# Changing the values of one row in a Multi-Dimmensional List changes all rows?

I feel like I'm doing something very dumb here. Maybe I'm just too tired.

I'm trying to make a truth table with a size depending on "count" - the number of variables for the table.

``````    table = [[None] * int(pow(2, count))] * count
in_a_row = pow(2, count) / 2
iterator = 0
for i in range(count):
for j in range(int(pow(2, count))):
print(str(i) + ' ' + str(j), end = '')
if iterator < in_a_row:
table[i][j] = 'T'
print(' T')
elif iterator == 2 * in_a_row:
table[i][j] = 'T'
iterator = 0
print(' T')
else:
table[i][j] = 'F'
print(' F')
iterator += 1

print(table)
in_a_row /= 2
iterator = 0
``````

Which outputs this:

``````0 0 T
0 1 T
0 2 F
0 3 F
[['T', 'T', 'F', 'F'], ['T', 'T', 'F', 'F']]
1 0 T
1 1 F
1 2 T
1 3 F
[['T', 'F', 'T', 'F'], ['T', 'F', 'T', 'F']]
``````

You can see what whatever I set in one iteration is echoed in all "rows". Can anyone show me what's wrong here?

I'm of course expecting this:

``````[['T', 'T', 'F', 'F'], ['T', 'F', 'T', 'F']]
``````
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## 2 Answers

Change the first line to:

``````table = [[None] * int(pow(2, count)) for _ in range(count) ]
``````

as you've no doubt noticed, in the first version, each row shares a reference to the same list, whereas in this new version, we create a new list for each row.

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Oh ok, that makes sense I suppose. So like a pointer almost. I believe you are missing a [ in there, and I had to actually employ the same technique on the first part to get it to work but `table = [[[None]for _ in range(int(pow(2, count)))] for _ in range(count)]` seems to work. Thank you! –  CMahaff Sep 6 '12 at 0:38
@CMahaff -- Sorry, I had an extra `]` in there. (that's what I get for not testing). And yes, it's like a "pointer". python calls them "references", but that's mostly semantics... –  mgilson Sep 6 '12 at 1:08

It's echoing in all rows because of `* count`. You're essentially storing a reference to the initially created data `count` times. mgilson has a fix for this.

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Oh that makes sense. Thank you for the explanation! –  CMahaff Sep 6 '12 at 0:40