1 ;;; thingatpt.el --- get the `thing' at point
3 ;; Copyright (C) 1991,92,93,94,95,96,97,1998,2000
4 ;; Free Software Foundation, Inc.
6 ;; Author: Mike Williams <mikew@gopher.dosli.govt.nz>
8 ;; Keywords: extensions, matching, mouse
9 ;; Created: Thu Mar 28 13:48:23 1991
11 ;; This file is part of GNU Emacs.
13 ;; GNU Emacs is free software; you can redistribute it and/or modify
14 ;; it under the terms of the GNU General Public License as published by
15 ;; the Free Software Foundation; either version 2, or (at your option)
18 ;; GNU Emacs is distributed in the hope that it will be useful,
19 ;; but WITHOUT ANY WARRANTY; without even the implied warranty of
20 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
21 ;; GNU General Public License for more details.
25 ;; This file provides routines for getting the "thing" at the location of
26 ;; point, whatever that "thing" happens to be. The "thing" is defined by
27 ;; its beginning and end positions in the buffer.
29 ;; The function bounds-of-thing-at-point finds the beginning and end
30 ;; positions by moving first forward to the end of the "thing", and then
31 ;; backwards to the beginning. By default, it uses the corresponding
32 ;; forward-"thing" operator (eg. forward-word, forward-line).
34 ;; Special cases are allowed for using properties associated with the named
37 ;; forward-op Function to call to skip forward over a "thing" (or
38 ;; with a negative argument, backward).
40 ;; beginning-op Function to call to skip to the beginning of a "thing".
41 ;; end-op Function to call to skip to the end of a "thing".
43 ;; Reliance on existing operators means that many `things' can be accessed
44 ;; without further code: eg.
45 ;; (thing-at-point 'line)
46 ;; (thing-at-point 'page)
55 (defun forward-thing (thing &optional n
)
56 "Move forward to the end of the next THING."
57 (let ((forward-op (or (get thing
'forward-op
)
58 (intern-soft (format "forward-%s" thing
)))))
59 (if (functionp forward-op
)
60 (funcall forward-op
(or n
1))
61 (error "Can't determine how to move over a %s" thing
))))
66 (defun bounds-of-thing-at-point (thing)
67 "Determine the start and end buffer locations for the THING at point.
68 THING is a symbol which specifies the kind of syntactic entity you want.
69 Possibilities include `symbol', `list', `sexp', `defun', `filename', `url',
70 `word', `sentence', `whitespace', `line', `page' and others.
72 See the file `thingatpt.el' for documentation on how to define
73 a symbol as a valid THING.
75 The value is a cons cell (START . END) giving the start and end positions
76 of the textual entity that was found."
77 (if (get thing
'bounds-of-thing-at-point
)
78 (funcall (get thing
'bounds-of-thing-at-point
))
82 ;; Try moving forward, then back.
85 (or (get thing
'end-op
)
86 (function (lambda () (forward-thing thing
1)))))
90 (or (get thing
'beginning-op
)
91 (function (lambda () (forward-thing thing -
1)))))
93 (if (not (and beg
(> beg orig
)))
94 ;; If that brings us all the way back to ORIG,
95 ;; it worked. But END may not be the real end.
96 ;; So find the real end that corresponds to BEG.
100 (or (get thing
'end-op
)
101 (function (lambda () (forward-thing thing
1)))))
103 (if (and beg real-end
(<= beg orig
) (<= orig real-end
))
104 (cons beg real-end
)))
106 ;; Try a second time, moving backward first and then forward,
107 ;; so that we can find a thing that ends at ORIG.
110 (or (get thing
'beginning-op
)
111 (function (lambda () (forward-thing thing -
1)))))
115 (or (get thing
'end-op
)
116 (function (lambda () (forward-thing thing
1)))))
121 (or (get thing
'beginning-op
)
122 (function (lambda () (forward-thing thing -
1)))))
124 (if (and real-beg end
(<= real-beg orig
) (<= orig end
))
125 (cons real-beg end
))))))
129 (defun thing-at-point (thing)
130 "Return the THING at point.
131 THING is a symbol which specifies the kind of syntactic entity you want.
132 Possibilities include `symbol', `list', `sexp', `defun', `filename', `url',
133 `word', `sentence', `whitespace', `line', `page' and others.
135 See the file `thingatpt.el' for documentation on how to define
136 a symbol as a valid THING."
137 (if (get thing
'thing-at-point
)
138 (funcall (get thing
'thing-at-point
))
139 (let ((bounds (bounds-of-thing-at-point thing
)))
141 (buffer-substring (car bounds
) (cdr bounds
))))))
143 ;; Go to beginning/end
145 (defun beginning-of-thing (thing)
146 (let ((bounds (bounds-of-thing-at-point thing
)))
147 (or bounds
(error "No %s here" thing
))
148 (goto-char (car bounds
))))
150 (defun end-of-thing (thing)
151 (let ((bounds (bounds-of-thing-at-point thing
)))
152 (or bounds
(error "No %s here" thing
))
153 (goto-char (cdr bounds
))))
159 ;; bolp will be false when you click on the last line in the buffer
160 ;; and it has no final newline.
162 (put 'line
'beginning-op
163 (function (lambda () (if (bolp) (forward-line -
1) (beginning-of-line)))))
167 (defun in-string-p ()
168 (let ((orig (point)))
171 (nth 3 (parse-partial-sexp (point) orig
)))))
173 (defun end-of-sexp ()
174 (let ((char-syntax (char-syntax (char-after (point)))))
175 (if (or (eq char-syntax ?\
))
176 (and (eq char-syntax ?
\") (in-string-p)))
180 (put 'sexp
'end-op
'end-of-sexp
)
182 (defun beginning-of-sexp ()
183 (let ((char-syntax (char-syntax (char-before (point)))))
184 (if (or (eq char-syntax ?\
()
185 (and (eq char-syntax ?
\") (in-string-p)))
189 (put 'sexp
'beginning-op
'beginning-of-sexp
)
193 (put 'list
'end-op
(function (lambda () (up-list 1))))
194 (put 'list
'beginning-op
'backward-sexp
)
196 ;; Filenames and URLs
198 (defvar thing-at-point-file-name-chars
"~/A-Za-z0-9---_.${}#%,:"
199 "Characters allowable in filenames.")
201 (put 'filename
'end-op
202 (lambda () (skip-chars-forward thing-at-point-file-name-chars
)))
203 (put 'filename
'beginning-op
204 (lambda () (skip-chars-backward thing-at-point-file-name-chars
)))
206 (defvar thing-at-point-url-path-regexp
207 "[^]\t\n \"'()<>[^`{}]*[^]\t\n \"'()<>[^`{}.,;]+"
208 "A regular expression probably matching the host and filename or e-mail part of a URL.")
210 (defvar thing-at-point-short-url-regexp
211 (concat "[-A-Za-z0-9.]+" thing-at-point-url-path-regexp
)
212 "A regular expression probably matching a URL without an access scheme.
213 Hostname matching is stricter in this case than for
214 ``thing-at-point-url-regexp''.")
216 (defvar thing-at-point-uri-schemes
217 ;; Officials from http://www.iana.org/assignments/uri-schemes
218 '("ftp://" "http://" "gopher://" "mailto:" "news:" "nntp:"
219 "telnet://" "wais://" "file:/" "prospero:" "z39.50s:" "z39.50r:"
220 "cid:" "mid:" "vemmi:" "service:" "imap:" "nfs:" "acap:" "rtsp:"
221 "tip:" "pop:" "data:" "dav:" "opaquelocktoken:" "sip:" "tel:" "fax:"
222 "modem:" "ldap:" "https://" "soap.beep:" "soap.beeps:" "urn:" "go:"
223 "afs:" "tn3270:" "mailserver:"
226 "Uniform Resource Identifier (URI) Schemes")
228 (defvar thing-at-point-url-regexp
229 (concat "\\<\\(" (mapconcat 'identity thing-at-point-uri-schemes
"\\|") "\\)"
230 thing-at-point-url-path-regexp
)
231 "A regular expression probably matching a complete URL.")
233 (defvar thing-at-point-markedup-url-regexp
235 "A regular expression matching a URL marked up per RFC1738.
236 This may contain whitespace (including newlines) .")
238 (put 'url
'bounds-of-thing-at-point
'thing-at-point-bounds-of-url-at-point
)
239 (defun thing-at-point-bounds-of-url-at-point ()
240 (let ((url "") short strip
)
241 (if (or (setq strip
(thing-at-point-looking-at
242 thing-at-point-markedup-url-regexp
))
243 (thing-at-point-looking-at thing-at-point-url-regexp
)
244 ;; Access scheme omitted?
245 (setq short
(thing-at-point-looking-at
246 thing-at-point-short-url-regexp
)))
247 (let ((beginning (match-beginning 0))
250 (setq beginning
(+ beginning
5))
251 (setq end
(- end
1))))
252 (cons beginning end
)))))
254 (put 'url
'thing-at-point
'thing-at-point-url-at-point
)
255 (defun thing-at-point-url-at-point ()
256 "Return the URL around or before point.
258 Search backwards for the start of a URL ending at or after point. If
259 no URL found, return nil. The access scheme will be prepended if
260 absent: \"mailto:\" if the string contains \"@\", \"ftp://\" if it
261 starts with \"ftp\" and not \"ftp:/\", or \"http://\" by default."
263 (let ((url "") short strip
)
264 (if (or (setq strip
(thing-at-point-looking-at
265 thing-at-point-markedup-url-regexp
))
266 (thing-at-point-looking-at thing-at-point-url-regexp
)
267 ;; Access scheme omitted?
268 (setq short
(thing-at-point-looking-at
269 thing-at-point-short-url-regexp
)))
271 (setq url
(buffer-substring-no-properties (match-beginning 0)
273 (and strip
(setq url
(substring url
5 -
1))) ; Drop "<URL:" & ">"
275 (while (string-match "[ \t\n\r]+" url
)
276 (setq url
(replace-match "" t t url
)))
277 (and short
(setq url
(concat (cond ((string-match "@" url
)
279 ;; e.g. ftp.swiss... or ftp-swiss...
280 ((string-match "^ftp" url
)
284 (if (string-equal "" url
)
288 ;; The normal thingatpt mechanism doesn't work for complex regexps.
289 ;; This should work for almost any regexp wherever we are in the
290 ;; match. To do a perfect job for any arbitrary regexp would mean
291 ;; testing every position before point. Regexp searches won't find
292 ;; matches that straddle the start position so we search forwards once
293 ;; and then back repeatedly and then back up a char at a time.
295 (defun thing-at-point-looking-at (regexp)
296 "Return non-nil if point is in or just after a match for REGEXP.
297 Set the match data from the earliest such match ending at or after
300 (let ((old-point (point)) match
)
301 (and (looking-at regexp
)
302 (>= (match-end 0) old-point
)
303 (setq match
(point)))
304 ;; Search back repeatedly from end of next match.
305 ;; This may fail if next match ends before this match does.
306 (re-search-forward regexp nil
'limit
)
307 (while (and (re-search-backward regexp nil t
)
308 (or (> (match-beginning 0) old-point
)
309 (and (looking-at regexp
) ; Extend match-end past search start
310 (>= (match-end 0) old-point
)
311 (setq match
(point))))))
314 ;; Back up a char at a time in case search skipped
315 ;; intermediate match straddling search start pos.
316 (while (and (not (bobp))
317 (progn (backward-char 1) (looking-at regexp
))
318 (>= (match-end 0) old-point
)
319 (setq match
(point))))
321 (looking-at regexp
)))))
325 (let ((bounds (thing-at-point-bounds-of-url-at-point)))
327 (goto-char (cdr bounds
))
328 (error "No URL here"))))))
329 (put 'url
'beginning-op
331 (let ((bounds (thing-at-point-bounds-of-url-at-point)))
333 (goto-char (car bounds
))
334 (error "No URL here"))))))
338 (defun forward-whitespace (arg)
341 (re-search-forward "[ \t]+\\|\n" nil
'move arg
)
343 (if (re-search-backward "[ \t]+\\|\n" nil
'move
)
344 (or (eq (char-after (match-beginning 0)) 10)
345 (skip-chars-backward " \t")))
346 (setq arg
(1+ arg
)))))
350 (put 'buffer
'end-op
(lambda () (goto-char (point-max))))
351 (put 'buffer
'beginning-op
(lambda () (goto-char (point-min))))
355 (defun forward-symbol (arg)
358 (re-search-forward "\\(\\sw\\|\\s_\\)+" nil
'move arg
)
360 (if (re-search-backward "\\(\\sw\\|\\s_\\)+" nil
'move
)
361 (skip-syntax-backward "w_"))
362 (setq arg
(1+ arg
)))))
366 (defun forward-same-syntax (&optional arg
)
369 (skip-syntax-backward
370 (char-to-string (char-syntax (char-after (1- (point))))))
373 (skip-syntax-forward (char-to-string (char-syntax (char-after (point)))))
374 (setq arg
(1- arg
))))
378 (defun word-at-point () (thing-at-point 'word
))
379 (defun sentence-at-point () (thing-at-point 'sentence
))
381 (defun read-from-whole-string (str)
382 "Read a lisp expression from STR.
383 Signal an error if the entire string was not used."
384 (let* ((read-data (read-from-string str
))
387 ;; The call to `ignore' suppresses a compiler warning.
388 (progn (ignore (read-from-string (substring str
(cdr read-data
))))
392 (error "Can't read whole string")
395 (defun form-at-point (&optional thing pred
)
396 (let ((sexp (condition-case nil
397 (read-from-whole-string (thing-at-point (or thing
'sexp
)))
399 (if (or (not pred
) (funcall pred sexp
)) sexp
)))
402 (defun sexp-at-point () (form-at-point 'sexp
))
404 (defun symbol-at-point () (form-at-point 'sexp
'symbolp
))
406 (defun number-at-point () (form-at-point 'sexp
'numberp
))
408 (defun list-at-point () (form-at-point 'list
'listp
))
410 ;;; thingatpt.el ends here