It was made after Sol, a programming language made by people and for people without any programming experience

**Example**

let's suppose you want to write a record of length 3 bytes into an array at position `i`

on a 0-based language this is the formula to find the byte offset from which start to write the record:

```
var ptr = 3 * i
```

First element (i=0) gives you offset 0.
Second element (i=1) gives you offset 3.
and so on...

On a 1-based language, at first you try the same:

```
var ptr = 3 * i
```

the first position (i = 1) gives you 3 as the offset but you should get 1. So you subtract 2 in order to get 1.

```
var ptr = 3 * i - 2
```

So far so good. Now you try if the formula works with `i=2`

. You get 4 and it's correct.

The general formula is:

```
var ptr = L * (i-1) + 1
```

**Another example**

Computing the next offset when concatenating two strings also leads to a complex formula:

in 0-based you find the offset like this:

```
var ptr = Len(string1) + Len(string2)
```

in 1-based that's the formula

```
var ptr = Len(string1) + Len(string2) + 1
```

I leave matrix multiplication as an exercise :-)

Basically using 1-based notation you end up writing +1 and -1 all over the places in order to adjust the values. The code just screams at you to use the 0-based index approach

From a mathematical point of view it may be the same using 0-based or 1-based, on a computer in which **an index is basically an offset from a starting point**, is not

Nobodycounts the first one as "zero" and then adds one at the end; counting from zero is simply, unarguably, counter-intuitive. Yes, I realize that's how the indexing works internally, but that's why we call it an abstraction. – BlueRaja - Danny Pflughoeft Feb 25 '13 at 21:58