I encountered radix sort in CRLS 3rd edition section 8.3

The book provided the arcane origins of radix sort. It described the MSD version as antiquated and tricky. It also advised the implementation of the LSD.

Here I provide an implementation of radix sort using this technique.

Let's start by the pseudo-code:

```
/**
* @param k: the max of input, used to create a range for our buckets
* @param exp: 1, 10, 100, 1000, ... used to calculate the nth digit
*/
Array.prototype.countingSort = function (k, exp) {
/* eslint consistent-this:0 */
/* self of course refers to this array */
const self = this;
/**
* let's say the this[i] = 123, if exp is 100 returns 1, if exp 10 returns 2, if exp is 1 returns 3
* @param i
* @returns {*}
*/
function index(i) {
if (exp)
return Math.floor(self[i] / exp) % 10;
return i;
}
const LENGTH = this.length;
/* create an array of zeroes */
let C = Array.apply(null, new Array(k)).map(() => 0);
let B = [];
for (let i = 0; i < LENGTH; i++)
C[index(i)]++;
for (let i = 1; i < k; i++)
C[i] += C[i - 1];
for (let i = LENGTH - 1; i >= 0; i--) {
B[--C[index(i)]] = this[i];
}
B.forEach((e, i) => {
self[i] = e
});
}
```

And that's the only tricky part, the rest is very simple

```
Array.prototype.radixSort = function () {
const MAX = Math.max.apply(null, this);
/* let's say the max is 1926, we should only use exponents 1, 10, 100, 1000 */
for (let exp = 1; MAX / exp > 1; exp *= 10) {
this.countingSort(10, exp);
}
}
```

Now here is a how you can test this method

```
let a = [589, 111, 777, 65, 124, 852, 345, 888, 553, 654, 549, 448, 222, 165];
a.radixSort()
console.log(a);
```

Finally, as mentionned in the book, this particular algorithm works only because counting-sort is an in-place sorting algorithm, which means that if two elements tie, their order of occurence in the input array is preserved.