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706 lines
26 KiB
EmacsLisp
706 lines
26 KiB
EmacsLisp
;;; lisp.el --- Lisp editing commands for Emacs
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;; Copyright (C) 1985-1986, 1994, 2000-2013 Free Software Foundation,
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;; Inc.
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;; Maintainer: FSF
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;; Keywords: lisp, languages
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;; Package: emacs
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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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;; Lisp editing commands to go with Lisp major mode. More-or-less
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;; applicable in other modes too.
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;;; Code:
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;; Note that this variable is used by non-lisp modes too.
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(defcustom defun-prompt-regexp nil
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"If non-nil, a regexp to ignore before a defun.
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This is only necessary if the opening paren or brace is not in column 0.
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See function `beginning-of-defun'."
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:type '(choice (const nil)
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regexp)
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:group 'lisp)
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(make-variable-buffer-local 'defun-prompt-regexp)
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(defcustom parens-require-spaces t
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"If non-nil, add whitespace as needed when inserting parentheses.
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This affects `insert-parentheses' and `insert-pair'."
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:type 'boolean
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:group 'lisp)
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(defvar forward-sexp-function nil
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"If non-nil, `forward-sexp' delegates to this function.
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Should take the same arguments and behave similarly to `forward-sexp'.")
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(defun forward-sexp (&optional arg)
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"Move forward across one balanced expression (sexp).
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With ARG, do it that many times. Negative arg -N means
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move backward across N balanced expressions.
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This command assumes point is not in a string or comment."
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(interactive "^p")
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(or arg (setq arg 1))
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(if forward-sexp-function
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(funcall forward-sexp-function arg)
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(goto-char (or (scan-sexps (point) arg) (buffer-end arg)))
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(if (< arg 0) (backward-prefix-chars))))
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(defun backward-sexp (&optional arg)
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"Move backward across one balanced expression (sexp).
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With ARG, do it that many times. Negative arg -N means
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move forward across N balanced expressions.
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This command assumes point is not in a string or comment."
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(interactive "^p")
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(or arg (setq arg 1))
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(forward-sexp (- arg)))
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(defun mark-sexp (&optional arg allow-extend)
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"Set mark ARG sexps from point.
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The place mark goes is the same place \\[forward-sexp] would
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move to with the same argument.
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Interactively, if this command is repeated
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or (in Transient Mark mode) if the mark is active,
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it marks the next ARG sexps after the ones already marked.
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This command assumes point is not in a string or comment."
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(interactive "P\np")
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(cond ((and allow-extend
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(or (and (eq last-command this-command) (mark t))
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(and transient-mark-mode mark-active)))
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(setq arg (if arg (prefix-numeric-value arg)
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(if (< (mark) (point)) -1 1)))
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(set-mark
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(save-excursion
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(goto-char (mark))
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(forward-sexp arg)
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(point))))
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(t
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(push-mark
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(save-excursion
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(forward-sexp (prefix-numeric-value arg))
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(point))
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nil t))))
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(defun forward-list (&optional arg)
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"Move forward across one balanced group of parentheses.
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With ARG, do it that many times.
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Negative arg -N means move backward across N groups of parentheses.
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This command assumes point is not in a string or comment."
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(interactive "^p")
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(or arg (setq arg 1))
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(goto-char (or (scan-lists (point) arg 0) (buffer-end arg))))
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(defun backward-list (&optional arg)
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"Move backward across one balanced group of parentheses.
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With ARG, do it that many times.
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Negative arg -N means move forward across N groups of parentheses.
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This command assumes point is not in a string or comment."
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(interactive "^p")
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(or arg (setq arg 1))
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(forward-list (- arg)))
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(defun down-list (&optional arg)
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"Move forward down one level of parentheses.
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With ARG, do this that many times.
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A negative argument means move backward but still go down a level.
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This command assumes point is not in a string or comment."
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(interactive "^p")
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(or arg (setq arg 1))
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(let ((inc (if (> arg 0) 1 -1)))
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(while (/= arg 0)
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(goto-char (or (scan-lists (point) inc -1) (buffer-end arg)))
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(setq arg (- arg inc)))))
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(defun backward-up-list (&optional arg)
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"Move backward out of one level of parentheses.
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With ARG, do this that many times.
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A negative argument means move forward but still to a less deep spot.
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This command assumes point is not in a string or comment."
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(interactive "^p")
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(up-list (- (or arg 1))))
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(defun up-list (&optional arg)
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"Move forward out of one level of parentheses.
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With ARG, do this that many times.
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A negative argument means move backward but still to a less deep spot.
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This command assumes point is not in a string or comment."
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(interactive "^p")
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(or arg (setq arg 1))
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(let ((inc (if (> arg 0) 1 -1))
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pos)
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(while (/= arg 0)
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(if (null forward-sexp-function)
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(goto-char (or (scan-lists (point) inc 1) (buffer-end arg)))
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(condition-case err
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(while (progn (setq pos (point))
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(forward-sexp inc)
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(/= (point) pos)))
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(scan-error (goto-char (nth (if (> arg 0) 3 2) err))))
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(if (= (point) pos)
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(signal 'scan-error
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(list "Unbalanced parentheses" (point) (point)))))
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(setq arg (- arg inc)))))
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(defun kill-sexp (&optional arg)
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"Kill the sexp (balanced expression) following point.
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With ARG, kill that many sexps after point.
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Negative arg -N means kill N sexps before point.
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This command assumes point is not in a string or comment."
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(interactive "p")
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(let ((opoint (point)))
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(forward-sexp (or arg 1))
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(kill-region opoint (point))))
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(defun backward-kill-sexp (&optional arg)
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"Kill the sexp (balanced expression) preceding point.
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With ARG, kill that many sexps before point.
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Negative arg -N means kill N sexps after point.
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This command assumes point is not in a string or comment."
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(interactive "p")
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(kill-sexp (- (or arg 1))))
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;; After Zmacs:
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(defun kill-backward-up-list (&optional arg)
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"Kill the form containing the current sexp, leaving the sexp itself.
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A prefix argument ARG causes the relevant number of surrounding
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forms to be removed.
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This command assumes point is not in a string or comment."
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(interactive "*p")
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(let ((current-sexp (thing-at-point 'sexp)))
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(if current-sexp
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(save-excursion
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(backward-up-list arg)
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(kill-sexp)
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(insert current-sexp))
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(error "Not at a sexp"))))
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(defvar beginning-of-defun-function nil
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"If non-nil, function for `beginning-of-defun-raw' to call.
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This is used to find the beginning of the defun instead of using the
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normal recipe (see `beginning-of-defun'). Major modes can define this
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if defining `defun-prompt-regexp' is not sufficient to handle the mode's
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needs.
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The function takes the same argument as `beginning-of-defun' and should
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behave similarly, returning non-nil if it found the beginning of a defun.
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Ideally it should move to a point right before an open-paren which encloses
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the body of the defun.")
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(defun beginning-of-defun (&optional arg)
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"Move backward to the beginning of a defun.
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With ARG, do it that many times. Negative ARG means move forward
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to the ARGth following beginning of defun.
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If search is successful, return t; point ends up at the beginning
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of the line where the search succeeded. Otherwise, return nil.
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When `open-paren-in-column-0-is-defun-start' is non-nil, a defun
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is assumed to start where there is a char with open-parenthesis
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syntax at the beginning of a line. If `defun-prompt-regexp' is
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non-nil, then a string which matches that regexp may also precede
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the open-parenthesis. If `defun-prompt-regexp' and
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`open-paren-in-column-0-is-defun-start' are both nil, this
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function instead finds an open-paren at the outermost level.
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If the variable `beginning-of-defun-function' is non-nil, its
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value is called as a function, with argument ARG, to find the
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defun's beginning.
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Regardless of the values of `defun-prompt-regexp' and
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`beginning-of-defun-function', point always moves to the
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beginning of the line whenever the search is successful."
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(interactive "^p")
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(or (not (eq this-command 'beginning-of-defun))
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(eq last-command 'beginning-of-defun)
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(and transient-mark-mode mark-active)
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(push-mark))
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(and (beginning-of-defun-raw arg)
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(progn (beginning-of-line) t)))
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(defun beginning-of-defun-raw (&optional arg)
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"Move point to the character that starts a defun.
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This is identical to function `beginning-of-defun', except that point
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does not move to the beginning of the line when `defun-prompt-regexp'
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is non-nil.
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If variable `beginning-of-defun-function' is non-nil, its value
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is called as a function to find the defun's beginning."
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(interactive "^p") ; change this to "P", maybe, if we ever come to pass ARG
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; to beginning-of-defun-function.
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(unless arg (setq arg 1))
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(cond
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(beginning-of-defun-function
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(condition-case nil
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(funcall beginning-of-defun-function arg)
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;; We used to define beginning-of-defun-function as taking no argument
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;; but that makes it impossible to implement correct forward motion:
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;; we used to use end-of-defun for that, but it's not supposed to do
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;; the same thing (it moves to the end of a defun not to the beginning
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;; of the next).
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;; In case the beginning-of-defun-function uses the old calling
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;; convention, fallback on the old implementation.
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(wrong-number-of-arguments
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(if (> arg 0)
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(dotimes (i arg)
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(funcall beginning-of-defun-function))
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(dotimes (i (- arg))
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(funcall end-of-defun-function))))))
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((or defun-prompt-regexp open-paren-in-column-0-is-defun-start)
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(and (< arg 0) (not (eobp)) (forward-char 1))
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(and (re-search-backward (if defun-prompt-regexp
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(concat (if open-paren-in-column-0-is-defun-start
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"^\\s(\\|" "")
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"\\(?:" defun-prompt-regexp "\\)\\s(")
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"^\\s(")
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nil 'move arg)
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(progn (goto-char (1- (match-end 0)))
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t)))
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;; If open-paren-in-column-0-is-defun-start and defun-prompt-regexp
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;; are both nil, column 0 has no significance - so scan forward
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;; from BOB to see how nested point is, then carry on from there.
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;;
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;; It is generally not a good idea to land up here, because the
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;; call to scan-lists below can be extremely slow. This is because
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;; back_comment in syntax.c may have to scan from bob to find the
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;; beginning of each comment. Fixing this is not trivial -- cyd.
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((eq arg 0))
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(t
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(let ((floor (point-min))
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(ceiling (point-max))
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(arg-+ve (> arg 0)))
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(save-restriction
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(widen)
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(let ((ppss (let (syntax-begin-function
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font-lock-beginning-of-syntax-function)
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(syntax-ppss)))
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;; position of least enclosing paren, or nil.
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encl-pos)
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;; Back out of any comment/string, so that encl-pos will always
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;; become nil if we're at top-level.
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(when (nth 8 ppss)
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(goto-char (nth 8 ppss))
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(setq ppss (syntax-ppss))) ; should be fast, due to cache.
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(setq encl-pos (syntax-ppss-toplevel-pos ppss))
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(if encl-pos (goto-char encl-pos))
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(and encl-pos arg-+ve (setq arg (1- arg)))
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(and (not encl-pos) (not arg-+ve) (not (looking-at "\\s("))
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(setq arg (1+ arg)))
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(condition-case nil ; to catch crazy parens.
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(progn
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(goto-char (scan-lists (point) (- arg) 0))
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(if arg-+ve
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(if (>= (point) floor)
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t
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(goto-char floor)
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nil)
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;; forward to next (, or trigger the c-c
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(goto-char (1- (scan-lists (point) 1 -1)))
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(if (<= (point) ceiling)
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t
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(goto-char ceiling)
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nil)))
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(error
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(goto-char (if arg-+ve floor ceiling))
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nil))))))))
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(defvar end-of-defun-function
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(lambda () (forward-sexp 1))
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"Function for `end-of-defun' to call.
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This is used to find the end of the defun at point.
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It is called with no argument, right after calling `beginning-of-defun-raw'.
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So the function can assume that point is at the beginning of the defun body.
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It should move point to the first position after the defun.")
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(defun buffer-end (arg)
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"Return the \"far end\" position of the buffer, in direction ARG.
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If ARG is positive, that's the end of the buffer.
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Otherwise, that's the beginning of the buffer."
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(if (> arg 0) (point-max) (point-min)))
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(defun end-of-defun (&optional arg)
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"Move forward to next end of defun.
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With argument, do it that many times.
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Negative argument -N means move back to Nth preceding end of defun.
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An end of a defun occurs right after the close-parenthesis that
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matches the open-parenthesis that starts a defun; see function
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`beginning-of-defun'.
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If variable `end-of-defun-function' is non-nil, its value
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is called as a function to find the defun's end."
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(interactive "^p")
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(or (not (eq this-command 'end-of-defun))
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(eq last-command 'end-of-defun)
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(and transient-mark-mode mark-active)
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(push-mark))
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(if (or (null arg) (= arg 0)) (setq arg 1))
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(let ((pos (point))
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(beg (progn (end-of-line 1) (beginning-of-defun-raw 1) (point))))
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(funcall end-of-defun-function)
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;; When comparing point against pos, we want to consider that if
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;; point was right after the end of the function, it's still
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;; considered as "in that function".
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;; E.g. `eval-defun' from right after the last close-paren.
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(unless (bolp)
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(skip-chars-forward " \t")
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(if (looking-at "\\s<\\|\n")
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(forward-line 1)))
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(cond
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((> arg 0)
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;; Moving forward.
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(if (> (point) pos)
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;; We already moved forward by one because we started from
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;; within a function.
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(setq arg (1- arg))
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;; We started from after the end of the previous function.
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(goto-char pos))
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(unless (zerop arg)
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(beginning-of-defun-raw (- arg))
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(funcall end-of-defun-function)))
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((< arg 0)
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;; Moving backward.
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(if (< (point) pos)
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;; We already moved backward because we started from between
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;; two functions.
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(setq arg (1+ arg))
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;; We started from inside a function.
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(goto-char beg))
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(unless (zerop arg)
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(beginning-of-defun-raw (- arg))
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(funcall end-of-defun-function))))
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(unless (bolp)
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(skip-chars-forward " \t")
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(if (looking-at "\\s<\\|\n")
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(forward-line 1)))))
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(defun mark-defun (&optional allow-extend)
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"Put mark at end of this defun, point at beginning.
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The defun marked is the one that contains point or follows point.
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Interactively, if this command is repeated
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or (in Transient Mark mode) if the mark is active,
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it marks the next defun after the ones already marked."
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(interactive "p")
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(cond ((and allow-extend
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(or (and (eq last-command this-command) (mark t))
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(and transient-mark-mode mark-active)))
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(set-mark
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(save-excursion
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(goto-char (mark))
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(end-of-defun)
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(point))))
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(t
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(let ((opoint (point))
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beg end)
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(push-mark opoint)
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;; Try first in this order for the sake of languages with nested
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;; functions where several can end at the same place as with
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;; the offside rule, e.g. Python.
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(beginning-of-defun)
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(setq beg (point))
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(end-of-defun)
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(setq end (point))
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(while (looking-at "^\n")
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(forward-line 1))
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(if (> (point) opoint)
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(progn
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;; We got the right defun.
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(push-mark beg nil t)
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(goto-char end)
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(exchange-point-and-mark))
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;; beginning-of-defun moved back one defun
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;; so we got the wrong one.
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(goto-char opoint)
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(end-of-defun)
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(push-mark (point) nil t)
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(beginning-of-defun))
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(re-search-backward "^\n" (- (point) 1) t)))))
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(defun narrow-to-defun (&optional arg)
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"Make text outside current defun invisible.
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The defun visible is the one that contains point or follows point.
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Optional ARG is ignored."
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(interactive)
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(save-excursion
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(widen)
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(let ((opoint (point))
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beg end)
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;; Try first in this order for the sake of languages with nested
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;; functions where several can end at the same place as with
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;; the offside rule, e.g. Python.
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;; Finding the start of the function is a bit problematic since
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;; `beginning-of-defun' when we are on the first character of
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;; the function might go to the previous function.
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;;
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;; Therefore we first move one character forward and then call
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;; `beginning-of-defun'. However now we must check that we did
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;; not move into the next function.
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(let ((here (point)))
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(unless (eolp)
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(forward-char))
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(beginning-of-defun)
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||
(when (< (point) here)
|
||
(goto-char here)
|
||
(beginning-of-defun)))
|
||
(setq beg (point))
|
||
(end-of-defun)
|
||
(setq end (point))
|
||
(while (looking-at "^\n")
|
||
(forward-line 1))
|
||
(unless (> (point) opoint)
|
||
;; beginning-of-defun moved back one defun
|
||
;; so we got the wrong one.
|
||
(goto-char opoint)
|
||
(end-of-defun)
|
||
(setq end (point))
|
||
(beginning-of-defun)
|
||
(setq beg (point)))
|
||
(goto-char end)
|
||
(re-search-backward "^\n" (- (point) 1) t)
|
||
(narrow-to-region beg end))))
|
||
|
||
(defvar insert-pair-alist
|
||
'((?\( ?\)) (?\[ ?\]) (?\{ ?\}) (?\< ?\>) (?\" ?\") (?\' ?\') (?\` ?\'))
|
||
"Alist of paired characters inserted by `insert-pair'.
|
||
Each element looks like (OPEN-CHAR CLOSE-CHAR) or (COMMAND-CHAR
|
||
OPEN-CHAR CLOSE-CHAR). The characters OPEN-CHAR and CLOSE-CHAR
|
||
of the pair whose key is equal to the last input character with
|
||
or without modifiers, are inserted by `insert-pair'.")
|
||
|
||
(defun insert-pair (&optional arg open close)
|
||
"Enclose following ARG sexps in a pair of OPEN and CLOSE characters.
|
||
Leave point after the first character.
|
||
A negative ARG encloses the preceding ARG sexps instead.
|
||
No argument is equivalent to zero: just insert characters
|
||
and leave point between.
|
||
If `parens-require-spaces' is non-nil, this command also inserts a space
|
||
before and after, depending on the surrounding characters.
|
||
If region is active, insert enclosing characters at region boundaries.
|
||
|
||
If arguments OPEN and CLOSE are nil, the character pair is found
|
||
from the variable `insert-pair-alist' according to the last input
|
||
character with or without modifiers. If no character pair is
|
||
found in the variable `insert-pair-alist', then the last input
|
||
character is inserted ARG times.
|
||
|
||
This command assumes point is not in a string or comment."
|
||
(interactive "P")
|
||
(if (not (and open close))
|
||
(let ((pair (or (assq last-command-event insert-pair-alist)
|
||
(assq (event-basic-type last-command-event)
|
||
insert-pair-alist))))
|
||
(if pair
|
||
(if (nth 2 pair)
|
||
(setq open (nth 1 pair) close (nth 2 pair))
|
||
(setq open (nth 0 pair) close (nth 1 pair))))))
|
||
(if (and open close)
|
||
(if (and transient-mark-mode mark-active)
|
||
(progn
|
||
(save-excursion (goto-char (region-end)) (insert close))
|
||
(save-excursion (goto-char (region-beginning)) (insert open)))
|
||
(if arg (setq arg (prefix-numeric-value arg))
|
||
(setq arg 0))
|
||
(cond ((> arg 0) (skip-chars-forward " \t"))
|
||
((< arg 0) (forward-sexp arg) (setq arg (- arg))))
|
||
(and parens-require-spaces
|
||
(not (bobp))
|
||
(memq (char-syntax (preceding-char)) (list ?w ?_ (char-syntax close)))
|
||
(insert " "))
|
||
(insert open)
|
||
(save-excursion
|
||
(or (eq arg 0) (forward-sexp arg))
|
||
(insert close)
|
||
(and parens-require-spaces
|
||
(not (eobp))
|
||
(memq (char-syntax (following-char)) (list ?w ?_ (char-syntax open)))
|
||
(insert " "))))
|
||
(insert-char (event-basic-type last-command-event)
|
||
(prefix-numeric-value arg))))
|
||
|
||
(defun insert-parentheses (&optional arg)
|
||
"Enclose following ARG sexps in parentheses.
|
||
Leave point after open-paren.
|
||
A negative ARG encloses the preceding ARG sexps instead.
|
||
No argument is equivalent to zero: just insert `()' and leave point between.
|
||
If `parens-require-spaces' is non-nil, this command also inserts a space
|
||
before and after, depending on the surrounding characters.
|
||
If region is active, insert enclosing characters at region boundaries.
|
||
|
||
This command assumes point is not in a string or comment."
|
||
(interactive "P")
|
||
(insert-pair arg ?\( ?\)))
|
||
|
||
(defun delete-pair ()
|
||
"Delete a pair of characters enclosing the sexp that follows point."
|
||
(interactive)
|
||
(save-excursion (forward-sexp 1) (delete-char -1))
|
||
(delete-char 1))
|
||
|
||
(defun raise-sexp (&optional arg)
|
||
"Raise ARG sexps higher up the tree."
|
||
(interactive "p")
|
||
(let ((s (if (and transient-mark-mode mark-active)
|
||
(buffer-substring (region-beginning) (region-end))
|
||
(buffer-substring
|
||
(point)
|
||
(save-excursion (forward-sexp arg) (point))))))
|
||
(backward-up-list 1)
|
||
(delete-region (point) (save-excursion (forward-sexp 1) (point)))
|
||
(save-excursion (insert s))))
|
||
|
||
(defun move-past-close-and-reindent ()
|
||
"Move past next `)', delete indentation before it, then indent after it."
|
||
(interactive)
|
||
(up-list 1)
|
||
(forward-char -1)
|
||
(while (save-excursion ; this is my contribution
|
||
(let ((before-paren (point)))
|
||
(back-to-indentation)
|
||
(and (= (point) before-paren)
|
||
(progn
|
||
;; Move to end of previous line.
|
||
(beginning-of-line)
|
||
(forward-char -1)
|
||
;; Verify it doesn't end within a string or comment.
|
||
(let ((end (point))
|
||
state)
|
||
(beginning-of-line)
|
||
;; Get state at start of line.
|
||
(setq state (list 0 nil nil
|
||
(null (calculate-lisp-indent))
|
||
nil nil nil nil
|
||
nil))
|
||
;; Parse state across the line to get state at end.
|
||
(setq state (parse-partial-sexp (point) end nil nil
|
||
state))
|
||
;; Check not in string or comment.
|
||
(and (not (elt state 3)) (not (elt state 4))))))))
|
||
(delete-indentation))
|
||
(forward-char 1)
|
||
(newline-and-indent))
|
||
|
||
(defun check-parens () ; lame name?
|
||
"Check for unbalanced parentheses in the current buffer.
|
||
More accurately, check the narrowed part of the buffer for unbalanced
|
||
expressions (\"sexps\") in general. This is done according to the
|
||
current syntax table and will find unbalanced brackets or quotes as
|
||
appropriate. (See Info node `(emacs)Parentheses'.) If imbalance is
|
||
found, an error is signaled and point is left at the first unbalanced
|
||
character."
|
||
(interactive)
|
||
(condition-case data
|
||
;; Buffer can't have more than (point-max) sexps.
|
||
(scan-sexps (point-min) (point-max))
|
||
(scan-error (goto-char (nth 2 data))
|
||
;; Could print (nth 1 data), which is either
|
||
;; "Containing expression ends prematurely" or
|
||
;; "Unbalanced parentheses", but those may not be so
|
||
;; accurate/helpful, e.g. quotes may actually be
|
||
;; mismatched.
|
||
(error "Unmatched bracket or quote"))))
|
||
|
||
(defun field-complete (table &optional predicate)
|
||
(let ((minibuffer-completion-table table)
|
||
(minibuffer-completion-predicate predicate)
|
||
;; This made sense for lisp-complete-symbol, but for
|
||
;; field-complete, this is out of place. --Stef
|
||
;; (completion-annotate-function
|
||
;; (unless (eq predicate 'fboundp)
|
||
;; (lambda (str)
|
||
;; (if (fboundp (intern-soft str)) " <f>"))))
|
||
)
|
||
(call-interactively 'minibuffer-complete)))
|
||
|
||
(defun lisp-complete-symbol (&optional predicate)
|
||
"Perform completion on Lisp symbol preceding point.
|
||
Compare that symbol against the known Lisp symbols.
|
||
If no characters can be completed, display a list of possible completions.
|
||
Repeating the command at that point scrolls the list.
|
||
|
||
When called from a program, optional arg PREDICATE is a predicate
|
||
determining which symbols are considered, e.g. `commandp'.
|
||
If PREDICATE is nil, the context determines which symbols are
|
||
considered. If the symbol starts just after an open-parenthesis, only
|
||
symbols with function definitions are considered. Otherwise, all
|
||
symbols with function definitions, values or properties are
|
||
considered."
|
||
(interactive)
|
||
(let* ((data (lisp-completion-at-point predicate))
|
||
(plist (nthcdr 3 data)))
|
||
(if (null data)
|
||
(minibuffer-message "Nothing to complete")
|
||
(let ((completion-extra-properties plist))
|
||
(completion-in-region (nth 0 data) (nth 1 data) (nth 2 data)
|
||
(plist-get plist :predicate))))))
|
||
|
||
|
||
(defun lisp-completion-at-point (&optional predicate)
|
||
"Function used for `completion-at-point-functions' in `emacs-lisp-mode'."
|
||
;; FIXME: the `end' could be after point?
|
||
(with-syntax-table emacs-lisp-mode-syntax-table
|
||
(let* ((pos (point))
|
||
(beg (condition-case nil
|
||
(save-excursion
|
||
(backward-sexp 1)
|
||
(skip-syntax-forward "'")
|
||
(point))
|
||
(scan-error pos)))
|
||
(predicate
|
||
(or predicate
|
||
(save-excursion
|
||
(goto-char beg)
|
||
(if (not (eq (char-before) ?\())
|
||
(lambda (sym) ;why not just nil ? -sm
|
||
(or (boundp sym) (fboundp sym)
|
||
(symbol-plist sym)))
|
||
;; Looks like a funcall position. Let's double check.
|
||
(if (condition-case nil
|
||
(progn (up-list -2) (forward-char 1)
|
||
(eq (char-after) ?\())
|
||
(error nil))
|
||
;; If the first element of the parent list is an open
|
||
;; paren we are probably not in a funcall position.
|
||
;; Maybe a `let' varlist or something.
|
||
nil
|
||
;; Else, we assume that a function name is expected.
|
||
'fboundp)))))
|
||
(end
|
||
(unless (or (eq beg (point-max))
|
||
(member (char-syntax (char-after beg)) '(?\" ?\( ?\))))
|
||
(condition-case nil
|
||
(save-excursion
|
||
(goto-char beg)
|
||
(forward-sexp 1)
|
||
(when (>= (point) pos)
|
||
(point)))
|
||
(scan-error pos)))))
|
||
(when end
|
||
(list beg end obarray
|
||
:predicate predicate
|
||
:annotation-function
|
||
(unless (eq predicate 'fboundp)
|
||
(lambda (str) (if (fboundp (intern-soft str)) " <f>"))))))))
|
||
|
||
;;; lisp.el ends here
|