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What methods need to be overridden/implemented when making user-defined classes sortable and/or hashable in python?

What are the gotchas to watch out for?

I type dir({}) into my interpreter to get a list of methods on built-in dicts. Of those, I assume I need to some implement some subset of

['__cmp__', '__eq__', '__ge__', '__gt__', '__hash__', '__le__', '__lt__', '__ne__']

Is there a difference in which methods must be implemented for Python3 as opposed to Python2?

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Good discussion here: stackoverflow.com/q/1061283/641766. Difference between Python 2.x and 3.x is that __cmp__ was removed. –  zeekay Aug 22 '11 at 19:56

3 Answers 3

up vote 22 down vote accepted

I almost posted this as a comment to the other answers but it's really an answer in and of itself.

To make your items sortable, they only need to implement __lt__. That's the only method used by the built in sort.

The other comparisons or functools.total_ordering are only needed if you actually want to use the comparison operators with your class.

To make your items hashable, you implement __hash__ as others noted. You should also implement __eq__ in a compatible way -- items that are equivalent should hash the same.

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Should be the other way around: items that are equivalent should hash the same. –  daniel kullmann Aug 22 '11 at 20:48
Thanks, that's the right way to state it. –  agf Aug 22 '11 at 20:52
so a poor implementation of __lt__ could cause python to sort unpredictably? (for instance, if x.__lt__(y) and y.__lt__(x)) –  Matt Fenwick Aug 24 '11 at 1:04
I don't know about "unpredictably", it'll be consistent if fed the exact same input, but a different input order could cause different items to be in a different order. Yes, if you improperly implement the comparison used to sort, Python will sort improperly. I'd recommend a __key__ function that turns the instance into a tuple, then just have both __lt__ (self.__key__() < other.__key__()) and __hash__ (hash(self.__key__())) use that. –  agf Aug 24 '11 at 1:10

There isn't any difference between Python 2 and 3.

For sortability:

You should define comparision methods. This makes your items sortable. Generally, you shouldn't prefer __cmp__().

I usually use functools.total_ordering decorator.

functools.total_ordering(cls) Given a class defining one or more rich comparison ordering methods, this class decorator supplies the rest. This simplifies the effort involved in specifying all of the possible rich comparison operations:

The class must define one of __lt__(), __le__(), __gt__(), or __ge__(). In addition, the class should supply an __eq__() method.

You should be careful for your comparison methods for having side effect. You don't want your class changed when doing comparisons.

For hashing:

You should implement __hash__() method. I think the best way is returning hash(repr(self)), so your hash would be unique.

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There are a few ways of marking your object sortable. First - rich comparison, defined by a set of functions:

object.__lt__(self, other)
object.__le__(self, other)
object.__eq__(self, other)
object.__ne__(self, other)
object.__gt__(self, other)
object.__ge__(self, other)

Also it is possibje to define only one function:

object.__cmp__(self, other)

And the last should be defined if you want to define custom __hash__ function. See the doc.

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