This answer is both a summary of the Josephus Problem and an answer to your questions of:

- What is
`josephus(n-1,k)`

referring to?
- What is the modulus operator being used for?

When calling `josephus(n-1,k)`

that means that you've executed every kth person up to a total of n-1 times. (Changed to match George Tomlinson's comment)

The recursion keeps going until there is 1 person standing, and when the function returns itself to the top, it will return the position that you will have to be in to survive. The modulus operator is being used to help stay within the circle (just as GuyGreer explained in the comments). Here is a picture to help explain:

```
1 2
6 3
5 4
```

Let the n = 6 and k = 2 (execute every 2nd person in the circle). First run through the function once and you have executed the 2nd person, the circle becomes:

```
1 X
6 3
5 4
```

Continue through the recursion until the last person remains will result in the following sequence:

```
1 2 1 X 1 X 1 X 1 X X X
6 3 -> 6 3 -> 6 3 -> X 3 -> X X -> X X
5 4 5 4 5 X 5 X 5 X 5 X
```

When we check the values returned from josephus at n we get the following values:

```
n = 1 return 1
n = 2 return (1 + 2 - 1) % 2 + 1 = 1
n = 3 return (1 + 2 - 1) % 3 + 1 = 3
n = 4 return (3 + 2 - 1) % 4 + 1 = 1
n = 5 return (1 + 2 - 1) % 5 + 1 = 3
n = 6 return (3 + 2 - 1) % 6 + 1 = 5
```

Which shows that josephus(n-1,k) refers to the position of the last survivor. (1)

If we removed the modulus operator then you will see that this will return the 11th position but there is only 6 here so the modulus operator helps keep the counting within the bounds of the circle. (2)

`{0,1,2,3,4,5,6}`

, which represents a circle (so that`1`

and`6`

are in fact adjacent). If my index is`4`

and I add`5`

to it to get`9`

, that seems outside the circle, so by taking the modulus`9 % 7 == 2`

I get the index into my buffer of`2`

and I can continue happily going around in circles. – GuyGreer Feb 12 at 19:50`0`

and`6`

are adjacent? – KodeSeeker Aug 16 at 21:52