIng
    Sep 21 at 14:59
  • 1
    @don'ttalkjustcode. Confusing doesn't mean incomprehensible. It just means you have to look a couple oh times to understand what they did, and a couple more times to understand why. Sep 21 at 15:03
  • Hmm, do be honest I think the question rather is somewhat terrible. It asks "Is there any reason to use X instead of Y?", and if they had simply tried Y, they would've seen that it gives a bad result. Sep 21 at 15:03
  • @MadPhysicist Well it was pretty obvious to me. But I can live with the "somewhat", so +1 now :-) Sep 21 at 15:05
  • 3
    @don'ttalkjustcode. I had to look up __self__, having never used it before. Once I did it was trivial, and likely will remain so in the future. It's a matter of experience. Sep 21 at 15:07

This is a somewhat convoluted, but possibly more efficient approach to creating and using a defaultdict of lists.

First, remember that the default item is lambda: [].append. This means create a new list, and store a bound append method in the dictionary. This saves you a method bind on every further append to the same key, and the garbage collect that follows. For example, the following more standard approach is less efficient:

d = collections.defaultdict(list)
for item in seq:

The problem then becomes how to get the original lists back out of the dictionary, since the reference is not stored explicitly. Luckily, bound methods have a __self__ attribute which does just that. Here, [].append.__self__ is a reference to the original [].

As a side note, the last loop could be a comprehension:

return {k: v.__self__ for k, v in d.items()}
  • About "garbage collect": I think most if not all of the time it wouldn't get to that, would be victim to reference counting instead. Sep 21 at 15:26
  • 1
    @don'ttalkjustcode: Reference counting is a form (albeit a primitive one) of garbage collection. In the CPython reference interpreter, the distinction is between the regular reference counting and cyclic GC, but both are GC. You're correct the bound methods are typically freed instantly by reference counts going to zero, rather than having to wait for the cyclic garbage collector, but bind and cleanup is still done either way (though LOAD_METHOD/CALL_METHOD sometimes avoid that in modern CPython). Sep 21 at 23:51
  • @ShadowRanger Yes, but I thought I remembered in Python terminology it's separate, and I checked the gc documentation whose "the collector supplements the reference counting" rather makes it sound separate. But I now also checked the glossary and the devguide, both make it clear it's indeed included. Sep 22 at 0:15

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