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|
;;; electric.el --- window maker and Command loop for `electric' modes
;; Copyright (C) 1985, 1986, 1995, 2001, 2002, 2003, 2004,
;; 2005, 2006, 2007, 2008, 2009, 2010 Free Software Foundation, Inc.
;; Author: K. Shane Hartman
;; Maintainer: FSF
;; Keywords: extensions
;; This file is part of GNU Emacs.
;; GNU Emacs is free software: you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation, either version 3 of the License, or
;; (at your option) any later version.
;; GNU Emacs is distributed in the hope that it will be useful,
;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;; GNU General Public License for more details.
;; You should have received a copy of the GNU General Public License
;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
;;; Commentary:
;; "Electric" has been used in Emacs to refer to different things.
;; Among them:
;;
;; - electric modes and buffers: modes that typically pop-up in a modal kind of
;; way a transient buffer that automatically disappears as soon as the user
;; is done with it.
;;
;; - electric keys: self inserting keys which additionally perform some side
;; operation which happens to be often convenient at that time. Examples of
;; such side operations are: reindenting code, inserting a newline,
;; ... auto-fill-mode and abbrev-mode can be considered as built-in forms of
;; electric key behavior.
;;; Code:
(eval-when-compile (require 'cl))
;; This loop is the guts for non-standard modes which retain control
;; until some event occurs. It is a `do-forever', the only way out is
;; to throw. It assumes that you have set up the keymap, window, and
;; everything else: all it does is read commands and execute them -
;; providing error messages should one occur (if there is no loop
;; function - which see). The required argument is a tag which should
;; expect a value of nil if the user decides to punt. The second
;; argument is the prompt to be used: if nil, use "->", if 'noprompt,
;; don't use a prompt, if a string, use that string as prompt, and if
;; a function of no variable, it will be evaluated in every iteration
;; of the loop and its return value, which can be nil, 'noprompt or a
;; string, will be used as prompt. Given third argument non-nil, it
;; INHIBITS quitting unless the user types C-g at toplevel. This is
;; so user can do things like C-u C-g and not get thrown out. Fourth
;; argument, if non-nil, should be a function of two arguments which
;; is called after every command is executed. The fifth argument, if
;; provided, is the state variable for the function. If the
;; loop-function gets an error, the loop will abort WITHOUT throwing
;; (moral: use unwind-protect around call to this function for any
;; critical stuff). The second argument for the loop function is the
;; conditions for any error that occurred or nil if none.
(defun Electric-command-loop (return-tag
&optional prompt inhibit-quit
loop-function loop-state)
(let (cmd
(err nil)
(prompt-string prompt))
(while t
(if (functionp prompt)
(setq prompt-string (funcall prompt)))
(if (not (stringp prompt-string))
(setq prompt-string (unless (eq prompt-string 'noprompt) "->")))
(setq cmd (read-key-sequence prompt-string))
(setq last-command-event (aref cmd (1- (length cmd)))
this-command (key-binding cmd t)
cmd this-command)
;; This makes universal-argument-other-key work.
(setq universal-argument-num-events 0)
(if (or (prog1 quit-flag (setq quit-flag nil))
(eq last-input-event ?\C-g))
(progn (setq unread-command-events nil
prefix-arg nil)
;; If it wasn't cancelling a prefix character, then quit.
(if (or (= (length (this-command-keys)) 1)
(not inhibit-quit)) ; safety
(progn (ding)
(message "Quit")
(throw return-tag nil))
(setq cmd nil))))
(setq current-prefix-arg prefix-arg)
(if cmd
(condition-case conditions
(progn (command-execute cmd)
(setq last-command this-command)
(if (or (prog1 quit-flag (setq quit-flag nil))
(eq last-input-event ?\C-g))
(progn (setq unread-command-events nil)
(if (not inhibit-quit)
(progn (ding)
(message "Quit")
(throw return-tag nil))
(ding)))))
(buffer-read-only (if loop-function
(setq err conditions)
(ding)
(message "Buffer is read-only")
(sit-for 2)))
(beginning-of-buffer (if loop-function
(setq err conditions)
(ding)
(message "Beginning of Buffer")
(sit-for 2)))
(end-of-buffer (if loop-function
(setq err conditions)
(ding)
(message "End of Buffer")
(sit-for 2)))
(error (if loop-function
(setq err conditions)
(ding)
(message "Error: %s"
(if (eq (car conditions) 'error)
(car (cdr conditions))
(prin1-to-string conditions)))
(sit-for 2))))
(ding))
(if loop-function (funcall loop-function loop-state err))))
(ding)
(throw return-tag nil))
;; This function is like pop-to-buffer, sort of.
;; The algorithm is
;; If there is a window displaying buffer
;; Select it
;; Else if there is only one window
;; Split it, selecting the window on the bottom with height being
;; the lesser of max-height (if non-nil) and the number of lines in
;; the buffer to be displayed subject to window-min-height constraint.
;; Else
;; Switch to buffer in the current window.
;;
;; Then if max-height is nil, and not all of the lines in the buffer
;; are displayed, grab the whole frame.
;;
;; Returns selected window on buffer positioned at point-min.
(defun Electric-pop-up-window (buffer &optional max-height)
(let* ((win (or (get-buffer-window buffer) (selected-window)))
(buf (get-buffer buffer))
(one-window (one-window-p t))
(pop-up-windows t)
(pop-up-frames nil))
(if (not buf)
(error "Buffer %s does not exist" buffer)
(cond ((and (eq (window-buffer win) buf))
(select-window win))
(one-window
(pop-to-buffer buffer)
(setq win (selected-window)))
(t
(switch-to-buffer buf)))
;; Don't shrink the window, but expand it if necessary.
(goto-char (point-min))
(unless (= (point-max) (window-end win t))
(fit-window-to-buffer win max-height))
win)))
;;; Electric keys.
(defgroup electricity ()
"Electric behavior for self inserting keys."
:group 'editing)
(defun electric--after-char-pos ()
"Return the position after the char we just inserted.
Returns nil when we can't find this char."
(let ((pos (point)))
(when (or (eq (char-before) last-command-event) ;; Sanity check.
(save-excursion
(or (progn (skip-chars-backward " \t")
(setq pos (point))
(eq (char-before) last-command-event))
(progn (skip-chars-backward " \n\t")
(setq pos (point))
(eq (char-before) last-command-event)))))
pos)))
;; Electric indentation.
;; Autoloading variables is generally undesirable, but major modes
;; should usually set this variable by adding elements to the default
;; value, which only works well if the variable is preloaded.
;;;###autoload
(defvar electric-indent-chars '(?\n)
"Characters that should cause automatic reindentation.")
(defun electric-indent-post-self-insert-function ()
;; FIXME: This reindents the current line, but what we really want instead is
;; to reindent the whole affected text. That's the current line for simple
;; cases, but not all cases. We do take care of the newline case in an
;; ad-hoc fashion, but there are still missing cases such as the case of
;; electric-pair-mode wrapping a region with a pair of parens.
;; There might be a way to get it working by analyzing buffer-undo-list, but
;; it looks challenging.
(let (pos)
(when (and (memq last-command-event electric-indent-chars)
;; Don't reindent while inserting spaces at beginning of line.
(or (not (memq last-command-event '(?\s ?\t)))
(save-excursion (skip-chars-backward " \t") (not (bolp))))
(setq pos (electric--after-char-pos))
;; Not in a string or comment.
(not (nth 8 (save-excursion (syntax-ppss pos)))))
;; For newline, we want to reindent both lines and basically behave like
;; reindent-then-newline-and-indent (whose code we hence copied).
(when (< (1- pos) (line-beginning-position))
(let ((before (copy-marker (1- pos) t)))
(save-excursion
(unless (memq indent-line-function
'(indent-relative indent-relative-maybe))
;; Don't reindent the previous line if the indentation function
;; is not a real one.
(goto-char before)
(indent-according-to-mode))
;; We are at EOL before the call to indent-according-to-mode, and
;; after it we usually are as well, but not always. We tried to
;; address it with `save-excursion' but that uses a normal marker
;; whereas we need `move after insertion', so we do the
;; save/restore by hand.
(goto-char before)
;; Remove the trailing whitespace after indentation because
;; indentation may (re)introduce the whitespace.
(delete-horizontal-space t))))
(indent-according-to-mode))))
;;;###autoload
(define-minor-mode electric-indent-mode
"Automatically reindent lines of code when inserting particular chars.
`electric-indent-chars' specifies the set of chars that should cause reindentation."
:global t
:group 'electricity
(if electric-indent-mode
(add-hook 'post-self-insert-hook
#'electric-indent-post-self-insert-function)
(remove-hook 'post-self-insert-hook
#'electric-indent-post-self-insert-function))
;; FIXME: electric-indent-mode and electric-layout-mode interact
;; in non-trivial ways. It turns out that electric-indent-mode works
;; better if it is run *after* electric-layout-mode's hook.
(when (memq #'electric-layout-post-self-insert-function
(memq #'electric-indent-post-self-insert-function
(default-value 'post-self-insert-hook)))
(remove-hook 'post-self-insert-hook
#'electric-layout-post-self-insert-function)
(add-hook 'post-self-insert-hook
#'electric-layout-post-self-insert-function)))
;; Electric pairing.
(defcustom electric-pair-pairs
'((?\" . ?\"))
"Alist of pairs that should be used regardless of major mode."
:type '(repeat (cons character character)))
(defcustom electric-pair-skip-self t
"If non-nil, skip char instead of inserting a second closing paren.
When inserting a closing paren character right before the same character,
just skip that character instead, so that hitting ( followed by ) results
in \"()\" rather than \"())\".
This can be convenient for people who find it easier to hit ) than C-f."
:type 'boolean)
(defun electric-pair-post-self-insert-function ()
(let* ((syntax (and (eq (char-before) last-command-event) ; Sanity check.
(let ((x (assq last-command-event electric-pair-pairs)))
(cond
(x (if (eq (car x) (cdr x)) ?\" ?\())
((rassq last-command-event electric-pair-pairs) ?\))
(t (char-syntax last-command-event))))))
;; FIXME: when inserting the closer, we should maybe use
;; self-insert-command, although it may prove tricky running
;; post-self-insert-hook recursively, and we wouldn't want to trigger
;; blink-matching-open.
(closer (if (eq syntax ?\()
(cdr (or (assq last-command-event electric-pair-pairs)
(aref (syntax-table) last-command-event)))
last-command-event)))
(cond
;; Wrap a pair around the active region.
((and (memq syntax '(?\( ?\" ?\$)) (use-region-p))
(if (> (mark) (point))
(goto-char (mark))
;; We already inserted the open-paren but at the end of the region,
;; so we have to remove it and start over.
(delete-char -1)
(save-excursion
(goto-char (mark))
(insert last-command-event)))
(insert closer))
;; Backslash-escaped: no pairing, no skipping.
((save-excursion
(goto-char (1- (point)))
(not (zerop (% (skip-syntax-backward "\\") 2))))
nil)
;; Skip self.
((and (memq syntax '(?\) ?\" ?\$))
electric-pair-skip-self
(eq (char-after) last-command-event))
;; This is too late: rather than insert&delete we'd want to only skip (or
;; insert in overwrite mode). The difference is in what goes in the
;; undo-log and in the intermediate state which might be visible to other
;; post-self-insert-hook. We'll just have to live with it for now.
(delete-char 1))
;; Insert matching pair.
((not (or (not (memq syntax `(?\( ?\" ?\$)))
overwrite-mode
;; I find it more often preferable not to pair when the
;; same char is next.
(eq last-command-event (char-after))
(eq last-command-event (char-before (1- (point))))
;; I also find it often preferable not to pair next to a word.
(eq (char-syntax (following-char)) ?w)))
(save-excursion (insert closer))))))
;;;###autoload
(define-minor-mode electric-pair-mode
"Automatically pair-up parens when inserting an open paren."
:global t
:group 'electricity
(if electric-pair-mode
(add-hook 'post-self-insert-hook
#'electric-pair-post-self-insert-function)
(remove-hook 'post-self-insert-hook
#'electric-pair-post-self-insert-function)))
;; Automatically add newlines after/before/around some chars.
(defvar electric-layout-rules '()
"List of rules saying where to automatically insert newlines.
Each rule has the form (CHAR . WHERE) where CHAR is the char
that was just inserted and WHERE specifies where to insert newlines
and can be: nil, `before', `after', `around', or a function that returns
one of those symbols.")
(defun electric-layout-post-self-insert-function ()
(let* ((rule (cdr (assq last-command-event electric-layout-rules)))
pos)
(when (and rule
(setq pos (electric--after-char-pos))
;; Not in a string or comment.
(not (nth 8 (save-excursion (syntax-ppss pos)))))
(let ((end (copy-marker (point) t)))
(goto-char pos)
(case (if (functionp rule) (funcall rule) rule)
;; FIXME: we used `newline' down here which called
;; self-insert-command and ran post-self-insert-hook recursively.
;; It happened to make electric-indent-mode work automatically with
;; electric-layout-mode (at the cost of re-indenting lines
;; multiple times), but I'm not sure it's what we want.
(before (goto-char (1- pos)) (skip-chars-backward " \t")
(unless (bolp) (insert "\n")))
(after (insert "\n")) ; FIXME: check eolp before inserting \n?
(around (save-excursion
(goto-char (1- pos)) (skip-chars-backward " \t")
(unless (bolp) (insert "\n")))
(insert "\n"))) ; FIXME: check eolp before inserting \n?
(goto-char end)))))
;;;###autoload
(define-minor-mode electric-layout-mode
"Automatically insert newlines around some chars."
:global t
:group 'electricity
(if electric-layout-mode
(add-hook 'post-self-insert-hook
#'electric-layout-post-self-insert-function)
(remove-hook 'post-self-insert-hook
#'electric-layout-post-self-insert-function)))
(provide 'electric)
;; arch-tag: dae045eb-dc2d-4fb7-9f27-9cc2ce277be8
;;; electric.el ends here
|