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In python 3, int(50)<'2' causes a TypeError, and well it should. In python 2.x, however, int(50)<'2' returns True (this is also the case for other number formats, but int exists in both py2 and py3). My question, then, has several parts:

  1. Why does Python 2.x (< 3?) allow this behavior?
    • (And who thought it was a good idea to allow this to begin with???)
  2. What does it mean that an int is less than a str?
    • Is it referring to ord / chr?
    • Is there some binary format which is less obvious?
  3. Is there a difference between '5' and u'5' in this regard?
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Related question: stackoverflow.com/questions/3270680/… –  unutbu Nov 24 '10 at 12:49
Python doc -> docs.python.org/reference/expressions.html#comparisons –  SubniC Nov 24 '10 at 12:51
With dictionaries, if you need a comparison function for implementing O(log N) search and you want to be able to mix key types, then the obvious answer is that you need comparisons to work for any combination of values. I wouldn't be surprised if they just figured that using id would be better in Python 3. Props to whoever finds the PEP (probably in the 3000 range) for this change. –  Mike DeSimone Nov 24 '10 at 13:01
@Mike: Python's dictionaries use hash tables internally, not trees, so that's not the reason. –  intgr Nov 24 '10 at 13:08
"Why"!?! It's allowed in Python 2 because the developers thought it was a good idea, and it turned out it wasn't, so it's rmeoved in Python 3. That's why. :) –  Lennart Regebro Dec 7 '10 at 9:53

4 Answers 4

up vote 6 down vote accepted

It works like this1.

>>> float() == long() == int() < dict() < list() < str() < tuple()

Numbers compare as less than containers. Numeric types are converted to a common type and compared based on their numeric value. Containers are compared by the alphabetic value of their names.2

From the docs:

CPython implementation detail: Objects of different types except numbers are ordered by >their type names; objects of the same types that don’t support proper comparison are >ordered by their address.

Objects of different builtin types compare alphabetically by the name of their type int starts with an 'i' and str starts with an s so any int is less than any str..

  1. I have no idea.
    • A drunken master.
  2. It means that a formal order has been introduced on the builtin types.
    • It's referring to an arbitrary order.
    • No.
  3. No. strings and unicode objects are considered the same for this purpose. Try it out.

In response to the comment about long < int

>>> int < long

You probably meant values of those types though, in which case the numeric comparison applies.

1 This is all on Python 2.6.5

2 Thank to kRON for clearing this up for me. I'd never thought to compare a number to a dict before and comparison of numbers is one of those things that's so obvious that it's easy to overlook.

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...Yeah, I mean, that's completely logical, isn't it? –  Humphrey Bogart Nov 24 '10 at 12:52
not true, it's completely arbitrary. (int<long)==False. –  Filip Dupanović Nov 24 '10 at 13:16
(int<long)==False was to your original version where you said that int<str is True because, ordering lexicographically, i has a smaller order than s, which wasn't correct –  Filip Dupanović Nov 24 '10 at 13:44
@kRON. What do you mean "last revision was True < dict() < ...?" I never put that up. Are you on drugs? Anybody can look at my edit history. In fact, I never compared True to any of those because it's an int. I've run many execution blocks and the alphabetical ordering of the container types is a pretty well known phenomenon. –  aaronasterling Nov 24 '10 at 14:27
Sorry, missing my morning coffee. Well you know float()<int() is false and so is int()<float() false; not to mention float()==int()==long() is true because, well 0.0==0L==0==True. You'r right, it was never about types comparison but instance comparison. So asked cwalleen. Whereas type comparisons are inconsistent, instances seem to be compared consistently in every execution. –  Filip Dupanović Nov 24 '10 at 14:34

The reason why these comparisons are allowed, is sorting. Python 2.x can sort lists containing mixed types, including strings and integers -- integers always appear first. Python 3.x does not allow this, for the exact reasons you pointed out.

Python 2.x:

>>> sorted([1, '1'])
[1, '1']
>>> sorted([1, '1', 2, '2'])
[1, 2, '1', '2']

Python 3.x:

>>> sorted([1, '1'])
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: unorderable types: str() < int()
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uhm, it's sorting because it allows comparison, not the other way around. –  SilentGhost Nov 24 '10 at 13:12
OP asked why does Python allow this. I'm saying that the reason, why these comparisons were allowed in the first place, is sorting. –  intgr Nov 24 '10 at 13:15
Why the downvote? –  intgr Nov 24 '10 at 13:25
a fair point that it might have motivated it in the beginning. Nowadays you can use key= of course to sort heterogenous lists. –  u0b34a0f6ae Nov 24 '10 at 13:32

(And who thought it was a good idea to allow this to begin with???)

I can imagine that the reason might be to allow object from different types to be stored in tree-like structures, which use comparisons internally.

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Correct me if I'm wrong, but AFAIK Python doesn't have any built-in datatypes that use trees internally. dict, set, OrderedDict, etc are all implemented as hash tables. –  intgr Nov 24 '10 at 13:10
As Python allows heterogeneous collections, it might have seemed easier to allow sorting them too. While Python 3 simplifies the comparison rules, conceptually I think it complicates things to allow sorting of one instance of a list, but not another. –  Ben James Nov 24 '10 at 13:14

As Aaron said. Breaking it up into your points:

  1. Because it makes sort do something halfway usable where it otherwise would make no sense at all (mixed lists). It's not a good idea generally, but much in Python is designed for convenience over strictness.
  2. Ordered by type name. This means things of the same type group together, where they can be sorted. They should probably be grouped by type class, such as numbers together, but there's no proper type class framework. There may be a few more specific rules in there (probably is one for numeric types), I'd have to check the source.
  3. One is string and the other is unicode. They may have a direct comparison operation, however, but it's conceivable a non-comparable type would get grouped between them, causing a mess. I don't know if there's code to avoid this.

So, it doesn't make sense in the general case, but occasionally it's helpful.

from random import shuffle
print sorted(ints+letters)
print sorted(both)

Both print the ints first, then the letters.

As a rule, you don't want to mix types randomly within a program, and apparently Python 3 prevents it where Python 2 tries to make vague sense where none exists. You could still sort by lambda a,b: cmp(repr(a),repr(b)) (or something better) if you really want to, but it appears the language developers agreed it's impractical default behaviour. I expect it varies which gives the least surprise, but it's a lot harder to detect a problem in the Python 2 sense.

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Interesting vote shuffle on this one. It's true it didn't add much, but I'm amused it gets down and up votes at an equal rate. –  Yann Vernier Nov 28 '10 at 19:38

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