Assuming the order is irrelevant, here you go. I used an internal string to make it easier to implement.The code also works for any n-tuple array for `n`

that is a positive integer.

Some explanation about this implementation: set base case as 1-tuple (in my implementation, string of length one). In this case, return `*`

and the content of the argument. Otherwise, advance one element in the recursion by replace current element by `*`

or the content of current element.

It's easier to understand if you can draw a decision tree follow the above-mentioned algorithm.

```
def _combination(s):
if len(s) == 1:
return ['*', s]
else:
rest = _combination(s[1:])
output = []
for r in rest:
output.append('*' + r)
output.append(s[0] + r)
return output
def combination(t):
s = ''.join(c for c in t)
result = _combination(s)
output = []
for r in result:
output.append(format_tuple(r))
print ', '.join(output)
def format_tuple(s):
return '(' + ', '.join(s) + ')'
if __name__ == '__main__':
t = ('a', 'b', 'c')
combination(t)
```

Output of the program:

```
(*, *, *), (a, *, *), (*, b, *), (a, b, *), (*, *, c), (a, *, c), (*, b, c), (a, b, c)
```

Updated according to Kevin's comment.

`for`

loop. – steveha Jul 31 '12 at 18:45