I have these two lists:

```
boys = [1,2,3]
girls = [1,2,3]
```

How would you build all possible (monogamous) pairings `[boy, girl]`

? With only 3 of both `boys`

and `girls`

, I think this is the list of *all* the possible pairings:

```
[
[[1,1], [2,2], [3,3]],
[[1,1], [2,3], [3,2]],
[[1,2], [2,1], [3,3]],
[[1,2], [2,3], [3,2]],
[[1,3], [2,1], [3,2]],
[[1,3], [2,2], [3,1]]
]
```

How would you do it in general (in above format)? This is what I've been able to come up ...

```
pairs = list(itertools.product(boys, girls))
possible_pairings = []
for i, p in enumerate(pairs):
if i % len(boys) == 0:
print
print list(p),
# possible_pairings.append(pairing)
```

... which gives this output.

```
[1, 1] [1, 2] [1, 3]
[2, 1] [2, 2] [2, 3]
[3, 1] [3, 2] [3, 3]
```

**How would you find all possible pairings (written out above for specific example)?** These are like the 6 ways you'd have to multiply elements of a 3x3 matrix (to find its determinant). :)

## Sven's almost answer (with my `enumerate`

addition)

```
possible_pairings = []
possible_pairings_temp = []
boys = ["b1", "b2", "b3"]
girls = ["g1", "g2", "g3"]
for girls_perm in itertools.permutations(girls):
for i, (b, g) in enumerate(zip(boys, girls_perm)):
possible_pairings_temp.append([b, g])
if (i + 1) % len(boys) == 0: # we have a new pairings list
possible_pairings.append(possible_pairings_temp)
possible_pairings_temp = []
print
print possible_pairings
```

And this completely satisfies the format in the question.