Another way to look at this is that you have an equivalence relation for your type; i.e., you have some places where you want to treat all the `MAlpha`

s the same, all the `MBeta`

s the same, and all the `MGamma`

s the same. A standard handling for equivalence relations is to pick a representative element that represents the whole set of equivalent values (the equivalence class).

In your case you could use `MAlpha`

to represent all the `MAlpha`

s (but there's only one of them), `MBeta []`

to represent all the `MBeta`

s and `MGamma ("", 0)`

to represent all the `MGamma`

s. You would have a function to calculate the representative value from a given one:

```
let malpha = MAlpha
let mbeta = MBeta []
let mgamma = MGamma ("", 0)
let canonicalize =
function
| MAlpha -> malpha
| MBeta _ -> mbeta
| MGamma _ -> mgamma
let find_first where what =
canonicalize (List.find (fun x -> List.mem (canonicalize x) what) where)
let main () =
let where_to_find = [MGamma ("a", 3); MAlpha; MBeta [3; 4]] in
let what_to_find = [malpha; mbeta] in
try
let found = find_first where_to_find what_to_find
in
if found = malpha then (* what to do *)
else if found = mbeta then (* what to do *)
else (* what to do *)
with Not_found -> (* nothing was there *)
```

I have written code like this and it doesn't come out too bad. In your case it allows you to specify the `what`

parameter a little bit naturally. One downside, though, is that you can't pattern match against `malpha`

, `mbeta`

, and `mgamma`

. You have to do equality comparisons against them.

It may be that you wanted to find the specific value in the list, rather than the canonicalized value. I think the changes for that case should be pretty clear.

This also answers the second part of your question. The `List.find`

function will stop as soon as it finds what it's looking for.

OCaml defines an ordering relation for all types that don't contain functional values in them. If this built-in (polymorphic) ordering doesn't do what you want, you have to define your own. You would certainly need to do this to compare values of two different types; but that is not what you're doing here.

If there's no element in the list that looks like what you said you wanted, this version of `find_first`

will raise the exception `Not_found`

. That's something else to think about.

`List.create`

, and why are you giving it two other names? – Pascal Cuoq Sep 24 '11 at 11:51where_to_findand need to know which type from shown withinwhat_to_findis stored firstly withinwhere_to_find. – Slav Sep 24 '11 at 11:57