The horrendous "space efficient" version that returns iterators:

```
from itertools import tee
ay, by = [(r[i] for r in results) for i, results in enumerate(tee(map(calc, steps), 2))]
```

But basically just use `zip`

because most of the time it's not worth the ugly.

Explanation:

```
zip(*(calc(x) for x in steps))
```

will do `(calc(x) for x in steps)`

to get an *iterator* of `[(2, 1), (4, 4), (6, 9), (8, 16), (10, 25)]`

.

When you unpack, you do the equivalent of

```
zip((2, 1), (4, 4), (6, 9), (8, 16), (10, 25))
```

so all of the items are stored in memory at once. Proof:

```
def return_args(*args):
return args
return_args(*(calc(x) for x in steps))
#>>> ((2, 1), (4, 4), (6, 9), (8, 16), (10, 25))
```

Hence all items are in memory at once.

So how does mine work?

`map(calc, steps)`

is the same as `(calc(x) for x in steps)`

(Python 3). This is an iterator. On Python 2, use `imap`

or `(calc(x) for x in steps)`

.

`tee(..., 2)`

gets two iterators that store the *difference* in iteration. If you iterate in lockstep the `tee`

will take `O(1)`

memory. If you do not, the `tee`

can take up to `O(n)`

. So now we have a usage that lets us have `O(1)`

memory up to this point.

`enumerate`

obviously will keep this in constant memory.

`(r[i] for r in results)`

returns an iterator that takes the `i`

^{th} item from each of the results. This means it receives, in this case, a pair (so `r=(2,1)`

, `r=(4,4)`

, etc. in turn). It returns the specific iterator.

Hence if you iterate `ay`

and `by`

in lockstep constant memory will be used. The memory usage is proportional to the distance between the iterators. This is useful in many cases (imagine diffing a file or suchwhat) but as I said most of the time it's not worth the ugly. There's an extra constant-factor overhead, too.

reasonit doesn't work is that your list comprehension gives you asinglelist with 2-tuples in it. The unpacking to two variables will work if there are exactly 2 items in the list, but those variables' values will be 2-tuples. What you want is a 2-item list containing two separate lists, which you can get using`zip()`

as shown by hcwhasa. – kindall Sep 29 '13 at 19:19