For those who simply want to copy&paste a working (functional) solution in ES6 to check IBANs:

```
function isIBAN(s){
const rearranged = s.substring(4,s.length) + s.substring(0,4);
const numeric = Array.from(rearranged).map(c =>(isNaN(parseInt(c)) ? (c.charCodeAt(0)-55).toString() : c)).join('');
const remainder = Array.from(numeric).map(c => parseInt(c)).reduce((remainder, value) => (remainder * 10 + value) % 97,0);
return remainder === 1;}
```

You could even write it as a one-liner.

The modulo operation is performed on the array of integers storing the actual number (`divident`

, applied as string to function):

```
function modulo(divident, divisor){
return Array.from(divident).map(c => parseInt(c)).reduce((remainder, value) => (remainder * 10 + value) % divisor,0);
};
```

This works because Modulo is distributive over addition, substraction and multiplication:

- (a+b)%m = ((a%m)+(b%m))%m
- (a-b)%m = ((a%m)-(b%m))%m
- (a
*b)%m = ((a%m)*(b%m))%m

The IBAN function transpiled to ES5 looks like:

```
function (s) {
var rearranged = s.substring(4, s.length) + s.substring(0, 4);
var numeric = Array.from(rearranged).map(function (c) { return (isNaN(parseInt(c)) ? (c.charCodeAt(0) - 55).toString() : c); }).join('');
var remainder = Array.from(numeric).map(function (c) { return parseInt(c); }).reduce(function (remainder, value) { return (remainder * 10 + value) % 97; }, 0);
return remainder === 1;
};
```