Anyone who wants to see the original question on HackerRank can do so here (included below as well). The problem statement is:

## Print a single integer denoting the number of letter a's in the first `n`

letters of the infinite string created by repeating `s`

infinitely many times.

There are two parts to this.

`s`

is repeated "infinitely," but we only need to check up to length `n`

.
- We will need to count the number of a's in that string.

Let's start with the simple problem first: Writing a function that counts the number of times a character is included in a string.

```
String.prototype.countCharacter = function(char) {
return [...this].filter(c => c === char).length;
}
console.log('aaaa'.countCharacter('a')); // 4
console.log('aabb'.countCharacter('b')); // 2
```

Now here is the tricky part. We *could* naively use `String.repeat()`

to repeat the string until it has length greater than `n`

, but for arbitrarily large `n`

, this becomes impractical. In fact, HackerRank gives us an `n`

test case that is larger than the max string length, so we will need to take a higher-level approach.

We know how many a's are in the string `s`

, which will be repeated - if we repeat it `m`

times, we will have `m * s.countCharacter('a')`

a's, where `m > (n/l)`

and `l`

is `s.length`

. This is not as complicated as it might seem: We will need to repeat the string until we get a string of length greater than `n`

, and we can store the number of times we will need to repeat the string to reach (or go over) `n`

in a variable called `repeatsRequired`

, which is just `n / l`

rounded up.

From there, it's easy enough to tell how many characters that string has, and we can tell how many *extra* characters will be on the end with `charactersRequired % l`

. If we know how many extra characters will be on the end, we can slice off the extra part of `s`

and count the number of a's, and the total number of a's will be:

```
(number of a's in s) * (repeats required - 1)
+ (number of a's in final partial repeat)
```

```
String.prototype.countCharacter = function(char) {
return [...this].filter(c => c === char).length;
}
// Complete the repeatedString function below.
function repeatedString(s, n) {
const l = s.length,
repeatsRequired = Math.ceil(n / l),
charsRequired = repeatsRequired * l,
numCharsInLastRepeat = l - (charsRequired % n);
const a_s = s.countCharacter('a'),
a_r = s.slice(0, numCharsInLastRepeat).countCharacter('a');
return a_s * (repeatsRequired - 1) + a_r;
}
console.log(repeatedString('aba', 10)); // 7
console.log(repeatedString('a', 1000000000000)); // 1000000000000
```

`remainder`

first. Then subtract`remainder`

from`n`

and divide by`s.length`

. That way you get the accurate integer quotient, without`Math.round`

or`Math.floor`

.