;;; b-tree.scm - a B-tree for Xanadu ;;; ;;; Copyright (c) 2012 Johan Ceuppens ;;; ;;; All rights reserved. ;;; ;;; Redistribution and use in source and binary forms, with or without ;;; modification, are permitted provided that the following conditions ;;; are met: ;;; 1. Redistributions of source code must retain the above copyright ;;; notice, this list of conditions and the following disclaimer. ;;; 2. Redistributions in binary form must reproduce the above copyright ;;; notice, this list of conditions and the following disclaimer in the ;;; documentation and/or other materials provided with the distribution. ;;; 3. The name of the authors may not be used to endorse or promote products ;;; derived from this software without specific prior written permission. ;;; ;;; THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY EXPRESS OR ;;; IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ;;; OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ;;; IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY DIRECT, INDIRECT, ;;; INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT ;;; NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ;;; DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ;;; THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ;;; (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF ;;; THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ;;FIXME ;; use lets for vectorrefs etc. (define (make-b-tree-node l r) (let ((numitems 0) (numnodes 0) (root 'foo) (data #f) (left l) (right r)) (define (get-data) data) (define (set-data! value) (set! data value)) (define (set-left-with-index! i value) (cond ((not left) (display "not left")) (else (vector-set! left i value)))) (define (set-right-with-index! i value) (cond ((not right) (display "not right")) (else (vector-set! right i value)))) (define (get-left) left) (define (get-right) right) (define (get-root) root) (define (get-numitems) numitems) (define (get-numnodes) numnodes) (define (dispatch msg) (lambda (msg) (cond ((eq? msg 'get-root) get-root) ((eq? msg 'get-numitems) get-numitems) ((eq? msg 'get-numnodes) get-numnodes) ((eq? msg 'get-left) get-left) ((eq? msg 'set-left-with-index!) set-left-with-index!) ((eq? msg 'set-right-with-index!) set-right-with-index!) ((eq? msg 'get-data) get-data) ((eq? msg 'set-data!) set-data!) ((eq? msg 'get-right) get-right) (else (display "b-tree-node : message not understood")(newline))))) dispatch)) (define (make-b-tree n-ary);;NOTE FIXME n-ary and vector-length (let ((*tree (make-b-tree-node;; #f #f))) (make-vector n-ary (make-b-tree-node #f #f)) (make-vector n-ary (make-b-tree-node #f #f))))) (define (vector-median v) (let ((len (ceiling (/ (vector-length v) 2)))) (let ((retl (make-vector len (make-b-tree-node #f #f))) (retr (if (odd? len) (make-vector (+ len 1) (make-b-tree-node #f #f)) (make-vector len (make-b-tree-node #f #f))))) (do ((i 0 (+ i 1))) ((= i len)(list retl retr)) (vector-set! retl i (vector-ref v i)) (vector-set! retr (- len (+ i 1)) (vector-ref v (- len (+ i 1)))) )))) (define (search-rec str tree) ;; root param in b-treenode ;; FIXME right vecs (let ((len (vector-length ((tree 'get-left)))) (do ((i 0 (+ i 1))) ((cond ((>= i len 1);;last node (do ((j 0 (+ j 1))) ((= j len) 0) (search-rec str (vector-ref j ((tree 'get-left)))))) ((and (string? str (((vector-ref ((tree 'get-left)) (+ i 1))'get-data)))) (display "node not found in tree.") 0) ((string=? str (((vector-ref ((tree 'get-left)) i)'get-data))) (display "string found in tree.") str) (else (display "never reached.")))) )))) (define (search str) (search-rec str *tree)) (define (dump-rec tree) ;; root param in b-treenode (if (not (tree 'get-left)) 0 (let ((len (vector-length (tree 'get-left)))) (do ((i 0 (+ i 1))) ((>= i len) 0) (display (((vector-ref (tree 'get-left) i)'get-data))) (dump-rec (vector-ref (tree 'get-left) i)) ))) (if (not (tree 'get-right)) 0 (let ((len (vector-length (tree 'get-right)))) (do ((i 0 (+ i 1))) ((>= i len) 0) (dump-rec (vector-ref (tree 'get-right) i)) )))) (define (dump) (dump-rec *tree)) (define (add-rec str tree) ;; root param in b-treenode ;; refactor call-with-values (let ((lefttree (tree 'get-left));;FIXME (righttree (tree 'get-right))) ;;len (vector-length ((tree 'get-left))))) (call-with-values (lambda () (values lefttree righttree)) (lambda (lefttree righttree) (do ((i 0 (+ i 1))) ((cond ((or lefttree (not (((vector-ref lefttree i) 'get-data))) (string=? (((vector-ref lefttree i) 'get-data)) "")) (let ((lr (vector-median ((lefttree 'get-left)))));;FIXME right also descend (let ((new-node (make-b-tree-node (car lr) (cadr lr))));;FIXME lenght mustbe n-ary ((new-node 'set-data!) str) ((lefttree 'set-left-with-index!) i new-node) ))) ((and (string? str (((vector-ref lefttree (+ i 1)) 'get-data)))) (let ((lr (vector-median ((lefttree 'get-left))))) (let ((new-node (make-b-tree-node (car lr) (cadr lr)))) ((new-node 'set-data!) str) (vector-set! lefttree i new-node) ))) ;;((string=? str (((vector-ref lefttree i)'get-data))) ;; (set! i (vector-length tree))) ((>= i (- len 1));;last node (do ((j 0 (+ j 1))) ((= j len) (display "node not added.") 0) (add-rec str (vector-ref lefttree i))) ) (else (display "never reached."))))) )))) (define (add str) (add-rec str *tree) ) (define (dispatch msg) (cond ((eq? msg 'add) add) ((eq? msg 'search) search) ((eq? msg 'dump) dump) (else (display "b-tree : message not understood.")(newline)))) dispatch)) (define bt (make-b-tree 2)) ((bt 'add)"abc") ((bt 'add)"def") ((bt 'add)"hij") ((bt 'search)"abc") ;;((bt 'dump))