if the elements are unique and hashable (and order doesn't matter in the result), you can use set intersection: e.g.:

```
common_elements = list(set(list1).intersection(list2).intersection(list3))
```

This is functionally equivalent to:

```
common_elements = list( set(list1) & set(list2) & set(list3) )
```

The `&`

operator only works with sets whereas the the `intersection`

method works with any iterable.

If you have a list of lists and you want the intersection of all of them, you can do this easily:

```
common_elements = list( set.intersection( * map(set, your_list_of_lists) ) )
```

*special thanks to DSM for pointing this one out*

Or you could just use a loop:

```
common_elements = set(your_list_of_lists[0])
for elem in your_list_of_lists[1:]:
common_elements = common_elements.intersection(elem) #or common_elements &= set(elem) ...
else:
common_elements = list(common_elements)
```

Note that if you really want to get the order that they were in the original list, you can do that using a simple sort:

```
common_elements.sort( key = lambda x, your_list_of_lists[0].index(x) )
```

By construction, there is no risk of a `ValueError`

being raised here.

sets, not lists – Levon Aug 23 '12 at 11:45