From 1e38b8ffcda998f58be1d33dc35ec83e75ff9749 Mon Sep 17 00:00:00 2001 From: Thien-Thi Nguyen Date: Mon, 27 Aug 2007 01:05:44 +0000 Subject: [PATCH] Initial revision, comprising elib-node.el and avltree.el, with minimum modifications for standalone-compilation. --- lisp/emacs-lisp/avl-tree.el | 715 ++++++++++++++++++++++++++++++++++++ 1 file changed, 715 insertions(+) create mode 100644 lisp/emacs-lisp/avl-tree.el diff --git a/lisp/emacs-lisp/avl-tree.el b/lisp/emacs-lisp/avl-tree.el new file mode 100644 index 00000000000..59ce6f891ce --- /dev/null +++ b/lisp/emacs-lisp/avl-tree.el @@ -0,0 +1,715 @@ +;;;; $Id: elib-node.el,v 0.8 1995/12/11 00:11:19 ceder Exp $ +;;;; Nodes used in binary trees and doubly linked lists. + +;; Copyright (C) 1991-1995 Free Software Foundation + +;; Author: Per Cederqvist +;; Inge Wallin +;; Maintainer: elib-maintainers@lysator.liu.se +;; Created: 20 May 1991 +;; Keywords: extensions, lisp + +;;;; This file is part of the GNU Emacs lisp library, Elib. +;;;; +;;;; GNU Elib is free software; you can redistribute it and/or modify +;;;; it under the terms of the GNU General Public License as published by +;;;; the Free Software Foundation; either version 2, or (at your option) +;;;; any later version. +;;;; +;;;; GNU Elib is distributed in the hope that it will be useful, +;;;; but WITHOUT ANY WARRANTY; without even the implied warranty of +;;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +;;;; GNU General Public License for more details. +;;;; +;;;; You should have received a copy of the GNU General Public License +;;;; along with GNU Elib; see the file COPYING. If not, write to +;;;; the Free Software Foundation, Inc., 59 Temple Place - Suite 330, +;;;; Boston, MA 02111-1307, USA +;;;; +;;;; Author: Inge Wallin +;;;; + +;;; Commentary: + +;;; A node is implemented as an array with three elements, using +;;; (elt node 0) as the left pointer +;;; (elt node 1) as the right pointer +;;; (elt node 2) as the data +;;; +;;; Some types of trees, e.g. AVL trees, need bigger nodes, but +;;; as long as the first three parts are the left pointer, the +;;; right pointer and the data field, these macros can be used. +;;; + +;;; Code: + +;;; Begin HACKS to make avl-tree.el standalone. +;;; +;;; 0/ Don't do this. +;;; (provide 'elib-node) +;;; +;;; End HACKS to make avl-tree.el standalone. + + +(defmacro elib-node-create (left right data) + + ;; Create a tree node from LEFT, RIGHT and DATA. + (` (vector (, left) (, right) (, data)))) + + +(defmacro elib-node-left (node) + + ;; Return the left pointer of NODE. + (` (aref (, node) 0))) + + +(defmacro elib-node-right (node) + + ;; Return the right pointer of NODE. + (` (aref (, node) 1))) + + +(defmacro elib-node-data (node) + + ;; Return the data of NODE. + (` (aref (, node) 2))) + + +(defmacro elib-node-set-left (node newleft) + + ;; Set the left pointer of NODE to NEWLEFT. + (` (aset (, node) 0 (, newleft)))) + + +(defmacro elib-node-set-right (node newright) + + ;; Set the right pointer of NODE to NEWRIGHT. + (` (aset (, node) 1 (, newright)))) + + +(defmacro elib-node-set-data (node newdata) + ;; Set the data of NODE to NEWDATA. + (` (aset (, node) 2 (, newdata)))) + + + +(defmacro elib-node-branch (node branch) + + ;; Get value of a branch of a node. + ;; + ;; NODE is the node, and BRANCH is the branch. + ;; 0 for left pointer, 1 for right pointer and 2 for the data." + (` (aref (, node) (, branch)))) + + +(defmacro elib-node-set-branch (node branch newval) + + ;; Set value of a branch of a node. + ;; + ;; NODE is the node, and BRANCH is the branch. + ;; 0 for left pointer, 1 for the right pointer and 2 for the data. + ;; NEWVAL is new value of the branch." + (` (aset (, node) (, branch) (, newval)))) + +;;; elib-node.el ends here. +;;;; $Id: avltree.el,v 0.8 1995/12/11 00:10:54 ceder Exp $ +;;;; This file implements balanced binary trees, AVL-trees. + +;; Copyright (C) 1991-1995 Free Software Foundation + +;; Author: Inge Wallin +;; Thomas Bellman +;; Maintainer: elib-maintainers@lysator.liu.se +;; Created: 10 May 1991 +;; Keywords: extensions, lisp + +;;;; This file is part of the GNU Emacs lisp library, Elib. +;;;; +;;;; GNU Elib is free software; you can redistribute it and/or modify +;;;; it under the terms of the GNU General Public License as published by +;;;; the Free Software Foundation; either version 2, or (at your option) +;;;; any later version. +;;;; +;;;; GNU Elib is distributed in the hope that it will be useful, +;;;; but WITHOUT ANY WARRANTY; without even the implied warranty of +;;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +;;;; GNU General Public License for more details. +;;;; +;;;; You should have received a copy of the GNU General Public License +;;;; along with GNU Elib; see the file COPYING. If not, write to +;;;; the Free Software Foundation, Inc., 59 Temple Place - Suite 330, +;;;; Boston, MA 02111-1307, USA +;;;; +;;;; Initial author: Thomas Bellman +;;;; Lysator Computer Club +;;;; Linkoping University +;;;; Sweden +;;;; +;;;; Bugfixes and completion: Inge Wallin +;;;; + + +;;; Commentary: +;;; +;;; An AVL tree is a nearly-perfect balanced binary tree. A tree +;;; consists of two cons cells, the first one holding the tag +;;; 'AVLTREE in the car cell, and the second one having the tree +;;; in the car and the compare function in the cdr cell. The tree has +;;; a dummy node as its root with the real tree in the left pointer. +;;; +;;; Each node of the tree consists of one data element, one left +;;; sub-tree and one right sub-tree. Each node also has a balance +;;; count, which is the difference in depth of the left and right +;;; sub-trees. +;;; + +;;; Code: + +;;; Begin HACKS to make avl-tree.el standalone. +;;; +;;; 1/ See above for inlined elib-node.el. +;;; (require 'elib-node) +;;; +;;; 2/ This requirement has been replaced w/ new code. +;;; (require 'stack-m) +;;; +;;; 3/ New code: +(eval-when-compile (require 'cl)) +(defun elib-stack-create () (list)) +(defmacro elib-stack-push (stack object) `(push ,object ,stack)) +(defmacro elib-stack-pop (stack) `(pop ,stack)) +;;; +;;; 4/ Provide `avl-tree' instead of `avltree'. +(provide 'avl-tree) +;;; +;;; End HACKS to make avl-tree.el standalone. + + +;;; ================================================================ +;;; Functions and macros handling an AVL tree node. + +;; +;; The rest of the functions needed here can be found in +;; elib-node.el. +;; + + +(defmacro elib-avl-node-create (left right data balance) + + ;; Create and return an avl-tree node. + (` (vector (, left) (, right) (, data) (, balance)))) + + +(defmacro elib-avl-node-balance (node) + + ;; Return the balance field of a node. + (` (aref (, node) 3))) + + +(defmacro elib-avl-node-set-balance (node newbal) + + ;; Set the balance field of a node. + (` (aset (, node) 3 (, newbal)))) + + + +;;; ================================================================ +;;; Internal functions for use in the AVL tree package + +;;; +;;; The functions and macros in this section all start with `elib-avl-'. +;;; + + +(defmacro elib-avl-root (tree) + + ;; Return the root node for an avl-tree. INTERNAL USE ONLY. + (` (elib-node-left (car (cdr (, tree)))))) + + +(defmacro elib-avl-dummyroot (tree) + + ;; Return the dummy node of an avl-tree. INTERNAL USE ONLY. + + (` (car (cdr (, tree))))) + + +(defmacro elib-avl-cmpfun (tree) + + ;; Return the compare function of AVL tree TREE. INTERNAL USE ONLY. + (` (cdr (cdr (, tree))))) + + +;; ---------------------------------------------------------------- +;; Deleting data + + +(defun elib-avl-del-balance1 (node branch) + + ;; Rebalance a tree and return t if the height of the tree has shrunk. + (let* ((br (elib-node-branch node branch)) + p1 + b1 + p2 + b2 + result) + (cond + ((< (elib-avl-node-balance br) 0) + (elib-avl-node-set-balance br 0) + t) + + ((= (elib-avl-node-balance br) 0) + (elib-avl-node-set-balance br +1) + nil) + + (t ; Rebalance + (setq p1 (elib-node-right br) + b1 (elib-avl-node-balance p1)) + (if (>= b1 0) + ;; Single RR rotation + (progn + (elib-node-set-right br (elib-node-left p1)) + (elib-node-set-left p1 br) + (if (= 0 b1) + (progn + (elib-avl-node-set-balance br +1) + (elib-avl-node-set-balance p1 -1) + (setq result nil)) + (elib-avl-node-set-balance br 0) + (elib-avl-node-set-balance p1 0) + (setq result t)) + (elib-node-set-branch node branch p1) + result) + + ;; Double RL rotation + (setq p2 (elib-node-left p1) + b2 (elib-avl-node-balance p2)) + (elib-node-set-left p1 (elib-node-right p2)) + (elib-node-set-right p2 p1) + (elib-node-set-right br (elib-node-left p2)) + (elib-node-set-left p2 br) + (if (> b2 0) + (elib-avl-node-set-balance br -1) + (elib-avl-node-set-balance br 0)) + (if (< b2 0) + (elib-avl-node-set-balance p1 +1) + (elib-avl-node-set-balance p1 0)) + (elib-node-set-branch node branch p2) + (elib-avl-node-set-balance p2 0) + t) + )) + )) + + +(defun elib-avl-del-balance2 (node branch) + + (let* ((br (elib-node-branch node branch)) + p1 + b1 + p2 + b2 + result) + (cond + ((> (elib-avl-node-balance br) 0) + (elib-avl-node-set-balance br 0) + t) + + ((= (elib-avl-node-balance br) 0) + (elib-avl-node-set-balance br -1) + nil) + + (t ; Rebalance + (setq p1 (elib-node-left br) + b1 (elib-avl-node-balance p1)) + (if (<= b1 0) + ;; Single LL rotation + (progn + (elib-node-set-left br (elib-node-right p1)) + (elib-node-set-right p1 br) + (if (= 0 b1) + (progn + (elib-avl-node-set-balance br -1) + (elib-avl-node-set-balance p1 +1) + (setq result nil)) + (elib-avl-node-set-balance br 0) + (elib-avl-node-set-balance p1 0) + (setq result t)) + (elib-node-set-branch node branch p1) + result) + + ;; Double LR rotation + (setq p2 (elib-node-right p1) + b2 (elib-avl-node-balance p2)) + (elib-node-set-right p1 (elib-node-left p2)) + (elib-node-set-left p2 p1) + (elib-node-set-left br (elib-node-right p2)) + (elib-node-set-right p2 br) + (if (< b2 0) + (elib-avl-node-set-balance br +1) + (elib-avl-node-set-balance br 0)) + (if (> b2 0) + (elib-avl-node-set-balance p1 -1) + (elib-avl-node-set-balance p1 0)) + (elib-node-set-branch node branch p2) + (elib-avl-node-set-balance p2 0) + t) + )) + )) + + +(defun elib-avl-do-del-internal (node branch q) + + (let* ((br (elib-node-branch node branch))) + (if (elib-node-right br) + (if (elib-avl-do-del-internal br +1 q) + (elib-avl-del-balance2 node branch)) + (elib-node-set-data q (elib-node-data br)) + (elib-node-set-branch node branch + (elib-node-left br)) + t))) + + + +(defun elib-avl-do-delete (cmpfun root branch data) + + ;; Return t if the height of the tree has shrunk. + (let* ((br (elib-node-branch root branch))) + (cond + ((null br) + nil) + + ((funcall cmpfun data (elib-node-data br)) + (if (elib-avl-do-delete cmpfun br 0 data) + (elib-avl-del-balance1 root branch))) + + ((funcall cmpfun (elib-node-data br) data) + (if (elib-avl-do-delete cmpfun br 1 data) + (elib-avl-del-balance2 root branch))) + + (t + ;; Found it. Let's delete it. + (cond + ((null (elib-node-right br)) + (elib-node-set-branch root branch (elib-node-left br)) + t) + + ((null (elib-node-left br)) + (elib-node-set-branch root branch (elib-node-right br)) + t) + + (t + (if (elib-avl-do-del-internal br 0 br) + (elib-avl-del-balance1 root branch))))) + ))) + + +;; ---------------------------------------------------------------- +;; Entering data + + + +(defun elib-avl-enter-balance1 (node branch) + + ;; Rebalance a tree and return t if the height of the tree has grown. + (let* ((br (elib-node-branch node branch)) + p1 + p2 + b2 + result) + (cond + ((< (elib-avl-node-balance br) 0) + (elib-avl-node-set-balance br 0) + nil) + + ((= (elib-avl-node-balance br) 0) + (elib-avl-node-set-balance br +1) + t) + + (t + ;; Tree has grown => Rebalance + (setq p1 (elib-node-right br)) + (if (> (elib-avl-node-balance p1) 0) + ;; Single RR rotation + (progn + (elib-node-set-right br (elib-node-left p1)) + (elib-node-set-left p1 br) + (elib-avl-node-set-balance br 0) + (elib-node-set-branch node branch p1)) + + ;; Double RL rotation + (setq p2 (elib-node-left p1) + b2 (elib-avl-node-balance p2)) + (elib-node-set-left p1 (elib-node-right p2)) + (elib-node-set-right p2 p1) + (elib-node-set-right br (elib-node-left p2)) + (elib-node-set-left p2 br) + (if (> b2 0) + (elib-avl-node-set-balance br -1) + (elib-avl-node-set-balance br 0)) + (if (< b2 0) + (elib-avl-node-set-balance p1 +1) + (elib-avl-node-set-balance p1 0)) + (elib-node-set-branch node branch p2)) + (elib-avl-node-set-balance (elib-node-branch node branch) 0) + nil)) + )) + + +(defun elib-avl-enter-balance2 (node branch) + + ;; Return t if the tree has grown. + (let* ((br (elib-node-branch node branch)) + p1 + p2 + b2) + (cond + ((> (elib-avl-node-balance br) 0) + (elib-avl-node-set-balance br 0) + nil) + + ((= (elib-avl-node-balance br) 0) + (elib-avl-node-set-balance br -1) + t) + + (t + ;; Balance was -1 => Rebalance + (setq p1 (elib-node-left br)) + (if (< (elib-avl-node-balance p1) 0) + ;; Single LL rotation + (progn + (elib-node-set-left br (elib-node-right p1)) + (elib-node-set-right p1 br) + (elib-avl-node-set-balance br 0) + (elib-node-set-branch node branch p1)) + + ;; Double LR rotation + (setq p2 (elib-node-right p1) + b2 (elib-avl-node-balance p2)) + (elib-node-set-right p1 (elib-node-left p2)) + (elib-node-set-left p2 p1) + (elib-node-set-left br (elib-node-right p2)) + (elib-node-set-right p2 br) + (if (< b2 0) + (elib-avl-node-set-balance br +1) + (elib-avl-node-set-balance br 0)) + (if (> b2 0) + (elib-avl-node-set-balance p1 -1) + (elib-avl-node-set-balance p1 0)) + (elib-node-set-branch node branch p2)) + (elib-avl-node-set-balance (elib-node-branch node branch) 0) + nil)) + )) + + +(defun elib-avl-do-enter (cmpfun root branch data) + + ;; Return t if height of tree ROOT has grown. INTERNAL USE ONLY. + (let ((br (elib-node-branch root branch))) + (cond + ((null br) + ;; Data not in tree, insert it + (elib-node-set-branch root branch + (elib-avl-node-create nil nil data 0)) + t) + + ((funcall cmpfun data (elib-node-data br)) + (and (elib-avl-do-enter cmpfun + br + 0 data) + (elib-avl-enter-balance2 root branch))) + + ((funcall cmpfun (elib-node-data br) data) + (and (elib-avl-do-enter cmpfun + br + 1 data) + (elib-avl-enter-balance1 root branch))) + + (t + (elib-node-set-data br data) + nil)))) + + +;; ---------------------------------------------------------------- + + +(defun elib-avl-mapc (map-function root) + ;; Apply MAP-FUNCTION to all nodes in the tree starting with ROOT. + ;; The function is applied in-order. + ;; + ;; Note: MAP-FUNCTION is applied to the node and not to the data itself. + ;; INTERNAL USE ONLY. + + (let ((node root) + (stack (elib-stack-create)) + (go-left t)) + (elib-stack-push stack nil) + (while node + (if (and go-left + (elib-node-left node)) + (progn ; Do the left subtree first. + (elib-stack-push stack node) + (setq node (elib-node-left node))) + (funcall map-function node) ; Apply the function... + (if (elib-node-right node) ; and do the right subtree. + (setq node (elib-node-right node) + go-left t) + (setq node (elib-stack-pop stack) + go-left nil)))))) + + +(defun elib-avl-do-copy (root) + ;; Copy the tree with ROOT as root. + ;; Highly recursive. INTERNAL USE ONLY. + (if (null root) + nil + (elib-avl-node-create (elib-avl-do-copy (elib-node-left root)) + (elib-avl-do-copy (elib-node-right root)) + (elib-node-data root) + (elib-avl-node-balance root)))) + + + +;;; ================================================================ +;;; The public functions which operate on AVL trees. + + +(defun avltree-create (compare-function) + "Create an empty avl tree. +COMPARE-FUNCTION is a function which takes two arguments, A and B, +and returns non-nil if A is less than B, and nil otherwise." + (cons 'AVLTREE + (cons (elib-avl-node-create nil nil nil 0) + compare-function))) + + +(defun avltree-p (obj) + "Return t if OBJ is an avl tree, nil otherwise." + (eq (car-safe obj) 'AVLTREE)) + + +(defun avltree-compare-function (tree) + "Return the comparision function for the avl tree TREE." + (elib-avl-cmpfun tree)) + + +(defun avltree-empty (tree) + "Return t if TREE is emtpy, otherwise return nil." + (null (elib-avl-root tree))) + + +(defun avltree-enter (tree data) + "In the avl tree TREE insert DATA. +Return DATA." + + (elib-avl-do-enter (elib-avl-cmpfun tree) + (elib-avl-dummyroot tree) + 0 + data) + data) + + +(defun avltree-delete (tree data) + "From the avl tree TREE, delete DATA. +Return the element in TREE which matched DATA, nil if no element matched." + + (elib-avl-do-delete (elib-avl-cmpfun tree) + (elib-avl-dummyroot tree) + 0 + data)) + + +(defun avltree-member (tree data) + "Return the element in the avl tree TREE which matches DATA. +Matching uses the compare function previously specified in `avltree-create' +when TREE was created. + +If there is no such element in the tree, the value is nil." + + (let ((node (elib-avl-root tree)) + (compare-function (elib-avl-cmpfun tree)) + found) + (while (and node + (not found)) + (cond + ((funcall compare-function data (elib-node-data node)) + (setq node (elib-node-left node))) + ((funcall compare-function (elib-node-data node) data) + (setq node (elib-node-right node))) + (t + (setq found t)))) + + (if node + (elib-node-data node) + nil))) + + + +(defun avltree-map (__map-function__ tree) + "Apply MAP-FUNCTION to all elements in the avl tree TREE." + (elib-avl-mapc + (function (lambda (node) + (elib-node-set-data node + (funcall __map-function__ + (elib-node-data node))))) + (elib-avl-root tree))) + + + +(defun avltree-first (tree) + "Return the first element in TREE, or nil if TREE is empty." + + (let ((node (elib-avl-root tree))) + (if node + (progn + (while (elib-node-left node) + (setq node (elib-node-left node))) + (elib-node-data node)) + nil))) + + +(defun avltree-last (tree) + "Return the last element in TREE, or nil if TREE is empty." + (let ((node (elib-avl-root tree))) + (if node + (progn + (while (elib-node-right node) + (setq node (elib-node-right node))) + (elib-node-data node)) + nil))) + + +(defun avltree-copy (tree) + "Return a copy of the avl tree TREE." + (let ((new-tree (avltree-create + (elib-avl-cmpfun tree)))) + (elib-node-set-left (elib-avl-dummyroot new-tree) + (elib-avl-do-copy (elib-avl-root tree))) + new-tree)) + + +(defun avltree-flatten (tree) + "Return a sorted list containing all elements of TREE." + (nreverse + (let ((treelist nil)) + (elib-avl-mapc (function (lambda (node) + (setq treelist (cons (elib-node-data node) + treelist)))) + (elib-avl-root tree)) + treelist))) + + +(defun avltree-size (tree) + "Return the number of elements in TREE." + (let ((treesize 0)) + (elib-avl-mapc (function (lambda (data) + (setq treesize (1+ treesize)) + data)) + (elib-avl-root tree)) + treesize)) + + +(defun avltree-clear (tree) + "Clear the avl tree TREE." + (elib-node-set-left (elib-avl-dummyroot tree) nil)) + +;;; avltree.el ends here -- 2.39.2