aboutsummaryrefslogtreecommitdiff
path: root/.emacs.d/lisp/my/radix-tree.el
diff options
context:
space:
mode:
Diffstat (limited to '.emacs.d/lisp/my/radix-tree.el')
-rw-r--r--.emacs.d/lisp/my/radix-tree.el258
1 files changed, 0 insertions, 258 deletions
diff --git a/.emacs.d/lisp/my/radix-tree.el b/.emacs.d/lisp/my/radix-tree.el
deleted file mode 100644
index f001198..0000000
--- a/.emacs.d/lisp/my/radix-tree.el
+++ /dev/null
@@ -1,258 +0,0 @@
-;;; radix-tree.el --- A simple library of radix trees -*- lexical-binding: t; -*-
-
-;; Copyright (C) 2016-2022 Free Software Foundation, Inc.
-
-;; Author: Stefan Monnier <monnier@iro.umontreal.ca>
-;; Keywords:
-
-;; This file is part of GNU Emacs.
-
-;; GNU Emacs 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 3 of the License, or
-;; (at your option) any later version.
-
-;; GNU Emacs 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 Emacs. If not, see <https://www.gnu.org/licenses/>.
-
-;;; Commentary:
-
-;; NOTE: This is a modified version of radix-tree that comes builtin
-;; with emacs. It allows different compare functions and type. One use
-;; is to build a radix tree of list of string, e.g. from a filesystem
-;; hierarchy.
-
-;; There are many different options for how to represent radix trees
-;; in Elisp. Here I chose a very simple one. A radix-tree can be either:
-;; - a node, of the form ((PREFIX . PTREE) . RTREE) where PREFIX is a string
-;; meaning that everything that starts with PREFIX is in PTREE,
-;; and everything else in RTREE. It also has the property that
-;; everything that starts with the first letter of PREFIX but not with
-;; that whole PREFIX is not in RTREE (i.e. is not in the tree at all).
-;; - anything else is taken as the value to associate with the empty string.
-;; So every node is basically an (improper) alist where each mapping applies
-;; to a different leading letter.
-;;
-;; The main downside of this representation is that the lookup operation
-;; is slower because each level of the tree is an alist rather than some kind
-;; of array, so every level's lookup is O(N) rather than O(1). We could easily
-;; solve this by using char-tables instead of alists, but that would make every
-;; level take up a lot more memory, and it would make the resulting
-;; data structure harder to read (by a human) when printed out.
-
-;;; Code:
-(defvar radix-tree-compare-function 'compare-strings)
-(defvar radix-tree-type 'string)
-
-(defun radix-tree--insert (tree key val i)
- (pcase tree
- (`((,prefix . ,ptree) . ,rtree)
- (let* ((ni (+ i (length prefix)))
- (cmp (funcall radix-tree-compare-function prefix nil nil key i ni)))
- (if (eq t cmp)
- (let ((nptree (radix-tree--insert ptree key val ni)))
- `((,prefix . ,nptree) . ,rtree))
- (let ((n (if (< cmp 0) (- -1 cmp) (- cmp 1))))
- (if (zerop n)
- (let ((nrtree (radix-tree--insert rtree key val i)))
- `((,prefix . ,ptree) . ,nrtree))
- (let* ((nprefix (substring prefix 0 n))
- (kprefix (substring key (+ i n)))
- (pprefix (substring prefix n))
- (ktree (if (equal kprefix "") val
- `((,kprefix . ,val)))))
- `((,nprefix
- . ((,pprefix . ,ptree) . ,ktree))
- . ,rtree)))))))
- (_
- (if (= (length key) i) val
- (let ((prefix (substring key i)))
- `((,prefix . ,val) . ,tree))))))
-
-(defun radix-tree--remove (tree key i)
- (pcase tree
- (`((,prefix . ,ptree) . ,rtree)
- (let* ((ni (+ i (length prefix)))
- (cmp (funcall radix-tree-compare-function prefix nil nil key i ni)))
- (if (eq t cmp)
- (pcase (radix-tree--remove ptree key ni)
- ('nil rtree)
- (`((,pprefix . ,pptree))
- `((,(seq-concatenate radix-tree-type prefix pprefix) . ,pptree) .
- ,rtree))
- (nptree `((,prefix . ,nptree) . ,rtree)))
- (let ((n (if (< cmp 0) (- -1 cmp) (- cmp 1))))
- (if (zerop n)
- (let ((nrtree (radix-tree--remove rtree key i)))
- `((,prefix . ,ptree) . ,nrtree))
- tree)))))
- (_
- (if (= (length key) i) nil tree))))
-
-
-(defun radix-tree--lookup (tree string i)
- (pcase tree
- (`((,prefix . ,ptree) . ,rtree)
- (let* ((ni (+ i (length prefix)))
- (cmp (funcall radix-tree-compare-function prefix nil nil string i ni)))
- (if (eq t cmp)
- (radix-tree--lookup ptree string ni)
- (let ((n (if (< cmp 0) (- -1 cmp) (- cmp 1))))
- (if (zerop n)
- (radix-tree--lookup rtree string i)
- (+ i n))))))
- (val
- (if (and val (equal (length string) i))
- (if (integerp val) `(t . ,val) val)
- i))))
-
-;; (defun radix-tree--trim (tree string i)
-;; (if (= i (length string))
-;; tree
-;; (pcase tree
-;; (`((,prefix . ,ptree) . ,rtree)
-;; (let* ((ni (+ i (length prefix)))
-;; (cmp (funcall radix-tree-compare-function prefix nil nil string i ni))
-;; ;; FIXME: We could compute nrtree more efficiently
-;; ;; whenever cmp is not -1 or 1.
-;; (nrtree (radix-tree--trim rtree string i)))
-;; (if (eq t cmp)
-;; (pcase (radix-tree--trim ptree string ni)
-;; (`nil nrtree)
-;; (`((,pprefix . ,pptree))
-;; `((,(concat prefix pprefix) . ,pptree) . ,nrtree))
-;; (nptree `((,prefix . ,nptree) . ,nrtree)))
-;; (let ((n (if (< cmp 0) (- -1 cmp) (- cmp 1))))
-;; (cond
-;; ((equal (+ n i) (length string))
-;; `((,prefix . ,ptree) . ,nrtree))
-;; (t nrtree))))))
-;; (val val))))
-
-(defun radix-tree--prefixes (tree string i prefixes)
- (pcase tree
- (`((,prefix . ,ptree) . ,rtree)
- (let* ((ni (+ i (length prefix)))
- (cmp (funcall radix-tree-compare-function prefix nil nil string i ni))
- ;; FIXME: We could compute prefixes more efficiently
- ;; whenever cmp is not -1 or 1.
- (prefixes (radix-tree--prefixes rtree string i prefixes)))
- (if (eq t cmp)
- (radix-tree--prefixes ptree string ni prefixes)
- prefixes)))
- (val
- (if (null val)
- prefixes
- (cons (cons (substring string 0 i)
- (if (eq (car-safe val) t) (cdr val) val))
- prefixes)))))
-
-(defun radix-tree--subtree (tree string i)
- (if (equal (length string) i) tree
- (pcase tree
- (`((,prefix . ,ptree) . ,rtree)
- (let* ((ni (+ i (length prefix)))
- (cmp (funcall radix-tree-compare-function prefix nil nil string i ni)))
- (if (eq t cmp)
- (radix-tree--subtree ptree string ni)
- (let ((n (if (< cmp 0) (- -1 cmp) (- cmp 1))))
- (cond
- ((zerop n) (radix-tree--subtree rtree string i))
- ((equal (+ n i) (length string))
- (let ((nprefix (substring prefix n)))
- `((,nprefix . ,ptree))))
- (t nil))))))
- (_ nil))))
-
-;;; Entry points
-
-(defconst radix-tree-empty nil
- "The empty radix-tree.")
-
-(defun radix-tree-insert (tree key val)
- "Insert a mapping from KEY to VAL in radix TREE."
- (when (consp val) (setq val `(t . ,val)))
- (if val (radix-tree--insert tree key val 0)
- (radix-tree--remove tree key 0)))
-
-(defun radix-tree-lookup (tree key)
- "Return the value associated to KEY in radix TREE.
-If not found, return nil."
- (pcase (radix-tree--lookup tree key 0)
- (`(t . ,val) val)
- ((pred numberp) nil)
- (val val)))
-
-(defun radix-tree-subtree (tree string)
- "Return the subtree of TREE rooted at the prefix STRING."
- (radix-tree--subtree tree string 0))
-
-;; (defun radix-tree-trim (tree string)
-;; "Return a TREE which only holds entries \"related\" to STRING.
-;; \"Related\" is here defined as entries where there's a `string-prefix-p' relation
-;; between STRING and the key."
-;; (radix-tree-trim tree string 0))
-
-(defun radix-tree-prefixes (tree string)
- "Return an alist of all bindings in TREE for prefixes of STRING."
- (radix-tree--prefixes tree string 0 nil))
-
-(pcase-defmacro radix-tree-leaf (vpat)
- "Pattern which matches a radix-tree leaf.
-The pattern VPAT is matched against the leaf's carried value."
- ;; We used to use `(pred atom)', but `pcase' doesn't understand that
- ;; `atom' is equivalent to the negation of `consp' and hence generates
- ;; suboptimal code.
- `(or `(t . ,,vpat) (and (pred (not consp)) ,vpat)))
-
-(defun radix-tree-iter-subtrees (tree fun)
- "Apply FUN to every immediate subtree of radix TREE.
-FUN is called with two arguments: PREFIX and SUBTREE.
-You can test if SUBTREE is a leaf (and extract its value) with the
-pcase pattern (radix-tree-leaf PAT)."
- (while tree
- (pcase tree
- (`((,prefix . ,ptree) . ,rtree)
- (funcall fun prefix ptree)
- (setq tree rtree))
- (_ (funcall fun "" tree)
- (setq tree nil)))))
-
-(defun radix-tree-iter-mappings (tree fun &optional prefix)
- "Apply FUN to every mapping in TREE.
-FUN is called with two arguments: KEY and VAL.
-PREFIX is only used internally."
- (radix-tree-iter-subtrees
- tree
- (lambda (p s)
- (let ((nprefix (seq-concatenate radix-tree-type prefix p)))
- (pcase s
- ((radix-tree-leaf v) (funcall fun nprefix v))
- (_ (radix-tree-iter-mappings s fun nprefix)))))))
-
-;; (defun radix-tree->alist (tree)
-;; (let ((al nil))
-;; (radix-tree-iter-mappings tree (lambda (p v) (push (cons p v) al)))
-;; al))
-
-(defun radix-tree-count (tree)
- (let ((i 0))
- (radix-tree-iter-mappings tree (lambda (_k _v) (setq i (1+ i))))
- i))
-
-(declare-function map-apply "map" (function map))
-
-(defun radix-tree-from-map (map)
- ;; Aka (cl-defmethod map-into (map (type (eql 'radix-tree)))) ...)
- (require 'map)
- (let ((rt nil))
- (map-apply (lambda (k v) (setq rt (radix-tree-insert rt k v))) map)
- rt))
-
-(provide 'radix-tree)
-;;; radix-tree.el ends here