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I'd like to know if the absence of element ordering of the Python's built-in set structure is "random enough". For instance, taking the iterator of a set, can it be considered a shuffled view of its elements?

(If it matters, I'm running Python 2.6.5 on a Windows host.)

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No, it is not random. It is "arbitrarily ordered", which means that you cannot depend on it being either ordered or random.

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It's important to understand the difference between "undefined" and "random". – Matti Virkkunen May 18 '10 at 19:22
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Indeed, the order is predictable from the ID's of the various objects in the set. It's quite rigorously defined by the code. BUT -- bonus -- the details are none of your business, making them "arbitrary" and "implementation-specific" and "undependable for anything". And "undefined as far as you're allowed to care." – S.Lott May 18 '10 at 19:25
OK. The hash function will determine the order. For instance, for integer elements we'll get the natural order. So, I conclude that we'll have an "undefined", "arbitrary" and "repeatable" ordering for the same set of elements. – Chuim May 18 '10 at 20:01
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It might only be repeatable under a single implementation of Python. If the spec says it's undefined, don't assume anything else about it (not even repeatability). – Matti Virkkunen May 18 '10 at 20:03
@Matti: got it! – Chuim May 18 '10 at 20:08
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No, you can not rely on it for any real statistical purpose. The implementation of sets in Python is in terms of a hash table, and can cause the element distribution to display some very non-random properties. There's a large gap between "not having a guaranteed order" and "guaranteed to be unordered in a uniform-random manner".

Use random.shuffle to really shuffle elements of a sequence.

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The thing is random.shuffle may only be used for sequences, which a set is not. One may convert it to a list but for a big number of elements and performance sensitive code it may be an issue... – Chuim May 18 '10 at 20:04
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up vote 2 down vote

In a word, no:

>>> list(set(range(10000))) == list(range(10000))
True
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Agreed, just did similar tests myself and got these results. – Chuim May 18 '10 at 19:56
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Arbitrariness is central when designing programs, each of these freedoms that you reserve is like a joker card that you can use when you implement, develop, or rewrite your program. The more of these free-cards you collect, the more efficiency can you deliver from your code (probably), since you have more freedom to change it.

It is not random, it's only freedom. If it's a better set that way, the order can be forwards on Wednesdays and "backwards" on Fridays.

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Top "Zen" answer! ;) – Chuim May 18 '10 at 20:05
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