As per the title, I have a nested lists like so (the nested list is a fixed length):

```
# ID, Name, Value
list1 = [[ 1, "foo", 10],
[ 2, "bar", None],
[ 3, "fizz", 57],
[ 4, "buzz", None]]
```

I'd like to return a list (the number of items equal to the length of a sub-list from `list1`

), where the sub-lists are the indices of rows without None as their Xth item, i.e.:

```
[[non-None ID indices], [non-None Name indices], [non-None Value indices]]
```

Using `list1`

as an example, the result should be:

```
[[0, 1, 2, 3], [0, 1, 2, 3], [0, 2]]
```

My current implementation is:

```
indices = [[] for _ in range(len(list1[0]))]
for i, row in enumerate(list1):
for j in range(len(row)):
if not isinstance(row[j], types.NoneType):
indices[j].append(i)
```

...which works, but can be slow (the lengths of the lists are in the hundreds of thousands).

Is there a better/more efficient way to do this?

**EDIT:**

I've refactored the above for loops into nested list comprehensions (similar to SilentGhost's answer). The following line gives the same result as the my original implementation, but runs approximately 10x faster.

```
[[i for i in range(len(list1)) if list1[i][j] is not None] for j in range(len(log[0]))]
```

`list1[i]`

is always not`None`

e.g.,`list1[0]`

is`[1, "foo", 10]`

(note:`[None, None, None] is not None`

). – J.F. Sebastian May 5 '10 at 16:02