Actually, I think that the C like version that "start with 0" is very logical when you look at the way the memory is organized.
In C we can write the following :

```
int* T = new int[10];
```

The first element of the array is *T. This is perfectly "logical" because *T is the adress of the first memory case pointed. The second element is the second case so *(T+1) : we move forward by one "sizeof(int)".

To make the code more readable, C implemented an alias : T[i] for *(T+i).
To access the first element, you have to access *T that is T[0]. That's perfectly natural.

This idea is extended by iterators :

```
std::vector<int> T(10);
int val = *(T.begin()+3);
```

T[i] is just an alias for *(T.begin()+i).

In fortran/R, we **usually** start with 1 because of mathematical issues but there's certainly other good choices (cf this link for example).
Do not forget that fortran can easily use array that start with 0 :

```
PROGRAM ZEROARRAY
REAL T(0:9)
T(0) = 3.14
END
```

`Fortran`

,`MATLAB`

and`R`

. Because of this, 0-based indexing is not usual at all and I always have to think about what I do to arrays when I program in C. – Sharpie Jun 29 '10 at 16:15