# Python - Result returns generator instead of list (comprehension)

I have one list as

``````x = ['1100000', '0110000', '0011000', '0001100', '0000110', '0000011']
``````

I want to do bit wise XOR operation on each of the element against the whole array so I have defined a xor function as following

``````def x_o_r(val) :
return "".join([ str(int(x) ^ int(y)) for (x,y) in val])
``````

here val would be `zip(list('1100000'), list('0110000')]` and so on..

So I have defined a comprehension as following

``````[(x_o_r(z) for z in zip(list(a), list(b))) for a in x for b in x ]
``````

it keeps on returning me

``````[<generator object <genexpr> at 0x0000000003704048>, <generator object <genexpr> at 0x0000000003704090>,.....]
``````

I do not understand, I have a `[]` around the result.

I had even tried to convet individual generators to list(also tried `list()` function)

``````[([x_o_r(z)] for z in zip(list(a), list(b))) for a in x for b in x ]
``````

Can any one point my mistake ?

EDIT

okay I took MArtijn advice and solved it by following expression

``````["".join([str(int(s) ^ int(d)) for (s,d) in zip(list(a), list(b))]) for a in x for b in x]
``````
-
I really think you should be using `int()` with a base 2 here... –  Jon Clements Jul 23 '13 at 14:19

Your outer list comprehension has a nested generator expression:

``````[
(x_o_r(z) for z in zip(list(a), list(b)))
for a in x for b in x
]
``````

Note the `(expr for target_list in expr)` part there; those are the generator objects you see in you output.

Make that a list comprehension too perhaps:

``````[[x_o_r(z) for z in zip(list(a), list(b))] for a in x for b in x]
``````

However, if you wanted to apply the function on every pairing of elements from `x`, you probably wanted:

``````[x_o_r(zip(list(a), list(b))) for a in x for b in x]
``````

Demo:

``````>>> [x_o_r(zip(list(a), list(b))) for a in x for b in x]
['0000000', '1010000', '1111000', '1101100', '1100110', '1100011', '1010000', '0000000', '0101000', '0111100', '0110110', '0110011', '1111000', '0101000', '0000000', '0010100', '0011110', '0011011', '1101100', '0111100', '0010100', '0000000', '0001010', '0001111', '1100110', '0110110', '0011110', '0001010', '0000000', '0000101', '1100011', '0110011', '0011011', '0001111', '0000101', '0000000']
``````

You could use the `itertools.product()` utility funcnion to produce the pairings:

``````from itertools import product
[x_o_r(zip(list(a), list(b))) for a, b in product(x, repeat=2)]
``````

Next, adjust the `x_o_r` function to take two inputs, and perhaps use a more optimum approach using integers:

``````def x_o_r(a, b):
return format(int(a, 2) ^ int(b, 2), '08b')

[x_o_r(a, b) for a, b in product(x, repeat=2)]
``````

The latter version blows the old way out of the water when it comes to speed:

``````>>> timeit.timeit('[x_o_r(zip(list(a), list(b))) for a in x for b in x]', 'from __main__ import x_o_r, x', number=10000)
3.6057410949724726
>>> timeit.timeit('[x_o_r_new(a, b) for a, b in product(x, repeat=2)]', 'from __main__ import x_o_r_new, x, product', number=10000)
0.6972788329585455
``````
-
that gives another error ValueError: need more than 1 value to unpack –  Anand Jul 23 '13 at 14:19
@Anand: Then you perhaps have an error elsewhere; I am merely pointing out where your generators are coming from. –  Martijn Pieters Jul 23 '13 at 14:20
thanks for point out (expr for target_list in expr) block. I solved using other technique. But I also like this [x_o_r(zip(list(a), list(b))) for a in x for b in x] –  Anand Jul 23 '13 at 14:33