I am solving the Programming assinment for Harvard CS 51 programming course in ocaml. The problem is to define a function that can compress a list of chars to list of pairs where each pair contains a number of consequent occurencies of the character in the list and the character itself, i.e. after applying this function to the list ['a';'a';'a';'a';'a';'b';'b';'b';'c';'d';'d';'d';'d'] we should get the list of [(5,'a');(3,'b');(1,'c');(4,'d')]. I came up with the function that uses auxillary function go to solve this problem:

```
let to_run_length (lst : char list) : (int*char) list =
let rec go i s lst1 =
match lst1 with
| [] -> [(i,s)]
| (x::xs) when s <> x -> (i,s) :: go 0 x lst1
| (x::xs) -> go (i + 1) s xs
in match lst with
| x :: xs -> go 0 x lst
| [] -> []
```

My question is: Is it possible to define recursive function to_run_length with nested pattern matching without defining an auxillary function go. How in this case we can store a state of counter of already passed elements?