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241 lines
8.1 KiB
EmacsLisp
241 lines
8.1 KiB
EmacsLisp
;;; ring.el --- handle rings of items
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;; Copyright (C) 1992, 2001, 2002, 2003, 2004, 2005,
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;; 2006, 2007, 2008, 2009 Free Software Foundation, Inc.
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;; Maintainer: FSF
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;; Keywords: extensions
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;; This file is part of GNU Emacs.
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;; GNU Emacs is free software: you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation, either version 3 of the License, or
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;; (at your option) any later version.
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;; GNU Emacs is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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;; You should have received a copy of the GNU General Public License
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;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
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;;; Commentary:
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;; This code defines a ring data structure. A ring is a
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;; (hd-index length . vector)
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;; list. You can insert to, remove from, and rotate a ring. When the ring
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;; fills up, insertions cause the oldest elts to be quietly dropped.
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;;
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;; In ring-ref, 0 is the index of the newest element. Higher indexes
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;; correspond to older elements; when the index equals the ring length,
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;; it wraps to the newest element again.
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;;
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;; hd-index = vector index of the oldest ring item.
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;; Newer items follow this item; at the end of the vector,
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;; they wrap around to the start of the vector.
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;; length = number of items currently in the ring.
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;; This never exceeds the length of the vector itself.
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;;
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;; These functions are used by the input history mechanism, but they can
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;; be used for other purposes as well.
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;;; Code:
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;;; User Functions:
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;;;###autoload
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(defun ring-p (x)
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"Return t if X is a ring; nil otherwise."
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(and (consp x) (integerp (car x))
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(consp (cdr x)) (integerp (cadr x))
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(vectorp (cddr x))))
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;;;###autoload
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(defun make-ring (size)
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"Make a ring that can contain SIZE elements."
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(cons 0 (cons 0 (make-vector size nil))))
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(defun ring-insert-at-beginning (ring item)
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"Add to RING the item ITEM, at the front, as the oldest item."
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(let* ((vec (cddr ring))
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(veclen (length vec))
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(hd (car ring))
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(ln (cadr ring)))
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(setq ln (min veclen (1+ ln))
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hd (ring-minus1 hd veclen))
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(aset vec hd item)
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(setcar ring hd)
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(setcar (cdr ring) ln)))
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(defun ring-plus1 (index veclen)
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"Return INDEX+1, with wraparound."
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(let ((new-index (1+ index)))
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(if (= new-index veclen) 0 new-index)))
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(defun ring-minus1 (index veclen)
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"Return INDEX-1, with wraparound."
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(- (if (zerop index) veclen index) 1))
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(defun ring-length (ring)
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"Return the number of elements in the RING."
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(cadr ring))
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(defun ring-index (index head ringlen veclen)
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"Convert nominal ring index INDEX to an internal index.
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The internal index refers to the items ordered from newest to oldest.
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HEAD is the index of the oldest element in the ring.
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RINGLEN is the number of elements currently in the ring.
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VECLEN is the size of the vector in the ring."
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(setq index (mod index ringlen))
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(mod (1- (+ head (- ringlen index))) veclen))
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(defun ring-empty-p (ring)
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"Return t if RING is empty; nil otherwise."
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(zerop (cadr ring)))
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(defun ring-size (ring)
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"Return the size of RING, the maximum number of elements it can contain."
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(length (cddr ring)))
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(defun ring-copy (ring)
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"Return a copy of RING."
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(let ((vec (cddr ring))
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(hd (car ring))
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(ln (cadr ring)))
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(cons hd (cons ln (copy-sequence vec)))))
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(defun ring-insert (ring item)
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"Insert onto ring RING the item ITEM, as the newest (last) item.
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If the ring is full, dump the oldest item to make room."
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(let* ((vec (cddr ring))
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(veclen (length vec))
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(hd (car ring))
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(ln (cadr ring)))
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(prog1
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(aset vec (mod (+ hd ln) veclen) item)
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(if (= ln veclen)
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(setcar ring (ring-plus1 hd veclen))
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(setcar (cdr ring) (1+ ln))))))
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(defun ring-remove (ring &optional index)
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"Remove an item from the RING. Return the removed item.
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If optional INDEX is nil, remove the oldest item. If it's
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numeric, remove the element indexed."
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(if (ring-empty-p ring)
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(error "Ring empty")
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(let* ((hd (car ring))
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(ln (cadr ring))
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(vec (cddr ring))
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(veclen (length vec))
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(tl (mod (1- (+ hd ln)) veclen))
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oldelt)
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(when (null index)
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(setq index (1- ln)))
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(setq index (ring-index index hd ln veclen))
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(setq oldelt (aref vec index))
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(while (/= index tl)
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(aset vec index (aref vec (ring-plus1 index veclen)))
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(setq index (ring-plus1 index veclen)))
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(aset vec tl nil)
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(setcar (cdr ring) (1- ln))
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oldelt)))
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(defun ring-ref (ring index)
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"Return RING's INDEX element.
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INDEX = 0 is the most recently inserted; higher indices
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correspond to older elements.
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INDEX need not be <= the ring length; the appropriate modulo operation
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will be performed."
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(if (ring-empty-p ring)
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(error "Accessing an empty ring")
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(let ((hd (car ring))
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(ln (cadr ring))
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(vec (cddr ring)))
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(aref vec (ring-index index hd ln (length vec))))))
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(defun ring-elements (ring)
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"Return a list of the elements of RING, in order, newest first."
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(let ((start (car ring))
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(size (ring-size ring))
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(vect (cddr ring))
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lst)
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(dotimes (var (cadr ring) lst)
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(push (aref vect (mod (+ start var) size)) lst))))
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(defun ring-member (ring item)
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"Return index of ITEM if on RING, else nil.
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Comparison is done via `equal'. The index is 0-based."
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(catch 'found
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(dotimes (ind (ring-length ring) nil)
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(when (equal item (ring-ref ring ind))
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(throw 'found ind)))))
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(defun ring-next (ring item)
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"Return the next item in the RING, after ITEM.
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Raise error if ITEM is not in the RING."
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(let ((curr-index (ring-member ring item)))
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(unless curr-index (error "Item is not in the ring: `%s'" item))
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(ring-ref ring (ring-plus1 curr-index (ring-length ring)))))
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(defun ring-previous (ring item)
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"Return the previous item in the RING, before ITEM.
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Raise error if ITEM is not in the RING."
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(let ((curr-index (ring-member ring item)))
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(unless curr-index (error "Item is not in the ring: `%s'" item))
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(ring-ref ring (ring-minus1 curr-index (ring-length ring)))))
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(defun ring-insert+extend (ring item &optional grow-p)
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"Like `ring-insert', but if GROW-P is non-nil, then enlarge ring.
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Insert onto ring RING the item ITEM, as the newest (last) item.
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If the ring is full, behavior depends on GROW-P:
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If GROW-P is non-nil, enlarge the ring to accommodate the new item.
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If GROW-P is nil, dump the oldest item to make room for the new."
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(let* ((vec (cddr ring))
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(veclen (length vec))
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(hd (car ring))
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(ringlen (ring-length ring)))
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(prog1
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(cond ((and grow-p (= ringlen veclen)) ; Full ring. Enlarge it.
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(setq veclen (1+ veclen))
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(setcdr ring (cons (setq ringlen (1+ ringlen))
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(setq vec (vconcat vec (vector item)))))
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(setcar ring hd))
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(t (aset vec (mod (+ hd ringlen) veclen) item)))
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(if (= ringlen veclen)
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(setcar ring (ring-plus1 hd veclen))
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(setcar (cdr ring) (1+ ringlen))))))
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(defun ring-remove+insert+extend (ring item &optional grow-p)
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"`ring-remove' ITEM from RING, then `ring-insert+extend' it.
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This ensures that there is only one ITEM on RING.
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If the RING is full, behavior depends on GROW-P:
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If GROW-P is non-nil, enlarge the ring to accommodate the new ITEM.
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If GROW-P is nil, dump the oldest item to make room for the new."
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(let (ind)
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(while (setq ind (ring-member ring item))
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(ring-remove ring ind)))
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(ring-insert+extend ring item grow-p))
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(defun ring-convert-sequence-to-ring (seq)
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"Convert sequence SEQ to a ring. Return the ring.
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If SEQ is already a ring, return it."
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(if (ring-p seq)
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seq
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(let* ((size (length seq))
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(ring (make-ring size)))
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(dotimes (count size)
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(when (or (ring-empty-p ring)
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(not (equal (ring-ref ring 0) (elt seq count))))
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(ring-insert-at-beginning ring (elt seq count))))
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ring)))
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;;; provide ourself:
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(provide 'ring)
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;; arch-tag: e707682b-ed69-47c9-b20f-cf2c68cc92d2
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;;; ring.el ends here
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