You are showing a large problem to begin with `variable1`

is generally a bad sign - if you want to have multiple values, use a data structure, not lots of variables with numbered names. This stops you repeating your code over and over, and helps stop bugs.

Let's use a list of lists instead:

```
values = [
[(111, 222), (111, 333), (111, 444)],
[(555, 333), (555, 444), (555, 777)],
[(123, 444), (123, 888), (123, 999)]
]
```

Now we want to get only the second element of each tuple in the sublists. This is easy enough to compute using a list comprehension:

```
>>> [[item[1] for item in sublist] for sublist in values]
[[222, 333, 444], [333, 444, 777], [444, 888, 999]]
```

And then, we want the intersections between the items, we use `itertools.combinations()`

to get the various pairs of two possible:

```
>>> for values, more_values in itertools.combinations(new_values, 2):
... set(values).intersection(more_values)
...
{444, 333}
{444}
{444}
```

So, if we wrap this together:

```
import itertools
values = [
[(111, 222), (111, 333), (111, 444)],
[(555, 333), (555, 444), (555, 777)],
[(123, 444), (123, 888), (123, 999)]
]
sets_of_first_items = ({item[1] for item in sublist} for sublist in values)
for values, more_values in itertools.combinations(sets_of_first_items, 2):
print(values.intersection(more_values))
```

Which gives us:

```
{444, 333}
{444}
{444}
```

The change I made here was to make the inner list a set comprehension, to avoid creating a list just to turn it into a set, and using a generator expression rather than a list comprehension, as it's lazily evaluated.

As a final note, if you wanted the indices of the lists we are using to generate the intersection, it's simple to do with the `enumerate()`

builtin:

```
sets_of_first_items = ({item[1] for item in sublist} for sublist in values)
for (first_number, first_values), (second_number, second_values) in itertools.combinations(enumerate(sets_of_first_items), 2):
print("Intersection of {0} and {1}: {2}".format(first_number, second_number, first_values.intersection(second_values)))
```

Which gives us:

```
Intersection of 0 and 1: {444, 333}
Intersection of 0 and 2: {444}
Intersection of 1 and 2: {444}
```

Edit:

As noted by tonyl7126, this is also an issue that could be greatly helped by using a better data structure. The best option here is to use a dict of user id to a set of product ids. There is no reason to store your data as a list when you only need a set, and are going to convert it to a set later, and the dict is a much better solution for the type of data you are trying to store.

See the following example:

```
import itertools
values = {
"111": {222, 333, 444},
"555": {333, 444, 777},
"123": {444, 888, 999}
}
for (first_user, first_values), (second_user, second_values) in itertools.combinations(values.items(), 2):
print("Intersection of {0} and {1}: {2}".format(first_user, second_user, first_values.intersection(second_values)))
```

Giving us:

```
Intersection of 555 and 123: {444}
Intersection of 555 and 111: {444, 333}
Intersection of 123 and 111: {444}
```