Why is it that these statements work as expected when brackets are used:

>>> (True is False) == False

>>> True is (False == False)

But it returns False when there are no brackets?

>>> True is False == False
  • 3
    Apparently you got into one of the few dark corners of Python syntax (i.e. places where the result is quite surprising).
    – 6502
    Jul 11 '15 at 7:15

Based on python documentation about operator precedence :

Note that comparisons, membership tests, and identity tests, all have the same precedence and have a left-to-right chaining feature as described in the Comparisons section.

So actually you have a chained statement like following :

>>> (True is False) and (False==False)

You can assume that the central object will be shared between 2 operations and other objects (False in this case).

And note that its also true for all Comparisons, including membership tests and identity tests operations which are following operands :

in, not in, is, is not, <, <=, >, >=, !=, ==

Example :

>>> 1 in [1,2] == True

Python has a unique transitive property when it comes to the comparison operators. It will be easier to see in a simpler case.

if 1 < x < 2:
    # Do something

This does what it looks like. It checks if 1 < x and if x < 2. The same thing is happening in your non-parenthesized code.

>>> True is False == False

It is checking whether True is False and False == False, only one of which is true.

  • Ahhh! I've used 1 < x < 2 and just thought it was a special case, I didn't realise that it applied to other operators too. Jul 11 '15 at 7:26

This is a double inequality which gets expanded as (True is False) and (False == False). See for instance What is the operator precedence when writing a double inequality in Python (explicitly in the code, and how can this be overridden for arrays?)

  • So in short, this is a bug? It seems very counter-intuitive. Jul 11 '15 at 7:16
  • 2
    In other hand, you can write 0 < 0.25 < 0.5 which would give a weird result in other languages. Jul 11 '15 at 7:19
  • 1
    No, it isn't a bug - it's the intended operation of the language surprising you
    – holdenweb
    Jul 11 '15 at 8:40

Python interprets multiple (in)equalities the way you would expect in Math:

In Math a = b = c mean all a = b, b = c and a = c.

So True is False == False means True == False and False == False and True == False, which is False.

For boolean constants, is is equivalent to ==.

  • Actually, a is b == c only means (a is b) and (b == c): a and c are not compared. Consider 0.0 == 0 is 0.
    – Lynn
    Jul 15 '15 at 10:03
  • @Mauris I meant that a is b and b is c implies a is c. I was only giving a simple way to determine the result not how its processed
    – xyz
    Jul 15 '15 at 10:14

Python performs chaining if it encounters operators of same precedence when evaluating an expression.

comparisons, including tests, which all have the same precedence chain from left to right

The below mentioned operators have the same precedence.

in, not in, is, is not, <, <=, >, >=, <>, !=, ==

So, when Python tries to evaluate the expression True is False == False, it encounters the operators is and == which have the same precedence, so it performs chaining from left to right.

So, the expression True is False == False is actually evaluated as:

(True is False) and (False == False)

giving False as the output.

Not the answer you're looking for? Browse other questions tagged or ask your own question.