First, an one-liner solution for your specific problem:

```
def rec_add(s):
return s[0] * s[0] + rec_add(s[1:]) if s else 0
```

More advanced and abstract stuff follows.

In functional programming jargon, you "map" x**2 on a list and "fold" the list by adding its elements together. Python provides necessary primitives for that (`map`

and `reduce`

respectively) and the sum of squares can be simply written as:

```
from operator import add, mul
xs = [1,2,3,5]
print reduce(add, map(mul, xs, xs)) # 39
```

You can also combine map and fold steps in one function:

```
def map_and_fold(xs, mapfun, foldfun, init):
if not xs:
return init
return foldfun(
mapfun(xs[0]),
map_and_fold(
xs[1:], mapfun, foldfun, init))
```

and define `sum_squares`

as a partial application of the above:

```
from functools import partial
sum_squares = partial(map_and_fold,
mapfun = lambda x: x * x,
foldfun = lambda x, y: x + y,
init = 0)
```

Test:

```
xs = [1,2,3,5]
print sum_squares(xs) # 39
```

More info: map, fold, partial application.

`recursive_add`

. I bet this is not what you intended to do. – rkhayrov Apr 20 '12 at 7:38`print`

statements to find out. Since comment boxes don't work well for code, I'll post an answer with example code. – steveha Apr 20 '12 at 8:07