Why "('a' in arr) in arr" != "'a' in arr in arr"? [duplicate]

Why is `('a' in arr) in arr` != `'a' in arr in arr`?

``````arr = [1, True, 'a', 2]
print(('a' in arr) in arr)  # -> True
print('a' in arr in arr)  # -> False
``````

Section 6.10 of the Python language reference discusses comparison operators and comparison chaining. `in` is considered a comparison operator, and so behaves the same as `<`, etc. Without parentheses for explicit grouping, `x OP1 y OP2 z`is equivalent to `x OP1 y and y OP2 z` for any two comparison operators.

This means that

``````'a' in arr in arr
``````

without parentheses, is equivalent to

``````'a' in arr and arr in arr
``````

`arr` is not an element of itself, so the expression is `False.`

Parentheses disable chaining, so

``````('a' in arr) in arr
``````

is evaluated like any other nested expression. `'a' in arr` is evaluated first to the value `True`, then `True in arr` is evaluated to also produce `True`.

I might be wrong, but I think that `in` is like any binary operator, so just like you have `a < b < c` equivalent to `(a < b) and (b < c)` , you will have

``````a in b in c
``````

equivalent to

``````(a in b) and (b in c)
``````

`'a' in arr` is True, but `arr in arr` is False, that's why you have a `False` value.

• Not binary operators in general, only comparison operators. Feb 25, 2020 at 18:23
• For testing: for a list `arr2 = [[1, True, 'a', 2], [1, 2, 3]]` printing `print('a' in arr in arr2)` returns `True`, behaves like expected with your explanation Feb 25, 2020 at 18:23
• @chepner: true, thanks! Feb 25, 2020 at 18:27

Given `arr=[1,True,'a',2]`,

Decoding first expression: `('a' in arr) in arr`,

step-by-step

• `('a' in arr) in arr` evaluates to

• `(True) in [1,True,'a',2]` evaluates to

• `True`

Decoding second expression: `('a' in arr in arr)`

step-by-step

• `('a' in arr in arr)` This is equivalent to
• `('a' in arr and arr in arr)` which evaluates to
• `(True and False)` which evaluates to
• `(False)`

More on: Precedence and associative nature https://www.programiz.com/python-programming/precedence-associativity

• I corrected it. Take a look
– drd
Feb 26, 2020 at 6:20