I'm not that familiar with Python. From Java I know that in conditionals, if we want have both the operands of && evaluated, we use & instead. For example:

if ( x == 2 & y++ == 3)
    // do this

But I'm working in python 2.7 and I want to perform operation like:

if x == 2 and myList.pop() == 3:
    # do this

But both operands of and must execute.

In Python, the first comparison would be performed and if it was false, the 2nd comparison would be skipped. But I want both of them to execute even if first comparison returned False. Is there any solution for this in Python?

  • 3
    In your case just flip the conditions in your if block, because x == 2 doesn't change anything – adarsh Nov 28 '14 at 12:48
  • In this case, just flip the conditions. – Martijn Pieters Nov 28 '14 at 12:49
  • you need to or between them which will evaluate the pop if x != 2 – SMA Nov 28 '14 at 12:51
  • 1
    FYI: in Java the second operand will not execute either if the first one is false - with logical &&. Looking at binary & has led you astray. – maksimov Nov 28 '14 at 12:51
  • 1
    @maksimov. In Java, & and && are both logical operators (when applied to boolean operands). The difference between the two is that && uses short-circuit evaluation, and & does not. When applied to for example ints, & is of course a bitwise operation, but that is not the case here. – Hoopje Nov 28 '14 at 13:18

You'd just execute the conditions first, before testing with and:

# explicitly execute the conditions first, compare the outcomes later
test1, test2 = x == 2, myList.pop() == 3
if test1 and test2:

For your case that can be simplified down to just the myList.pop() call:

# explicitly pop a value from myList, regardless of what x == 2 returns
myList_value = myList.pop()
if x == 2 and myList_value == 3:

Of course, you could also just have swapped the tests:

if myList.pop() == 3 and x == 2:

to ensure that the list.pop() method is always executed.

Otherwise, the & bitwise operator is overloaded for Python booleans just like it is in Java:

>>> from itertools import product
>>> for a, b in product([False, True], repeat=2):
...     print('{a!r:5} and {b!r:5}: {o1!r:5}    {a!r:5} & {b!r:5}: {o2!r:5}'.format(a=a, b=b, o1=a and b, o2=a & b))
False and False: False    False & False: False
False and True : False    False & True : False
True  and False: False    True  & False: False
True  and True : True     True  & True : True 

And as such you can use it to avoid short-circuiting, but only if both operands are booleans:

>>> def foo():
...     print 'called!'
...     return False
>>> def bar():
...     print 'also called!'
...     return False
>>> foo() and bar()
>>> foo() & bar()
also called!

However, I'd consider making use of this unpythonic, and indicative of bad coding style. Restructure your code to not have to rely on this in the first place.

| improve this answer | |
  • 1
    By the way @eMAD, I don't think the & operator in Java does what you are describing. Absent some exotic overloading, what it is actually doing is a bitwise AND operation between two expressions. See this: docs.oracle.com/javase/tutorial/java/nutsandbolts/op3.html – rchang Nov 28 '14 at 12:52
  • @rchang actually link made me think this – eMad Nov 28 '14 at 12:56
  • Thanks @MartijnPieters but Explicitly evaluating this means Python doesn't have a solution for this! Though Python is famous for doing large things in few lines. But in this case NOT! – eMad Nov 28 '14 at 13:03
  • 1
    @eMAD: but it does have a solution; just restructure your test. If your code is failing because of short-circuiting you need to re-think your code instead of blaming the tools. – Martijn Pieters Nov 28 '14 at 13:07
  • 3
    @rchang. Java is not C or C++, where booleans are basically ints in disguise. In Java, operators can have different semantics when applied to different types. & applied to boolean operands is not a bitwise "and", it is a logical "and" without short-circuit evaluation. The operator & applied to operands of type int (for example) is a bitwise operation. – Hoopje Nov 28 '14 at 13:15

The & operator exists in python. It will call the __and__ magic method, which is meant to perform a bitwise and operation on the operands


assert 3 & 6 == 2
assert True & 3 == 1

x = 0
y = [3]
assert not(x == 2 & y.pop() == 3)
assert y == []

However, you want to test that two things are true, rather than doing a bitwise operation. You would be best off reordinging the clauses of the condition or executing the separate conditions before hand and testing afterwards.

| improve this answer | |

You can use python's built-in all() or any() functions to avoid short-circuit evaluation.

In order to achieve &, you can easily use all():

if (all([cond1, cond2])):

Likewise for |, you can use any().

| improve this answer | |
  • 1
    This doesn't actually work; all([cond1, cond2]) would work (e.g. pass in a list). But it is a lot more verbose and less clear as to what you are doing compared to just storing cond1 and cond2 separately first. – Martijn Pieters Nov 28 '14 at 12:58

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