Lambdas inside list comprehensions and for loops [duplicate]

Question

I wanted to have a list of lambdas that act as sort of a cache to some heavy computation and noticed this:

>>> [j() for j in [lambda:i for i in range(10)]]
[9, 9, 9, 9, 9, 9, 9, 9, 9, 9]

Although

>>> list([lambda:i for i in range(10)])
[<function <lambda> at 0xb6f9d1ec>, <function <lambda> at 0xb6f9d22c>, <function <lambda> at 0xb6f9d26c>, <function <lambda> at 0xb6f9d2ac>, <function <lambda> at 0xb6f9d2ec>, <function <lambda> at 0xb6f9d32c>, <function <lambda> at 0xb6f9d36c>, <function <lambda> at 0xb6f9d3ac>, <function <lambda> at 0xb6f9d3ec>, <function <lambda> at 0xb6f9d42c>]

Meaning that the lambdas are unique functions but they somehow all share the same index value.

Is this a bug or a feature? How do I avoid this problem? It's not limited to list comprehensions...

>>> funcs = []
... for i in range(10):
...     funcs.append(lambda:i)
... [j() for j in funcs]
[9, 9, 9, 9, 9, 9, 9, 9, 9, 9]

Answer 1

The lambda returns the value of i at the time you call it. Since you call the lambda after the loop has finished running, the value of i will always be 9.

You can create a local i variable in the lambda to hold the value at the time the lambda was defined:

>>> [j() for j in [lambda i=i:i for i in range(10)]]
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]

Another solution is to create a function that returns the lambda:

def create_lambda(i):
    return lambda:i
>>> [j() for j in [create_lambda(i) for i in range(10)]]
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]

This works because there is a different closure (holding a different value of i) created for each invocation of create_lambda.

Answer 2

What you're seeing here is the effect of closures. The lambda is capturing state from the program to be used later. So while each lambda is a unique object, the state isn't necessarily unique.

The actual 'gotchya' here, is that the variable i is captured, not the value that i represents at that point in time. We can illustrate this with a much easier example:

>>> y = 3
>>> f = lambda: y
>>> f()
3
>>> y = 4
>>> f()
4

The lambda holds on to the reference to the variable, and evaluates that variable when you execute the lambda.

To work around this, you can assign to a local variable within the lambda:

>>> f = lambda y=y:y
>>> f()
4
>>> y = 6
>>> f()
4

Finally, in the case of a loop, the loop variable is only 'declared' once. Therefore, any references to the loop variable within the loop will persist past the next iteration. This includes the variable in list comprehensions.

Answer 3

The problem is that you're not capturing the value of i on each iteration of the list comprehension, you're capturing the variable each time through.

The problem is that a closure captures variables by reference. In this case you are capturing a variable whose value changes over time (as with all loop variables), so it has a different value when you run it than when you created it.

Answer 4

I'm not sure if it's a bug or a feature, but what's happening is that lambda:i doesn't evaluate i before forming the lambda function. So, it's literally just a function which evaluates whatever the current value of i is. Here's another example of how this happens.

>>> i=5
>>> x=lambda:i
>>> x()
5
>>> i=6
>>> x()
6

So, obviously, what's happening is the same thing except that i is going to 9 in your examples as it's being assigned through the range 0 through 9 in that order.

I don't think that there's really any good way to avoid it. Lambda functions in Python are pretty limited. It's not really a functional language at heart.

Answer 5

Turn a square bracket into a parenthesis, like that: [j() for j in (lambda:i for i in range(10))] output: [0, 1, 2, 3, 4, 5, 6, 7, 8, 9] Tuples are immutable variables