I (believe) the following function definition is tail-recursive:

```
fun is_sorted [] = true
| is_sorted [x] = true
| is_sorted (x::(y::xs)) =
if x > y
then false
else is_sorted (y::xs)
```

Trivially, it's equivalent to the following declaration

```
fun is_sorted [] = true
| is_sorted [x] = true
| is_sorted (x::(y::xs)) =
(x <= y) andalso (is_sorted (y::xs))
```

Yet in this version the last step is to apply the 'andalso', so its not tail-recursive. Or it would seem so, except that since (at least Standard) ML (of NJ) uses short-circuit evaluation, the andalso is in fact /not/ the last step. So would this function have tail-call optimization? Or there any other interesting instances where an ML function that does not obviously use tail-recursion in fact gets optimized?

`fun x -> let r = g x in r`

was not compiled as a tail call. – Pascal Cuoq Jul 17 '14 at 13:42`[3, 4, 2, 3, 4]`

– Jeffrey Scofield Jul 17 '14 at 15:54`andalso`

, and probably transforms it to the equivalent conditional first. I would expect any half-decent compiler to handle the tail call properly, especially since it adds very little work for the compiler writer. – molbdnilo Aug 5 '14 at 10:22