This question touches a very stinking part of the "famous" and "obvious" Python syntax - what takes precedence, the lambda, or the for of list comprehension.

I don't think the purpose of the OP was to generate a list of squares from 0 to 9. If that was the case, we could give even more solutions:

```
squares = []
for x in range(10): squares.append(x*x)
```

- this is the good ol' way of imperative syntax.

But it's not the point. The point is W(hy)TF is this ambiguous expression so counter-intuitive? And I have an idiotic case for you at the end, so don't dismiss my answer too early (I had it on a job interview).

So, the OP's comprehension returned a list of lambdas:

```
[(lambda x: x*x) for x in range(10)]
```

This is of course just 10 *different* copies of the squaring function, see:

```
>>> [lambda x: x*x for _ in range(3)]
[<function <lambda> at 0x00000000023AD438>, <function <lambda> at 0x00000000023AD4A8>, <function <lambda> at 0x00000000023AD3C8>]
```

**Note** the memory addresses of the lambdas - they are all different!

You could of course have a more "optimal" (haha) version of this expression:

```
>>> [lambda x: x*x] * 3
[<function <lambda> at 0x00000000023AD2E8>, <function <lambda> at 0x00000000023AD2E8>, <function <lambda> at 0x00000000023AD2E8>]
```

See? 3 time *the same* lambda.

Please note, that I used `_`

as the `for`

variable. It has nothing to do with the `x`

in the `lambda`

(it is overshadowed lexically!). Get it?

I'm leaving out the discussion, why the syntax precedence is not so, that it all meant:

```
[lambda x: (x*x for x in range(10))]
```

which could be: `[[0, 1, 4, ..., 81]]`

, or `[(0, 1, 4, ..., 81)]`

, or **which I find most logical**, this would be a `list`

of 1 element - a `generator`

returning the values. It is just not the case, the language doesn't work this way.

**BUT** What, If...

What if you DON'T overshadow the `for`

variable, AND use it in your `lambda`

s???

Well, then crap happens. Look at this:

```
[lambda x: x * i for i in range(4)]
```

this means of course:

```
[(lambda x: x * i) for i in range(4)]
```

BUT it DOESN'T mean:

```
[(lambda x: x * 0), (lambda x: x * 1), ... (lambda x: x * 3)]
```

This is just crazy!

The lambdas in the list comprehension are a closure over the scope of this comprehension. A **lexical** closure, so they refer to the `i`

via reference, and not its value when they were evaluated!

So, this expression:

```
[(lambda x: x * i) for i in range(4)]
```

IS roughly EQUIVALENT to:

```
[(lambda x: x * 3), (lambda x: x * 3), ... (lambda x: x * 3)]
```

I'm sure we could see more here using a python decompiler (by which I mean e.g. the `dis`

module), but for Python-VM-agnostic discussion this is enough.
So much for the job interview question.

Now, how to make a `list`

of multiplier lambdas, which really multiply by consecutive integers? Well, similarly to the accepted answer, we need to break the direct tie to `i`

by wrapping it in another `lambda`

, which is getting called *inside* the list comprehension expression:

Before:

```
>>> a = [(lambda x: x * i) for i in (1, 2)]
>>> a[1](1)
2
>>> a[0](1)
2
```

After:

```
>>> a = [(lambda y: (lambda x: y * x))(i) for i in (1, 2)]
>>> a[1](1)
2
>>> a[0](1)
1
```

(I had the outer lambda variable also = `i`

, but I decided this is the clearer solution - I introduced `y`

so that we can all see which witch is which).

Edit 2019-08-30:

Following a suggestion by @josoler, which is also present in an answer by @sheridp - the value of the list comprehension "loop variable" can be "embedded" inside an object - the key is for it to be accessed at the right time. The section "After" above does it by wrapping it in another `lambda`

and calling it immediately with the current value of `i`

. Another way (a little bit easier to read - it produces no 'WAT' effect) is to store the value of `i`

inside a `partial`

object, and have the "inner" (original) `lambda`

take it as an argument (passed supplied by the `partial`

object at the time of the call), i.e.:

After 2:

```
>>> from functools import partial
>>> a = [partial(lambda y, x: y * x, i) for i in (1, 2)]
>>> a[0](2), a[1](2)
(2, 4)
```

Great, but there is still a little twist for you! Let's say we wan't to make it easier on the code reader, and pass the factor by name (as a keyword argument to `partial`

). Let's do some renaming:

After 2.5:

```
>>> a = [partial(lambda coef, x: coef * x, coef=i) for i in (1, 2)]
>>> a[0](1)
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: <lambda>() got multiple values for argument 'coef'
```

WAT?

```
>>> a[0]()
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: <lambda>() missing 1 required positional argument: 'x'
```

Wait... We're changing the number of arguments by 1, and going from "too many" to "too few"?

Well, it's not a real WAT, when we pass `coef`

to `partial`

in this way, it becomes a keyword argument, so it must come after the positional `x`

argument, like so:

After 3:

```
>>> a = [partial(lambda x, coef: coef * x, coef=i) for i in (1, 2)]
>>> a[0](2), a[1](2)
(2, 4)
```

I would prefer the last version over the nested lambda, but to each their own...

Edit 2020-08-18:

Thanks to commenter dasWesen, I found out that this stuff is covered in the Python documentation: https://docs.python.org/3.4/faq/programming.html#why-do-lambdas-defined-in-a-loop-with-different-values-all-return-the-same-result - it deals with loops instead of list comprehensions, but the idea is the same - global or nonlocal variable access in the lambda function. There's even a solution - using default argument values (like for any function):

```
>>> a = [lambda x, coef=i: coef * x for i in (1, 2)]
>>> a[0](2), a[1](2)
(2, 4)
```

This way the coef value is bound to the value of i at the time of function definition (see James Powell's talk "Top To Down, Left To Right", which also explains why mutable default values are shunned).

`[lambda x: x*x for x in range(10)]`

is faster than the first one, since it does not call an outside loop function, f repeatedly. – riza May 20 '11 at 18:50`[x*x for x in range(10)]`

is better. – riza May 20 '11 at 19:13