You have quite a few things going on here. If we first look at the errors you are getting.
unbound variable or constructor: innerinner
In sml you can't "use" stuff before it has been declared. It is easily fixed in your case by
swapping the function declarations around, and thus declaring
If you ever end up in a case where you want to for example declare two mutually recursive
functions, then this is not an option. In this case you would have to use the keyword
unresolved flex record
This is a bit more complicated. It is a type error and has something to do with the fact
that tuples are represented as records internally (I would recommend you go read about
it). Thus when you don't supply enough information, the type system will complain.
I think this QA explains it quite good. In summary, you can't have unbounded tuples
and thus you need to make it clear to the type system how many elements it contains. This
could be done by explicitly type annotating the function declaration.
However in general you ought to use pattern matching instead, as often as feasible.
In general you should always use pattern matching rather than tuple selectors (#1, #2, ...), or list selectors (hd or tl). You just saw why tuple selectors can be "bad" but using list selectors without testing whether or not the list is empty first will give you runtime errors (exceptions).
Putting in such test cases in your code will "blow it up" and make it messy to read. But if you use pattern matching instead you will have some nice clear cut cases in your function definition.
Also often you will tend to writer less code (in my opinion).
Btw, you don't need to put parentheses around single arguments to functions, such as you main definition of the
All in all your function could look something like this:
fun test list =
fun innerinner ((x1, x2)::xs,from) =
if x1 = from then true
| innerinner (, from) = false
fun inner ((x1, x2)::xs) = innerinner(xs,x1)
| inner  = false