# How to decompose a list like this in scheme/lisp?

Input1:

``````(decompose '(* 1 2 3 4))
``````

Output1:

``````'(* 1 (* 2 (* 3 4)))
``````

Input2

``````(decompose '(+ 1 2 3 (* 5 6 7)))
``````

Output2

``````'(+ 1 (+ 2 (+ 3 (* 5 (* 6 7)))))
``````

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Same way as you would evaluate it, but instead of outputting the result, you simply output the expression that would be used.

Here's my implementation, tested on Racket:

``````(define (decompose expr)
(define (expand x)
(if (list? x)
(decompose x)
x))
(define oper (car expr))
(let next ((args (map expand (cdr expr))))
(if (<= (length args) 2)
(cons oper args)
(list oper (car args) (next (cdr args))))))
``````
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I see you posted your own solution, so I guess it's ok to show my complete answer. Here's another possible implementation, as a mutually-recursive pair of procedures. I like the fact that this solution doesn't require using `length` or `list?` (which might entail unnecessary traversals over the list), and uses only elementary functions (no `foldr`, `reverse`, `map` or any other higher-order procedures are needed.)

``````(define (decompose lst)
(if (or (null? lst)                     ; if the list is empty
(null? (cdr lst))               ; or has only one element
(null? (cddr lst)))             ; or has only two elements
lst                                 ; then just return the list
(process (car lst)                  ; else process car of list (operator)
(cdr lst))))               ; together with cdr of list (operands)

(define (process op lst)
(cond ((null? (cdr lst))                ; if there's only one element left
(if (not (pair? (car lst)))      ; if the element is not a list
(car lst)                    ; then return that element
(decompose (car lst))))      ; else decompose that element
((not (pair? (car lst)))          ; if current element is not a list
(list op                         ; build a list with operator,
(car lst)                  ; current element,
(process op (cdr lst))))   ; process rest of list
(else                             ; else current element is a list
(list op                         ; build a list with operator,
(decompose (car lst))      ; decompose current element,
(process op (cdr lst)))))) ; process rest of list
``````

It works for your examples, and then some:

``````(decompose '(* 1 2 3 4))
=> '(* 1 (* 2 (* 3 4)))

(decompose '(+ 1 2 3 (* 5 6 7)))
=> '(+ 1 (+ 2 (+ 3 (* 5 (* 6 7)))))

(decompose '(+ 1 (* 4 5 6) 2 3))
=> '(+ 1 (+ (* 4 (* 5 6)) (+ 2 3)))

(decompose '(+ 1 2 3 (* 5 6 7) 8))
=> '(+ 1 (+ 2 (+ 3 (+ (* 5 (* 6 7)) 8))))

(decompose '(+ 1 2 3 (* 5 6 7) (* 8 9 10) (* 11 12 (- 1))))
=> '(+ 1 (+ 2 (+ 3 (+ (* 5 (* 6 7)) (+ (* 8 (* 9 10)) (* 11 (* 12 (- 1))))))))
``````
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I upvoted your answer, because it seems closest in spirit to mine, and because I dislike the other answers. –  Chris Jester-Young Dec 10 '12 at 3:35
@ChrisJester-Young thanks, ditto :) –  Óscar López Dec 10 '12 at 3:36

Modified from `Chris Jester-Young`'s solution:

``````(define (decompose x)
(if (pair? x)
(let ((operator (car x))
(expanded-x (map decompose x)))
(let decompose-helper ((operands (cdr expanded-x)))
(if (<= (length operands) 2)
(cons operator operands)
(list operator (car operands) (decompose-helper (cdr operands))))))
x))
``````
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