```
nums = [1, 3, 2, 8, 9]
def rec_sum(nums):
if not nums: return 0
return nums[0] + rec_sum(nums[1:])
>>> rec_sum(nums)
23
```

You could even do this in one line:

```
def rec_sum(nums):
return nums[0] + rec_sum(nums[1:]) if nums else 0
```

To avoid all the shallow copies of the list being made `nums[1:]`

on each call you can do something more efficient:

```
def rec_sum(nums, i=0):
if i >= len(nums): return 0
return nums[i] + rec_sum(nums, i+1)
```

It's also fun to use the Y-Combinator

```
>>> Y = lambda f: (lambda x: x(x))(lambda y: f(lambda *args: y(y)(*args)))
>>> rec_sum = lambda f: lambda nums: nums[0] + f(nums[1:]) if nums else 0
>>> Y(rec_sum)(nums)
23
```

`sum([list])`

... but that doesn't appear to be what you're asking or what you've just been answered. – Ben May 19 '13 at 13:07