You can work it out easily by replacing the calculations with the actual values:

In the first call, you are indexing:

```
bships[c-b][a-1] == bships[4-1][1-1] == bships[3][0]
```

Counting from 0, that's the last row, `['0','0','0','0']`

, first element, `'0'`

.

The second call evaluates to:

```
bships[c-b][a-1] == bships[4-2][1-1] == bships[2][0]
```

so first cell of the second-last row, `['p','p','0','s']`

is a `'p'`

.

Note that in Python, you can use negative indices without calculating the `len()`

first; remove the `c`

from your function and it'll all work just the same:

```
>>> battleships = [['0','p','0','s'],
... ['0','p','0','s'],
... ['p','p','0','s'],
... ['0','0','0','0']]
>>> def fun(a,b,bships):
... return bships[-b][a-1]
...
>>> print(fun(1,1,battleships))
0
>>> print(fun(1,2,battleships))
p
```

That is because Python treats negative indices as counting from the end; internally it'll use the length of the sequence (which is stored with the sequence) to calculate just the same thing but faster.