Calculates Luhn Mod N check values
Code based on https://en.wikipedia.org/wiki/Luhn_mod_N_algorithm with minimal modifications.
npm install calculate-luhn-mod-n| Parameter | Description |
|---|---|
| codePointFromCharacter | Function to obtain a code point from a character |
| characterFromCodePoint | Function to obtain a character from a code point |
| n | Number of valid characters |
| input | Input string |
The following example is based on the one found at https://en.wikipedia.org/wiki/Luhn_mod_N_algorithm
const map = 'abcdef'; // Character to code-point map
const calculateLuhnModN = require('calculate-luhn-mod-n');
const checkCharacter = calculateLuhnModN(character => map.indexOf(character), codePoint => map[codePoint], map.length, 'abcdef'))
// checkCharacter === 'e'The following example uses JavaScript native functions (parseInt and toString) to do the mapping based on radix/mod 36.
const calculateLuhnModN = require('calculate-luhn-mod-n');
function appendLuhnMod36(input) {
const radix = 36;
return input + calculateLuhnModN(character => Number.parseInt(character, radix), codePoint => codePoint.toString(radix).toUpperCase(), radix, input);
}
const output = appendLuhnMod36('1134806PJFB000010013CD18');
// output === '1134806PJFB000010013CD18D'The following example builds upon the previous one and demonstrates a possible way to do validation against an arbitrary regular expression before calculating the check character.
const calculateLuhnModN = require('calculate-luhn-mod-n');
function appendLuhnMod36(input) {
const radix = 36;
const pattern = /^([A-Z]|\d){4}\d{3}([A-Z]|\d){15}\d{2}$/;
if (!pattern.test(input)) {
throw new Error('Invalid identifier format!');
}
return input + calculateLuhnModN(character => Number.parseInt(character, radix), codePoint => codePoint.toString(radix).toUpperCase(), radix, input);
}
const output = appendLuhnMod36('1134806PJFB000010013CD18');
// output === '1134806PJFB000010013CD18D'