Assume I have a mathematical expression in a "tree" form in OCaml. It's represented as an algebraic type like this:

```
type expr =
Number of int
|Plus of expr*expr
```

Well, this is a *very* simplified definition, but it's enough to describe the problem.

I want to convert it to a string in a reverse polish notation, so that `Plus (Number i, Number j)`

becomes `(+ i j)`

. A straightforward implementation would be

```
let rec convert = function
Number i -> string_of_int i
|Plus (a,b) -> (let s = convert a in let p = convert b in "(+"^s^" "^p^")")
```

But the thing is that it's **incredibly slow** on some input (that have a big tree depth). For example, this input works 5 seconds on my machine:

```
let rec make_pain so_far = function
0 -> so_far |i -> make_pain (Plus (Number 1,so_far)) (i-1)
let pain = make_pain (Number 1) 20000
let converted = convert pain
```

It seems that string concatenation `x^y`

, where `y`

is a long string, is the performance problem. Indeed, if I replace the `"(+"^s^" "^p^")"`

expression with mere `s^p`

, it becomes **much** faster.

Using `printf`

instead of concatenation doesn't make it any faster. Converting to C might help, but isn't there an OCaml solution?