Absolutely (for the example you provided).

### Tuples are first class citizens in Python

There is a builtin function `divmod()`

that does exactly that.

```
q, r = divmod(x, y) # ((x - x%y)/y, x%y) Invariant: div*y + mod == x
```

There are other examples: `zip`

, `enumerate`

, `dict.items`

.

```
for i, e in enumerate([1, 3, 3]):
print "index=%d, element=%s" % (i, e)
# reverse keys and values in a dictionary
d = dict((v, k) for k, v in adict.items()) # or
d = dict(zip(adict.values(), adict.keys()))
```

BTW, parentheses are not necessary most of the time.
Citation from Python Library Reference:

Tuples may be constructed in a number of ways:

- Using a pair of parentheses to denote the empty tuple: ()
- Using a trailing comma for a singleton tuple: a, or (a,)
- Separating items with commas: a, b, c or (a, b, c)
- Using the tuple() built-in: tuple() or tuple(iterable)

### Functions should serve single purpose

Therefore they should return a single object. In your case this object is a tuple. Consider tuple as an ad-hoc compound data structure. There are languages where almost every single function returns multiple values (list in Lisp).

Sometimes it is sufficient to return `(x, y)`

instead of `Point(x, y)`

.

### Named tuples

With the introduction of named tuples in Python 2.6 it is preferable in many cases to return named tuples instead of plain tuples.

```
>>> import collections
>>> Point = collections.namedtuple('Point', 'x y')
>>> x, y = Point(0, 1)
>>> p = Point(x, y)
>>> x, y, p
(0, 1, Point(x=0, y=1))
>>> p.x, p.y, p[0], p[1]
(0, 1, 0, 1)
>>> for i in p:
... print(i)
...
0
1
```