;;; thingatpt.el --- get the `thing' at point -*- lexical-binding:t -*- ;; Copyright (C) 1991-1998, 2000-2024 Free Software Foundation, Inc. ;; Author: Mike Williams ;; Maintainer: emacs-devel@gnu.org ;; Keywords: extensions, matching, mouse ;; Created: Thu Mar 28 13:48:23 1991 ;; 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 . ;;; Commentary: ;; This file provides routines for getting the "thing" at the location of ;; point, whatever that "thing" happens to be. The "thing" is defined by ;; its beginning and end positions in the buffer. ;; ;; The function bounds-of-thing-at-point finds the beginning and end ;; positions by moving first forward to the end of the "thing", and then ;; backwards to the beginning. By default, it uses the corresponding ;; forward-"thing" operator (e.g. forward-word, forward-line). ;; ;; Special cases are allowed for using properties associated with the named ;; "thing": ;; ;; forward-op Function to call to skip forward over a "thing" (or ;; with a negative argument, backward). ;; ;; beginning-op Function to call to skip to the beginning of a "thing". ;; end-op Function to call to skip to the end of a "thing". ;; ;; For simple things, defined as sequences of specific kinds of characters, ;; use macro define-thing-chars. ;; ;; Reliance on existing operators means that many `things' can be accessed ;; without further code: eg. ;; (thing-at-point 'line) ;; (thing-at-point 'page) ;;; Code: (provide 'thingatpt) (defvar thing-at-point-provider-alist nil "Alist of providers for returning a \"thing\" at point. This variable can be set globally, or appended to buffer-locally by modes, to provide functions that will return a \"thing\" at point. The first provider for the \"thing\" that returns a non-nil value wins. For instance, a major mode could say: \(setq-local thing-at-point-provider-alist (append thing-at-point-provider-alist \\='((url . my-mode--url-at-point)))) to provide a way to get an `url' at point in that mode. The provider functions are called with no parameters at the point in question. \"things\" include `symbol', `list', `sexp', `defun', `filename', `existing-filename', `url', `email', `uuid', `word', `sentence', `whitespace', `line', `face' and `page'.") (defvar forward-thing-provider-alist nil "Alist of providers for moving forward to the end of the next \"thing\". This variable can be set globally, or appended to buffer-locally by modes, to provide functions that will move forward to the end of a \"thing\" at point. Each function should take a single argument BACKWARD, which is non-nil if the function should instead move to the beginning of the previous thing. The provider for \"thing\" that moves point by the smallest non-zero distance wins. You can use this variable in much the same way as `thing-at-point-provider-alist' (which see).") (defvar bounds-of-thing-at-point-provider-alist nil "Alist of providers to return the bounds of a \"thing\" at point. This variable can be set globally, or appended to buffer-locally by modes, to provide functions that will return the bounds of a \"thing\" at point. The first provider for the \"thing\" that returns a non-nil value wins. You can use this variable in much the same way as `thing-at-point-provider-alist' (which see).") ;; Basic movement ;;;###autoload (defun forward-thing (thing &optional n) "Move forward to the end of the Nth next THING. THING should be a symbol specifying a type of syntactic entity. Possibilities include `symbol', `list', `sexp', `defun', `number', `filename', `url', `email', `uuid', `word', `sentence', `whitespace', `line', and `page'." (setq n (or n 1)) (if (assq thing forward-thing-provider-alist) (let* ((backward (< n 0)) (reducer (if backward #'max #'min)) (limit (if backward (point-min) (point-max)))) (catch 'done (dotimes (_ (abs n)) ;; Find the provider that moves point the smallest non-zero ;; amount, and use that to update point. (let ((new-point (seq-reduce (lambda (value elt) (if (eq (car elt) thing) (save-excursion (funcall (cdr elt) backward) (if value (funcall reducer value (point)) (point))) value)) forward-thing-provider-alist nil))) (if (and new-point (/= new-point (point))) (goto-char new-point) ;; If we didn't move point, move to our limit (min or max ;; point), and terminate. (goto-char limit) (throw 'done t)))))) (let ((forward-op (or (get thing 'forward-op) (intern-soft (format "forward-%s" thing))))) (if (functionp forward-op) (funcall forward-op n) (error "Can't determine how to move over a %s" thing))))) ;; General routines ;;;###autoload (defun bounds-of-thing-at-point (thing) "Determine the start and end buffer locations for the THING at point. THING should be a symbol specifying a type of syntactic entity. Possibilities include `symbol', `list', `sexp', `defun', `number', `filename', `url', `email', `uuid', `word', `sentence', `whitespace', `line', and `page'. See the file `thingatpt.el' for documentation on how to define a valid THING. Return a cons cell (START . END) giving the start and end positions of the thing found." (cond ((seq-some (lambda (elt) (and (eq (car elt) thing) (funcall (cdr elt)))) bounds-of-thing-at-point-provider-alist)) ((get thing 'bounds-of-thing-at-point) (funcall (get thing 'bounds-of-thing-at-point))) ;; If the buffer is totally empty, give up. ((and (not (eq thing 'whitespace)) (save-excursion (goto-char (point-min)) (not (re-search-forward "[^\t\n ]" nil t)))) nil) ;; Find the thing. (t (let ((orig (point))) (ignore-errors (save-excursion ;; Try moving forward, then back. (funcall ;; First move to end. (or (get thing 'end-op) (lambda () (forward-thing thing 1)))) (funcall ;; Then move to beg. (or (get thing 'beginning-op) (lambda () (forward-thing thing -1)))) (let ((beg (point))) (if (<= beg orig) ;; If that brings us all the way back to ORIG, ;; it worked. But END may not be the real end. ;; So find the real end that corresponds to BEG. ;; FIXME: in which cases can `real-end' differ from `end'? (let ((real-end (progn (funcall (or (get thing 'end-op) (lambda () (forward-thing thing 1)))) (point)))) (when (and (<= orig real-end) (< beg real-end)) (cons beg real-end))) (goto-char orig) ;; Try a second time, moving backward first and then forward, ;; so that we can find a thing that ends at ORIG. (funcall ;; First, move to beg. (or (get thing 'beginning-op) (lambda () (forward-thing thing -1)))) (funcall ;; Then move to end. (or (get thing 'end-op) (lambda () (forward-thing thing 1)))) (let ((end (point)) (real-beg (progn (funcall (or (get thing 'beginning-op) (lambda () (forward-thing thing -1)))) (point)))) (if (and (<= real-beg orig) (<= orig end) (< real-beg end)) (cons real-beg end))))))))))) ;;;###autoload (defun thing-at-point (thing &optional no-properties) "Return the THING at point. THING should be a symbol specifying a type of syntactic entity. Possibilities include `symbol', `list', `sexp', `defun', `filename', `existing-filename', `url', `email', `uuid', `word', `sentence', `whitespace', `line', `number', `face' and `page'. When the optional argument NO-PROPERTIES is non-nil, strip text properties from the return value. See the file `thingatpt.el' for documentation on how to define a symbol as a valid THING." (let ((text (cond ((let ((alist thing-at-point-provider-alist) elt result) (while (and alist (null result)) (setq elt (car alist) alist (cdr alist)) (and (eq (car elt) thing) (setq result (funcall (cdr elt))))) result)) ((get thing 'thing-at-point) (funcall (get thing 'thing-at-point))) (t (let ((bounds (bounds-of-thing-at-point thing))) (when bounds (buffer-substring (car bounds) (cdr bounds)))))))) (when (and text no-properties (sequencep text)) (set-text-properties 0 (length text) nil text)) text)) ;;;###autoload (defun bounds-of-thing-at-mouse (event thing) "Determine start and end locations for THING at mouse click given by EVENT. Like `bounds-of-thing-at-point', but tries to use the position in EVENT where the mouse button is clicked to find the thing nearby." (save-excursion (mouse-set-point event) (bounds-of-thing-at-point thing))) ;;;###autoload (defun thing-at-mouse (event thing &optional no-properties) "Return the THING at mouse click specified by EVENT. Like `thing-at-point', but tries to use the position in EVENT where the mouse button is clicked to find the thing nearby." (save-excursion (mouse-set-point event) (thing-at-point thing no-properties))) ;; Go to beginning/end (defun beginning-of-thing (thing) "Move point to the beginning of THING. The bounds of THING are determined by `bounds-of-thing-at-point'." (let ((bounds (bounds-of-thing-at-point thing))) (or bounds (error "No %s here" thing)) (goto-char (car bounds)))) (defun end-of-thing (thing) "Move point to the end of THING. The bounds of THING are determined by `bounds-of-thing-at-point'." (let ((bounds (bounds-of-thing-at-point thing))) (or bounds (error "No %s here" thing)) (goto-char (cdr bounds)))) ;; Special cases ;; Lines ;; bolp will be false when you click on the last line in the buffer ;; and it has no final newline. (put 'line 'beginning-op (lambda () (if (bolp) (forward-line -1) (beginning-of-line)))) ;; Strings (put 'string 'bounds-of-thing-at-point 'thing-at-point-bounds-of-string-at-point) (defun thing-at-point-bounds-of-string-at-point () "Return the bounds of the string at point. Prefer the enclosing string with fallback on sexp at point. \[Internal function used by `bounds-of-thing-at-point'.]" (save-excursion (let ((ppss (syntax-ppss))) (if (nth 3 ppss) ;; Inside the string (ignore-errors (goto-char (nth 8 ppss)) (cons (point) (progn (forward-sexp) (point)))) ;; At the beginning of the string (if (let ((ca (char-after))) (and ca (eq (char-syntax ca) ?\"))) (let ((bound (bounds-of-thing-at-point 'sexp))) (and bound (<= (car bound) (point)) (< (point) (cdr bound)) bound))))))) (defun in-string-p () "Return non-nil if point is in a string." (declare (obsolete "use (nth 3 (syntax-ppss)) instead." "25.1")) (let ((orig (point))) (save-excursion (beginning-of-defun) (nth 3 (parse-partial-sexp (point) orig))))) ;; Sexps (defun thing-at-point--end-of-sexp () "Move point to the end of the current sexp." (let ((char-syntax (syntax-after (point)))) (if (or (eq char-syntax ?\)) (and (eq char-syntax ?\") (nth 3 (syntax-ppss)))) (forward-char 1) (condition-case _ (forward-sexp 1) (scan-error nil))))) (define-obsolete-function-alias 'end-of-sexp 'thing-at-point--end-of-sexp "25.1" "This is an internal thingatpt function and should not be used.") (put 'sexp 'end-op 'thing-at-point--end-of-sexp) (defun thing-at-point--beginning-of-sexp () "Move point to the beginning of the current sexp." (let ((char-syntax (char-syntax (char-before)))) (if (or (eq char-syntax ?\() (and (eq char-syntax ?\") (nth 3 (syntax-ppss)))) (forward-char -1) (forward-sexp -1)))) (define-obsolete-function-alias 'beginning-of-sexp 'thing-at-point--beginning-of-sexp "25.1" "This is an internal thingatpt function and should not be used.") (put 'sexp 'beginning-op 'thing-at-point--beginning-of-sexp) ;; Symbols (put 'symbol 'beginning-op 'thing-at-point--beginning-of-symbol) (defun thing-at-point--beginning-of-symbol () "Move point to the beginning of the current symbol." (and (re-search-backward "\\(\\sw\\|\\s_\\)+") (skip-syntax-backward "w_"))) ;; Lists (put 'list 'bounds-of-thing-at-point 'thing-at-point-bounds-of-list-at-point) (defun thing-at-point-bounds-of-list-at-point () "Return the bounds of the list at point. Prefer the enclosing list with fallback on sexp at point. \[Internal function used by `bounds-of-thing-at-point'.]" (save-excursion (if (ignore-errors (up-list -1)) (ignore-errors (cons (point) (progn (forward-sexp) (point)))) (let ((bound (bounds-of-thing-at-point 'sexp))) (and bound (<= (car bound) (point)) (< (point) (cdr bound)) bound))))) ;; Defuns (put 'defun 'beginning-op 'beginning-of-defun) (put 'defun 'end-op 'end-of-defun) (put 'defun 'forward-op 'end-of-defun) ;; Things defined by sets of characters (defmacro define-thing-chars (thing chars) "Define THING as a sequence of CHARS. E.g.: \(define-thing-chars twitter-screen-name \"[:alnum:]_\")" `(progn (put ',thing 'end-op (lambda () (re-search-forward (concat "\\=[" ,chars "]*") nil t))) (put ',thing 'beginning-op (lambda () (if (re-search-backward (concat "[^" ,chars "]") nil t) (forward-char) (goto-char (point-min))))))) ;; Filenames (defvar thing-at-point-file-name-chars "-@~/[:alnum:]_.${}#%,:" "Characters allowable in filenames.") (define-thing-chars filename thing-at-point-file-name-chars) ;; Files (defun thing-at-point-file-at-point (&optional _lax _bounds) "Return the name of the existing file at point." (when-let* ((filename (thing-at-point 'filename))) (setq filename (expand-file-name filename)) (and (file-exists-p filename) filename))) (put 'existing-filename 'bounds-of-thing-at-point (lambda () (and (thing-at-point 'existing-filename) (bounds-of-thing-at-point 'filename)))) (put 'existing-filename 'thing-at-point 'thing-at-point-file-at-point) ;; Faces (defun thing-at-point-face-at-point (&optional _lax _bounds) "Return the name of the face at point as a symbol." (when-let* ((face (thing-at-point 'symbol))) (and (facep face) (intern face)))) (put 'face 'thing-at-point 'thing-at-point-face-at-point) ;; URIs (defvar thing-at-point-beginning-of-url-regexp nil "Regexp matching the beginning of a well-formed URI. If nil, construct the regexp from `thing-at-point-uri-schemes'.") (defvar thing-at-point-url-path-regexp "[^]\t\n \"'<>[^`{}]*[^]\t\n \"'<>[^`{}.,;]+" "Regexp matching the host and filename or e-mail part of a URL.") (defvar thing-at-point-short-url-regexp (concat "[-A-Za-z0-9]+\\.[-A-Za-z0-9.]+" thing-at-point-url-path-regexp) "Regexp matching a URI without a scheme component.") (defvar thing-at-point-uri-schemes ;; Officials from https://www.iana.org/assignments/uri-schemes.html '("aaa://" "about:" "acap://" "apt:" "bzr://" "bzr+ssh://" "attachment:/" "chrome://" "cid:" "content://" "crid://" "cvs://" "data:" "dav:" "dict://" "doi:" "dns:" "dtn:" "feed:" "file:/" "finger://" "fish://" "ftp://" "geo:" "git://" "go:" "gopher://" "h323:" "http://" "https://" "im:" "imap://" "info:" "ipp:" "irc://" "irc6://" "ircs://" "iris.beep:" "jar:" "ldap://" "ldaps://" "magnet:" "mailto:" "mid:" "mtqp://" "mupdate://" "news:" "nfs://" "nntp://" "opaquelocktoken:" "pop://" "pres:" "resource://" "rmi://" "rsync://" "rtsp://" "rtspu://" "service:" "sftp://" "sip:" "sips:" "smb://" "sms:" "snmp://" "soap.beep://" "soap.beeps://" "ssh://" "svn://" "svn+ssh://" "tag:" "tel:" "telnet://" "tftp://" "tip://" "tn3270://" "udp://" "urn:" "uuid:" "vemmi://" "webcal://" "xri://" "xmlrpc.beep://" "xmlrpc.beeps://" "z39.50r://" "z39.50s://" "xmpp:" ;; Unofficial "gemini://" ;; Compatibility "fax:" "man:" "mms://" "mmsh://" "modem:" "prospero:" "snews:" "wais://") "List of URI schemes recognized by `thing-at-point-url-at-point'. Each string in this list should correspond to the start of a URI's scheme component, up to and including the trailing // if the scheme calls for that to be present.") (defvar thing-at-point-markedup-url-regexp "\n]+\\)>" "Regexp matching a URL marked up per RFC1738. This kind of markup was formerly recommended as a way to indicate URIs, but as of RFC 3986 it is no longer recommended. Subexpression 1 should contain the delimited URL.") (defvar thing-at-point-newsgroup-regexp "\\`[[:lower:]]+\\.[-+[:lower:]_0-9.]+\\'" "Regexp matching a newsgroup name.") (defvar thing-at-point-newsgroup-heads '("alt" "comp" "gnu" "misc" "news" "sci" "soc" "talk") "Used by `thing-at-point-newsgroup-p' if gnus is not running.") (defvar thing-at-point-default-mail-uri-scheme "mailto" "Default scheme for ill-formed URIs that look like . If nil, do not give such URIs a scheme.") (put 'url 'bounds-of-thing-at-point 'thing-at-point-bounds-of-url-at-point) (defun thing-at-point-bounds-of-url-at-point (&optional lax) "Return a cons cell containing the start and end of the URI at point. Try to find a URI using `thing-at-point-markedup-url-regexp'. If that fails, try with `thing-at-point-beginning-of-url-regexp'. If that also fails, and optional argument LAX is non-nil, return the bounds of a possible ill-formed URI (one lacking a scheme)." ;; Look for the old markup. If found, use it. (or (thing-at-point--bounds-of-markedup-url) ;; Otherwise, find the bounds within which a URI may exist. The ;; method is similar to `ffap-string-at-point'. Note that URIs ;; may contain parentheses but may not contain spaces (RFC3986). (let* ((allowed-chars "--:=&?$+@-Z_[:alpha:]~#,%;*()!'[]") (skip-before "^[0-9a-zA-Z]") (skip-after ":;.,!?'") (pt (point)) (beg (save-excursion (skip-chars-backward allowed-chars) (skip-chars-forward skip-before pt) (point))) (end (save-excursion (skip-chars-forward allowed-chars) (skip-chars-backward skip-after pt) (point)))) (or (thing-at-point--bounds-of-well-formed-url beg end pt) (if lax (cons beg end)))))) (defun thing-at-point--bounds-of-markedup-url () (when thing-at-point-markedup-url-regexp (let ((case-fold-search t) (pt (point)) (beg (line-beginning-position)) (end (line-end-position)) found) (save-excursion (goto-char beg) (while (and (not found) (<= (point) pt) (< (point) end)) (and (re-search-forward thing-at-point-markedup-url-regexp end 1) (> (point) pt) (setq found t)))) (if found (cons (match-beginning 1) (match-end 1)))))) (defun thing-at-point--bounds-of-well-formed-url (beg end pt) (save-excursion (goto-char beg) (let (url-beg paren-end regexp) (save-restriction (narrow-to-region beg end) ;; The scheme component must either match at BEG, or have no ;; other alphanumerical ASCII characters before it. (setq regexp (concat "\\(?:\\`\\|[^a-zA-Z0-9]\\)\\(" (or thing-at-point-beginning-of-url-regexp (regexp-opt thing-at-point-uri-schemes)) "\\)")) (and (re-search-forward regexp end t) ;; URI must have non-empty contents. (< (point) end) (setq url-beg (match-beginning 1)))) (when url-beg ;; If there is an open paren before the URI, truncate to the ;; matching close paren. (and (> url-beg (point-min)) (eq (car-safe (syntax-after (1- url-beg))) 4) (save-restriction (narrow-to-region (1- url-beg) (min end (point-max))) (setq paren-end (ignore-errors ;; Make the scan work inside comments. (let ((parse-sexp-ignore-comments nil)) (scan-lists (1- url-beg) 1 0))))) (not (blink-matching-check-mismatch (1- url-beg) paren-end)) (setq end (1- paren-end))) ;; Ensure PT is actually within BOUNDARY. Check the following ;; example with point on the beginning of the line: ;; ;; 3,1406710489,https://gnu.org,0,"0" (and (<= url-beg pt end) (cons url-beg end)))))) (put 'url 'thing-at-point 'thing-at-point-url-at-point) (defun thing-at-point-url-at-point (&optional lax bounds) "Return the URL around or before point. If no URL is found, return nil. If optional argument LAX is non-nil, look for URLs that are not well-formed, such as foo@bar or . If optional argument BOUNDS is non-nil, it should be a cons cell of the form (START . END), containing the beginning and end positions of the URI. Otherwise, these positions are detected automatically from the text around point. If the scheme component is absent, either because a URI delimited with lacks one, or because an ill-formed URI was found with LAX or BOUNDS, try to add a scheme in the returned URI. The scheme is chosen heuristically: \"mailto:\" if the address looks like an email address, \"ftp://\" if it starts with \"ftp\", etc." (unless bounds (setq bounds (thing-at-point-bounds-of-url-at-point lax))) (when (and bounds (< (car bounds) (cdr bounds))) (let ((str (buffer-substring-no-properties (car bounds) (cdr bounds)))) ;; If there is no scheme component, try to add one. (unless (string-match "\\`[a-zA-Z][-a-zA-Z0-9+.]*:" str) (or ;; If the URI has the form , treat it according to ;; `thing-at-point-default-mail-uri-scheme'. If there are ;; no angle brackets, it must be mailto. (when (string-match "\\`[^:@]+@[-.0-9=&?$+A-Z_a-z~#,%;*]" str) (let ((scheme (if (and (eq (char-before (car bounds)) ?<) (eq (char-after (cdr bounds)) ?>)) thing-at-point-default-mail-uri-scheme "mailto"))) (if scheme (setq str (concat scheme ":" str))))) ;; If the string is like , where FOO is an existing user ;; name on the system, treat that as an email address. (and (string-match "\\`[[:alnum:]]+\\'" str) (eq (char-before (car bounds)) ?<) (eq (char-after (cdr bounds)) ?>) (not (string-search "~" (expand-file-name (concat "~" str)))) (setq str (concat "mailto:" str))) ;; If it looks like news.example.com, treat it as news. (if (thing-at-point-newsgroup-p str) (setq str (concat "news:" str))) ;; If it looks like ftp.example.com. treat it as ftp. (if (string-match "\\`ftp\\." str) (setq str (concat "ftp://" str))) ;; If it looks like www.example.com. treat it as https. (if (string-match "\\`www\\." str) (setq str (concat "https://" str))) ;; Otherwise, it just isn't a URI. (setq str nil))) str))) (defun thing-at-point-newsgroup-p (string) "Return STRING if it looks like a newsgroup name, else nil." (and (string-match thing-at-point-newsgroup-regexp string) (let ((htbs '(gnus-active-hashtb gnus-newsrc-hashtb gnus-killed-hashtb)) (heads thing-at-point-newsgroup-heads) htb ret) (while htbs (setq htb (car htbs) htbs (cdr htbs)) (ignore-errors (setq htb (symbol-value htb)) (when (cond ((obarrayp htb) (intern-soft string htb)) ((listp htb) (member string htb)) ((hash-table-p htb) (gethash string htb))) (setq ret string htbs nil)) ;; If we made it this far, gnus is running, so ignore "heads": (setq heads nil))) (or ret (not heads) (let ((head (string-match "\\`\\([[:lower:]]+\\)\\." string))) (and head (setq head (substring string 0 (match-end 1))) (member head heads) (setq ret string)))) ret))) (put 'url 'end-op (lambda () (end-of-thing 'url))) (put 'url 'beginning-op (lambda () (beginning-of-thing 'url))) ;; The normal thingatpt mechanism doesn't work for complex regexps. ;; This should work for almost any regexp wherever we are in the ;; match. To do a perfect job for any arbitrary regexp would mean ;; testing every position before point. Regexp searches won't find ;; matches that straddle the start position so we search forwards once ;; and then back repeatedly and then back up a char at a time. (defun thing-at-point-looking-at (regexp &optional distance) "Return non-nil if point is in or just after a match for REGEXP. Set the match data from the earliest such match ending at or after point. Optional argument DISTANCE limits search for REGEXP forward and back from point." (let* ((old (point)) (beg (if distance (max (point-min) (- old distance)) (point-min))) (end (if distance (min (point-max) (+ old distance)))) prev match) (save-excursion (goto-char beg) (while (and (setq prev (point) match (re-search-forward regexp end t)) (< (match-end 0) old)) (goto-char (match-beginning 0)) ;; Avoid inflooping when `regexp' matches the empty string. (unless (< prev (point)) (forward-char)))) (and match (<= (match-beginning 0) old (match-end 0))))) ;; Email addresses (defvar thing-at-point-email-regexp "?" "A regular expression probably matching an email address. This does not match the real name portion, only the address, optionally with angle brackets.") ;; Haven't set 'forward-op on 'email nor defined 'forward-email' because ;; not sure they're actually needed, and URL seems to skip them too. ;; Note that (end-of-thing 'email) and (beginning-of-thing 'email) ;; work automagically, though. (put 'email 'bounds-of-thing-at-point (lambda () (let ((thing (thing-at-point-looking-at thing-at-point-email-regexp 500))) (if thing (let ((beginning (match-beginning 0)) (end (match-end 0))) (cons beginning end)))))) (put 'email 'thing-at-point (lambda () (let ((boundary-pair (bounds-of-thing-at-point 'email))) (if boundary-pair (buffer-substring-no-properties (car boundary-pair) (cdr boundary-pair)))))) ;; Buffer and region (put 'buffer 'end-op (lambda () (goto-char (point-max)))) (put 'buffer 'beginning-op (lambda () (goto-char (point-min)))) (put 'region 'bounds-of-thing-at-point (lambda () (when (use-region-p) (cons (region-beginning) (region-end))))) ;; UUID (defconst thing-at-point-uuid-regexp (rx bow (repeat 8 hex-digit) "-" (repeat 4 hex-digit) "-" (repeat 4 hex-digit) "-" (repeat 4 hex-digit) "-" (repeat 12 hex-digit) eow) "A regular expression matching a UUID. See RFC 4122 for the description of the format.") (put 'uuid 'bounds-of-thing-at-point (lambda () (when (thing-at-point-looking-at thing-at-point-uuid-regexp 36) (cons (match-beginning 0) (match-end 0))))) ;; Aliases (defun word-at-point (&optional no-properties) "Return the word at point. See `thing-at-point'." (thing-at-point 'word no-properties)) (defun sentence-at-point (&optional no-properties) "Return the sentence at point. See `thing-at-point'." (thing-at-point 'sentence no-properties)) (defun thing-at-point--read-from-whole-string (str) "Read a Lisp expression from STR. Signal an error if the entire string was not used." (let* ((read-data (read-from-string str)) (more-left (condition-case nil ;; The call to `ignore' suppresses a compiler warning. (progn (ignore (read-from-string (substring str (cdr read-data)))) t) (end-of-file nil)))) (if more-left (error "Can't read whole string") (car read-data)))) (define-obsolete-function-alias 'read-from-whole-string 'thing-at-point--read-from-whole-string "25.1" "This is an internal thingatpt function and should not be used.") (defun form-at-point (&optional thing pred) (let* ((obj (thing-at-point (or thing 'sexp))) (sexp (if (stringp obj) (ignore-errors (thing-at-point--read-from-whole-string obj)) obj))) (if (or (not pred) (funcall pred sexp)) sexp))) ;;;###autoload (defun sexp-at-point () "Return the sexp at point, or nil if none is found. This is for returning the Lisp object represented by text at point; use (thing-at-point \\='sexp) instead if you rather want the balanced expression at point regardless of Lisp syntax." (form-at-point 'sexp)) ;;;###autoload (defun symbol-at-point () "Return the symbol at point, or nil if none is found." (let ((thing (thing-at-point 'symbol))) (if thing (intern thing)))) (defvar thing-at-point-decimal-regexp "-?[0-9]+\\.?[0-9]*" "A regexp matching a decimal number.") (defvar thing-at-point-hexadecimal-regexp "\\(0x\\|#x\\)\\([a-fA-F0-9]+\\)" "A regexp matching a hexadecimal number.") ;;;###autoload (defun number-at-point () "Return the number at point, or nil if none is found. Decimal numbers like \"14\" or \"-14.5\", as well as hex numbers like \"0xBEEF09\" or \"#xBEEF09\", are recognized." (cond ((thing-at-point-looking-at thing-at-point-hexadecimal-regexp 500) (string-to-number (buffer-substring (match-beginning 2) (match-end 2)) 16)) ((thing-at-point-looking-at thing-at-point-decimal-regexp 500) (string-to-number (buffer-substring (match-beginning 0) (match-end 0)))))) (put 'number 'bounds-of-thing-at-point (lambda () (and (or (thing-at-point-looking-at thing-at-point-hexadecimal-regexp 500) (thing-at-point-looking-at thing-at-point-decimal-regexp 500)) (cons (match-beginning 0) (match-end 0))))) (put 'number 'forward-op 'forward-word) (put 'number 'thing-at-point 'number-at-point) ;;;###autoload (defun list-at-point (&optional ignore-comment-or-string) "Return the Lisp list at point, or nil if none is found. If IGNORE-COMMENT-OR-STRING is non-nil comments and strings are treated as white space." (let ((ppss (and ignore-comment-or-string (syntax-ppss)))) (save-excursion (goto-char (or (nth 8 ppss) (point))) (form-at-point 'list 'listp)))) ;; Provider helper functions (defun thing-at-point-for-char-property (property) "Return the \"thing\" at point. Each \"thing\" is a region of text with the specified text PROPERTY (or overlay) set." (or (get-char-property (point) property) (and (> (point) (point-min)) (get-char-property (1- (point)) property)))) (autoload 'text-property-search-forward "text-property-search") (autoload 'text-property-search-backward "text-property-search") (autoload 'prop-match-beginning "text-property-search") (autoload 'prop-match-end "text-property-search") (defun forward-thing-for-char-property (property &optional backward) "Move forward to the end of the next \"thing\". If BACKWARD is non-nil, move backward to the beginning of the previous \"thing\" instead. Each \"thing\" is a region of text with the specified text PROPERTY (or overlay) set." (let ((bounds (bounds-of-thing-at-point-for-char-property property))) (if backward (if (and bounds (> (point) (car bounds))) (goto-char (car bounds)) (goto-char (previous-single-char-property-change (point) property)) (unless (get-char-property (point) property) (goto-char (previous-single-char-property-change (point) property)))) (if (and bounds (< (point) (cdr bounds))) (goto-char (cdr bounds)) (unless (get-char-property (point) property) (goto-char (next-single-char-property-change (point) property))) (goto-char (next-single-char-property-change (point) property)))))) (defun bounds-of-thing-at-point-for-char-property (property) "Determine the start and end buffer locations for the \"thing\" at point. The \"thing\" is a region of text with the specified text PROPERTY (or overlay) set." (let ((pos (point))) (when (or (get-char-property pos property) (and (> pos (point-min)) (get-char-property (setq pos (1- pos)) property))) (cons (previous-single-char-property-change (min (1+ pos) (point-max)) property) (next-single-char-property-change pos property))))) ;;; thingatpt.el ends here