I'm attempting to write a function that calculates the number of unique permutations of a string. For example `aaa`

would return `1`

and `abc`

would return `6`

.

I'm writing the method like this:

(Pseudocode:)

```
len(string)! / (A!*B!*C!*...)
```

where A,B,C are the number of occurrences of each unique character. For example, the string `'aaa'`

would be `3! / 3! = 1`

, while `'abc'`

would be `3! / (1! * 1! * 1!) = 6`

.

My code so far is like this:

```
def permutations(n):
'''
returns the number of UNIQUE permutations of n
'''
from math import factorial
lst = []
n = str(n)
for l in set(n):
lst.append(n.count(l))
return factorial(len(n)) / reduce(lambda x,y: factorial(x) * factorial(y), lst)
```

Everything works fine, except when I try to pass a string that has only one unique character, i.e. `aaa`

- I get the wrong answer:

```
>>> perm('abc')
6
>>> perm('aaa')
2
>>> perm('aaaa')
6
```

Now, I can tell the problem is in running the lambda function with factorials on a list of length 1. I don't know why, though. Most other lambda functions works on a list of length 1 even if its expecting two elements:

```
>>> reduce(lambda x,y: x * y, [3])
3
>>> reduce(lambda x,y: x + y, [3])
3
```

This one doesn't:

```
>>> reduce(lambda x,y: ord(x) + ord(y), ['a'])
'a'
>>> reduce(lambda x,y: ord(x) + ord(y), ['a','b'])
195
```

Is there something I should be doing differently? I know I can rewrite the function in many different ways that will circumvent this, (e.g. not using `lambda`

), but I'm looking for why this specifically doesn't work.