---
id: 5900f45b1000cf542c50ff6d
title: 'Problem 238: Infinite string tour'
challengeType: 5
forumTopicId: 301883
dashedName: problem-238-infinite-string-tour
---

# --description--

Create a sequence of numbers using the "Blum Blum Shub" pseudo-random number generator:

s0 = 14025256 sn+1 = sn2 mod 20300713

Concatenate these numbers s0s1s2… to create a string w of infinite length. Then, w = 14025256741014958470038053646…

For a positive integer k, if no substring of w exists with a sum of digits equal to k, p(k) is defined to be zero. If at least one substring of w exists with a sum of digits equal to k, we define p(k) = z, where z is the starting position of the earliest such substring.

For instance:

The substrings 1, 14, 1402, … with respective sums of digits equal to 1, 5, 7, … start at position 1, hence p(1) = p(5) = p(7) = … = 1.

The substrings 4, 402, 4025, … with respective sums of digits equal to 4, 6, 11, … start at position 2, hence p(4) = p(6) = p(11) = … = 2.

The substrings 02, 0252, … with respective sums of digits equal to 2, 9, … start at position 3, hence p(2) = p(9) = … = 3.

Note that substring 025 starting at position 3, has a sum of digits equal to 7, but there was an earlier substring (starting at position 1) with a sum of digits equal to 7, so p(7) = 1, not 3.

We can verify that, for 0 < k ≤ 103, ∑ p(k) = 4742.

Find ∑ p(k), for 0 < k ≤ 2·1015.

# --hints--

`euler238()` should return 9922545104535660.

```js
assert.strictEqual(euler238(), 9922545104535660);
```

# --seed--

## --seed-contents--

```js
function euler238() {

  return true;
}

euler238();
```

# --solutions--

```js
// solution required
```