# How do I write all-but-one function in Scheme/LISP?

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.

-

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: cs.grinnell.edu/courses/Scheme/r5rs-html/r5rs_22.html –  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

Common Lisp:

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

Example:

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

CL-USER 93 > (all-but-one-p #'evenp '(1 2 4))
T
``````

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))))
``````
-

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))))
``````
-
``````(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))
``````
-

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)
#f
((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)
#f
(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

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)
#f
(all-but-n (- n 1) pred (cdr lst))))))

(define (all-but-one pred lst) (all-but-n 1 pred lst))
``````
-
``````(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