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(define d
  (append '(a) (call/cc
          (lambda (k) (k (append '(b) '(c)))))))

(define e
  (append '(a) (append '(b) '(c))))

What is the difference in the call stack between d and e?

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1  
As the first can be reduced to the second, they are the same. The reduction is (call/cc (lambda (k) (k v))) => v. –  Dan D. Jul 25 '12 at 21:18
    
At what point do you want to examine the call stack? The call stacks during execution of these two functions will be different at certain points. –  Nate C-K Jul 25 '12 at 21:38
1  
Since you are using call/cc you need to use the term call tree rather than call stack. :-) –  soegaard Jul 25 '12 at 21:59
    
So what are the advantages/disadvantages of using either or then? What is the difference in the tree? Just that one more branch is made in the first other than the second? –  user1311286 Jul 26 '12 at 5:04

1 Answer 1

You forgot one:

(define d
  (append '(a) (call/cc
          (lambda (k) (append '(b) '(c))))))

Your examples and the one above shows variations of the same code. A Compiler would reduce those to the exact same expressions.

As with eval, you shouldn't use call/cc if you can avoid it. Imagine that you are taking one of those lists as input from the user:

Imagine this example:

(define d
    (call/cc
         (lambda (abort) 
              (append    '(a) 
                         '(b) 
                         (let ((c (read))) 
                            (if (list? c) 
                                       c 
                                       (abort #f)))))))

Here if you input a list d will become '(a b ...), but if you don't supply it with a list (eg. you write 5) it will use the continuation (abort) to return #f instead of letting append do it's thing. This example could be written without call/cc (by doing read and if part first, but in some circumstances the alternative to a continuation is to complete a calculation that you half way know is going to be trown away.

call/cc is like a goto in other languages and can be used to make exceptions, cooperative multitasking, iterations, ++. See Matt Might's Continuations by example

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