# Difference between '(()) and (cons null null)

I am confused about the difference between '(()) and (cons null null) in scheme.

The code below show that `b` and `c` are completely the same thing.

``````(define (dup2 x)
(let ((d '(())))
(set-car! d (car x))
(set-cdr! d (cdr x))
d))

(define a '(1 2))

(define b (dup2 a))
(define c (dup2 a))

(set-car! b 2)

> c  ;; --> (2 2)
``````

However, when I used `dup` instead of `dup2`:

``````(define (dup x)
(let ((d (cons null null)))
(set-car! d (car x))
(set-cdr! d (cdr x))
d))

(define a '(1 2))

(define b (dup a))
(define c (dup a))

(set-car! b 2)

> c  ;; --> (1 2)
``````

Variable `b` and `c` are different. I have done some experiments, but I haven't understand yet.

-
possible duplicate of Unexpected persistence of data. The problem is because of the quoted data, not because of a difference in the values of `'(())` and `(cons null null)`. Try replacing `'(())` with `(list '())` and you won't observe this problem anymore. (That duplicate isn't Scheme, but Common Lisp, but the problem is the same.) For even more fun, rather than making a `dup` procedure, try writing one that pushes data into the list `d`, and you'll see the list getting longer and longer over multiple calls. –  Joshua Taylor Oct 3 '13 at 15:12

The value of `d` in the first implementation is literal data, and is modified with undefined consequences. To highlight what's happening, consider the following code:

``````(define (incorrect-list-null-and-x x)
(let ((l '(())))                 ; a list of the form (() . ())
(set-cdr! l (cons x (cdr l)))  ; (cdr l) is (), so (cons x (cdr l)) should be (x . ()) == (x), right?
; and now l should be (() . (x . ())) == (() x), right?
l))
``````

The expected result is that `(incorrect-list-null-and-x n)` should return a list of the form `(() n)`, and it does the first time, but successive calls are still accessing the same data:

``````(incorrect-list-null-and-x 1) ;=> (() 1)
(incorrect-list-null-and-x 2) ;=> (() 2 1)
(incorrect-list-null-and-x 3) ;=> (() 3 2 1)
(incorrect-list-null-and-x 4) ;=> (() 4 3 2 1)
``````

The same problem manifests itself a bit differently in your `dup2`. Every value returned from `dup2` is actually the same pair:

``````(let* ((x (dup2 (cons 1 2)))
(y (dup2 (cons 3 4))))
(display x)
(display y))
``````

outputs:

``````(3 . 4)(3 . 4)
``````

because the call `(dup2 (cons 3 4))` modifies the same structure that was previously returned by `(dup2 (cons 1 2))`.

-

Data literals, like `'(())`, are meant to be read-only, and modifying it using `set-car!` or `set-cdr!` has undefined behaviour. For predictable behaviour, use the `(cons '() '())` version if you want to use `set-car!` or `set-cdr!` on it.

In particular, `cons` creates a new cons cell, whereas a data literal usually won't.

Still, for the purposes of implementing `dup`, why are you using `set-car!` and `set-cdr!` anyway? Just use `cons` directly:

`````` (define (dup x)
(cons (car x) (cdr x)))
``````
-
In your first code snippet you use `(d '(()))` which ends up binding a literal to `d`. You then modify the literal which is generally undefined. In your second code snippet you use `(d (cons null null))` which binds `d` to a newly created 'cons cell' which you then modify. There is no problem modifying that.
Note: you've not defined `null`. Perhaps you meant '()?
`(define null 'null)` is not a good assumption. The OP clearly intends `'(())` to be `equal?` to `(cons null null)`. –  Chris Jester-Young Oct 3 '13 at 14:07