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478 lines
20 KiB
EmacsLisp
478 lines
20 KiB
EmacsLisp
;;; mule-util.el --- utility functions for multilingual environment (mule) -*- lexical-binding:t -*-
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;; Copyright (C) 1997-1998, 2000-2020 Free Software Foundation, Inc.
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;; Copyright (C) 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004,
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;; 2005, 2006, 2007, 2008, 2009, 2010, 2011
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;; National Institute of Advanced Industrial Science and Technology (AIST)
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;; Registration Number H14PRO021
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;; Copyright (C) 2003
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;; National Institute of Advanced Industrial Science and Technology (AIST)
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;; Registration Number H13PRO009
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;; Keywords: mule, multilingual
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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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;;; Commentary:
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;;; Code:
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;;; String manipulations while paying attention to multibyte characters.
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;;;###autoload
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(defun store-substring (string idx obj)
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"Embed OBJ (string or character) at index IDX of STRING."
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(if (integerp obj)
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(aset string idx obj)
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(let ((len1 (length obj))
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(i 0))
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(while (< i len1)
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(aset string (+ idx i) (aref obj i))
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(setq i (1+ i)))))
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string)
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(defvar truncate-string-ellipsis "..." ;"…"
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"String to use to indicate truncation.
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Serves as default value of ELLIPSIS argument to `truncate-string-to-width'.")
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;;;###autoload
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(defun truncate-string-to-width (str end-column
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&optional start-column padding ellipsis
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ellipsis-text-property)
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"Truncate string STR to end at column END-COLUMN.
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The optional 3rd arg START-COLUMN, if non-nil, specifies the starting
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column; that means to return the characters occupying columns
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START-COLUMN ... END-COLUMN of STR. Both END-COLUMN and START-COLUMN
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are specified in terms of character display width in the current
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buffer; see also `char-width'.
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The optional 4th arg PADDING, if non-nil, specifies a padding
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character (which should have a display width of 1) to add at the end
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of the result if STR doesn't reach column END-COLUMN, or if END-COLUMN
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comes in the middle of a character in STR. PADDING is also added at
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the beginning of the result if column START-COLUMN appears in the
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middle of a character in STR.
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If PADDING is nil, no padding is added in these cases, so
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the resulting string may be narrower than END-COLUMN.
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If ELLIPSIS is non-nil, it should be a string which will replace the
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end of STR (including any padding) if it extends beyond END-COLUMN,
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unless the display width of STR is equal to or less than the display
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width of ELLIPSIS. If it is non-nil and not a string, then ELLIPSIS
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defaults to `truncate-string-ellipsis'.
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If ELLIPSIS-TEXT-PROPERTY in non-nil, a too-long string will not
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be truncated, but instead the elided parts will be covered by a
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`display' text property showing the ellipsis."
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(or start-column
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(setq start-column 0))
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(when (and ellipsis (not (stringp ellipsis)))
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(setq ellipsis truncate-string-ellipsis))
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(let ((str-len (length str))
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(str-width (string-width str))
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(ellipsis-width (if ellipsis (string-width ellipsis) 0))
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(idx 0)
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(column 0)
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(head-padding "") (tail-padding "")
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ch last-column last-idx from-idx)
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(condition-case nil
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(while (< column start-column)
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(setq ch (aref str idx)
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column (+ column (char-width ch))
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idx (1+ idx)))
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(args-out-of-range (setq idx str-len)))
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(if (< column start-column)
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(if padding (make-string end-column padding) "")
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(when (and padding (> column start-column))
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(setq head-padding (make-string (- column start-column) padding)))
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(setq from-idx idx)
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(when (>= end-column column)
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(if (and (< end-column str-width)
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(> str-width ellipsis-width))
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(setq end-column (- end-column ellipsis-width))
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(setq ellipsis ""))
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(condition-case nil
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(while (< column end-column)
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(setq last-column column
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last-idx idx
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ch (aref str idx)
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column (+ column (char-width ch))
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idx (1+ idx)))
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(args-out-of-range (setq idx str-len)))
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(when (> column end-column)
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(setq column last-column
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idx last-idx))
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(when (and padding (< column end-column))
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(setq tail-padding (make-string (- end-column column) padding))))
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(if (and ellipsis-text-property
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(not (equal ellipsis ""))
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idx)
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;; Use text properties for the ellipsis.
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(concat head-padding
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(substring str from-idx idx)
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(propertize (substring str idx) 'display (or ellipsis "")))
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;; (Possibly) chop off bits of the string.
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(concat head-padding (substring str from-idx idx)
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tail-padding ellipsis)))))
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;;; Nested alist handler.
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;; Nested alist is alist whose elements are also nested alist.
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;;;###autoload
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(defsubst nested-alist-p (obj)
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"Return t if OBJ is a nested alist.
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Nested alist is a list of the form (ENTRY . BRANCHES), where ENTRY is
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any Lisp object, and BRANCHES is a list of cons cells of the form
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\(KEY-ELEMENT . NESTED-ALIST).
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You can use a nested alist to store any Lisp object (ENTRY) for a key
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sequence KEYSEQ, where KEYSEQ is a sequence of KEY-ELEMENT. KEYSEQ
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can be a string, a vector, or a list."
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(and obj (listp obj) (listp (cdr obj))))
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;;;###autoload
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(defun set-nested-alist (keyseq entry alist &optional len branches)
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"Set ENTRY for KEYSEQ in a nested alist ALIST.
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Optional 4th arg LEN non-nil means the first LEN elements in KEYSEQ
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are considered.
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Optional 5th argument BRANCHES if non-nil is branches for a keyseq
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longer than KEYSEQ.
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See the documentation of `nested-alist-p' for more detail."
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(or (nested-alist-p alist)
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(error "Invalid argument %s" alist))
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(let ((len (or len (length keyseq)))
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(i 0))
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(cond
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((stringp keyseq) ; We can use `assq' for characters.
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(while (< i len)
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(if (null (nested-alist-p alist))
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(error "Keyseq %s is too long for this nested alist" keyseq))
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(let* ((key-elt (aref keyseq i))
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(slot (assq key-elt (cdr alist))))
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(unless slot
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(setq slot (list key-elt t))
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(push slot (cdr alist)))
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(setq alist (cdr slot)))
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(setq i (1+ i))))
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((arrayp keyseq)
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(while (< i len)
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(if (null (nested-alist-p alist))
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(error "Keyseq %s is too long for this nested alist" keyseq))
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(let* ((key-elt (aref keyseq i))
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(slot (assoc key-elt (cdr alist))))
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(unless slot
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(setq slot (list key-elt t))
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(push slot (cdr alist)))
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(setq alist (cdr slot)))
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(setq i (1+ i))))
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((listp keyseq)
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(while (< i len)
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(if (null (nested-alist-p alist))
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(error "Keyseq %s is too long for this nested alist" keyseq))
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(let* ((key-elt (pop keyseq))
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(slot (assoc key-elt (cdr alist))))
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(unless slot
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(setq slot (list key-elt t))
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(push slot (cdr alist)))
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(setq alist (cdr slot)))
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(setq i (1+ i))))
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(t (signal 'wrong-type-argument (list keyseq))))
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(setcar alist entry)
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(if branches
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(setcdr (last alist) branches))))
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;;;###autoload
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(defun lookup-nested-alist (keyseq alist &optional len start nil-for-too-long)
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"Look up key sequence KEYSEQ in nested alist ALIST. Return the definition.
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Optional 3rd argument LEN specifies the length of KEYSEQ.
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Optional 4th argument START specifies index of the starting key.
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The returned value is normally a nested alist of which
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car part is the entry for KEYSEQ.
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If ALIST is not deep enough for KEYSEQ, return number which is
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how many key elements at the front of KEYSEQ it takes
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to reach a leaf in ALIST.
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Optional 5th argument NIL-FOR-TOO-LONG non-nil means return nil
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even if ALIST is not deep enough."
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(or (nested-alist-p alist)
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(error "Invalid argument %s" alist))
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(or len
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(setq len (length keyseq)))
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(let ((i (or start 0)))
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(if (catch 'lookup-nested-alist-tag
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(cond ((stringp keyseq) ; We can use `assq' for characters.
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(while (< i len)
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(if (setq alist (cdr (assq (aref keyseq i) (cdr alist))))
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(setq i (1+ i))
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(throw 'lookup-nested-alist-tag t))))
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((arrayp keyseq)
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(while (< i len)
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(if (setq alist (cdr (assoc (aref keyseq i) (cdr alist))))
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(setq i (1+ i))
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(throw 'lookup-nested-alist-tag t))))
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((listp keyseq)
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(setq keyseq (nthcdr i keyseq))
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(while (< i len)
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(if (setq alist (cdr (assoc (pop keyseq) (cdr alist))))
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(setq i (1+ i))
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(throw 'lookup-nested-alist-tag t))))
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(t (signal 'wrong-type-argument (list keyseq)))))
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;; KEYSEQ is too long.
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(if nil-for-too-long nil i)
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alist)))
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;; Coding system related functions.
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;;;###autoload
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(defun coding-system-post-read-conversion (coding-system)
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"Return the value of CODING-SYSTEM's `post-read-conversion' property."
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(coding-system-get coding-system :post-read-conversion))
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;;;###autoload
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(defun coding-system-pre-write-conversion (coding-system)
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"Return the value of CODING-SYSTEM's `pre-write-conversion' property."
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(coding-system-get coding-system :pre-write-conversion))
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;;;###autoload
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(defun coding-system-translation-table-for-decode (coding-system)
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"Return the value of CODING-SYSTEM's `decode-translation-table' property."
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(coding-system-get coding-system :decode-translation-table))
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;;;###autoload
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(defun coding-system-translation-table-for-encode (coding-system)
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"Return the value of CODING-SYSTEM's `encode-translation-table' property."
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(coding-system-get coding-system :encode-translation-table))
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;;;###autoload
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(defmacro with-coding-priority (coding-systems &rest body)
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"Execute BODY like `progn' with CODING-SYSTEMS at the front of priority list.
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CODING-SYSTEMS is a list of coding systems. See `set-coding-system-priority'.
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This affects the implicit sorting of lists of coding systems returned by
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operations such as `find-coding-systems-region'."
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(let ((current (make-symbol "current")))
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`(let ((,current (coding-system-priority-list)))
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(apply #'set-coding-system-priority ,coding-systems)
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(unwind-protect
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(progn ,@body)
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(apply #'set-coding-system-priority ,current)))))
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;;;###autoload(put 'with-coding-priority 'lisp-indent-function 1)
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(put 'with-coding-priority 'edebug-form-spec t)
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;;;###autoload
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(defmacro detect-coding-with-priority (from to priority-list)
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"Detect a coding system of the text between FROM and TO with PRIORITY-LIST.
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PRIORITY-LIST is an alist of coding categories vs the corresponding
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coding systems ordered by priority."
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(declare (obsolete with-coding-priority "23.1"))
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`(with-coding-priority (mapcar #'cdr ,priority-list)
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(detect-coding-region ,from ,to)))
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;;;###autoload
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(defun detect-coding-with-language-environment (from to lang-env)
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"Detect a coding system for the text between FROM and TO with LANG-ENV.
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The detection takes into account the coding system priorities for the
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language environment LANG-ENV."
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(let ((coding-priority (get-language-info lang-env 'coding-priority)))
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(if coding-priority
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(with-coding-priority coding-priority
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(detect-coding-region from to)))))
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(declare-function internal-char-font "font.c" (position &optional ch))
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(defun filepos-to-bufferpos--dos (byte f)
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(let ((eol-offset 0)
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;; Make sure we terminate, even if BYTE falls right in the middle
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;; of a CRLF or some other weird corner case.
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(omin 0) omax
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pos lines)
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(while
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(progn
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(setq pos (funcall f (- byte eol-offset)))
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;; Protect against accidental values of BYTE outside of the
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;; valid region.
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(when (null pos)
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(if (<= byte eol-offset)
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(setq pos (point-min))
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(setq pos (point-max))))
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;; Adjust POS for DOS EOL format.
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(setq lines (1- (line-number-at-pos pos)))
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(and (not (= lines eol-offset)) (or (not omax) (> omax omin))))
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(if (> lines eol-offset)
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(setq omax (if omax (min (1- omax) lines) lines)
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eol-offset omax)
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(setq omin (max (1+ omin) lines)
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eol-offset omin)))
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pos))
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;;;###autoload
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(defun filepos-to-bufferpos (byte &optional quality coding-system)
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"Try to return the buffer position corresponding to a particular file position.
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The file position is given as a (0-based) BYTE count.
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The function presumes the file is encoded with CODING-SYSTEM, which defaults
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to `buffer-file-coding-system'.
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QUALITY can be:
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`approximate', in which case we may cut some corners to avoid
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excessive work.
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`exact', in which case we may end up re-(en/de)coding a large
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part of the file/buffer, this can be expensive and slow.
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nil, in which case we may return nil rather than an approximation."
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(unless coding-system (setq coding-system buffer-file-coding-system))
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(let ((eol (coding-system-eol-type coding-system))
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(type (coding-system-type coding-system))
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(base (coding-system-base coding-system))
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(pm (save-restriction (widen) (point-min))))
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(and (eq type 'utf-8)
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;; Any post-read/pre-write conversions mean it's not really UTF-8.
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(not (null (coding-system-get coding-system :post-read-conversion)))
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(setq type 'not-utf-8))
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(and (memq type '(charset raw-text undecided))
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;; The following are all of type 'charset', but they are
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;; actually variable-width encodings.
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(not (memq base '(chinese-gbk chinese-gb18030 euc-tw euc-jis-2004
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korean-iso-8bit chinese-iso-8bit
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japanese-iso-8bit chinese-big5-hkscs
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japanese-cp932 korean-cp949)))
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(setq type 'single-byte))
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(pcase type
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('utf-8
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(when (coding-system-get coding-system :bom)
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(setq byte (max 0 (- byte 3))))
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(if (= eol 1)
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(filepos-to-bufferpos--dos (+ pm byte) #'byte-to-position)
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(byte-to-position (+ pm byte))))
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('single-byte
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(if (= eol 1)
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(filepos-to-bufferpos--dos (+ pm byte) #'identity)
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(+ pm byte)))
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((and 'utf-16
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;; FIXME: For utf-16, we could use the same approach as used for
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;; dos EOLs (counting the number of non-BMP chars instead of the
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;; number of lines).
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(guard (not (eq quality 'exact))))
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;; Account for BOM, which is always 2 bytes in UTF-16.
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(when (coding-system-get coding-system :bom)
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(setq byte (max 0 (- byte 2))))
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;; In approximate mode, assume all characters are within the
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;; BMP, i.e. take up 2 bytes.
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(setq byte (/ byte 2))
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(if (= eol 1)
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(filepos-to-bufferpos--dos (+ pm byte) #'identity)
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(+ pm byte)))
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(_
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(pcase quality
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('approximate (byte-to-position (+ pm byte)))
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('exact
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;; Rather than assume that the file exists and still holds the right
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;; data, we reconstruct it based on the buffer's content.
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(let ((buf (current-buffer)))
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(with-temp-buffer
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(set-buffer-multibyte nil)
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(let ((tmp-buf (current-buffer)))
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(with-current-buffer buf
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(save-restriction
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(widen)
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;; Since encoding should always return more bytes than
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;; there were chars, encoding all chars up to (+ byte pm)
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;; guarantees the encoded result has at least `byte' bytes.
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(encode-coding-region pm (min (point-max) (+ pm byte))
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coding-system tmp-buf)))
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(+ pm (length
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(decode-coding-region (point-min)
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(min (point-max) (+ pm byte))
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coding-system t))))))))))))
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;;;###autoload
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(defun bufferpos-to-filepos (position &optional quality coding-system)
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"Try to return the file byte corresponding to a particular buffer POSITION.
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Value is the file position given as a (0-based) byte count.
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The function presumes the file is encoded with CODING-SYSTEM, which defaults
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to `buffer-file-coding-system'.
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QUALITY can be:
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`approximate', in which case we may cut some corners to avoid
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excessive work.
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`exact', in which case we may end up re-(en/de)coding a large
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part of the file/buffer, this can be expensive and slow.
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nil, in which case we may return nil rather than an approximation."
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(unless coding-system (setq coding-system buffer-file-coding-system))
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(let* ((eol (coding-system-eol-type coding-system))
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(lineno (if (= eol 1) (1- (line-number-at-pos position)) 0))
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(type (coding-system-type coding-system))
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(base (coding-system-base coding-system))
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(point-min 1)) ;Clarify what the `1' means.
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(and (eq type 'utf-8)
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;; Any post-read/pre-write conversions mean it's not really UTF-8.
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(not (null (coding-system-get coding-system :post-read-conversion)))
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(setq type 'not-utf-8))
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(and (memq type '(charset raw-text undecided))
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;; The following are all of type 'charset', but they are
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;; actually variable-width encodings.
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(not (memq base '(chinese-gbk chinese-gb18030 euc-tw euc-jis-2004
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korean-iso-8bit chinese-iso-8bit
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japanese-iso-8bit chinese-big5-hkscs
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japanese-cp932 korean-cp949)))
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(setq type 'single-byte))
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(pcase type
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('utf-8
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(+ (or (position-bytes position)
|
||
(if (<= position 0)
|
||
point-min
|
||
(position-bytes (point-max))))
|
||
;; Account for BOM, if any.
|
||
(if (coding-system-get coding-system :bom) 3 0)
|
||
;; Account for CR in CRLF pairs.
|
||
lineno
|
||
(- point-min)))
|
||
('single-byte
|
||
(+ position (- point-min) lineno))
|
||
((and 'utf-16
|
||
;; FIXME: For utf-16, we could use the same approach as used for
|
||
;; dos EOLs (counting the number of non-BMP chars instead of the
|
||
;; number of lines).
|
||
(guard (not (eq quality 'exact))))
|
||
;; In approximate mode, assume all characters are within the
|
||
;; BMP, i.e. each one takes up 2 bytes.
|
||
(+ (* (- position point-min) 2)
|
||
;; Account for BOM, if any.
|
||
(if (coding-system-get coding-system :bom) 2 0)
|
||
;; Account for CR in CRLF pairs.
|
||
lineno))
|
||
(_
|
||
(pcase quality
|
||
('approximate (+ (position-bytes position) (- point-min) lineno))
|
||
('exact
|
||
;; Rather than assume that the file exists and still holds the right
|
||
;; data, we reconstruct its relevant portion.
|
||
(let ((buf (current-buffer)))
|
||
(with-temp-buffer
|
||
(set-buffer-multibyte nil)
|
||
(let ((tmp-buf (current-buffer)))
|
||
(with-current-buffer buf
|
||
(save-restriction
|
||
(widen)
|
||
(encode-coding-region (point-min) (min (point-max) position)
|
||
coding-system tmp-buf)))
|
||
(buffer-size))))))))))
|
||
|
||
(provide 'mule-util)
|
||
|
||
;; Local Variables:
|
||
;; coding: utf-8
|
||
;; End:
|
||
|
||
;;; mule-util.el ends here
|