;;; hanoi.el --- 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 ;;; ;;;###autoload (defun hanoi (nrings) "Towers of Hanoi diversion. Argument is number of rings." (interactive (list (if (null current-prefix-arg) 3 (prefix-numeric-value current-prefix-arg)))) (if (<= nrings 0) (error "Negative number of rings")) (let (pole-spacing floor-row fly-row (window-height (window-height (selected-window))) (window-width (window-width (selected-window)))) (let ((h (+ nrings 2)) (w (+ (* (1- nrings) 6) 2 5))) (if (not (and (>= window-width h) (> window-width w))) (progn (delete-other-windows) (if (not (and (>= (setq window-height (window-height (selected-window))) h) (> (setq window-width (window-width (selected-window))) w))) (error "Screen is too small (need at least %dx%d)" w h)))) (setq pole-spacing (/ window-width 6)) (if (not (zerop (logand pole-spacing 1))) ;; must be even (setq pole-spacing (1+ pole-spacing))) (setq floor-row (if (> (- window-height 3) h) (- window-height 3) window-height))) (let ((fly-row (- floor-row nrings 1)) ;; pole: column . fill height (pole-1 (cons pole-spacing floor-row)) (pole-2 (cons (* 3 pole-spacing) floor-row)) (pole-3 (cons (* 5 pole-spacing) floor-row)) (rings (make-vector nrings nil))) ;; construct the ring list (let ((i 0)) (while (< i nrings) ;; ring: [pole-number string empty-string] (aset rings i (vector nil (make-string (+ i i 3) (+ ?0 i)) (make-string (+ i i 3) ?\ ))) (setq i (1+ i)))) ;; ;; init the screen ;; (switch-to-buffer "*Hanoi*") (setq buffer-read-only nil) (buffer-disable-undo (current-buffer)) (erase-buffer) (let ((i 0)) (while (< i floor-row) (setq i (1+ i)) (insert-char ?\ (1- window-width)) (insert ?\n))) (insert-char ?= (1- window-width)) (let ((n 1)) (while (< n 6) (hanoi-topos fly-row (* n pole-spacing)) (setq n (+ n 2)) (let ((i fly-row)) (while (< i floor-row) (setq i (1+ i)) (next-line 1) (insert ?\|) (delete-char 1) (backward-char 1))))) ;(sit-for 0) ;; ;; now draw the rings in their initial positions ;; (let ((i 0) ring) (while (< i nrings) (setq ring (aref rings (- nrings 1 i))) (aset ring 0 (- floor-row i)) (hanoi-topos (cdr pole-1) (- (car pole-1) (- nrings i))) (hanoi-draw-ring ring t nil) (setcdr pole-1 (1- (cdr pole-1))) (setq i (1+ i)))) (setq buffer-read-only t) (sit-for 0) ;; ;; do it! ;; (hanoi0 (1- nrings) pole-1 pole-2 pole-3) (goto-char (point-min)) (message "Done") (setq buffer-read-only t) (set-buffer-modified-p (buffer-modified-p)) (sit-for 0)))) ;;; ;;; hanoi0 - work horse of hanoi ;;; (defun hanoi0 (n from to work) (cond ((input-pending-p) (signal 'quit (list "I can tell you've had enough"))) ((< n 0)) (t (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' ;;; ;;; (defun hanoi-move-ring (n from to) (let ((ring (aref rings n)) ; ring <- ring: (ring# . row) (buffer-read-only nil)) (let ((row (aref ring 0)) ; row <- row ring is on (col (- (car from) n 1)) ; col <- left edge of ring (dst-col (- (car to) n 1)) ; 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 ring nil t) ; blank out ring (previous-line 1) ; move up a line (hanoi-draw-ring ring 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 ring nil (> row fly-row)) ; blank out ring (next-line 1) ; move down a line (hanoi-draw-ring ring t nil) ; redraw ring (sit-for 0) (setq row (1+ row))) (aset ring 0 dst-row) (setcdr to (1- (cdr to)))))) ; adjust top row ;;; ;;; draw-ring - draw the ring at point, leave point unchanged ;;; ;;; Input: ;;; ring ;;; f1 - flag: t -> draw, nil -> erase ;;; f2 - flag: t -> erasing and need to draw ?\| ;;; (defun hanoi-draw-ring (ring f1 f2) (save-excursion (let* ((string (if f1 (aref ring 1) (aref ring 2))) (len (length string))) (delete-char len) (insert string) (if f2 (progn (backward-char (/ (+ len 1) 2)) (delete-char 1) (insert ?\|))))))