4.3BSD/usr/contrib/emacs/lisp/hanoi.el
;
; hanoi - towers of hanoi in GNUmacs
;
; Author (a) 1985, Damon Anton Permezel
;
;;;
;;; hanoi-topos - direct cursor addressing
;;;
(defun hanoi-topos (row col)
(goto-line row)
(beginning-of-line)
(forward-char col))
;;;
;;; hanoi - user callable Towers of Hanoi
;;;
(defun hanoi (n-rings)
"Towers of Hanoi diversion. Arg is number of rings."
(interactive "p")
(if (or (> n-rings 9) (<= n-rings 0))
(error "Funny number of rings"))
(let ((floor-row 21)
(fly-row (- 21 n-rings 1))
(pole-1 (cons 20 20)) ; pole: column . fill height
(pole-2 (cons 40 20)) ; (these must be consed, not '(x . y)
(pole-3 (cons 60 20)) ; otherwise we are not reentrant)
(rings '(t (1 . 0) (2 . 0) (3 . 0) (4 . 0) (5 . 0)
(6 . 0) (7 . 0) (8 . 0) (9 . 0))))
;;
;; init the screen
;;
(switch-to-buffer " *Hanoi*")
(delete-other-windows)
(erase-buffer)
(let ((i 1)) ; 21 copies of a line of 78 blanks
(while (< i floor-row)
(setq i (1+ i))
(insert " \n")))
(let ((i 0)) ; draw the base
(while (< i 78)
(setq i (1+ i))
(insert ?=)))
(mapcar (function (lambda (x) ; draw the towers
(hanoi-topos fly-row x)
(let ((i fly-row))
(while (< i floor-row)
(setq i (1+ i))
(next-line 1)
(insert ?|)
(delete-char 1)
(backward-char 1)))))
'(20 40 60))
(sit-for 0)
;;
;; now init the rings
;;
(let ((where (1- floor-row))
(i n-rings)
r)
(while (> i 0)
(setq r (car (nthcdr i rings))) ; extract desired ring
(setcdr r where) ; indicate ring row
(setq where (1- where))
(hanoi-move-ring i pole-1 pole-1)
(setq i (1- i))))
(sit-for 0)
(hanoi0 n-rings pole-1 pole-2 pole-3))
(message "Done"))
;;;
;;; hanoi0 - work horse of hanoi
;;;
(defun hanoi0 (n from to work)
(if (> n 0)
(progn
(hanoi0 (1- n) from work to)
(hanoi-move-ring n from to)
(hanoi0 (1- n) work to from))))
;;;
;;; hanoi-move-ring - move ring 'n' from 'from' to 'to'
;;;
;;; from and to are dotted pairs consisting of (pole col . fill height)
;;;
(defun hanoi-move-ring (n from to)
(let ((r (car (nthcdr n rings)))) ; r <- ring: (ring# . row)
(if (eq from to) ; must change poles?
;;
;; ring on same pole - used for initialization
;;
(progn
(hanoi-topos (cdr to) (- (car to) n))
(hanoi-draw-ring n t nil)
(setcdr to (1- (cdr to))))
(let ((row (cdr r)) ; row <- row ring is on
(col (- (car from) n)) ; col <- left edge of ring
(dst-col (- (car to) n)) ; dst-col <- dest col for left edge
(dst-row (cdr to))) ; dst-row <- dest row for ring
(hanoi-topos row col)
(while (> row fly-row) ; move up to the fly row
(hanoi-draw-ring n nil nil) ; blank out ring
(previous-line 1) ; move up a line
(hanoi-draw-ring n t nil) ; redraw
(sit-for 0)
(setq row (1- row)))
(setcdr from (1+ (cdr from))) ; adjust top row
;;
;; fly the ring over to the right pole
;;
(while (not (equal dst-col col))
(cond ((> dst-col col) ; dst-col > col: right shift
(end-of-line 1)
(delete-backward-char 2)
(beginning-of-line 1)
(insert " ")
(sit-for 0)
(setq col (1+ (1+ col))))
((< dst-col col) ; dst-col < col: left shift
(beginning-of-line 1)
(delete-char 2)
(end-of-line 1)
(insert " ")
(sit-for 0)
(setq col (1- (1- col))))))
;;
;; let the ring float down
;;
(hanoi-topos fly-row dst-col)
(while (< row dst-row) ; move down to the dest row
(hanoi-draw-ring n nil (equal row fly-row)) ; blank out ring
(next-line 1) ; move down a line
(hanoi-draw-ring n t nil) ; redraw ring
(sit-for 0)
(setq row (1+ row)))
(setcdr r dst-row)
(setcdr to (1- (cdr to))))))) ; adjust top row
;;;
;;; hanoi-draw-ring - draw the ring at dot, leave dot unchanged
;;;
;;; Input:
;;; n - ring #. used to select drawing character
;;; f1 - flag: t -> draw, nil -> erase
;;; f2 - flag: t -> erasing ring from fly-row -> dont redraw ?|
;;;
(defun hanoi-draw-ring (n f1 f2)
(save-excursion
(let ((i 0)
(repl (if f1
(car (nthcdr n '(?0 ?1 ?2 ?3 ?4 ?5 ?6 ?7 ?8 ?9)))
? )))
(delete-char (+ 1 (* 2 n)))
(while (< i n)
(insert repl)
(setq i (1+ i)))
(insert (if f1 repl (if f2 ? ?|)))
(setq i 0)
(while (< i n)
(insert repl)
(setq i (1+ i))))))