1 ;;; lisp.el --- Lisp editing commands for Emacs
3 ;; Copyright (C) 1985, 1986, 1994, 2000 Free Software Foundation, Inc.
6 ;; Keywords: lisp, languages
8 ;; This file is part of GNU Emacs.
10 ;; GNU Emacs is free software; you can redistribute it and/or modify
11 ;; it under the terms of the GNU General Public License as published by
12 ;; the Free Software Foundation; either version 2, or (at your option)
15 ;; GNU Emacs is distributed in the hope that it will be useful,
16 ;; but WITHOUT ANY WARRANTY; without even the implied warranty of
17 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 ;; GNU General Public License for more details.
20 ;; You should have received a copy of the GNU General Public License
21 ;; along with GNU Emacs; see the file COPYING. If not, write to the
22 ;; Free Software Foundation, Inc., 59 Temple Place - Suite 330,
23 ;; Boston, MA 02111-1307, USA.
27 ;; Lisp editing commands to go with Lisp major mode. More-or-less
28 ;; applicable in other modes too.
32 ;; Note that this variable is used by non-lisp modes too.
33 (defcustom defun-prompt-regexp nil
34 "*If non-nil, a regexp to ignore before the character that starts a defun.
35 This is only necessary if the opening paren or brace is not in column 0.
36 See function `beginning-of-defun'.
38 Setting this variable automatically makes it local to the current buffer."
39 :type
'(choice (const nil
)
42 (make-variable-buffer-local 'defun-prompt-regexp
)
44 (defcustom parens-require-spaces t
45 "Non-nil means `insert-parentheses' should insert whitespace as needed."
49 (defvar forward-sexp-function nil
50 "If non-nil, `forward-sexp' delegates to this function.
51 Should take the same arguments and behave similarly to `forward-sexp'.")
53 (defun forward-sexp (&optional arg
)
54 "Move forward across one balanced expression (sexp).
55 With ARG, do it that many times. Negative arg -N means
56 move backward across N balanced expressions."
59 (if forward-sexp-function
60 (funcall forward-sexp-function arg
)
61 (goto-char (or (scan-sexps (point) arg
) (buffer-end arg
)))
62 (if (< arg
0) (backward-prefix-chars))))
64 (defun backward-sexp (&optional arg
)
65 "Move backward across one balanced expression (sexp).
66 With ARG, do it that many times. Negative arg -N means
67 move forward across N balanced expressions."
70 (forward-sexp (- arg
)))
72 (defun mark-sexp (&optional arg
)
73 "Set mark ARG sexps from point.
74 The place mark goes is the same place \\[forward-sexp] would
75 move to with the same argument.
76 If this command is repeated, it marks the next ARG sexps after the ones
79 (cond ((and (eq last-command this-command
) (mark t
))
83 (forward-sexp (or arg
1))
88 (forward-sexp (or arg
1))
92 (defun forward-list (&optional arg
)
93 "Move forward across one balanced group of parentheses.
94 With ARG, do it that many times.
95 Negative arg -N means move backward across N groups of parentheses."
98 (goto-char (or (scan-lists (point) arg
0) (buffer-end arg
))))
100 (defun backward-list (&optional arg
)
101 "Move backward across one balanced group of parentheses.
102 With ARG, do it that many times.
103 Negative arg -N means move forward across N groups of parentheses."
105 (or arg
(setq arg
1))
106 (forward-list (- arg
)))
108 (defun down-list (&optional arg
)
109 "Move forward down one level of parentheses.
110 With ARG, do this that many times.
111 A negative argument means move backward but still go down a level."
113 (or arg
(setq arg
1))
114 (let ((inc (if (> arg
0) 1 -
1)))
116 (goto-char (or (scan-lists (point) inc -
1) (buffer-end arg
)))
117 (setq arg
(- arg inc
)))))
119 (defun backward-up-list (&optional arg
)
120 "Move backward out of one level of parentheses.
121 With ARG, do this that many times.
122 A negative argument means move forward but still to a less deep spot."
124 (up-list (- (or arg
1))))
126 (defun up-list (&optional arg
)
127 "Move forward out of one level of parentheses.
128 With ARG, do this that many times.
129 A negative argument means move backward but still to a less deep spot."
131 (or arg
(setq arg
1))
132 (let ((inc (if (> arg
0) 1 -
1)))
134 (goto-char (or (scan-lists (point) inc
1) (buffer-end arg
)))
135 (setq arg
(- arg inc
)))))
137 (defun kill-sexp (&optional arg
)
138 "Kill the sexp (balanced expression) following the cursor.
139 With ARG, kill that many sexps after the cursor.
140 Negative arg -N means kill N sexps before the cursor."
142 (let ((opoint (point)))
143 (forward-sexp (or arg
1))
144 (kill-region opoint
(point))))
146 (defun backward-kill-sexp (&optional arg
)
147 "Kill the sexp (balanced expression) preceding the cursor.
148 With ARG, kill that many sexps before the cursor.
149 Negative arg -N means kill N sexps after the cursor."
151 (kill-sexp (- (or arg
1))))
153 (defvar beginning-of-defun-function nil
154 "If non-nil, function for `beginning-of-defun-raw' to call.
155 This is used to find the beginning of the defun instead of using the
156 normal recipe (see `beginning-of-defun'). Major modes can define this
157 if defining `defun-prompt-regexp' is not sufficient to handle the mode's
160 The function (of no args) should go to the line on which the current
161 defun starts, and return non-nil, or should return nil if it can't
162 find the beginning.")
164 (defun beginning-of-defun (&optional arg
)
165 "Move backward to the beginning of a defun.
166 With ARG, do it that many times. Negative arg -N
167 means move forward to Nth following beginning of defun.
168 Returns t unless search stops due to beginning or end of buffer.
170 Normally a defun starts when there is a char with open-parenthesis
171 syntax at the beginning of a line. If `defun-prompt-regexp' is
172 non-nil, then a string which matches that regexp may precede the
173 open-parenthesis, and point ends up at the beginning of the line.
175 If variable `beginning-of-defun-function' is non-nil, its value
176 is called as a function to find the defun's beginning."
178 (and (beginning-of-defun-raw arg
)
179 (progn (beginning-of-line) t
)))
181 (defun beginning-of-defun-raw (&optional arg
)
182 "Move point to the character that starts a defun.
183 This is identical to function `beginning-of-defun', except that point
184 does not move to the beginning of the line when `defun-prompt-regexp'
187 If variable `beginning-of-defun-function' is non-nil, its value
188 is called as a function to find the defun's beginning."
190 (if beginning-of-defun-function
191 (dotimes (i (or arg
1))
192 (funcall beginning-of-defun-function
))
193 (and arg
(< arg
0) (not (eobp)) (forward-char 1))
194 (and (re-search-backward (if defun-prompt-regexp
195 (concat (if open-paren-in-column-0-is-defun-start
197 "\\(?:" defun-prompt-regexp
"\\)\\s(")
199 nil
'move
(or arg
1))
200 (progn (goto-char (1- (match-end 0)))) t
)))
202 (defvar end-of-defun-function nil
203 "If non-nil, function for function `end-of-defun' to call.
204 This is used to find the end of the defun instead of using the normal
205 recipe (see `end-of-defun'). Major modes can define this if the
206 normal method is not appropriate.")
208 (defun buffer-end (arg)
209 (if (> arg
0) (point-max) (point-min)))
211 (defun end-of-defun (&optional arg
)
212 "Move forward to next end of defun. With argument, do it that many times.
213 Negative argument -N means move back to Nth preceding end of defun.
215 An end of a defun occurs right after the close-parenthesis that
216 matches the open-parenthesis that starts a defun; see function
217 `beginning-of-defun'.
219 If variable `end-of-defun-function' is non-nil, its value
220 is called as a function to find the defun's end."
222 (if end-of-defun-function
223 (dotimes (i (or arg
1))
224 (funcall end-of-defun-function
))
225 (if (or (null arg
) (= arg
0)) (setq arg
1))
227 (while (and (> arg
0) (< (point) (point-max)))
228 (let ((pos (point)) npos
)
233 (beginning-of-defun-raw 1)))
235 (or (bobp) (forward-char -
1))
236 (beginning-of-defun-raw -
1))
239 (skip-chars-forward " \t")
240 (if (looking-at "\\s<\\|\n")
246 (beginning-of-defun-raw 1)
250 (if (beginning-of-defun-raw 2)
253 (skip-chars-forward " \t")
254 (if (looking-at "\\s<\\|\n")
256 (goto-char (point-min)))))
257 (setq arg
(1+ arg
))))))
260 "Put mark at end of this defun, point at beginning.
261 The defun marked is the one that contains point or follows point.
262 If this command is repeated, marks more defuns after the ones
265 (cond ((and (eq last-command this-command
) (mark t
))
272 ;; Do it in this order for the sake of languages with nested
273 ;; functions where several can end at the same place as with
274 ;; the offside rule, e.g. Python.
277 (push-mark (point) nil t
)
279 (exchange-point-and-mark)
280 (re-search-backward "^\n" (- (point) 1) t
))))
282 (defun narrow-to-defun (&optional arg
)
283 "Make text outside current defun invisible.
284 The defun visible is the one that contains point or follows point.
285 Optional ARG is ignored."
289 ;; Do it in this order for the sake of languages with nested
290 ;; functions where several can end at the same place as with the
291 ;; offside rule, e.g. Python.
295 (narrow-to-region beg
(point)))))
297 (defun insert-parentheses (arg)
298 "Enclose following ARG sexps in parentheses. Leave point after open-paren.
299 A negative ARG encloses the preceding ARG sexps instead.
300 No argument is equivalent to zero: just insert `()' and leave point between.
301 If `parens-require-spaces' is non-nil, this command also inserts a space
302 before and after, depending on the surrounding characters."
304 (if arg
(setq arg
(prefix-numeric-value arg
))
306 (cond ((> arg
0) (skip-chars-forward " \t"))
307 ((< arg
0) (forward-sexp arg
) (setq arg
(- arg
))))
308 (and parens-require-spaces
310 (memq (char-syntax (preceding-char)) '(?w ?_ ?\
) ))
314 (or (eq arg
0) (forward-sexp arg
))
316 (and parens-require-spaces
318 (memq (char-syntax (following-char)) '(?w ?_ ?\
( ))
321 (defun move-past-close-and-reindent ()
322 "Move past next `)', delete indentation before it, then indent after it."
326 (while (save-excursion ; this is my contribution
327 (let ((before-paren (point)))
328 (back-to-indentation)
329 (and (= (point) before-paren
)
331 ;; Move to end of previous line.
334 ;; Verify it doesn't end within a string or comment.
338 ;; Get state at start of line.
339 (setq state
(list 0 nil nil
340 (null (calculate-lisp-indent))
343 ;; Parse state across the line to get state at end.
344 (setq state
(parse-partial-sexp (point) end nil nil
346 ;; Check not in string or comment.
347 (and (not (elt state
3)) (not (elt state
4))))))))
348 (delete-indentation))
350 (newline-and-indent))
352 (defun check-parens () ; lame name?
353 "Check for unbalanced parentheses in the current buffer.
354 More accurately, check the narrowed part of the buffer for unbalanced
355 expressions (\"sexps\") in general. This is done according to the
356 current syntax table and will find unbalanced brackets or quotes as
357 appropriate. (See Info node `(emacs)Lists and Sexps'.) If imbalance
358 is found, an error is signalled and point is left at the first
359 unbalanced character."
362 ;; Buffer can't have more than (point-max) sexps.
363 (scan-sexps (point-min) (point-max))
364 (scan-error (goto-char (nth 2 data
))
365 ;; Could print (nth 1 data), which is either
366 ;; "Containing expression ends prematurely" or
367 ;; "Unbalanced parentheses", but those may not be so
368 ;; accurate/helpful, e.g. quotes may actually be
370 (error "Unmatched bracket or quote"))
371 (error (cond ((eq 'scan-error
(car data
))
372 (goto-char (nth 2 data
))
373 (error "Unmatched bracket or quote"))
374 (t (signal (car data
) (cdr data
)))))))
376 (defun lisp-complete-symbol (&optional predicate
)
377 "Perform completion on Lisp symbol preceding point.
378 Compare that symbol against the known Lisp symbols.
379 If no characters can be completed, display a list of possible completions.
380 Repeating the command at that point scrolls the list.
382 When called from a program, optional arg PREDICATE is a predicate
383 determining which symbols are considered, e.g. `commandp'.
384 If PREDICATE is nil, the context determines which symbols are
385 considered. If the symbol starts just after an open-parenthesis, only
386 symbols with function definitions are considered. Otherwise, all
387 symbols with function definitions, values or properties are
391 (let ((window (get-buffer-window "*Completions*")))
392 (if (and (eq last-command this-command
)
393 window
(window-live-p window
) (window-buffer window
)
394 (buffer-name (window-buffer window
)))
395 ;; If this command was repeated, and
396 ;; there's a fresh completion window with a live buffer,
397 ;; and this command is repeated, scroll that window.
398 (with-current-buffer (window-buffer window
)
399 (if (pos-visible-in-window-p (point-max) window
)
400 (set-window-start window
(point-min))
401 (save-selected-window
402 (select-window window
)
407 (beg (with-syntax-table emacs-lisp-mode-syntax-table
410 (while (= (char-syntax (following-char)) ?
\')
413 (pattern (buffer-substring-no-properties beg end
))
418 (if (not (eq (char-before) ?\
())
419 (lambda (sym) ;why not just nil ? -sm
420 (or (boundp sym
) (fboundp sym
)
422 ;; Looks like a funcall position. Let's double check.
423 (if (condition-case nil
424 (progn (up-list -
2) (forward-char 1)
425 (eq (char-after) ?\
())
427 ;; If the first element of the parent list is an open
428 ;; parenthesis we are probably not in a funcall position.
429 ;; Maybe a `let' varlist or something.
431 ;; Else, we assume that a function name is expected.
433 (completion (try-completion pattern obarray predicate
)))
434 (cond ((eq completion t
))
436 (message "Can't find completion for \"%s\"" pattern
)
438 ((not (string= pattern completion
))
439 (delete-region beg end
)
442 (message "Making completion list...")
443 (let ((list (all-completions pattern obarray predicate
)))
444 (setq list
(sort list
'string
<))
445 (or (eq predicate
'fboundp
)
448 (setq new
(cons (if (fboundp (intern (car list
)))
449 (list (car list
) " <f>")
452 (setq list
(cdr list
)))
453 (setq list
(nreverse new
))))
454 (with-output-to-temp-buffer "*Completions*"
455 (display-completion-list list
)))
456 (message "Making completion list...%s" "done")))))))
458 ;;; arch-tag: aa7fa8a4-2e6f-4e9b-9cd9-fef06340e67e
459 ;;; lisp.el ends here