To summarize the two comments, you can just replace the brackets with braces:

```
def pos_neg(a):
return {i for i in a if -i in a}
```

Or, to make it faster for long lists:

```
def pos_neg(a):
return {-i for i in a}.intersection(a)
```

Or, if you want to return a list again:

```
def pos_neg(a):
return list({-i for i in a}.intersection(a))
```

The returned list will not be ordered, however. If you want to return an ordered list (by size):

```
def pos_neg(a):
return sorted({-i for i in a}.intersection(a))
```

If you want to return a list that preserves the original order, do this:

```
from collections import OrderedDict
def pos_neg(a):
s = set(a)
return list(OrderedDict.fromkeys(i for i in a if -i in s))
```

Or, if you don't want to use OrderedDict:

```
def pos_neg(a):
s = set(a)
t = set()
b = []
for i in a:
if -i in s and i not in t:
t.add(i)
b.append(i)
return b
```

Or, if you want to use list comprehension:

```
def pos_neg(a):
s = set(a)
t = set()
return [i for i in a if -i in s and not (i in t or t.add(i))]
```

`set()`

around that list.`set(i for i...)`

, which saves an unneeded list allocation and iteration. Though it's actually probably much more efficient to turn`a`

into a set first via`set(a)`

so that your`in`

isO(1)rather thanO(n). And if you really want to get fancy, you can maintain input order by then sorting the de-duped list by index location in the input list.