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Can you guys think of the shortest and the most idiomatic solution to all-but-one function?

;; all-but-one
;; checks if all but one element in a list holds a certain property
;; (all-but-one even? (list 1 2 4)) -> true
;; (all-but-one even? '(1)) -> true
;; (all-but-one even? '(2 4)) -> false

Edit: all but EXACTLY one.

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up vote 4 down vote accepted

With a better name:

(define (all-except-one pred l) (= 1 (count (negate pred) l)))

(But this is PLT specific.)

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nice. i didnt know about (count pred list) . – unj2 Dec 11 '09 at 3:46

If the first element has the specified property, call all-but-one on the remainder of the list.

If the first element does not have the specified property, call all on the remainder of the list.

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Nice solution, but I have to ask (I'm a relative LISP newb compared to most LISPers) if the recursion will be optimized away? – San Jacinto Dec 11 '09 at 0:54
Define optimized away. In general, no, it'll remain recursive. Lisp as an idea has no concept of the optimization or anything. A single implementation/interpreter may implement Tail Call Optimization which would effectively make this code iterative, yes. :) – Anthony Dec 11 '09 at 0:57
The tail-call optimization is what i was referring to. Thanks. :) – San Jacinto Dec 11 '09 at 1:10
@Anthony Kanago: Scheme very much has a concept of tail-call optimization: – Pillsy Dec 11 '09 at 3:20
Anthony was talking about LISP and not Scheme. Could Anon write a code so that I could profile it? – unj2 Dec 11 '09 at 3:45

The PLT solution is elegant, and ordinarily I prefer to use built-in higher-order functions as opposed to writing my own recursive functions. But if you want an efficient recursive solution with no allocation and no arithmetic, here it is:

(define (all-but-one pred l)
  (if (null? l) 
     ((if (pred (car l)) all-but-one all) pred (cdr l))))

The recursive call is in tail position, so both Scheme and Common LISP will compile this code into a tight loop. Some people might prefer this equivalent code:

(define (all-but-one pred l)
  (if (null? l) 
     (if (pred (car l))
        (all-but-one pred (cdr l))
        (all pred (cdr l)))))
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The "tight loop" is still there in the H.O. version, count is doing that just fine. The main extra cost would come from wrapping the predicate. (And BTW, Common Lisp in general will not optimize it to a loop, only some compilers will.) – Eli Barzilay Dec 11 '09 at 12:29
@Eli: Agreed. It's just that count does some arithmetic. Since arithmetic is basically free, I should not obsess over it. Does Common LISP not guarantee proper tail calls? – Norman Ramsey Dec 12 '09 at 0:20
Since the introduction of the JIT in PLT, arithmetics became extremely cheap. (As for CL -- many people suffer from the "bad for debugging" opinion...) – Eli Barzilay Dec 12 '09 at 16:12

Common Lisp:

(defun all-but-one-p (predicate sequence)
  (= 1 (count-if-not predicate sequence)))


CL-USER 92 > (all-but-one-p #'evenp '(1 2 3))

CL-USER 93 > (all-but-one-p #'evenp '(1 2 4))

This LOOP-based version quits early if more than one element delivers a negative result for the predicate.

(defun all-but-one-p (predicate list)
  (= 1 (loop with not-pred = (complement predicate)
             for item in list count (funcall not-pred item) into counter
             when (> counter 1) do (return-from all-but-one-p nil)
             finally do (return counter))))
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(define (all-but-one p? xs)
  (= (length (filter p? xs)) (- (length xs) 1)))

OK, how about this: not so short, but just one pass over the list. You could do the same sort of thing using a fold.

(define (all-but-one p? xs)
  (let loop ((len 0) (sat 0) (tmp xs))
    (if (null? tmp)
        (= sat (- len 1))
        (loop (+ len 1)
              (if (p? (car tmp)) (+ sat 1) sat)
              (cdr tmp)))))
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nah too inefficient. – unj2 Dec 11 '09 at 0:25
but definitely short, +1 – deau Dec 11 '09 at 0:31

generalized Anon's idea.

(define (all-but-n n pred lst)
  (if (null? lst)
      (zero? n)
      (if (pred (car lst))
          (all-but-n n pred (cdr lst))
          (if (zero? n)
              (all-but-n (- n 1) pred (cdr lst))))))

(define (all-but-one pred lst) (all-but-n 1 pred lst))
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(define (all-but-one? p ls)
  (define (all? ls)
    (or (null? ls)
        (and (p    (car ls))
             (all? (cdr ls))))
  (define (loop ls)
    (cond ((null? ls)   #f)
          ((p (car ls)) (all? (cdr ls)))
          (else         (loop (cdr ls)))))
  (loop ls))
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A solution that should work on all decent Scheme implementations:

(define (all-but-one? pred values)

  (define (count-neg x)
    (if (not (pred x)) 1 0))

  (let loop ((c 0) (values values))
    (if (and (not (null? values))
         (<= c 1))
    (loop (+ c (count-neg (car values))) (cdr values))
    (= c 1))))
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