The syntax of `if`

is:

```
(if condition expression1 expression2)
```

and its value is the value of expression1 when the condition is true, otherwise it is the value of expression2.

In your function instead you use:

```
(if condition expression1)
```

and this is not allowed. Note, moreover that the three `if`

s one after the other are executed sequentially and only the value of the last one is actually used, as the value returned by the function call.

A way of solving this problem is using a “cascade” of `if`

:

```
(define (over-or-under x y)
(if (< x y)
-1
(if (= x y)
0
1)))
```

Note that the proper alignment make clear the order of execution of the different expressions. If `(< x y)`

is true than the value -1 is the result of the `if`

, but, since it is the last expression of the function, it is also the value of the function call. If this is not true, we execute the “inner” `if`

, checking if x is equal to y, and so on. Note also that in the third case is not necessary to check if x is greater than y, since it is surely true, given that x is not less than y, neither equal to y.

Finally, note that the “cascade” of x is so common that in scheme exists a more syntactically convient way of expressing it with the specific `cond`

expression:

```
(cond (condition1 expression1)
(condition2 expression2)
...
(else expressionN))
```

so you could rewrite the function is this way:

```
(define (over-or-under x y)
(cond ((< x y) -1)
((= x y) 0)
(else 1)))
```