A primitive way to have two threads share a state with type `int ref`

in OCaml is:

```
let add i x =
x := !x + i;
Printf.printf "add %d: x is now %d\n" i !x;
flush stdout
let rec run f x d =
f x;
Thread.delay d;
run f x d
let _ =
let x = ref 0 in
ignore(Thread.create (run (add 1) x) 0.2);
run (add 10) x 0.1
```

Function `add`

just adds i to the integer in the reference x. Function `run`

simply keeps applying f to the same argument x with delays of d between each application. The main function starts with 0 as the integer in the reference and invokes the run function in parallel with different arguments: (1) adding 1 and delaying 0.2s between calls; (2) adding 10 and delaying 0.1s between calls.

The output of running this program was:

```
add 10: x is now 10
add 1: x is now 11
add 10: x is now 21
add 10: x is now 31
add 1: x is now 32
add 10: x is now 42
add 10: x is now 52
add 1: x is now 53
add 10: x is now 63
add 10: x is now 73
add 1: x is now 74
add 10: x is now 84
add 10: x is now 94
add 1: x is now 95
[...]
```

It's easy to see that the contents of the reference are shared between threads.

I have used this construction in a case where the first `run`

function was performing numerical calculations and the other `run`

function was plotting the numbers calculated in the first thread. It worked well. In that case one of the threads was writing to the state but the other one was only reading. In the example coded above both threads write to the state which I think can be problematic, but I don't exactly know why.

## My Question

My questions about this are:

(1) Is this construction unsafe? If so, do you have an example where it can go wrong? (2) Do you know of a better construction to achieve the same goal? Should I use some kind of locks or signals?

Thanks in advance for any help!

All the best, Surikator.