Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Is it possible to implement set-car! and set-cdr! portably as macros using set! in Scheme? Or would this require special access to the underlying storage system?

I'm asking because I'm implementing my own Scheme interpreter, and I'd like to have as much as possible out in scheme code.

My first attempt on set-cdr! was:

(define-syntax set-cdr!
  (syntax-rules ()
    ((set-cdr! location value)
     (set! location (cons (car location) value)))))

This mostly works, but not for circular lists:

#; mickey> (define x (list 1 2))
#; mickey> x
(1 2)
#; mickey> (set-cdr! x x)
#; mickey> x
(1 1 2)

Wrapping the macro body in let did not help me either, because when I do (set! (cons (car location) value), then value has already been evaluated to be '(1 2).

share|improve this question
Why not use mpair library in Dr Racket? you could use (require scheme/mpair) and then say (define list mlist)...(define cons mcons)...(define set-car! set-mcar!).. etc. But then all your lists will be mutable by default. –  Rajesh Bhat Jul 28 '12 at 4:16
@Rajesh: Because I've written a nearly feature-complete Scheme from scratch in C++ :-) I just want to move out as many functions as I can into the library as scheme files, instead of having many functions implemented in C++. But thanks for the suggestion! –  csl Aug 6 '12 at 21:17
surgical functions must be primitives. that's it. –  Will Ness Aug 11 '12 at 18:19
The following works in Chicken Scheme, but not in Chibi, Guile, mzscheme nor mit-scheme: (define a (cons 1 2)) (set! (cdr a) a) which creates a circular list. –  csl Sep 4 '12 at 8:46

3 Answers 3

up vote 4 down vote accepted


(set! location (cons (car location) value))

the expression (cons (car location) value) allocates a new pair.

The purpose of set-cdr! is to mutate an existing pair.

So implementing set-cdr! does require "special" access to the underlying storage.

share|improve this answer
But I thought scheme only required a very strict core containing typically if/cond, lambda, quote, set! and some other primitives (plus basic data types and constants). I'm not sure if cons is the problem. Rather, it's that we can't get the address of value (it is evaluated). –  csl Jul 25 '12 at 22:02
Well, if you really want to you can simulate pairs using closures, but that is very ineffecient. See the answer below. –  soegaard Jul 25 '12 at 22:12
Of course, but that's not what I want. :) I've got set!, and I want set-car! and set-cdr!. Anyway, implementing set! in terms of the others works, of course. –  csl Jul 25 '12 at 22:22
I see set! and set-car! as different. Let's say a location x contains (has a pointer to) a pair, then setting (using set!) just puts a different pointer in the location. On the other hand set-car! changes something "inside" a value. --- But to answer your question, you have to specify which level your interpreter works. Are you simulating your own memory (say using a giant vector of bytes) or are you simply using values from the underlying Scheme system? If you are inheriting pairs from the underlying system, you need to inherit set-car! too. –  soegaard Jul 25 '12 at 22:35
Suppose for the moment that we want to implement set-car! with set!. How should pairs be represented? The only think set! can do is to store a new value into a location to which a variable is bound. Thus we are forced to choose an representation in which the two parts of the pair is two locations each bound to a variable. The only (reasonable?) way to allocate such a value is to construct a closure. Therefore all solutions in which set! alone is used to implement set-car! will look more or less as the answer in which pairs were represented as closures. –  soegaard Jul 26 '12 at 14:14

Here is an example of implementing Cons, Car, Cdr, Set-car! and Set-cdr! using closures.

(define (Cons x y)
  (lambda (message . val)
      [(eq? message 'car) x]
      [(eq? message 'cdr) y]
      [(eq? message 'set-car!) 
       (set! x (car val))]
      [(eq? message 'set-cdr!) 
       (set! y (car val))]
      [else 'unknown-message])))

(define (Car pair)
  (pair 'car))

(define (Cdr pair)
  (pair 'cdr))

(define (Set-cdr! pair val)
  (pair 'set-cdr! val))

(define (Set-car! pair val)
  (pair 'set-car! val))

(define p (Cons 1 2))
(Car p)
(Cdr p)
(Set-car! p 3)
(Car p)
(Set-cdr! p 4)
(Cdr p)
share|improve this answer

Basically you can implement set! without set!, but I don't think you can implement set-car!/set-cdr! without either mutating pairs or simulating pairs (like soegaard's example)

Since it seems you're making your Scheme implementation in Scheme I would have used set-car!/set-cdr! to implement it in the interpreter or just not implemented them at all. I would have started with define, if, quote, pair?, eq?, cons, car and cdr (similar to The roots of LISP, but more schemish) to have a base minimum implementation to start with and then enhanced it further.

Anyway.. Your implementation, if you do implement it should be able to do this:

(define odds (list 1 3 5 7 9 11))
(set-car! (cddr odds) #f)
===> (1 3 #f 7 9 11)
share|improve this answer
I'm implementing it in C++. It's super-easy to implement set!, set-car! and set-cdr! from within C++, because I have access to the pointers I'm using, and it works nicely. But it would be even better to have only set! and then implement set-car! etc in a Scheme source code library. Alas... –  csl Aug 6 '12 at 21:14
While set-car! and set-cdr! actually changes a data pointer, set! actually is very different. set! can be used both for parameters as well as global variables and within a procedure it's the environment of that procedure which is the one you are changing. If you are implementing an interpreter you need to implement frames. If you are implementing a compiler, then you can remove set! by wrapping the closure in a another lambda where you box variables that mutate eg. a generator might translate to (lambda (x) (let ((x (cons x))) (lambda (n) (let ((old (car x)) (set-car! x (+ old n)) old))))))) –  Sylwester Aug 6 '12 at 22:37

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.