# Why does the following code always output 16?

``````def makeActions():
acts=[]
for i in range(5):
print len(acts)
acts.append(lambda x: i ** x)
print acts[i]
return acts
acts=makeActions()
for i in range(5):
print acts[i](2)
``````

Output:

``````16
16
16
16
16
``````

Expected output:

``````0
1
4
9
16
``````
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what did you expect? –  miku Dec 22 '09 at 9:49
Because that's what the code says to do, maybe? You would have to clarify what you expected, then someone could try to tell you what you did wrong. –  Maximilian Mayerl Dec 22 '09 at 9:50
I don't know how `16` comes out... –  user198729 Dec 22 '09 at 9:55
I've edited your question to give you an idea how to improve them in the future :-) –  Aaron Digulla Dec 22 '09 at 10:03

Because the `i` in the lambda is probably not what you expect. To verify this, change the code:

``````acts.append(lambda x: (i, i ** x))
``````

Now the `print` tells you the value of `i`:

``````(4, 16)
(4, 16)
(4, 16)
(4, 16)
(4, 16)
``````

This means that the `lambda` doesn't copy the value of `i` but keeps a reference to the variable, so all `lambda`s see the same value. To fix this, copy `i`:

``````acts.append(lambda x, i=i: (i, i ** x))
``````

The little `i=i` creates a local copy of `i` inside the `lambda`.

[EDIT] Now why is this? In the versions of Python before 2.1, local functions (i.e. functions defined inside of other functions) couldn't see the variables in the same scope.

``````def makeActions():
acts=[]
for i in range(5):
print len(acts)
def f(x):   # <-- Define local function
return i ** x
acts.append(f)
print acts[i]
return acts
``````

then you'd get an error that `i` isn't defined. `lambda` could see the enclosing scope at the cost of a somewhat wierd syntax.

This behavior has been fixed in one of the recent versions of Python (2.5, IIRC). With these old versions of Python, you'd have to write:

``````        def f(x, i=i):   # <-- Must copy i
return i ** x
``````

Since the fix (see PEP 3104), `f()` can see variables in the same scope, so `lambda` isn't necessary anymore.

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Whoa. So why i in the first example is always 4? Isnt it natural to make local copy when lambda is created? Now its making copy as well but in strange place. –  qba Dec 22 '09 at 10:11
Because the first lambda gets a reference to the loop variable `i`. In fact the `i` in the lambda code is the very same `i` in the `for`. As the loop variable changes, all the references to it change as well. When you say `i=i` in a function/lambda definition, then you say: Create a new parameter and initialize it with the current value of the loop variable `i`. –  Aaron Digulla Dec 22 '09 at 10:34
See PEP 3104 for details: python.org/dev/peps/pep-3104 –  Aaron Digulla Dec 22 '09 at 10:35
+1: Good, detailed reason for avoiding lambda. –  S.Lott Dec 22 '09 at 11:23
+1 just for having fixed the bad question with actual and expected output. –  Peter Hansen Dec 22 '09 at 13:53

Because all lambda functions you create are bound to i, which becomes 4 at the end of loop, and as we all well know 4*4 = 16

to avoid that create your functions using nested function(closure) e.g.

``````def makePowerFunc(base):
def powerFunc(x):
return base**x
return powerFunc

def makeActions():
acts=[]
for i in range(5):
acts.append(makePowerFunc(i))

return acts
acts=makeActions()
for i in range(5):
print acts[i](2)
``````

output:

``````0
1
4
9
16
``````

There are other ways to solve it, but it is better to have a named nested function instead of lambda, and you can do many more things with such closures

-

It's counterintuitive or at least less common syntax. I guess you meant:

``````acts.append(lambda x, i = i: i ** x)
``````

which will output:

``````0
1
4
9
16
``````

``````acts.append(lambda x, i: i ** x)
``````

the lambda functions were created, but they all referenced the local `i` from the loop, which stopped at `i = 4`, so all your lambdas were saying: `lambda x: 4 ** x`, hence

``````for i in range(5):
print acts[i](2)
``````

would print all 16s.

ffn. a blog post about broken lambda: http://math.andrej.com/2009/04/09/pythons-lambda-is-broken/

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