;;; auto-overlays.el --- Automatic regexp-delimited overlays ;; Copyright (C) 2005-2015 Free Software Foundation, Inc ;; Version: 0.10.9 ;; Author: Toby Cubitt ;; Maintainer: Toby Cubitt ;; Keywords: extensions ;; URL: http://www.dr-qubit.org/emacs.php ;; Repository: http://www.dr-qubit.org/git/predictive.git ;; This file is part of the Emacs. ;; ;; This file 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. ;; ;; This program 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 this program. If not, see . ;;; Code: (defvar auto-overlay-regexps nil) (make-variable-buffer-local 'auto-overlay-regexps) (defvar auto-overlay-load-hook nil) (defvar auto-overlay-unload-hook nil) (eval-when-compile (require 'cl)) (require 'auto-overlay-common) (provide 'auto-overlays) ;; (defvar auto-overlay-list nil) ;; (make-variable-buffer-local 'auto-overlay-list) (defvar auto-o-pending-updates nil) (make-variable-buffer-local 'auto-o-pending-updates) (defvar auto-o-pending-suicides nil) (make-variable-buffer-local 'auto-o-pending-suicides) (defvar auto-o-pending-pre-suicide nil) (make-variable-buffer-local 'auto-o-pending-pre-suicide) (defvar auto-o-pending-post-suicide nil) (make-variable-buffer-local 'auto-o-pending-post-suicide) (defvar auto-o-pending-post-update nil) (make-variable-buffer-local 'auto-o-pending-post-update) ;;;======================================================== ;;; Code-tidying macros (defmacro auto-o-create-set (set-id) ;; Add blank entry for a new regexp set SET-ID to `auto-overlay-regexps'. `(push (list ,set-id nil) auto-overlay-regexps)) (defmacro auto-o-delete-set (set-id) ;; Delete SET-ID entry from `auto-overlay-regexps'. `(setq auto-overlay-regexps (assq-delete-all ,set-id auto-overlay-regexps))) (defmacro auto-o-get-full-buffer-list (set-id) ;; Return the list of buffers and associated properties for regexp set ;; SET-ID. `(nth 1 (assq ,set-id auto-overlay-regexps))) (defmacro auto-o-get-buffer-list (set-id) ;; Return list of buffers using regexp set SET-ID. `(mapcar 'car (auto-o-get-full-buffer-list ,set-id))) (defmacro auto-o-get-regexps (set-id) ;; Return the list of regexp definitions for regexp set SET-ID. `(cddr (assq ,set-id auto-overlay-regexps))) ;; (defmacro auto-o-set-regexps (set-id regexps) ;; ;; Set the list of regexp definitions for regexp set SET-ID. ;; `(setcdr (cdr (assq ,set-id auto-overlay-regexps)) ,regexps)) ;; (defmacro auto-o-set-buffer-list (set-id list) ;; ;; Set the list of buffers that use the regexp set SET-ID to LIST. ;; `(let ((set (assq ,set-id auto-overlay-regexps))) ;; (and set (setcar (cddr set) ,list)))) (defmacro auto-o-add-to-buffer-list (set-id buffer) ;; Add BUFFER to the list of buffers using regexp set SET-ID. `(let ((set (assq ,set-id auto-overlay-regexps))) (and set (null (assq ,buffer (cadr set))) (setcar (cdr set) (cons (cons ,buffer nil) (cadr set)))))) (defmacro auto-o-delete-from-buffer-list (set-id buffer) ;; Remove BUFFER from the list of buffers using regexp set SET-ID. `(let ((set (assq ,set-id auto-overlay-regexps))) (and set (setcar (cdr set) (assq-delete-all ,buffer (cadr set)))))) (defmacro auto-o-enabled-p (set-id &optional buffer) ;; Return non-nil if regexp set identified by SET-ID is enabled in BUFFER. `(let ((buff (or ,buffer (current-buffer)))) (cdr (assq buff (auto-o-get-full-buffer-list ,set-id))))) (defmacro auto-o-enable-set (set-id buffer) ;; Set enabled flag for BUFFER in regexp set SET-ID. `(setcdr (assq ,buffer (auto-o-get-full-buffer-list ,set-id)) t)) (defmacro auto-o-disable-set (set-id buffer) ;; Unset enabled flag for BUFFER in regexp set SET-ID. `(setcdr (assq ,buffer (auto-o-get-full-buffer-list ,set-id)) nil)) (defmacro auto-o-append-regexp (set-id entry) ;; Append regexp ENTRY to SET-ID's regexps. `(nconc (auto-o-get-regexps ,set-id) (list ,entry))) (defmacro auto-o-prepend-regexp (set-id entry) ;; Prepend regexp ENTRY to SET-ID's regexps. `(setcdr (cdr (assq ,set-id auto-overlay-regexps)) (nconc (list ,entry) (auto-o-get-regexps ,set-id)))) (defmacro auto-o-insert-regexp (set-id pos entry) ;; Insert regexp ENTRY in SET-ID's regexps at POS. `(setcdr (nthcdr (1- pos) (auto-o-get-regexps ,set-id)) (nconc (list ,entry) (nthcdr pos (auto-o-get-regexps ,set-id))))) (defmacro auto-o-entry (set-id definition-id &optional regexp-id) ;; Return regexp entry identified by SET-ID, DEFINITION-ID and REGEXP-ID. `(if ,regexp-id (cdr (assq ,regexp-id (cdr (assq ,definition-id (auto-o-get-regexps ,set-id))))) (cdr (assq ,definition-id (cddr (assq ,set-id auto-overlay-regexps)))))) (defmacro auto-o-entry-class (set-id definition-id) ;; Return class corresponding to SET-ID and DEFINITION-ID. `(cadr (assq ,definition-id (auto-o-get-regexps ,set-id)))) (defmacro auto-o-class (o-match) ;; Return class of match overlay O-MATCH. `(auto-o-entry-class (overlay-get ,o-match 'set-id) (overlay-get ,o-match 'definition-id))) (defmacro auto-o-entry-regexp (set-id definition-id &optional regexp-id) ;; Return regexp corresponsing to SET-ID, DEFINITION-ID and REGEXP-ID. `(let ((regexp (nth 1 (auto-o-entry ,set-id ,definition-id ,regexp-id)))) (if (atom regexp) regexp (car regexp)))) (defmacro auto-o-regexp (o-match) ;; Return match overlay O-MATCH's regexp. `(auto-o-entry-regexp (overlay-get ,o-match 'set-id) (overlay-get ,o-match 'definition-id) (overlay-get ,o-match 'regexp-id))) (defmacro auto-o-entry-regexp-group (set-id definition-id &optional regexp-id) ;; Return regexp group corresponsing to SET-ID, DEFINITION-ID and REGEXP-ID, ;; or 0 if none is specified. `(let ((regexp (nth 1 (auto-o-entry ,set-id ,definition-id ,regexp-id)))) (cond ((atom regexp) 0) ((atom (cdr regexp)) (cdr regexp)) (t (cadr regexp))))) (defmacro auto-o-regexp-group (o-match) ;; Return match overlay O-MATCH's regexp group. `(auto-o-entry-regexp-group (overlay-get ,o-match 'set-id) (overlay-get ,o-match 'definition-id) (overlay-get ,o-match 'regexp-id))) (defmacro auto-o-entry-regexp-group-nth (n set-id definition-id &optional regexp-id) ;; Return Nth regexp group entry corresponsing to SET-ID, DEFINITION-ID and ;; REGEXP-ID, or 0 if there is no Nth entry. `(let ((regexp (nth 1 (auto-o-entry ,set-id ,definition-id ,regexp-id)))) (cond ((atom regexp) 0) ((> (1+ ,n) (length (cdr regexp))) 0) (t (nth ,n (cdr regexp)))))) (defmacro auto-o-regexp-group-nth (n o-match) ;; Return match overlay O-MATCH's Nth regexp group entry, or 0 if there is ;; no Nth entry. `(auto-o-entry-regexp-group-nth ,n (overlay-get ,o-match 'set-id) (overlay-get ,o-match 'definition-id) (overlay-get ,o-match 'regexp-id))) (defmacro auto-o-entry-props (set-id definition-id &optional regexp-id) ;; Return properties of regexp corresponding to SET-ID, DEFINITION-ID and ;; REGEXP-ID. `(nthcdr 2 (auto-o-entry ,set-id ,definition-id ,regexp-id))) (defmacro auto-o-props (o-match) ;; Return properties associated with match overlay O-MATCH. `(auto-o-entry-props (overlay-get ,o-match 'set-id) (overlay-get ,o-match 'definition-id) (overlay-get ,o-match 'regexp-id))) (defmacro auto-o-entry-edge (set-id definition-id regexp-id) ;; Return edge ('start or 'end) of regexp with SET-ID, DEFINITION-ID and ;; REGEXP-ID `(car (auto-o-entry ,set-id ,definition-id ,regexp-id))) (defmacro auto-o-edge (o-match) ;; Return edge ('start or 'end) of match overlay O-MATCH `(auto-o-entry-edge (overlay-get ,o-match 'set-id) (overlay-get ,o-match 'definition-id) (overlay-get ,o-match 'regexp-id))) (defmacro auto-o-parse-function (o-match) ;; Return appropriate parse function for match overlay O-MATCH. `(get (auto-o-class ,o-match) 'auto-overlay-parse-function)) (defmacro auto-o-suicide-function (o-match) ;; Return appropriate suicide function for match overlay O-MATCH. `(get (auto-o-class ,o-match) 'auto-overlay-suicide-function)) (defmacro auto-o-match-function (o-match) ;; Return match function for match overlay O-MATCH, if any. `(get (auto-o-class ,o-match) 'auto-overlay-match-function)) (defmacro auto-o-edge-matched-p (overlay edge) ;; test if EDGE of OVERLAY is matched `(overlay-get ,overlay ,edge)) (defmacro auto-o-start-matched-p (overlay) ;; test if OVERLAY is start-matched `(overlay-get ,overlay 'start)) (defmacro auto-o-end-matched-p (overlay) ;; test if OVERLAY is end-matched `(overlay-get ,overlay 'end)) ;; (defmacro auto-o-entry-compound-class-p (set-id definition-id) ;; ;; Return non-nil if regexp corresponding to SET-ID and DEFINITION-ID ;; ;; contains a list of regexp entries rather than a single entry. ;; `(let ((entry (cadr (auto-o-entry ,set-id ,definition-id)))) ;; (and (listp entry) ;; (or (symbolp (cdr entry)) ;; (and (listp (cdr entry)) (symbolp (cadr entry))))))) ;; (defmacro auto-o-compound-class-p (o-match) ;; ;; Return non-nil if O-MATCH's regexp class is a compound class ;; ;; (can just check for 'regexp-id property instead of checking regexp ;; ;; definitions, since this is always set for such match overlays) ;; `(overlay-get ,o-match 'regexp-id)) (defmacro auto-o-entry-complex-class-p (set-id definition-id) ;; Return non-nil if regexp corresponding to SET-ID and DEFINITION-ID ;; requires separate start and end regexps `(get (auto-o-entry-class ,set-id ,definition-id) 'auto-overlay-complex-class)) (defmacro auto-o-complex-class-p (o-match) ;; Return non-nil if O-MATCH's regexp class is a compound class `(get (auto-o-class ,o-match) 'auto-overlay-complex-class)) (defmacro auto-o-rank (o-match) ;; Return the rank of match overlay O-MATCH `(auto-o-assq-position (overlay-get ,o-match 'regexp-id) (cddr (assq (overlay-get ,o-match 'definition-id) (auto-o-get-regexps (overlay-get ,o-match 'set-id)))))) (defmacro auto-o-overlay-filename (set-id) ;; Return the default filename to save overlays in `(concat "auto-overlays-" (replace-regexp-in-string "\\." "-" (file-name-nondirectory (or (buffer-file-name) (buffer-name)))) "-" (symbol-name ,set-id))) ;;;============================================================ ;;; Replacements for CL functions (defun auto-o-assq-position (key alist) "Find the first association of KEY in ALIST. Return the index of the matching item, or nil of not found. Comparison is done with 'eq." (let (el (i 0)) (catch 'found (while (setq el (nth i alist)) (when (eq key (car el)) (throw 'found i)) (setq i (1+ i)) nil)))) (defun auto-o-position (item list) "Find the first occurrence of ITEM in LIST. Return the index of the matching item, or nil of not found. Comparison is done with 'equal." (let (el (i 0)) (catch 'found (while (setq el (nth i list)) (when (equal item el) (throw 'found i)) (setq i (1+ i)) nil)))) (defun auto-o-sublist (list start &optional end) "Return the sub-list of LIST from START to END. If END is omitted, it defaults to the length of the list If START or END is negative, it counts from the end." (let (len) ;; sort out arguments (if end (when (< end 0) (setq end (+ end (setq len (length list))))) (setq end (or len (setq len (length list))))) (when (< start 0) (setq start (+ start (or len (length list))))) ;; construct sub-list (let (res) (while (< start end) (push (nth start list) res) (setq start (1+ start))) (nreverse res)))) (defmacro auto-o-adjoin (item list) "Cons ITEM onto front of LIST if it's not already there. Comparison is done with `eq'." `(if (memq ,item ,list) ,list (setf ,list (cons ,item ,list)))) ;;;========================================================= ;;; auto-overlay definition functions ;;;###autoload (defun auto-overlay-load-definition (set-id definition &optional pos) "Load DEFINITION into the set of auto-overlay definitions SET-ID in the current buffer. If SET-ID does not exist, it is created. If POS is nil, DEFINITION is added at the end of the list of auto-overlay definitions. If it is t, it is added at the beginning. If it is an integer, it is added at that position in the list. The position in the list makes no difference to the behaviour of the auto-overlays. But it can make a difference to the speed and efficiency. In general, higher-priority and exclusive DEFINITIONS should appear earlier in the list. If DEFINITION-ID is supplied, it should be a symbol that can be used to uniquely identify DEFINITION (see `auto-overlay-unload-definition'). DEFINITION should be a list of the form: (CLASS @optional :id DEFINITION-ID @rest REGEXP1 REGEXP2 ... ) CLASS is a symbol specifying the auto-overlay class. The standard classes are 'word, 'line, 'self, 'flat and 'nested. The :id property is optional. It should be a symbol that can be used to uniquely identify DEFINITION (see `auto-overlay-unload-definition'). The REGEXP's should be lists of the form: (RGXP &optional :edge EDGE :id REGEXP-ID &rest PROPERTY1 PROPERTY2 ... ) RGXP is either a single regular expression (a string), or a cons cell of the form (RGXP . GROUP) where RGXP is a regular expression and GROUP is an integer specifying which group in the regular expression forms the delimiter for the auto-overlay. The rest of the PROPERTY entries should be cons cells of the form (NAME . VALUE) where NAME is an overlay property name (a symbol) and VALUE is its value. The properties :edge and :id are optional. The :edge property EDGE should be one of the symbols 'start or 'end. If it is not specified, :edge is assumed to be 'start. The :id property is a symbol that can be used to uniquely identify REGEXP (see `auto-overlay-unload-regexp')." (let ((regexps (auto-o-get-regexps set-id)) (class (car definition)) definition-id) ;; if SET-ID doesn't exist in regexp list, create empty set (when (null regexps) (auto-o-create-set set-id) (auto-o-add-to-buffer-list set-id (current-buffer)) (setq regexps (auto-o-get-regexps set-id))) (let (n) (if (null (setq n (auto-o-position :id definition))) ;; if DEFINITION-ID is not specified, create a unique numeric ;; DEFINITION-ID (setq definition-id (1+ (apply 'max -1 (mapcar (lambda (elt) (if (integerp (car elt)) (car elt) -1)) regexps)))) ;; if DEFINITION-ID is specified, check it's unique (setq definition-id (nth (1+ n) definition)) (setq definition (append (auto-o-sublist definition 0 n) (auto-o-sublist definition (+ n 2)))) (when (assq definition-id regexps) (error "Definition ID \"%s\" is not unique" (symbol-name definition-id))) )) (cond ;; adding first entry or at start ((or (eq pos t) (= (length regexps) 0) (and (integerp pos) (<= pos 0))) (auto-o-prepend-regexp set-id (list definition-id class))) ;; adding at end ((or (null pos) (and (integerp pos) (>= pos (length regexps)))) (auto-o-append-regexp set-id (list definition-id class))) ;; adding at POS ((integerp pos) (auto-o-insert-regexp set-id pos (list definition-id class)))) ;; load regexp definitions (dolist (regexp (cdr definition)) (auto-overlay-load-regexp set-id definition-id regexp)) definition-id)) ; return new entry ID ;;;###autoload (defun auto-overlay-load-regexp (set-id definition-id regexp &optional pos) "Load REGEXP into the auto-overlay definition identified by DEFINITION-ID in the regexp list named SET-ID in the current buffer. If POS is nil, REGEXP is added at the end of the definition. If it is t, it is added at the beginning. If it is an integer, it is added at that position. REGEXP should be a list of the form: (RGXP &optional :edge EDGE :id REGEXP-ID &rest PROPERTY1 PROPERTY2 ... ) RGXP is either a single regular expression (a string), or a cons cell of the form (RGXP . GROUP) where RGXP is a regular expression and GROUP is an integer specifying which group in the regular expression forms the delimiter for the auto-overlay. The rest of the PROPERTY entries should be cons cells of the form (NAME . VALUE) where NAME is an overlay property name (a symbol) and VALUE is its value. The properties :edge and :id are optional. The :edge property EDGE should be one of the symbols 'start or 'end. If it is not specified, :edge is assumed to be 'start. The :id property is a symbol that can be used to uniquely identify REGEXP (see `auto-overlay-unload-regexp')." (let ((defs (assq definition-id (auto-o-get-regexps set-id))) regexp-id rgxp edge props) (when (null defs) (error "Definition \"%s\" not found in auto-overlay regexp set %s" (symbol-name definition-id) (symbol-name set-id))) ;; extract regexp (setq rgxp (car regexp)) (setq regexp (cdr regexp)) (let (n) ;; extract edge (if (null (setq n (auto-o-position :edge regexp))) (setq edge 'start) ; assume 'start if unspecified (setq edge (nth (1+ n) regexp)) (setq regexp (append (auto-o-sublist regexp 0 n) (auto-o-sublist regexp (+ n 2))))) ;; extract regexp-id (if (setq n (auto-o-position :id regexp)) (progn (setq regexp-id (nth (1+ n) regexp)) (when (assq regexp-id defs) (error "Regexp ID \"%s\" is not unique" (symbol-name regexp-id))) (setq regexp (append (auto-o-sublist regexp 0 n) (auto-o-sublist regexp (+ n 2))))) ;; if no id is specified, create a unique numeric ID (setq regexp-id (1+ (apply 'max -1 (mapcar (lambda (elt) (if (integerp (car elt)) (car elt) -1)) (cddr defs)))))) ;; extract properties (setq props regexp)) ;; create regexp definition (setq regexp (append (list regexp-id edge rgxp) props)) (cond ;; adding at end ((or (null pos) (and (integerp pos) (>= pos (length (cddr defs))))) (if (= (length (cddr defs)) 0) (setcdr (cdr defs) (list regexp)) (nconc (cddr defs) (list regexp)))) ;; adding at start ((or (eq pos t) (and (integerp pos) (<= pos 0))) (setcdr (cdr defs) (nconc (list regexp) (cddr defs)))) ;; adding at POS ((integerp pos) (setcdr (nthcdr (1- pos) (cddr defs)) (nconc (list regexp) (nthcdr pos (cddr defs)))))) regexp-id)) ; return new subentry ID (defun auto-overlay-unload-set (set-id) "Unload the entire regexp set SET-ID from the current buffer." ;; disable regexp set to delete overlays, then delete regexp set from ;; current buffer (when (auto-o-enabled-p set-id) (auto-overlay-stop set-id)) (auto-o-delete-from-buffer-list set-id (current-buffer)) (auto-o-delete-set set-id)) (defun auto-overlay-unload-definition (set-id definition-id) "Unload auto-overlay definition DEFINITION-ID in set SET-ID from the current buffer. Returns the deleted definition." (save-excursion ;; call suicide function for corresponding overlays in all buffers in ;; which the set is enabled (dolist (buff (auto-o-get-buffer-list set-id)) (set-buffer buff) (when (auto-o-enabled-p set-id) (mapc (lambda (o) (auto-o-suicide o 'force)) (auto-overlays-in (point-min) (point-max) `((eq set-id ,set-id) (eq definition-id ,definition-id)))))) ;; delete definition (let ((olddef (assq definition-id (auto-o-get-regexps set-id))) def-id class regexps regexp edge regexp-id props) ;; safe to delete by side effect here because definition is guaranteed ;; not to be the first element of the list (the first two elements of a ;; regexp set are always the set-id and the buffer list) (assq-delete-all definition-id (assq set-id auto-overlay-regexps)) ;; massage deleted definition into form suitable for ;; `auto-overlay-load-definition' (setq def-id (nth 0 olddef) class (nth 1 olddef) regexps (nthcdr 2 olddef)) (setq olddef (list class :id def-id)) (dolist (rgxp regexps) (setq regexp-id (nth 0 rgxp) edge (nth 1 rgxp) regexp (nth 2 rgxp) props (nthcdr 3 rgxp)) (setq olddef (append olddef (list (append (list regexp :edge edge :id regexp-id) props))))) olddef))) ; return deleted definition (defun auto-overlay-unload-regexp (set-id definition-id regexp-id) "Unload the regexp identified by REGEXP-ID from auto-overlay definition DEFINITION-ID in set SET-ID of the current buffer. Returns the deleted regexp." (save-excursion ;; call suicide function for corresponding overlays in all buffers in ;; which the set is enabled (dolist (buff (auto-o-get-buffer-list set-id)) (set-buffer buff) (when (auto-o-enabled-p set-id) (mapc (lambda (o) (auto-o-suicide o 'force)) (auto-overlays-in (point-min) (point-max) `((identity auto-overlay-match) (eq set-id ,set-id) (eq definition-id ,definition-id) (eq regexp-id ,regexp-id)))))) ;; delete regexp entry (let* ((def (cdr (assq definition-id (auto-o-get-regexps set-id)))) (oldregexp (assq regexp-id def)) id edge regexp props) ;; can safely delete by side effect here because the regexp definition ;; is guaranteed not to be the first element of the list (the first two ;; elements of a definition are always the :id and class) (assq-delete-all regexp-id def) ;; massage deleted definition into form suitable for ;; `auto-overlay-load-definition' (setq id (nth 0 oldregexp) edge (nth 1 oldregexp) regexp (nth 2 oldregexp) props (nthcdr 3 oldregexp)) (setq oldregexp (append (list regexp :edge edge :id id) props)) oldregexp)) ; return deleted regexp ) ;;;###autoload (defun auto-overlay-share-regexp-set (set-id from-buffer &optional to-buffer) "Make TO-BUFFER share the regexp set identified by SET-ID with FROM-BUFFER. Any changes to that regexp set in either buffer will be reflected in the other. TO-BUFFER defaults to the current buffer." (unless to-buffer (setq to-buffer (current-buffer))) (let (regexps) ;; get regexp set from FROM-BUFFER (with-current-buffer from-buffer (setq regexps (assq set-id auto-overlay-regexps)) ;; delete any existing set with same ID, and add regexp set to TO-BUFFER (set-buffer to-buffer) (setq auto-overlay-regexps (assq-delete-all set-id auto-overlay-regexps)) (push regexps auto-overlay-regexps) ;; add TO-BUFFER to list of buffers using regexp set SET-ID (auto-o-add-to-buffer-list set-id to-buffer) ))) (defun auto-overlay-start (set-id &optional buffer save-file no-regexp-check) "Activate the set of auto-overlay regexps identified by SET-ID in BUFFER, or the current buffer if none is specified. If optional argument SAVE-FILE is nil, it will try to load the overlays from the default save file if it exists. If SAVE-FILE is a string, it specifies the location of the file (if only a directory is given, it will look for the default filename in that directory). Anything else will cause the save file to be ignored, and the buffer will be reparsed from scratch, as it will be if the save file does not exist. If the overlays are being loaded from a save file, but optional argument NO-REGEXP-CHECK is non-nil, the file of saved overlays will be used, but no check will be made to ensure regexp refinitions are the same as when the overlays were saved." (save-excursion (when buffer (set-buffer buffer)) ;; run initialisation hooks (run-hooks 'auto-overlay-load-hook) ;; add hook to run all the various functions scheduled be run after a ;; buffer modification (add-hook 'after-change-functions 'auto-o-run-after-change-functions nil t) ;; add hook to schedule an update after a buffer modification (add-hook 'after-change-functions 'auto-o-schedule-update nil t) ;; add hook to simulate missing `delete-in-front-hooks' and ;; `delete-behind-hooks' overlay properties (add-hook 'after-change-functions 'auto-o-schedule-delete-in-front-or-behind-suicide nil t) ;; set enabled flag for regexp set, and make sure buffer is in buffer list ;; for the regexp set (auto-o-enable-set set-id (current-buffer)) ;; try to load overlays from file (unless (and (or (null save-file) (stringp save-file)) (auto-overlay-load-overlays set-id nil save-file no-regexp-check)) ;; if loading was unsuccessful, search for new auto overlays (let ((lines (count-lines (point-min) (point-max)))) (goto-char (point-min)) (message "Scanning for auto-overlays...(line 1 of %d)" lines) (dotimes (i lines) (when (= 9 (mod i 10)) (message "Scanning for auto-overlays...(line %d of %d)" (+ i 1) lines)) (auto-overlay-update nil nil set-id) (forward-line 1)) (message "Scanning for auto-overlays...done"))) )) (defun auto-overlay-stop (set-id &optional buffer save-file leave-overlays) "Clear all auto-overlays in the set identified by SET-ID from BUFFER, or the current buffer if none is specified. If SAVE-FILE is non-nil and the buffer is associated with a file, save the overlays to a file to speed up loading if the same set of regexp definitions is enabled again. If SAVE-FILE is a string, it specifies the location of the file to save to (if it only specifies a directory, the default filename is used). Anything else will cause the overlays to be saved to the default file name in the current directory. If LEAVE-OVERLAYS is non-nil, don't bother deleting the overlays from the buffer \(this is generally a bad idea, unless the buffer is about to be killed in which case it speeds things up a bit\)." (save-excursion (when buffer (set-buffer buffer)) ;; disable overlay set (auto-o-disable-set set-id (current-buffer)) ;; if SAVE-FILE is non-nil and buffer is associated with a file, save ;; overlays to file (when save-file (unless (stringp save-file) (setq save-file nil)) (auto-overlay-save-overlays set-id nil save-file)) ;; delete overlays unless told not to bother (unless leave-overlays (mapc 'delete-overlay (auto-overlays-in (point-min) (point-max) (list (list (lambda (overlay match) (or overlay match)) '(auto-overlay auto-overlay-match)) (list 'eq 'set-id set-id)) nil 'inactive))) ;; if there are no more active auto-overlay definitions... (unless (catch 'enabled (dolist (set auto-overlay-regexps) (when (auto-o-enabled-p (car set)) (throw 'enabled t))) nil) ;; run clear hooks (run-hooks 'auto-overlay-unload-hook) ;; reset variables (remove-hook 'after-change-functions 'auto-o-schedule-update t) (remove-hook 'after-change-functions 'auto-o-run-after-change-functions t) (setq auto-o-pending-suicides nil auto-o-pending-updates nil auto-o-pending-post-suicide nil)))) (defun auto-overlay-save-overlays (set-id &optional buffer file) "Save overlays in set SET-ID in BUFFER to FILE. Defaults to the current buffer. If FILE is nil or a directory, and if the buffer is associated with a file, the filename is constructed from the buffer's file name and SET-ID. The directory is created if necessary. If the buffer is not associated with a file and FILE doesn't specify a filename, an error occurs. The overlays can be loaded again later using `auto-overlay-load-overlays'." (save-excursion (when buffer (set-buffer buffer)) ;; construct filename (let ((path (or (and file (file-name-directory file)) "")) (filename (or (and file (file-name-nondirectory file)) ""))) ;; use default filename if none supplied (when (string= filename "") (if (buffer-file-name) (setq filename (auto-o-overlay-filename set-id)) (error "Can't save overlays to default filename when buffer isn't\ visiting a file"))) ;; create directory if it doesn't exist (make-directory path t) ;; construct full path to file, since that's all we need from now on (setq file (concat path filename))) ;; create temporary buffer (let ((buff (generate-new-buffer " *auto-overlay-save*")) overlay-list) ;; write md5 digests to first two lines (prin1 (md5 (current-buffer)) buff) (terpri buff) (prin1 (md5 (prin1-to-string (auto-o-get-regexps set-id))) buff) (terpri buff) ;; get sorted list of all match overlays in set SET-ID (setq overlay-list (auto-overlays-in (point-min) (point-max) (list '(identity auto-overlay-match) (list 'eq 'set-id set-id)))) (setq overlay-list (sort overlay-list (lambda (a b) (or (< (overlay-start a) (overlay-start b)) (and (= (overlay-start a) (overlay-start b)) (> (overlay-end a) (overlay-end b))))))) ;; write overlay data to temporary buffer (mapc (lambda (o) (prin1 (list (overlay-get o 'definition-id) (overlay-get o 'regexp-id) (overlay-start o) (overlay-end o) (marker-position (overlay-get o 'delim-start)) (marker-position (overlay-get o 'delim-end))) buff) (terpri buff)) overlay-list) ;; save the buffer and kill it (with-current-buffer buff (write-file file)) (kill-buffer buff)) )) ;;;###autoload (defun auto-overlay-load-overlays (set-id &optional buffer file no-regexp-check) "Load overlays for BUFFER from FILE. Returns t if successful, nil otherwise. Defaults to the current buffer. If FILE is null, or is a string that only specifies a directory, the filename is constructed from the buffer's file name and SET-ID. If the buffer is not associated with a file and FILE doesn't specify a full filename, an error occurs. The FILE should be generated by `auto-overlay-save-overlays'. By default, the buffer contents and regexp definitions for SET-ID will be checked to make sure neither have changed since the overlays were saved. If they don't match, the saved overlay data will not be loaded, and the function will return nil. If NO-REGEXP-CHECK is non-nil, the check for matching regexp definitions will be skipped; the saved overlays will be loaded even if different regexp definitions were active when the overlays were saved." (save-excursion (when buffer (set-buffer buffer)) ;; construct filename (let ((path (or (and file (file-name-directory file)) "")) (filename (and file (file-name-nondirectory file)))) ;; use default filename if none supplied ;; FIXME: should we throw error if buffer not associated with file? (when (string= filename "") (setq filename (auto-o-overlay-filename set-id))) ;; construct full path to file, since that's all we need from now on (setq file (concat path filename))) ;; return nil if file does not exist (if (not (file-exists-p file)) nil ;; otherwise... (let ((buff (find-file-noselect file t)) md5-buff md5-regexp data o-match o-new lines (i 0)) ;; read md5 digests from first two lines of FILE (with-current-buffer buff (goto-char (point-min))) (setq md5-buff (read buff)) (setq md5-regexp (read buff)) ;; if saved buffer md5 sum doesn't match buffer contents, or if saved ;; regexp md5 sum doesn't match regexp definitions and checking is not ;; overridden, return nil (if (not (and (string= md5-buff (md5 (current-buffer))) (or no-regexp-check (string= md5-regexp (md5 (prin1-to-string (auto-o-get-regexps set-id))))))) (progn (kill-buffer buff) nil) ;; count number of overlays, for progress message (with-current-buffer buff (setq lines (count-lines (point) (point-max)))) ;; read overlay data from FILE until we reach the end (message "Loading auto-overlays...(1 of %d)" lines) (while (condition-case nil (setq data (read buff)) ('end-of-file)) ;; create a match overlay corresponding to the data (setq o-match (auto-o-make-match set-id (nth 0 data) (nth 1 data) (nth 2 data) (nth 3 data) (nth 4 data) (nth 5 data))) ;; call the appropriate parse function, unless match overlay is ;; within a higher priority exclusive overlay (unless (auto-o-within-exclusive-p (overlay-get o-match 'delim-start) (overlay-get o-match 'delim-end) (assq 'priority (auto-o-entry-props (overlay-get o-match 'definition-id) (overlay-get o-match 'regexp-id)))) (setq o-new (funcall (auto-o-parse-function o-match) o-match)) (unless (listp o-new) (setq o-new (list o-new))) ;; give any new overlays some basic properties (mapc (lambda (o) (overlay-put o 'auto-overlay t) (overlay-put o 'set-id set-id) (overlay-put o 'definition-id (overlay-get o-match 'definition-id)) (overlay-put o 'regexp-id (overlay-get o-match 'regexp-id))) o-new) ;; run match function if there is one (let ((match-func (auto-o-match-function o-match))) (when match-func (funcall match-func o-match)))) ;; display progress message (setq i (1+ i)) (when (= 0 (mod i 10)) (message "Loading auto-overlays...(%d of %d)" i lines))) (kill-buffer buff) t))))) ; return t to indicate successful loading) ;;;============================================================= ;;; auto-overlay overlay functions (defun auto-o-run-after-change-functions (beg end len) ;; Assigned to the `after-change-functions' hook. Run all the various ;; functions that should run after a change to the buffer, in the correct ;; order. ;; ignore changes that aren't either insertions or deletions (when (and (not undo-in-progress) (or (and (/= beg end) (= len 0)) ; insertion (and (= beg end) (/= len 0)))) ; deletion ;; repeat until all the pending functions have been cleared (it may be ;; necessary to run multiple times since the pending functions may ;; themselves cause more functions to be added to the pending lists) (while (or auto-o-pending-pre-suicide auto-o-pending-suicides auto-o-pending-post-suicide auto-o-pending-updates auto-o-pending-post-update) ;; run pending pre-suicide functions (when auto-o-pending-pre-suicide (mapc (lambda (f) (apply (car f) (cdr f))) auto-o-pending-pre-suicide) (setq auto-o-pending-pre-suicide nil)) ;; run pending suicides (when auto-o-pending-suicides (mapc 'auto-o-suicide auto-o-pending-suicides) (setq auto-o-pending-suicides nil)) ;; run pending post-suicide functions (when auto-o-pending-post-suicide (mapc (lambda (f) (apply (car f) (cdr f))) auto-o-pending-post-suicide) (setq auto-o-pending-post-suicide nil)) ;; run updates (when auto-o-pending-updates (mapc (lambda (l) (auto-overlay-update (car l) (cdr l))) auto-o-pending-updates) (setq auto-o-pending-updates nil)) ;; run pending post-update functions (when auto-o-pending-post-update (mapc (lambda (f) (apply (car f) (cdr f))) auto-o-pending-post-update) (setq auto-o-pending-post-update nil)) )) ;; ;; FIXME: horrible hack to delete all marker update entries in latest ;; ;; `buffer-undo-list' change group, since undoing these can badly ;; ;; mess up the overlays ;; (while (and (consp (car buffer-undo-list)) ;; (markerp (caar buffer-undo-list))) ;; (setq buffer-undo-list (cdr buffer-undo-list))) ;; (let ((p buffer-undo-list)) ;; (while (cadr p) ;; (if (and (consp (cadr p)) (markerp (car (cadr p)))) ;; (setcdr p (cddr p)) ;; (setq p (cdr p))))) ) (defun auto-o-schedule-update (start &optional end unused set-id) ;; Schedule `auto-overlay-update' of lines between positions START and END ;; (including lines containing START and END), optionally restricted to ;; SET-ID. If END is not supplied, schedule update for just line containing ;; START. The update will be run by `auto-o-run-after-change-functions' ;; after buffer modification is complete. This function is assigned to ;; `after-change-functions'. (save-restriction (widen) ; need to widen, since goto-line goes to absolute line (setq start (line-number-at-pos start)) (setq end (if end (line-number-at-pos end) start)) (let ((pending auto-o-pending-updates)) (cond ;; if pending list is empty, just add new entry to the list ((null pending) (setq auto-o-pending-updates (list (cons start end)))) ;; if start of the new entry is before start of the first entry in ;; pending list, add new entry to front of the list ((<= start (caar pending)) (setq auto-o-pending-updates (nconc (list (cons start end)) pending)) (setq pending auto-o-pending-updates)) ;; otherwise... (t ;; search for entry in pending list that new one should come after ;; Note: we do an O(n) linear search here, as opposed to the O(log n) ;; we would get were we to store the entries in a binary tree. But the ;; pending list is unlikely to ever be all that long, so the ;; optimisation almost certainly isn't worth the effort. (catch 'found (while (cdr pending) (when (<= start (car (cadr pending))) (throw 'found t)) (setq pending (cdr pending)))) ;; if start of new entry is before end of entry it should come after, ;; merge it with that entry (if (<= start (1+ (cdar pending))) (when (> end (cdar pending)) (setcdr (car pending) end)) ;; otherwise, insert new entry after it (setcdr pending (nconc (list (cons start end)) (cdr pending))) (setq pending (cdr pending))) )) ;; merge new entry with successive entries until end of merged entry is ;; before start of next entry (see above note about O(n) vs. O(log n)) (while (and (cdr pending) (>= (1+ (cdar pending)) (car (cadr pending)))) (setcdr (car pending) (max (cdar pending) (cdr (cadr pending)))) (setcdr pending (cddr pending))) ))) (defun auto-o-schedule-delete-in-front-or-behind-suicide (start end len) ;; Schedule `auto-o-suicide' for any overlay that has had characters deleted ;; in front or behind it, to simulate missing `delete-in-front-hooks' and ;; `delete-behind-hooks' overlay properties (unless (= len 0) (dolist (o (auto-overlays-at-point nil '(identity auto-overlay-match))) (when (or (= (overlay-end o) start) (= (overlay-start o) end)) (auto-o-adjoin o auto-o-pending-suicides))))) (defun auto-o-schedule-suicide (o-self &optional modified &rest unused) ;; Schedule `auto-o-suicide' to run after buffer modification is ;; complete. It will be run by `auto-o-run-after-change-functions'. Assigned ;; to overlay modification and insert in-front/behind hooks. (unless modified (auto-o-adjoin o-self auto-o-pending-suicides))) (defun auto-overlay-update (&optional start end set-id) ;; Parse lines from line number START to line number END. If only START is ;; supplied, just parse that line. If neither are supplied, parse line ;; containing the point. If SET-ID is specified, only look for matches in ;; that set of overlay regexps definitions. (save-restriction (widen) (let (regexp-entry definition-id class regexp group priority set-id regexp-id o-match o-overlap o-new) (unless start (setq start (line-number-at-pos))) (save-excursion (save-match-data ;; (goto-line start) without messing around with mark and messages ;; Note: this is a bug in simple.el; there clearly can be a need for ;; non-interactive calls to goto-line from Lisp code, and ;; there's no warning about doing this. Yet goto-line *always* ;; calls push-mark, which usually *shouldn't* be invoked by ;; Lisp programs, as its docstring warns. (goto-char 1) (if (eq selective-display t) (re-search-forward "[\n\C-m]" nil 'end (1- start)) (forward-line (1- start))) (dotimes (i (if end (1+ (- end start)) 1)) ;; check each enabled set of overlays, or just the specified set (dotimes (s (if set-id 1 (length auto-overlay-regexps))) (setq set-id (or set-id (car (nth s auto-overlay-regexps)))) (when (auto-o-enabled-p set-id) ;; check each auto-overlay definition in regexp set (dolist (regexp-entry (auto-o-get-regexps set-id)) (setq definition-id (pop regexp-entry)) (setq class (pop regexp-entry)) ;; check all regexps for current definition (dotimes (rank (length regexp-entry)) (setq regexp-id (car (nth rank regexp-entry))) ;; extract regexp properties from current entry (setq regexp (auto-o-entry-regexp set-id definition-id regexp-id)) (setq group (auto-o-entry-regexp-group set-id definition-id regexp-id)) (setq priority (cdr (assq 'priority (auto-o-entry-props set-id definition-id regexp-id)))) ;; look for matches in current line, ensuring case *is* ;; significant (forward-line 0) (while (let ((case-fold-search nil)) (re-search-forward regexp (line-end-position) t)) ;; sanity check regexp definition against match (when (or (null (match-beginning group)) (null (match-end group))) (error "Match for regexp \"%s\" has no group %d" regexp group)) (cond ;; ignore match if it already has a match overlay ((auto-o-matched-p (match-beginning 0) (match-end 0) set-id definition-id regexp-id)) ;; if existing match overlay corresponding to same entry ;; and edge but different subentry overlaps new match... ((setq o-overlap (auto-o-overlapping-match (match-beginning group) (match-end group) set-id definition-id regexp-id (auto-o-entry-edge set-id definition-id regexp-id))) ;; if new match takes precedence, replace existing one ;; with new one, otherwise ignore new match (when (< rank (auto-o-rank o-overlap)) (delete-overlay o-overlap) (setq o-match (auto-o-make-match set-id definition-id regexp-id (match-beginning 0) (match-end 0) (match-beginning group) (match-end group))) (when (overlay-get o-overlap 'parent) (auto-o-match-overlay (overlay-get o-overlap 'parent) o-match)) ;; run match function if there is one (let ((match-func (auto-o-match-function o-match))) (when match-func (funcall match-func o-match))))) ;; if match is within a higher priority exclusive ;; overlay, create match overlay but don't parse it ((auto-o-within-exclusive-p (match-beginning group) (match-end group) priority) (auto-o-make-match set-id definition-id regexp-id (match-beginning 0) (match-end 0) (match-beginning group) (match-end group))) ;; if we're going to parse the new match... (t ;; create a match overlay for it (setq o-match (auto-o-make-match set-id definition-id regexp-id (match-beginning 0) (match-end 0) (match-beginning group) (match-end group))) ;; call the appropriate parse function (setq o-new (funcall (auto-o-parse-function o-match) o-match)) (unless (listp o-new) (setq o-new (list o-new))) ;; give any new overlays some basic properties (mapc (lambda (o) (overlay-put o 'auto-overlay t) (overlay-put o 'set-id set-id) (overlay-put o 'definition-id definition-id) (overlay-put o 'regexp-id regexp-id)) o-new) ;; run match function if there is one (let ((match-func (auto-o-match-function o-match))) (when match-func (funcall match-func o-match))))) ;; go to character one beyond the start of the match, to ;; make sure we don't miss the next match (if we find the ;; same one again, it will just be ignored) (goto-char (+ (match-beginning 0) 1))))) (forward-line 1)) ))) )))) (defun auto-o-suicide (o-self &optional force) ;; This function is assigned to all match overlay modification hooks, and ;; calls the appropriate suicide function for match overlay O-SELF. ;; If FORCE is non-nil, O-SELF is deleted irrespective of whether its ;; overlay still matches. ;; have to widen temporarily (save-restriction (widen) ;; ;; this condition is here to avoid a weird Emacs bug(?) where the ;; ;; modification-hooks seem to be called occasionally for overlays that ;; ;; have already been deleted ;; (when (overlay-buffer o-self) ;; if match overlay no longer matches the text it covers... (unless (and (not force) (overlay-buffer o-self) (save-excursion (goto-char (overlay-start o-self)) (looking-at (auto-o-regexp o-self))) (= (match-end 0) (overlay-end o-self))) ;; if we have a parent overlay... (let ((o-parent (overlay-get o-self 'parent)) o-other) (when o-parent ;; if our regexp class is a compound class... (when (auto-o-complex-class-p o-self) (setq o-other (overlay-get o-parent (if (eq (auto-o-edge o-self) 'start) 'start 'end))) ;; if parent's properties have been set by us, remove them (when (or (null o-other) (>= (auto-o-rank o-self) (auto-o-rank o-other))) (dolist (p (auto-o-props o-self)) (overlay-put o-parent (car p) nil)))) ;; call appropriate suicide function (funcall (auto-o-suicide-function o-self) o-self))) ;; schedule an update (necessary since if match regexp contains ;; "context", we may be comitting suicide only for the match overlay ;; to be recreated in a slightly different place) (auto-o-schedule-update (overlay-start o-self)) ;; delete ourselves (delete-overlay o-self));) )) (defun auto-o-update-exclusive (set-id beg end old-priority new-priority) ;; If priority has increased, delete all overlays between BEG end END that ;; have priority lower than NEW-PRIORITY. If priority has decreased, re-parse ;; all matches with priority lower than OLD-PRIORITY. (let (overlay-list) (cond ;; if priority has increased... ((and new-priority (or (null old-priority) (> new-priority old-priority))) ;; find overlays entirely within BEG and END that are both start and end ;; matched and have priority lower than NEW-PRIORITY (setq overlay-list (auto-overlays-in beg end (list '(identity auto-overlay) (list 'eq 'set-id set-id) '(identity start) (list (lambda (definition-id start end) (or (null (auto-o-entry-complex-class-p set-id definition-id)) (and start end))) '(definition-id start end)) (list (lambda (pri new) (or (null pri) (< pri new))) 'priority new-priority)) 'within)) ;; mark overlays in list as inactive (more efficient than calling ;; suicide functions or deleting the overlays, and leaves them intact in ;; case the exclusivity of the region is later reduced - see below) (dolist (o overlay-list) (overlay-put o 'inactive t)) ;; find match overlays between BEG and END that have priority lower then ;; NEW-PRIORITY but still have an active parent overlay (setq overlay-list (auto-overlays-in beg end (list '(identity auto-overlay-match) (list 'eq 'set-id set-id) ;; note: parentless overlays are possible if a suicide is ;; in progress, so need to check overlay has a parent first '(identity parent) (list (lambda (parent) (not (overlay-get parent 'inactive))) 'parent) (list (lambda (set-id definition-id regexp-id new-pri) (let ((pri (cdr (assq 'priority (auto-o-entry-props set-id definition-id regexp-id))))) (or (null pri) (< pri new-pri)))) '(set-id definition-id regexp-id) (list new-priority))))) ;; call appropriate suicide function for each match overlay in list (dolist (o overlay-list) (funcall (auto-o-suicide-function o) o))) ;; if priority has decreased... ((and old-priority (or (null new-priority) (< new-priority old-priority))) ;; find inactive overlays entirely within BEG and END that have priority ;; higher or equal to NEW-PRIORITY (setq overlay-list (auto-overlays-in beg end (list '(identity auto-overlay) (list 'eq 'set-id set-id) '(identity inactive) (list (lambda (pri new) (or (null new) (>= pri new))) 'priority new-priority)) 'within 'inactive)) ;; mark overlays in list as active again (dolist (o overlay-list) (overlay-put o 'inactive nil)) ;; find match overlays between BEG and END that have priority higher or ;; equal to NEW-PRIORITY but no parent overlay (setq overlay-list (auto-overlays-in beg end (list '(identity auto-overlay-match) (list 'eq 'set-id set-id) '(null parent) (list (lambda (set-id definition-id regexp-id new-pri) (let ((pri (cdr (assq 'priority (auto-o-entry-props set-id definition-id regexp-id))))) (or (null new-pri) (>= pri new-pri)))) '(set-id definition-id regexp-id) (list new-priority))))) ;; call appropriate parse function for each match overlay in list (dolist (o-match overlay-list) (when (not (auto-o-within-exclusive-p o-match)) (let ((o-new (funcall (auto-o-parse-function o-match) o-match))) ;; give any new overlays the basic properties and add them to ;; `auto-overlay-list' (unless (listp o-new) (setq o-new (list o-new))) (mapc (lambda (o) (overlay-put o 'auto-overlay t) (overlay-put o 'set-id set-id) (overlay-put o 'definition-id (overlay-get o-match 'definition-id)) (overlay-put o 'regexp-id (overlay-get o-match 'regexp-id))) o-new))))) ))) (defun auto-o-make-match (set-id definition-id regexp-id start end &optional delim-start delim-end) ;; Create a new match overlay and give it the appropriate properties. (let ((o-match (make-overlay start end nil 'front-advance nil))) (overlay-put o-match 'auto-overlay-match t) (overlay-put o-match 'set-id set-id) (overlay-put o-match 'definition-id definition-id) (overlay-put o-match 'regexp-id regexp-id) (overlay-put o-match 'delim-start (set-marker (make-marker) (if delim-start delim-start start))) (overlay-put o-match 'delim-end (set-marker (make-marker) (if delim-end delim-end end))) (set-marker-insertion-type (overlay-get o-match 'delim-start) t) (set-marker-insertion-type (overlay-get o-match 'delim-end) nil) (overlay-put o-match 'modification-hooks '(auto-o-schedule-suicide)) (overlay-put o-match 'insert-in-front-hooks '(auto-o-schedule-suicide)) (overlay-put o-match 'insert-behind-hooks '(auto-o-schedule-suicide)) ;; return the new match overlay o-match)) (defun auto-o-match-overlay (overlay start &optional end no-props no-parse protect-match) "Match start and end of OVERLAY with START and END match overlays. If START or END are numbers or markers, move that edge to the buffer location specified by the number or marker and make it unmatched. If START or END are non-nil but neither of the above, make that edge unmatched. If START or END are null, don't change that edge. However, if END is null, and START is an 'end overlay, match end of OVERLAY rather than start. If NO-PARSE is non-nil, block re-parsing due to exclusive overlay changes. If NO-PROPS is non-nil, block updating of overlay's properties. If PROTECT-MATCH is non-nil, don't modify any match overlays associated with OVERLAY (i.e. don't modify their 'parent properties)." (let ((old-start (overlay-start overlay)) (old-end (overlay-end overlay)) (old-o-start (overlay-get overlay 'start)) (old-o-end (overlay-get overlay 'end)) (old-exclusive (overlay-get overlay 'exclusive)) (old-priority (overlay-get overlay 'priority))) ;; if END is null, we're not unmatching, and START is an end overlay, ;; match end of overlay instead of start (Note: assumes we're matching an ;; overlay class with 'start and 'end regexps) (when (and (null end) (overlayp start) (eq (auto-o-edge start) 'end)) (setq end start) (setq start nil)) ;; move overlay to new location (move-overlay overlay (cond ((overlayp start) (overlay-get start 'delim-end)) ((number-or-marker-p start) start) (start (point-min)) (t (overlay-start overlay))) (cond ((overlayp end) (overlay-get end 'delim-start)) ((number-or-marker-p end) end) (end (point-max)) (t (overlay-end overlay)))) ;; if changing start match... (when start ;; sort out parent property of old start match (when (and old-o-start (not (eq old-o-start end)) (null protect-match)) (overlay-put old-o-start 'parent nil)) ;; if unmatching start, set start property to nil (if (not (overlayp start)) (overlay-put overlay 'start nil) ;; if matching start, set start property to new start match (overlay-put overlay 'start start) (overlay-put start 'parent overlay))) ;; if changing end match... (when end ;; sort out parent property of old end match (when (and old-o-end (not (eq old-o-end start)) (null protect-match)) (overlay-put old-o-end 'parent nil)) ;; if unmatching end, set end property to nil (if (not (overlayp end)) (overlay-put overlay 'end nil) ;; if matching end, set end property to new end match (overlay-put overlay 'end end) (overlay-put end 'parent overlay))) ;; unless it's blocked, update properties if new match takes precedence ;; (Note: this sometimes sets the overlay's properties to the ones it ;; already had, but it hardly seems worth checking for that) (unless no-props ;; when start was previously matched and is being changed, remove ;; properties due to old start match ;; Note: no need to check if properties were really set by start match, ;; since if not they will be recreated below (when (and start old-o-start) (dolist (p (auto-o-props old-o-start)) (overlay-put overlay (car p) nil))) ;; when end was previously matched and is being changed, remove ;; properties due to old end match (see note above) (when (and end old-o-end) (dolist (p (auto-o-props old-o-end)) (overlay-put overlay (car p) nil))) ;; sort out properties due to new matches (let (props) (cond ;; if start has been unmatched, use properties of end match ((not (auto-o-start-matched-p overlay)) (setq props (auto-o-props (overlay-get overlay 'end)))) ;; if end has been unmatched, use properties of start match ((not (auto-o-end-matched-p overlay)) (setq props (auto-o-props (overlay-get overlay 'start)))) (t ;; otherwise, use properties of whichever match takes precedence (let ((o-start (overlay-get overlay 'start)) (o-end (overlay-get overlay 'end))) (if (<= (auto-o-rank o-start) (auto-o-rank o-end)) (setq props (auto-o-props o-start)) (setq props (auto-o-props o-end)))))) ;; bundle properties inside a list if not already, then update them (when (symbolp (car props)) (setq props (list props))) (dolist (p props) (overlay-put overlay (car p) (cdr p))))) ;; unless it's blocked or overlay is inactive, check if anything needs ;; reparsing due to exclusive overlay changes (unless (or no-parse (overlay-get overlay 'inactive)) (let ((set-id (overlay-get overlay 'set-id)) (start (overlay-start overlay)) (end (overlay-end overlay)) (exclusive (overlay-get overlay 'exclusive)) (priority (overlay-get overlay 'priority))) (cond ;; if overlay wasn't and still isn't exclusive, do nothing ((and (null exclusive) (null old-exclusive))) ;; if overlay has become exclusive, delete lower priority overlays ;; within it ((and (null old-exclusive) exclusive) (auto-o-update-exclusive set-id start end nil priority)) ;; if overlay was exclusive but no longer is, re-parse region it ;; used to cover ((and old-exclusive (null exclusive)) (auto-o-update-exclusive set-id old-start old-end old-priority nil)) ;; if overlay was and is exclusive, and has been moved to a ;; completely different location re-parse old location and delete ;; lower priority overlays within new location ((or (< end old-start) (> start old-start)) (auto-o-update-exclusive set-id start end old-priority nil) (auto-o-update-exclusive set-id start end nil priority)) ;; if overlay was and is exclusive, and overlaps its old location... (t ;; if priority has changed, re-parse/delete in overlap region (when (/= old-priority priority) (auto-o-update-exclusive set-id (max start old-start) (min end old-end) old-priority priority)) (cond ;; if overlay was exclusive and start has shrunk, re-parse ;; uncovered region ((and (> start old-start) old-exclusive) (auto-o-update-exclusive set-id old-start start old-priority nil)) ;; if overlay is exclusive and has grown, delete lower priority ;; overlays in newly covered region ((and (< start old-start) exclusive) (auto-o-update-exclusive set-id start old-start nil priority))) (cond ;; if overlay was exclusive and end has shrunk, re-parse ((and (< end old-end) old-exclusive) (auto-o-update-exclusive set-id end old-end old-priority nil)) ;; if overlay is exclusive and has grown, delete lower priority ((and (> end old-end) exclusive) (auto-o-update-exclusive set-id old-end end nil priority)))) ))) )) (defun auto-o-delete-overlay (overlay &optional no-parse protect-match) "Delete OVERLAY from buffer. If PROTECT-MATCH is non-nil, don't modify any match overlays associated with OVERLAY (i.e. leave their 'parent properties alone). If NO-PARSE is non-nil, block re-parsing due to exclusive overlay changes." (let ((start (overlay-start overlay)) (end (overlay-end overlay)) o-match) ;; delete overlay from buffer and `auto-overlay-list' (delete-overlay overlay) (unless (setq o-match (overlay-get overlay 'start)) (setq o-match (overlay-get overlay 'end))) ;; (auto-o-delete-from-overlay-list overlay) ;; unless blocked, if overlay's exclusive flag was set, re-parse region it ;; covered (when (and (null no-parse) (overlay-get overlay 'exclusive)) (auto-o-update-exclusive (overlay-get overlay 'set-id) start end (overlay-get overlay 'priority) nil)) ;; Note: it's vital that the match overlays' parent properties are only ;; set to nil *after* `auto-update-exclusive' is run: if the overlay ;; overlapped one of its match overlays, the newly parentless match ;; overlay would be re-parsed by `auto-update-exclusive', which would ;; re-create the parent overlay that's just been deleted! ;; unmatch match overlays (unless protect-match (when (setq o-match (overlay-get overlay 'start)) (overlay-put o-match 'parent nil)) (when (setq o-match (overlay-get overlay 'end)) (overlay-put o-match 'parent nil))) )) (defun auto-o-matched-p (beg end set-id definition-id &optional regexp-id) ;; Determine if characters between BEG end END are already matched by a ;; match overlay corresponding to DEFINITION-ID (and optionally REGEXP-ID) ;; of regexp set SET-ID. (let (o-match) (catch 'match (mapc (lambda (o) (when (and (overlay-get o 'auto-overlay-match) (eq (overlay-get o 'set-id) set-id) (eq (overlay-get o 'definition-id) definition-id) (eq (overlay-get o 'regexp-id) regexp-id) (= (overlay-start o) beg) (= (overlay-end o) end)) (setq o-match o) (throw 'match t))) (overlays-in beg end))) o-match)) (defun auto-o-within-exclusive-p (match &optional end priority) ;; If MATCH is an overlay, determine if it is within a higher priority ;; exclusive overlay. If MATCH is a number or marker, determine whether ;; region between MATCH and END is within an exclusive overlay with higher ;; priority than PRIORITY. (when (null end) (setq end (overlay-get match 'delim-end)) (setq priority (overlay-get match 'priority)) (setq match (overlay-get match 'delim-start))) ;; look for higher priority exclusive overlays (auto-overlays-in match end (list '(identity auto-overlay) '(identity exclusive) (list (lambda (p q) (and p (or (null q) (> p q)))) 'priority priority))) ) (defun auto-o-overlapping-match (beg end set-id definition-id regexp-id edge) ;; Returns any match overlay corresponding to same SET-ID, DEFINITION-ID and ;; EDGE but different REGEXP-ID whose delimiter overlaps region from BEG to ;; END. (Only returns first one it finds; which is returned if more than one ;; exists is undefined.) (let (o-overlap) (catch 'match (mapc (lambda (o) (when (and (overlay-get o 'auto-overlay-match) (eq (overlay-get o 'set-id) set-id) (eq (overlay-get o 'definition-id) definition-id) (not (eq (overlay-get o 'regexp-id) regexp-id)) (eq (auto-o-edge o) edge) ;; check delimiter (not just o) overlaps BEG to END (< (overlay-get o 'delim-start) end) (> (overlay-get o 'delim-end) beg)) (setq o-overlap o) (throw 'match t))) (overlays-in beg end))) o-overlap)) ;;; =============================================================== ;;; Compatibility Stuff (unless (fboundp 'line-number-at-pos) (require 'auto-overlays-compat) (defalias 'line-number-at-pos 'auto-overlays-compat-line-number-at-pos)) (unless (fboundp 'replace-regexp-in-string) (require 'auto-overlays-compat) (defalias 'replace-regexp-in-string 'auto-overlays-compat-replace-regexp-in-string)) ;;; auto-overlays.el ends here