```
import pprint
LL= [ ('A123', 'A120', '2011-03'),
('A133', 'A123', '2011-03'),
('D123', 'D120', '2011-04'),
('D140', 'D123', '2011-04'),]
LL = [row+(i,) for i,row in enumerate(LL,1)]
pprint.pprint(LL)
```

yields

```
[('A123', 'A120', '2011-03', 1),
('A133', 'A123', '2011-03', 2),
('D123', 'D120', '2011-04', 3),
('D140', 'D123', '2011-04', 4)]
```

Here's a bit of explanation:

We start with `LL`

defined like this:

```
In [28]: LL
Out[28]:
[('A123', 'A120', '2011-03'),
('A133', 'A123', '2011-03'),
('D123', 'D120', '2011-04'),
('D140', 'D123', '2011-04')]
```

The first trick is to use enumerate:

```
In [30]: list(enumerate(LL))
Out[30]:
[(0, ('A123', 'A120', '2011-03')),
(1, ('A133', 'A123', '2011-03')),
(2, ('D123', 'D120', '2011-04')),
(3, ('D140', 'D123', '2011-04'))]
```

which is close to what you want, except that the "rank" starts counting at 0, and is placed in front of the row instead of at the end. We can tell `enumerate`

to start counting with 1, using `enumerate(LL,1)`

, and we can place the rank at the end of the row using a list comprehension:

```
In [31]: [row+(i,) for i,row in enumerate(LL,1)]
Out[31]:
[('A123', 'A120', '2011-03', 1),
('A133', 'A123', '2011-03', 2),
('D123', 'D120', '2011-04', 3),
('D140', 'D123', '2011-04', 4)]
```

In the list comprehension, `row`

is a tuple like `('A123', 'A120', '2011-03')`

,
and `row+(i,)`

is a sum of tuples:

```
In [32]: ('A123', 'A120', '2011-03')+(1,)
Out[32]: ('A123', 'A120', '2011-03', 1)
```

This is how each row of the list comprehension is constructed.