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400 lines
18 KiB
EmacsLisp
400 lines
18 KiB
EmacsLisp
;;; char-fold.el --- match unicode to similar ASCII -*- lexical-binding: t; -*-
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;; Copyright (C) 2015-2020 Free Software Foundation, Inc.
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;; Maintainer: emacs-devel@gnu.org
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;; Keywords: matching
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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 <https://www.gnu.org/licenses/>.
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;;; Code:
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(eval-and-compile
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(put 'char-fold-table 'char-table-extra-slots 1)
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(defconst char-fold--default-include
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'((?\" """ "“" "”" "”" "„" "⹂" "〞" "‟" "‟" "❞" "❝" "❠" "“" "„" "〝" "〟" "🙷" "🙶" "🙸" "«" "»")
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(?' "❟" "❛" "❜" "‘" "’" "‚" "‛" "‚" "" "❮" "❯" "‹" "›")
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(?` "❛" "‘" "‛" "" "❮" "‹")
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(?ß "ss") ;; de
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(?ι "ΐ") ;; el for (?ΐ "ΐ") decomposition
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(?υ "ΰ") ;; el for (?ΰ "ΰ") decomposition
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))
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(defconst char-fold--default-exclude
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'(
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(?и "й") ;; ru
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))
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(defconst char-fold--default-symmetric nil)
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(defvar char-fold--previous
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(list char-fold--default-include
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char-fold--default-exclude
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char-fold--default-symmetric)))
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(eval-and-compile
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(defun char-fold--make-table ()
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(let* ((equiv (make-char-table 'char-fold-table))
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(equiv-multi (make-char-table 'char-fold-table))
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(table (unicode-property-table-internal 'decomposition)))
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(set-char-table-extra-slot equiv 0 equiv-multi)
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;; Ensure the table is populated.
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(let ((func (char-table-extra-slot table 1)))
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(map-char-table (lambda (char v)
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(when (consp char)
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(funcall func (car char) v table)))
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table))
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;; Compile a list of all complex characters that each simple
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;; character should match.
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;; In summary this loop does 3 things:
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;; - A complex character might be allowed to match its decomp.
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;; - The decomp is allowed to match the complex character.
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;; - A single char of the decomp might be allowed to match the
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;; character.
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;; Some examples in the comments below.
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(map-char-table
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(lambda (char decomp)
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(when (consp decomp)
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;; Skip trivial cases like ?a decomposing to (?a).
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(unless (and (not (cdr decomp))
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(eq char (car decomp)))
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(if (symbolp (car decomp))
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;; Discard a possible formatting tag.
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(setq decomp (cdr decomp))
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;; If there's no formatting tag, ensure that char matches
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;; its decomp exactly. This is because we want 'ä' to
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;; match 'ä', but we don't want '¹' to match '1'.
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(aset equiv char
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(cons (apply #'string decomp)
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(aref equiv char))))
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;; Allow the entire decomp to match char. If decomp has
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;; multiple characters, this is done by adding an entry
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;; to the alist of the first character in decomp. This
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;; allows 'ff' to match 'ff', 'ä' to match 'ä', and '1' to
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;; match '¹'.
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(let ((make-decomp-match-char
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(lambda (decomp char)
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(if (cdr decomp)
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(aset equiv-multi (car decomp)
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(cons (cons (apply #'string (cdr decomp))
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(regexp-quote (string char)))
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(aref equiv-multi (car decomp))))
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(aset equiv (car decomp)
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(cons (char-to-string char)
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(aref equiv (car decomp))))))))
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(funcall make-decomp-match-char decomp char)
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;; Check to see if the first char of the decomposition
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;; has a further decomposition. If so, add a mapping
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;; back from that second decomposition to the original
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;; character. This allows e.g. 'ι' (GREEK SMALL LETTER
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;; IOTA) to match both the Basic Greek block and
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;; Extended Greek block variants of IOTA +
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;; diacritical(s). Repeat until there are no more
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;; decompositions.
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(let ((dec decomp)
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next-decomp)
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(while dec
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(setq next-decomp (char-table-range table (car dec)))
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(when (consp next-decomp)
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(when (symbolp (car next-decomp))
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(setq next-decomp (cdr next-decomp)))
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(if (not (eq (car dec)
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(car next-decomp)))
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(funcall make-decomp-match-char (list (car next-decomp)) char)))
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(setq dec next-decomp)))
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;; Do it again, without the non-spacing characters.
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;; This allows 'a' to match 'ä'.
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(let ((simpler-decomp nil)
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(found-one nil))
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(dolist (c decomp)
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(if (> (get-char-code-property c 'canonical-combining-class) 0)
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(setq found-one t)
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(push c simpler-decomp)))
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(when (and simpler-decomp found-one)
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(funcall make-decomp-match-char simpler-decomp char)
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;; Finally, if the decomp only had one spacing
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;; character, we allow this character to match the
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;; decomp. This is to let 'a' match 'ä'.
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(unless (cdr simpler-decomp)
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(aset equiv (car simpler-decomp)
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(cons (apply #'string decomp)
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(aref equiv (car simpler-decomp)))))))))))
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table)
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;; Add some entries to default decomposition
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(dolist (it (or (bound-and-true-p char-fold-include)
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char-fold--default-include))
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(let ((idx (car it))
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(chars (cdr it)))
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(aset equiv idx (append chars (aref equiv idx)))))
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;; Remove some entries from default decomposition
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(dolist (it (or (bound-and-true-p char-fold-exclude)
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char-fold--default-exclude))
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(let ((idx (car it))
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(chars (cdr it)))
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(when (aref equiv idx)
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(dolist (char chars)
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(aset equiv idx (remove char (aref equiv idx)))))))
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;; Add symmetric entries
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(when (or (bound-and-true-p char-fold-symmetric)
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char-fold--default-symmetric)
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(let ((symmetric (make-hash-table :test 'eq)))
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;; Initialize hashes
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(map-char-table
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(lambda (char decomp-list)
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(puthash char (make-hash-table :test 'equal) symmetric)
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(dolist (decomp decomp-list)
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(puthash (string-to-char decomp) (make-hash-table :test 'equal) symmetric)))
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equiv)
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(map-char-table
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(lambda (char decomp-list)
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(dolist (decomp decomp-list)
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(if (< (length decomp) 2)
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;; Add single-char symmetric pairs to hash
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(let ((decomp-list (cons (char-to-string char) decomp-list))
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(decomp-hash (gethash (string-to-char decomp) symmetric)))
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(dolist (decomp2 decomp-list)
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(unless (equal decomp decomp2)
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(puthash decomp2 t decomp-hash)
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(puthash decomp t (gethash (string-to-char decomp2) symmetric)))))
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;; Add multi-char symmetric pairs to equiv-multi char-table
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(let ((decomp-list (cons (char-to-string char) decomp-list))
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(prefix (string-to-char decomp))
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(suffix (substring decomp 1)))
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(puthash decomp t (gethash char symmetric))
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(dolist (decomp2 decomp-list)
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(if (< (length decomp2) 2)
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(aset equiv-multi prefix
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(cons (cons suffix (regexp-quote decomp2))
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(aref equiv-multi prefix)))))))))
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equiv)
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;; Update equiv char-table from hash
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(maphash
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(lambda (char decomp-hash)
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(let (schars)
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(maphash (lambda (schar _) (push schar schars)) decomp-hash)
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(aset equiv char schars)))
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symmetric)))
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;; Convert the lists of characters we compiled into regexps.
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(map-char-table
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(lambda (char decomp-list)
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(let ((re (regexp-opt (cons (char-to-string char) decomp-list))))
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(aset equiv char re)))
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equiv)
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equiv)))
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(defconst char-fold-table
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(eval-when-compile
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(char-fold--make-table))
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"Used for folding characters of the same group during search.
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This is a char-table with the `char-fold-table' subtype.
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Let us refer to the character in question by char-x.
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Each entry is either nil (meaning char-x only matches literally)
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or a regexp. This regexp should match anything that char-x can
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match by itself \(including char-x). For instance, the default
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regexp for the ?+ character is \"[+⁺₊﬩﹢+]\".
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This table also has one extra slot which is also a char-table.
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Each entry in the extra slot is an alist used for multi-character
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matching (which may be nil). The elements of the alist should
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have the form (SUFFIX . OTHER-REGEXP). If the characters after
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char-x are equal to SUFFIX, then this combination of char-x +
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SUFFIX is allowed to match OTHER-REGEXP. This is in addition to
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char-x being allowed to match REGEXP.
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For instance, the default alist for ?f includes:
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\((\"fl\" . \"ffl\") (\"fi\" . \"ffi\")
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(\"i\" . \"fi\") (\"f\" . \"ff\"))
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Exceptionally for the space character (32), ALIST is ignored.")
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(defun char-fold-update-table ()
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"Update char-fold-table only when one of the options changes its value."
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(let ((new (list (or (bound-and-true-p char-fold-include)
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char-fold--default-include)
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(or (bound-and-true-p char-fold-exclude)
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char-fold--default-exclude)
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(or (bound-and-true-p char-fold-symmetric)
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char-fold--default-symmetric))))
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(unless (equal char-fold--previous new)
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(setq char-fold-table (char-fold--make-table)
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char-fold--previous new))))
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(defcustom char-fold-include char-fold--default-include
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"Additional character foldings to include.
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Each entry is a list of a character and the strings that fold into it."
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:type '(alist :key-type (character :tag "Fold to character")
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:value-type (repeat (string :tag "Fold from string")))
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:initialize #'custom-initialize-default
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:set (lambda (sym val)
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(custom-set-default sym val)
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(char-fold-update-table))
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:group 'isearch
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:version "27.1")
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(defcustom char-fold-exclude char-fold--default-exclude
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"Character foldings to remove from default decompositions.
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Each entry is a list of a character and the strings to remove from folding."
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:type '(alist :key-type (character :tag "Fold to character")
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:value-type (repeat (string :tag "Fold from string")))
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:initialize #'custom-initialize-default
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:set (lambda (sym val)
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(custom-set-default sym val)
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(char-fold-update-table))
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:group 'isearch
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:version "27.1")
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(defcustom char-fold-symmetric char-fold--default-symmetric
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"Non-nil means char-fold searching treats equivalent chars the same.
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That is, use of any of a set of char-fold equivalent chars in a search
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string finds any of them in the text being searched.
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If nil then only the \"base\" or \"canonical\" char of the set matches
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any of them. The others match only themselves, even when char-folding
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is turned on."
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:type 'boolean
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:initialize #'custom-initialize-default
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:set (lambda (sym val)
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(custom-set-default sym val)
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(char-fold-update-table))
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:group 'isearch
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:version "27.1")
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(char-fold-update-table)
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(defun char-fold--make-space-string (n)
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"Return a string that matches N spaces."
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(format "\\(?:%s\\|%s\\)"
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(make-string n ?\s)
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(apply #'concat
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(make-list n (or (aref char-fold-table ?\s) " ")))))
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;;;###autoload
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(defun char-fold-to-regexp (string &optional lax from)
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"Return a regexp matching anything that char-folds into STRING.
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Any character in STRING that has an entry in
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`char-fold-table' is replaced with that entry (which is a
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regexp) and other characters are `regexp-quote'd.
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When LAX is non-nil, then the final character also matches ligatures
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partially, for instance, the search string \"f\" will match \"fi\",
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so when typing the search string in isearch while the cursor is on
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a ligature, the search won't try to immediately advance to the next
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complete match, but will stay on the partially matched ligature.
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If the resulting regexp would be too long for Emacs to handle,
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just return the result of calling `regexp-quote' on STRING.
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FROM is for internal use. It specifies an index in the STRING
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from which to start."
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(let* ((spaces 0)
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(multi-char-table (char-table-extra-slot char-fold-table 0))
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(i (or from 0))
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(end (length string))
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(out nil))
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;; When the user types a space, we want to match the table entry
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;; for ?\s, which is generally a regexp like "[ ...]". However,
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;; the `search-spaces-regexp' variable doesn't "see" spaces inside
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;; these regexp constructs, so we need to use "\\( \\|[ ...]\\)"
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;; instead (to manually expose a space). Furthermore, the lax
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;; search engine acts on a bunch of spaces, not on individual
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;; spaces, so if the string contains sequential spaces like " ", we
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;; need to keep them grouped together like this: "\\( \\|[ ...][ ...]\\)".
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(while (< i end)
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(pcase (aref string i)
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(?\s (setq spaces (1+ spaces)))
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(c (when (> spaces 0)
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(push (char-fold--make-space-string spaces) out)
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(setq spaces 0))
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(let ((regexp (or (aref char-fold-table c)
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(regexp-quote (string c))))
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;; Long string. The regexp would probably be too long.
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(alist (unless (> end 50)
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(aref multi-char-table c))))
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(push (if (and lax alist (= (1+ i) end))
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(concat "\\(?:" regexp "\\|"
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(mapconcat (lambda (entry)
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(cdr entry)) alist "\\|") "\\)")
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(let ((matched-entries nil)
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(max-length 0))
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(dolist (entry alist)
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(let* ((suffix (car entry))
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(len-suf (length suffix)))
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(when (eq (compare-strings suffix 0 nil
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string (1+ i) (+ i 1 len-suf)
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nil)
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t)
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(push (cons len-suf (cdr entry)) matched-entries)
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(setq max-length (max max-length len-suf)))))
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;; If no suffixes matched, just go on.
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(if (not matched-entries)
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regexp
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;;; If N suffixes match, we "branch" out into N+1 executions for the
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;;; length of the longest match. This means "fix" will match "fix" but
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;;; not "fⅸ", but it's necessary to keep the regexp size from scaling
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;;; exponentially. See https://lists.gnu.org/r/emacs-devel/2015-11/msg02562.html
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(let ((subs (substring string (1+ i) (+ i 1 max-length))))
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;; `i' is still going to inc by 1 below.
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(setq i (+ i max-length))
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(concat
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"\\(?:"
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(mapconcat (lambda (entry)
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(let ((length (car entry))
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(suffix-regexp (cdr entry)))
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(concat suffix-regexp
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(char-fold-to-regexp subs nil length))))
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`((0 . ,regexp) . ,matched-entries) "\\|")
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"\\)")))))
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out))))
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(setq i (1+ i)))
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(when (> spaces 0)
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(push (char-fold--make-space-string spaces) out))
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(let ((regexp (apply #'concat (nreverse out))))
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;; Limited by `MAX_BUF_SIZE' in `regex-emacs.c'.
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(if (> (length regexp) 5000)
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(regexp-quote string)
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regexp))))
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;;; Commands provided for completeness.
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(defun char-fold-search-forward (string &optional bound noerror count)
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"Search forward for a char-folded version of STRING.
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STRING is converted to a regexp with `char-fold-to-regexp',
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which is searched for with `re-search-forward'.
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BOUND NOERROR COUNT are passed to `re-search-forward'."
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(interactive "sSearch: ")
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(re-search-forward (char-fold-to-regexp string) bound noerror count))
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(defun char-fold-search-backward (string &optional bound noerror count)
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"Search backward for a char-folded version of STRING.
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STRING is converted to a regexp with `char-fold-to-regexp',
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which is searched for with `re-search-backward'.
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BOUND NOERROR COUNT are passed to `re-search-backward'."
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(interactive "sSearch: ")
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(re-search-backward (char-fold-to-regexp string) bound noerror count))
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(provide 'char-fold)
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;;; char-fold.el ends here
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