My goal is to provide a list to a plus-minus method so that it may traverse through every possible circumstance in which if any given number of elements are made negative and then subtracted from the sum of the remaining positive numbers there is a chance that that number may be either found or not found within the original list.

For example: if we feed plus-minus a list of (3 1 2), then plus-minus should return #t once it reaches (3 1 -2), since 4 - 2 = 2 and 2 is within the original list of (3 1 2).

I have a separate method from plus-minus, ref-check, which is used to determine whether or not the target number is within the list. So, in the example provided, its job would be to determine whether or not 2 exists within the original list of (3 1 2). Since it does exist within the original list, ref-check is to return 1 for #t.

My issue currently is that ref-check does return #t back to plus-minus, but the method seems to continue regardless.

I feel as though there is a simple solution to this problem.

Working code:

;returns true if the element is in the list otherwise false
(define ref-check(lambda (list element)
             ((null? list) 0)
             ((= element (car list)) 1)
             (else (ref-check (cdr list) element)))))

;main calculation
(define plus-minus(lambda (L sum1 sum2)
                      ((null? L) #f)
                      ((= (ref-check L (- sum1 sum2)) 1) #t)
                      (else (plus-minus (cdr L) (+ sum1 (car L)) sum2)
                            (plus-minus (cdr L) sum1 (+ sum2 (car L)))))))

Example input: (plus-minus '(7 5 1 2) 0 0) Example result: #t

Edits: Correctness and clarity

  • 1
    You probably want (else (or (plus-minus ...) (plus-minus ...))). As it is now, the return value from the first plus-minus is completely ignored. – jkiiski Apr 24 '16 at 7:40
  • Should (3 1 2 400) return true or false? – Daniel Jour Apr 24 '16 at 14:59
  • jkiiski - you are correct as it does achieve what I wanted out of that line. Daniel - (3 1 2 400) should always return #f. Now comes to the question as to how I ensure ref-check always receives the original list, and not one that had been eaten at via cdr. Currently (7 5 1 2) returns #t, but (7 1 5 2) does not due to this occurring. Any ideas? – john14073 Apr 24 '16 at 18:04

Let's start answering the questions:

My issue currently is that ref-check does return #t[1] back to plus-minus, but the method seems to continue regardless.

In the case that ref-check returns 1 to your calling function, further recursive calls aren't made further down from the current call stack. So, after ref-check returned, the calling plus-minus also returns.

But it returns to the function which called it, which may be "you" (i.e. the toplevel) but more likely will be "itself". An example might illustrate that better:

Let's call (plus-minus '(3 1 2) 0 0): This will land in the else branch of the cond, calling first (plus-minus '(1 2) 3 0). That will land in the else branch, too, and thus first call (plus-minus '(2) 5 0) (which will ultimately return #f, thus we ignore it) and then (plus-minus '(2) 3 1). In that invocation of plus-minus, it'll hit the branch of the cond that returns #t due to ref-check (3-1 == 2 being part of (1 2)). The function returns to its caller, which is actually "in the else branch" of the first invocation of plus-minus. There, you discard the returned value, and unconditionally call (plus-minus '(1 2) 0 3), which will in turn make further calls to both ref-check and plus-minus.

Visually, showing part of the call-stack:

(plus-minus '(3 1 2) 0 0)
  ;; In else
  (plus-minus '(1 2) 3 0)
     ;; In else
     (plus-minus '(2) 5 0)
        ;; Details discarded, returns #f
        ;; <== #f
     ;; Discard #f from above, and call
     (plus-minus '(2) 3 1)
       ;; ref-check returned 1, so return #t
       ;; <== #t
     ;; <== #t
  ;; Still in the else, got #t, discard, then
  (plus-minus '(1 2) 0 3)
     ;; ...

To get rid of this you need to make the second recursive call only if the first doesn't already return #t. This can be easily achieved by wrapping both calls in an (or ...).

[..] how I ensure ref-check always receives the original list,

Pass the original list as an additional parameter down every call of plus-minus.

(3 1 2 400) should always return #f

With your current logic, that won't happen. Since you call ref-check also with partially computed sum1 and sum2 (i.e. not all elements of your list "decided" yet whether they're negative or not) the above will yield #t.

To get your desired behavior, you need to call ref-check only when all elements of the list are either added to sum1 or sum2, thus when there are no more elements to process, i.e. when the list is empty.

Now, some remarks:

  • Don't use 0 and 1 to represent truthiness, in Scheme you should use #f to represent false and anything else (#t if you cannot meaningfully return anything) for true.
  • Indentation and spacing: You should really keep to the established standards here. Normally, your editor should take care of that.
  • Don't speak of "methods". It's called functions.

I'm not providing "final working" code to allow you to implement the above mentioned fixes yourself.

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