; sum and xor

(define (bitwise-xor a b)
  (cond ((zero? a) b)
        ((zero? b) a)
        (else
         (+ (* (logxor (floor (/ a 2)) (floor (/ b 2))) 2)
            (if (even? a)
                (if (even? b) 0 1)
                (if (even? b) 1 0))))))

(define-syntax fold-of
  (syntax-rules (range in is)
    ((_ "z" f b e) (set! b (f b e)))
    ((_ "z" f b e (v range fst pst stp) c ...)
      (let* ((x fst) (p pst) (s stp)
             (le? (if (positive? s) <= >=)))
        (do ((v x (+ v s))) ((le? p v) b)
          (fold-of "z" f b e c ...))))
    ((_ "z" f b e (v range fst pst) c ...)
      (let* ((x fst) (p pst) (s (if (< x p) 1 -1)))
        (fold-of "z" f b e (v range x p s) c ...)))
    ((_ "z" f b e (v range pst) c ...)
      (fold-of "z" f b e (v range 0 pst) c ...))
    ((_ "z" f b e (x in xs) c ...)
      (do ((t xs (cdr t))) ((null? t) b)
        (let ((x (car t)))
          (fold-of "z" f b e c ...))))
    ((_ "z" f b e (x is y) c ...)
      (let ((x y)) (fold-of "z" f b e c ...)))
    ((_ "z" f b e p? c ...)
      (if p? (fold-of "z" f b e c ...)))
          ((_ f i e c ...)
      (let ((b i)) (fold-of "z" f b e c ...)))))

(define-syntax list-of (syntax-rules ()
  ((_ arg ...) (reverse (fold-of
    (lambda (d a) (cons a d)) '() arg ...)))))

(define (sum-xor s x)
  (list-of (list (- s b) b)
    (b range 1 s)
    (= x (bitwise-xor (- s b) b))))

(display (sum-xor 9 5)) (newline)