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Can someone explain how these results are possible (python 2.6):

>>> 1<3>2
True
>>> (1<3)>2
False
>>> 1<(3>2)
False

I would think that one of the last two would match the first one, but apparently the operators in the first statement is somehow linked?!

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Why the downvote? I really had no idea what to search for. –  monoceres Sep 5 '12 at 9:55

4 Answers 4

up vote 9 down vote accepted

Your first example shows comparison chaining. 1<3>2 means 1<3 and 3>2 (except each expression is evaluated only once). This applies to all comparison operators in Python.

Your second two examples force one comparison to be evaluated first, resulting in a boolean value which is then compared with the remaining integer.

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2  
It's worth noting that if the values compared are expressions, they are only evaluated once, so 1 < f() < 2 is not exactly equivalent to 1 < f() and f() < 2. A closer quivalent would be x = f(); 1 < x and x < 2. –  Lauritz V. Thaulow Sep 5 '12 at 7:22
    
That's true. I've edited my answer to reflect that. –  BrenBarn Sep 5 '12 at 7:27

In your first case 1<3>2 1 is actually lesser than 3 and 3 is greater than 2, so True.

In your second case (1<3)>2 (1<3) evaluates as True that represented as 1, so 1 is not greater than 2.

In your third case 1<(3>2), 1 is not lesser than True that represented as 1.

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The last two statements compare booleans against an integer:

>>> True > 2
False
>>> 1 < True
False

The first statement is comparison chaining, which works for all boolean comparisons in Python. Note from the documentation:

Comparisons yield boolean values: True or False.

By placing parts of your expression in brackets, those parts get evaluated first and you end up with comparing integers and booleans.

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As per docs,

Unlike C, all comparison operations in Python have the same priority, which is lower than that of any arithmetic, shifting or bitwise operation. Also unlike C, expressions like a < b < c have the interpretation that is conventional in mathematics:

comparison ::= or_expr ( comp_operator or_expr )*

comp_operator ::= "<" | ">" | "==" | ">=" | "<=" | "<>" | "!=" | "is" ["not"] | ["not"] "in"

Comparisons yield boolean values: True or False.

Comparisons can be chained arbitrarily, e.g., x < y <= z is equivalent to x < y and y <= z, except that y is evaluated only once (but in both cases z is not evaluated at all when x < y is found to be false).

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Can you at least put the python documentation text you copied wholesale in a quote? –  Martijn Pieters Sep 5 '12 at 7:14
    
I have already added the link –  Never Back Down Sep 5 '12 at 7:27
1  
That's not what I meant; shihongzhi did it for you. –  Martijn Pieters Sep 5 '12 at 8:23

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