freeCodeCamp/curriculum/challenges/english/10-coding-interview-prep/project-euler/problem-74-digit-factorial-chains.english.md

---
id: 5900f3b61000cf542c50fec9
challengeType: 5
isHidden: false
title: 'Problem 74: Digit factorial chains'
forumTopicId: 302187
---

## Description
<section id='description'>

The number 145 is well known for the property that the sum of the factorial of its digits is equal to 145:

<div style='margin-left: 4em;'>1! + 4! + 5! = 1 + 24 + 120 = 145</div>

Perhaps less well known is 169, in that it produces the longest chain of numbers that link back to 169; it turns out that there are only three such loops that exist:

<div style='margin-left: 4em;'>
  169 → 363601 → 1454 → 169<br>
  871 → 45361 → 871<br>
  872 → 45362 → 872<br>
</div>
It is not difficult to prove that EVERY starting number will eventually get stuck in a loop. For example,

<div style='margin-left: 4em;'>
  69 → 363600 → 1454 → 169 → 363601 (→ 1454)<br>
  78 → 45360 → 871 → 45361 (→ 871)<br>
  540 → 145 (→ 145)<br>
</div>

Starting with 69 produces a chain of five non-repeating terms, but the longest non-repeating chain with a starting number below one million is sixty terms.

How many chains, with a starting number below one million, contain exactly sixty non-repeating terms?

</section>

## Instructions
<section id='instructions'>

</section>

## Tests
<section id='tests'>

```yml
tests:
  - text: <code>digitFactorialChains()</code> should return a number.
    testString: assert(typeof digitFactorialChains() === 'number');
  - text: <code>digitFactorialChains()</code> should return 402.
    testString: assert.strictEqual(digitFactorialChains(), 402);

```

</section>

## Challenge Seed
<section id='challengeSeed'>

<div id='js-seed'>

```js
function digitFactorialChains() {
  // Good luck!
  return true;
}

digitFactorialChains();
```

</div>



</section>

## Solution
<section id='solution'>

```js
// solution required
```

</section>