You're *not* using recursion anywhere in the code. In fact, it has errors and I don't think you tested it thoroughly. For example:

- The
`if`

condition should be `(null? ls)`

- Using
`list-ref`

is not the way to go when traversing a list in Scheme, for that in general you want to use recursion, `car`

, `cdr`

, etc.
- Again, where is the recursive call?
`compare`

should be called at some point!

I believe this is what you intended, it's not recursive but it's the simplest way to implement the procedure:

```
(define (compare ls pred?)
(apply pred? ls))
```

Because this looks like homework I can only give you some hints for solving the problem from scratch, without using `apply`

. Fill-in the blanks:

```
(define (compare ls pred?)
(if <???> ; special case: if the list is empty
<???> ; then return true
(let loop ((prev <???>) ; general case, take 1st element
(ls <???>)) ; and take the rest of the list
(cond (<???> ; again: if the list is empty
<???>) ; then return true
(<???> ; if pred? is false for `prev` and current element
<???>) ; then return false
(else ; otherwise advance the recursion
(loop <???> <???>)))))) ; pass the new `prev` and the rest of the list
```

Notice that I used a named `let`

for implementing the recursion, so `loop`

is the recursive procedure here: you can see that `loop`

is being called inside `loop`

. Alternatively you could've defined a helper procedure. I had to do this for taking into account the special case where the list is initially empty.

The recursion works like this for the general case: two parameters are required, `prev`

stores the previous element in the list and `ls`

the rest of the list. at each point in the traversal we check to see if the predicates is false for the previous and the current element - if that is the case, then we return false. If not, we continue the recursion with a new `prev`

(the current element) and the rest of the list. We keep going like this until the list is empty and only then we return true.