I've defined functions:

```
fun concaten(x,y) =
if (x = [])
then y
else hd(x) :: concaten(tl(x),y);
```

as well as:

```
fun existsin(x,L) =
if (L=[])
then false
else if (x = hd(L))
then true
else existsin(x,tl(L));
```

and am now trying to define a function of type `(((list * list) -> list) -> list)`

that looks vaguely like the following:

```
fun strongunion(x,y) =
val xy = concaten(x,y);
if xy=[]
then []
if (existsin(hd(xy),tl(xy)) andalso x!= [])
then strongunion(tl(x),y)
else if (existsin(hd(xy),tl(xy)) andalso x = [])
then strongunion(x,tl(y))
else if (x != [])
then hd(xy) :: strongunion(tl(x),y)
else hd(xy) :: strongunion(x,tl(y));
```

which takes the "strong" union of two lists, i.e. it combats faulty inputs (lists with element duplicates). This code is, of course, syntactically invalid, but the reason I included it was to show what such a function would look like in an imperative language.

The way I started going about doing this was to first concatenate the lists, then remove duplicated elements from that concatenation (well, technically I am adding non-duplicates to an empty list, but these two operations are consequentially equivalent). To do this, I figured I would design the function to take two lists (type list*list), transform them into their concatenation (type list), then do the duplicate removal (type list), which would be of type `(((list*list) -> list) -> list)`

.

My issue is that I have no idea how to do this in SML. I'm required to use SML for a class for which I'm a TA, otherwise I wouldn't bother with it, and instead use something like Haskell. If someone can show me how to construct such higher-order functions, I should be able to take care of the rest, but I just haven't come across such constructions in my reading of SML literature.

`Data.List.union`

; except that version doesn't assume that its inputs have no duplicates and runs inO(n²)to remove any. Haskell has`Data.Set`

for efficient sets where SML/NJ has`RedBlackSetFn`

.