I am trying to make a scheme derivatives calculator more accepting of inputs, starting with the sum procedure and eventually the product. I have been trying to modify the procedure to accept inputs in the form of `(deriv '(* x y (+ x 3)) 'x)`

instead of `(deriv '(* x (* y (+ x 3))) 'x)`

.

The code I am working off of is:

```
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;SUM RELATED;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;makes a sum structure
(define (make-sum a1 a2)
(list '+ a1 a2))
;checks if something is a sum structure
(define (sum? x)
(and (pair? x)
(eq? (car x) '+)))
;get first term of sum
(define (addend s)
(cadr s))
;get second term of sum
(define (augend s)
(caddr s))
```

and

```
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;PRODUCT RELATED;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;make a product structure
(define (make-product m1 m2)
(list '* m1 m2))
;checks if something is a product structure
(define (product? x)
(and (pair? x)
(eq? (car x) '*)))
;get first factor of product
(define (multiplier p)
(cadr p))
;get second factor of product
(define (multiplicand p)
(caddr p))
```

I have attempted to solve the problem but without much luck so far, this is what I have tried to implement in several different variations:

```
;makes a sum structure
(define (make-sum a1 a2)
(if (sum? a1)
(if (sum? a2)
(cons '+ (append (cdr a1) (cdr a2)))
(cons '+ (append (cdr a1) (list a2)))
(cons '+ (append (list a1) (cdr a2)))))
(list '+ a1 a2))
```

It is giving me a bad syntax call. And I can see that my second if really doesn't seem to fit an if statement, but the structure of how it is suppose to look was given to me by my teacher so it confuses me that it doesn't work, or is suppose to work I guess.

If anyone can give me a hand understanding this, it would be great.

I am not really enthused with Scheme so far, and while it seems like it could be cool to know or understand, my teacher is trying to fit it in, in the last 2 weeks and I cant get a grasp on it.

`if`

statement. Since you're only allowed one form in its body, you'll want to wrap it up with a`begin`

. E.g.`(begin (cons...) (cons...) (cons...))`

. And don't give up on scheme yet! You can do some really awesome thing with LISP, but there definitely is a learning curve. – oobivat Dec 1 '12 at 15:05