;;; easy-mmode.el --- easy definition for major and minor modes -*- lexical-binding: t; -*- ;; Copyright (C) 1997, 2000-2021 Free Software Foundation, Inc. ;; Author: Georges Brun-Cottan ;; Maintainer: Stefan Monnier ;; Package: emacs ;; Keywords: extensions lisp ;; 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: ;; Minor modes are useful and common. This package makes defining a ;; minor mode easy, by focusing on the writing of the minor mode ;; functionalities themselves. Moreover, this package enforces a ;; conventional naming of user interface primitives, making things ;; natural for the minor-mode end-users. ;; For each mode, easy-mmode defines the following: ;; : The minor mode predicate. A buffer-local variable. ;; -map : The keymap possibly associated to . ;; see `define-minor-mode' documentation ;; ;; eval ;; (pp (macroexpand '(define-minor-mode ))) ;; to check the result before using it. ;; The order in which minor modes are installed is important. Keymap ;; lookup proceeds down minor-mode-map-alist, and the order there ;; tends to be the reverse of the order in which the modes were ;; installed. Perhaps there should be a feature to let you specify ;; orderings. ;; Additionally to `define-minor-mode', the package provides convenient ;; ways to define keymaps, and other helper functions for major and minor modes. ;;; Code: (defun easy-mmode-pretty-mode-name (mode &optional lighter) "Turn the symbol MODE into a string intended for the user. If provided, LIGHTER will be used to help choose capitalization by, replacing its case-insensitive matches with the literal string in LIGHTER." (let* ((case-fold-search t) ;; Produce "Foo-Bar minor mode" from foo-bar-minor-mode. (name (concat (replace-regexp-in-string ;; If the original mode name included "-minor" (some ;; of them don't, e.g. auto-revert-mode), then ;; replace it with " minor". "-Minor" " minor" ;; "foo-bar-minor" -> "Foo-Bar-Minor" (capitalize (replace-regexp-in-string ;; "foo-bar-minor-mode" -> "foo-bar-minor" "toggle-\\|-mode\\'" "" (symbol-name mode)))) " mode"))) (setq name (replace-regexp-in-string "\\`Global-" "Global " name)) (if (not (stringp lighter)) name ;; Strip leading and trailing whitespace from LIGHTER. (setq lighter (replace-regexp-in-string "\\`\\s-+\\|\\s-+\\'" "" lighter)) ;; Replace any (case-insensitive) matches for LIGHTER in NAME ;; with a literal LIGHTER. E.g., if NAME is "Iimage mode" and ;; LIGHTER is " iImag", then this will produce "iImage mode". ;; (LIGHTER normally comes from the mode-line string passed to ;; define-minor-mode, and normally includes at least one leading ;; space.) (replace-regexp-in-string (regexp-quote lighter) lighter name t t)))) (defconst easy-mmode--arg-docstring " If called interactively, toggle `%s'. If the prefix argument is positive, enable the mode, and if it is zero or negative, disable the mode. If called from Lisp, toggle the mode if ARG is `toggle'. Enable the mode if ARG is nil, omitted, or is a positive number. Disable the mode if ARG is a negative number. The mode's hook is called both when the mode is enabled and when it is disabled.") (defun easy-mmode--mode-docstring (doc mode-pretty-name keymap-sym) (let ((doc (or doc (format "Toggle %s on or off. \\{%s}" mode-pretty-name keymap-sym)))) (if (string-match-p "\\bARG\\b" doc) doc (let* ((fill-prefix nil) (docs-fc (bound-and-true-p emacs-lisp-docstring-fill-column)) (fill-column (if (integerp docs-fc) docs-fc 65)) (argdoc (format easy-mmode--arg-docstring mode-pretty-name)) (filled (if (fboundp 'fill-region) (with-temp-buffer (insert argdoc) (fill-region (point-min) (point-max) 'left t) (buffer-string)) argdoc))) (replace-regexp-in-string "\\(\n\n\\|\\'\\)\\(.\\|\n\\)*\\'" (concat filled "\\1") doc nil nil 1))))) ;;;###autoload (defalias 'easy-mmode-define-minor-mode 'define-minor-mode) ;;;###autoload (defmacro define-minor-mode (mode doc &optional init-value lighter keymap &rest body) "Define a new minor mode MODE. This defines the toggle command MODE and (by default) a control variable MODE (you can override this with the :variable keyword, see below). DOC is the documentation for the mode toggle command. The defined mode command takes one optional (prefix) argument. Interactively with no prefix argument, it toggles the mode. A prefix argument enables the mode if the argument is positive, and disables it otherwise. When called from Lisp, the mode command toggles the mode if the argument is `toggle', disables the mode if the argument is a non-positive integer, and enables the mode otherwise (including if the argument is omitted or nil or a positive integer). If DOC is nil, give the mode command a basic doc-string documenting what its argument does. If the word \"ARG\" does not appear in DOC, a paragraph is added to DOC explaining usage of the mode argument. Optional INIT-VALUE is the initial value of the mode's variable. Note that the minor mode function won't be called by setting this option, so the value *reflects* the minor mode's natural initial state, rather than *setting* it. In the vast majority of cases it should be nil. Optional LIGHTER is displayed in the mode line when the mode is on. Optional KEYMAP is the default keymap bound to the mode keymap. If non-nil, it should be a variable name (whose value is a keymap), or an expression that returns either a keymap or a list of (KEY . BINDING) pairs where KEY and BINDING are suitable for `define-key'. If you supply a KEYMAP argument that is not a symbol, this macro defines the variable MODE-map and gives it the value that KEYMAP specifies. BODY contains code to execute each time the mode is enabled or disabled. It is executed after toggling the mode, and before running MODE-hook. Before the actual body code, you can write keyword arguments, i.e. alternating keywords and values. If you provide BODY, then you must provide (even if just nil) INIT-VALUE, LIGHTER, and KEYMAP, or provide at least one keyword argument, or both; otherwise, BODY would be misinterpreted as the first omitted argument. The following special keywords are supported (other keywords are passed to `defcustom' if the minor mode is global): :group GROUP Custom group name to use in all generated `defcustom' forms. :global GLOBAL If non-nil specifies that the minor mode is not meant to be buffer-local, so don't make the variable MODE buffer-local. By default, the mode is buffer-local. :init-value VAL Same as the INIT-VALUE argument. Not used if you also specify :variable. :lighter SPEC Same as the LIGHTER argument. :keymap MAP Same as the KEYMAP argument. :require SYM Same as in `defcustom'. :variable PLACE The location to use instead of the variable MODE to store the state of the mode. This can be simply a different named variable, or a generalized variable. PLACE can also be of the form (GET . SET), where GET is an expression that returns the current state, and SET is a function that takes one argument, the new state, and sets it. If you specify a :variable, this function does not define a MODE variable (nor any of the terms used in :variable). :after-hook A single lisp form which is evaluated after the mode hooks have been run. It should not be quoted. For example, you could write (define-minor-mode foo-mode \"If enabled, foo on you!\" :lighter \" Foo\" :require \\='foo :global t :group \\='hassle :version \"27.5\" ...BODY CODE...)" (declare (doc-string 2) (debug (&define name string-or-null-p [&optional [¬ keywordp] sexp &optional [¬ keywordp] sexp &optional [¬ keywordp] sexp] [&rest [keywordp sexp]] def-body))) ;; Allow skipping the first three args. (cond ((keywordp init-value) (setq body (if keymap `(,init-value ,lighter ,keymap ,@body) `(,init-value ,lighter)) init-value nil lighter nil keymap nil)) ((keywordp lighter) (setq body `(,lighter ,keymap ,@body) lighter nil keymap nil)) ((keywordp keymap) (push keymap body) (setq keymap nil))) (let* ((last-message (make-symbol "last-message")) (mode-name (symbol-name mode)) (pretty-name (easy-mmode-pretty-mode-name mode lighter)) (globalp nil) (set nil) (initialize nil) (group nil) (type nil) (extra-args nil) (extra-keywords nil) (variable nil) ;The PLACE where the state is stored. (setter `(setq ,mode)) ;The beginning of the exp to set the mode var. (getter mode) ;The exp to get the mode value. (modefun mode) ;The minor mode function name we're defining. (require t) (after-hook nil) (hook (intern (concat mode-name "-hook"))) (hook-on (intern (concat mode-name "-on-hook"))) (hook-off (intern (concat mode-name "-off-hook"))) keyw keymap-sym tmp) ;; Check keys. (while (keywordp (setq keyw (car body))) (setq body (cdr body)) (pcase keyw (:init-value (setq init-value (pop body))) (:lighter (setq lighter (purecopy (pop body)))) (:global (setq globalp (pop body)) (when (and globalp (symbolp mode)) (setq setter `(setq-default ,mode)) (setq getter `(default-value ',mode)))) (:extra-args (setq extra-args (pop body))) (:set (setq set (list :set (pop body)))) (:initialize (setq initialize (list :initialize (pop body)))) (:group (setq group (nconc group (list :group (pop body))))) (:type (setq type (list :type (pop body)))) (:require (setq require (pop body))) (:keymap (setq keymap (pop body))) (:variable (setq variable (pop body)) (if (not (and (setq tmp (cdr-safe variable)) (or (symbolp tmp) (functionp tmp)))) ;; PLACE is not of the form (GET . SET). (progn (setq setter `(setf ,variable)) (setq getter variable)) (setq getter (car variable)) (setq setter `(funcall #',(cdr variable))))) (:after-hook (setq after-hook (pop body))) (_ (push keyw extra-keywords) (push (pop body) extra-keywords)))) (setq keymap-sym (if (and keymap (symbolp keymap)) keymap (intern (concat mode-name "-map")))) (unless set (setq set '(:set #'custom-set-minor-mode))) (unless initialize (setq initialize '(:initialize 'custom-initialize-default))) ;; TODO? Mark booleans as safe if booleanp? Eg abbrev-mode. (unless type (setq type '(:type 'boolean))) `(progn ;; Define the variable to enable or disable the mode. ,(cond ;; If :variable is specified, then the var will be ;; declared elsewhere. (variable nil) ((not globalp) `(progn :autoload-end (defvar-local ,mode ,init-value ,(concat (format "Non-nil if %s is enabled.\n" pretty-name) (internal--format-docstring-line "Use the command `%s' to change this variable." mode))))) (t (let ((base-doc-string (concat "Non-nil if %s is enabled. See the `%s' command for a description of this minor mode." (if body " Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `%s'.")))) `(defcustom ,mode ,init-value ,(format base-doc-string pretty-name mode mode) ,@set ,@initialize ,@group ,@type ,@(unless (eq require t) `(:require ,require)) ,@(nreverse extra-keywords))))) ;; The actual function. (defun ,modefun (&optional arg ,@extra-args) ,(easy-mmode--mode-docstring doc pretty-name keymap-sym) ;; Use `toggle' rather than (if ,mode 0 1) so that using ;; repeat-command still does the toggling correctly. (interactive (list (if current-prefix-arg (prefix-numeric-value current-prefix-arg) 'toggle))) (let ((,last-message (current-message))) (,@setter (cond ((eq arg 'toggle) (not ,getter)) ((and (numberp arg) (< arg 1)) nil) (t t))) ,@body ;; The on/off hooks are here for backward compatibility only. (run-hooks ',hook (if ,getter ',hook-on ',hook-off)) (if (called-interactively-p 'any) (progn ,(if (and globalp (not variable)) `(customize-mark-as-set ',mode)) ;; Avoid overwriting a message shown by the body, ;; but do overwrite previous messages. (unless (and (current-message) (not (equal ,last-message (current-message)))) (let ((local ,(if globalp "" " in current buffer"))) (message ,(format "%s %%sabled%%s" pretty-name) (if ,getter "en" "dis") local))))) ,@(when after-hook `(,after-hook))) (force-mode-line-update) ;; Return the new setting. ,getter) ;; Autoloading a define-minor-mode autoloads everything ;; up-to-here. :autoload-end (defvar ,hook nil) (unless (get ',hook 'variable-documentation) (put ',hook 'variable-documentation ,(format "Hook run after entering or leaving `%s'. No problems result if this variable is not bound. `add-hook' automatically binds it. (This is true for all hook variables.)" modefun))) ;; Allow using using `M-x customize-variable' on the hook. (put ',hook 'custom-type 'hook) (put ',hook 'standard-value (list nil)) ;; Define the minor-mode keymap. ,(unless (symbolp keymap) ;nil is also a symbol. `(defvar ,keymap-sym (let ((m ,keymap)) (cond ((keymapp m) m) ((listp m) (easy-mmode-define-keymap m)) (t (error "Invalid keymap %S" m)))) ,(format "Keymap for `%s'." mode-name))) ,(let ((modevar (pcase getter (`(default-value ',v) v) (_ getter)))) (if (not (symbolp modevar)) (if (or lighter keymap) (error ":lighter and :keymap unsupported with mode expression %S" getter)) `(with-no-warnings (add-minor-mode ',modevar ',lighter ,(if keymap keymap-sym `(if (boundp ',keymap-sym) ,keymap-sym)) nil ,(unless (eq mode modefun) `',modefun)))))))) ;;; ;;; make global minor mode ;;; ;;;###autoload (defalias 'easy-mmode-define-global-mode 'define-globalized-minor-mode) ;;;###autoload (defalias 'define-global-minor-mode 'define-globalized-minor-mode) ;;;###autoload (defmacro define-globalized-minor-mode (global-mode mode turn-on &rest body) "Make a global mode GLOBAL-MODE corresponding to buffer-local minor MODE. TURN-ON is a function that will be called with no args in every buffer and that should try to turn MODE on if applicable for that buffer. Each of KEY VALUE is a pair of CL-style keyword arguments. :predicate specifies which major modes the globalized minor mode should be switched on in. As the minor mode defined by this function is always global, any :global keyword is ignored. Other keywords have the same meaning as in `define-minor-mode', which see. In particular, :group specifies the custom group. The most useful keywords are those that are passed on to the `defcustom'. It normally makes no sense to pass the :lighter or :keymap keywords to `define-globalized-minor-mode', since these are usually passed to the buffer-local version of the minor mode. BODY contains code to execute each time the mode is enabled or disabled. It is executed after toggling the mode, and before running GLOBAL-MODE-hook. If MODE's set-up depends on the major mode in effect when it was enabled, then disabling and reenabling MODE should make MODE work correctly with the current major mode. This is important to prevent problems with derived modes, that is, major modes that call another major mode in their body. When a major mode is initialized, MODE is actually turned on just after running the major mode's hook. However, MODE is not turned on if the hook has explicitly disabled it. \(fn GLOBAL-MODE MODE TURN-ON [KEY VALUE]... BODY...)" (declare (doc-string 2)) (let* ((global-mode-name (symbol-name global-mode)) (mode-name (symbol-name mode)) (pretty-name (easy-mmode-pretty-mode-name mode)) (pretty-global-name (easy-mmode-pretty-mode-name global-mode)) (group nil) (extra-keywords nil) (MODE-variable mode) (MODE-buffers (intern (concat global-mode-name "-buffers"))) (MODE-enable-in-buffers (intern (concat global-mode-name "-enable-in-buffers"))) (MODE-check-buffers (intern (concat global-mode-name "-check-buffers"))) (MODE-cmhh (intern (concat global-mode-name "-cmhh"))) (minor-MODE-hook (intern (concat mode-name "-hook"))) (MODE-set-explicitly (intern (concat mode-name "-set-explicitly"))) (MODE-major-mode (intern (concat (symbol-name mode) "-major-mode"))) (MODE-predicate (intern (concat (replace-regexp-in-string "-mode\\'" "" global-mode-name) "-modes"))) (turn-on-function `#',turn-on) keyw predicate) ;; Check keys. (while (keywordp (setq keyw (car body))) (pop body) (pcase keyw (:group (setq group (nconc group (list :group (pop body))))) (:global (pop body)) (:variable (setq MODE-variable (pop body))) (:predicate (setq predicate (list (pop body))) (setq turn-on-function `(lambda () (require 'easy-mmode) (when (easy-mmode--globalized-predicate-p ,(car predicate)) (funcall ,turn-on-function))))) (_ (push keyw extra-keywords) (push (pop body) extra-keywords)))) `(progn (progn (put ',global-mode 'globalized-minor-mode t) :autoload-end (defvar-local ,MODE-major-mode nil)) ;; The actual global minor-mode (define-minor-mode ,global-mode ,(concat (format "Toggle %s in all buffers.\n" pretty-name) (internal--format-docstring-line "With prefix ARG, enable %s if ARG is positive; otherwise, \ disable it. If called from Lisp, enable the mode if ARG is omitted or nil.\n\n" pretty-global-name) (internal--format-docstring-line "%s is enabled in all buffers where `%s' would do it.\n\n" pretty-name turn-on) (internal--format-docstring-line "See `%s' for more information on %s." mode pretty-name) (if predicate (concat "\n\n" (internal--format-docstring-line "`%s' is used to control which modes this minor mode is used in." MODE-predicate)) "")) :global t ,@group ,@(nreverse extra-keywords) ;; Setup hook to handle future mode changes and new buffers. (if ,global-mode (progn (add-hook 'after-change-major-mode-hook ',MODE-enable-in-buffers) (add-hook 'find-file-hook ',MODE-check-buffers) (add-hook 'change-major-mode-hook ',MODE-cmhh)) (remove-hook 'after-change-major-mode-hook ',MODE-enable-in-buffers) (remove-hook 'find-file-hook ',MODE-check-buffers) (remove-hook 'change-major-mode-hook ',MODE-cmhh)) ;; Go through existing buffers. (dolist (buf (buffer-list)) (with-current-buffer buf (if ,global-mode (funcall ,turn-on-function) (when ,mode (,mode -1))))) ,@body) ,(when predicate `(defcustom ,MODE-predicate ,(car predicate) ,(format "Which major modes `%s' is switched on in. This variable can be either t (all major modes), nil (no major modes), or a list of modes and (not modes) to switch use this minor mode or not. For instance (c-mode (not message-mode mail-mode) text-mode) means \"use this mode in all modes derived from `c-mode', don't use in modes derived from `message-mode' or `mail-mode', but do use in other modes derived from `text-mode'\". An element with value t means \"use\" and nil means \"don't use\". There's an implicit nil at the end of the list." mode) :type '(repeat sexp) :group ,group)) ;; Autoloading define-globalized-minor-mode autoloads everything ;; up-to-here. :autoload-end ;; MODE-set-explicitly is set in MODE-set-explicitly and cleared by ;; kill-all-local-variables. (defvar-local ,MODE-set-explicitly nil) (defun ,MODE-set-explicitly () (setq ,MODE-set-explicitly t)) (put ',MODE-set-explicitly 'definition-name ',global-mode) ;; A function which checks whether MODE has been disabled in the major ;; mode hook which has just been run. (add-hook ',minor-MODE-hook ',MODE-set-explicitly) ;; List of buffers left to process. (defvar ,MODE-buffers nil) ;; The function that calls TURN-ON in each buffer. (defun ,MODE-enable-in-buffers () (let ((buffers ,MODE-buffers)) ;; Clear MODE-buffers to avoid scanning the same list of ;; buffers in recursive calls to MODE-enable-in-buffers. ;; Otherwise it could lead to infinite recursion. (setq ,MODE-buffers nil) (dolist (buf buffers) (when (buffer-live-p buf) (with-current-buffer buf (unless ,MODE-set-explicitly (unless (eq ,MODE-major-mode major-mode) (if ,MODE-variable (progn (,mode -1) (funcall ,turn-on-function)) (funcall ,turn-on-function)))) (setq ,MODE-major-mode major-mode)))))) (put ',MODE-enable-in-buffers 'definition-name ',global-mode) (defun ,MODE-check-buffers () (,MODE-enable-in-buffers) (remove-hook 'post-command-hook ',MODE-check-buffers)) (put ',MODE-check-buffers 'definition-name ',global-mode) ;; The function that catches kill-all-local-variables. (defun ,MODE-cmhh () (add-to-list ',MODE-buffers (current-buffer)) (add-hook 'post-command-hook ',MODE-check-buffers)) (put ',MODE-cmhh 'definition-name ',global-mode)))) (defun easy-mmode--globalized-predicate-p (predicate) (cond ((eq predicate t) t) ((eq predicate nil) nil) ((listp predicate) ;; Legacy support for (not a b c). (when (eq (car predicate) 'not) (setq predicate (nconc (mapcar (lambda (e) (list 'not e)) (cdr predicate)) (list t)))) (catch 'found (dolist (elem predicate) (cond ((eq elem t) (throw 'found t)) ((eq elem nil) (throw 'found nil)) ((and (consp elem) (eq (car elem) 'not)) (when (apply #'derived-mode-p (cdr elem)) (throw 'found nil))) ((symbolp elem) (when (derived-mode-p elem) (throw 'found t))))))))) ;;; ;;; easy-mmode-defmap ;;; (defun easy-mmode-set-keymap-parents (m parents) (set-keymap-parent m (if (cdr parents) (make-composed-keymap parents) (car parents)))) ;;;###autoload (defun easy-mmode-define-keymap (bs &optional name m args) "Return a keymap built from bindings BS. BS must be a list of (KEY . BINDING) where KEY and BINDINGS are suitable for `define-key'. Optional NAME is passed to `make-sparse-keymap'. Optional map M can be used to modify an existing map. ARGS is a list of additional keyword arguments. Valid keywords and arguments are: :name Name of the keymap; overrides NAME argument. :dense Non-nil for a dense keymap. :inherit Parent keymap. :group Ignored. :suppress Non-nil to call `suppress-keymap' on keymap, `nodigits' to suppress digits as prefix arguments." (let (inherit dense suppress) (while args (let ((key (pop args)) (val (pop args))) (pcase key (:name (setq name val)) (:dense (setq dense val)) (:inherit (setq inherit val)) (:suppress (setq suppress val)) (:group) (_ (message "Unknown argument %s in defmap" key))))) (unless (keymapp m) (setq bs (append m bs)) (setq m (if dense (make-keymap name) (make-sparse-keymap name)))) (when suppress (suppress-keymap m (eq suppress 'nodigits))) (dolist (b bs) (let ((keys (car b)) (binding (cdr b))) (dolist (key (if (consp keys) keys (list keys))) (cond ((symbolp key) (substitute-key-definition key binding m global-map)) ((null binding) (unless (keymapp (lookup-key m key)) (define-key m key binding))) ((let ((o (lookup-key m key))) (or (null o) (numberp o) (eq o 'undefined))) (define-key m key binding)))))) (cond ((keymapp inherit) (set-keymap-parent m inherit)) ((consp inherit) (easy-mmode-set-keymap-parents m inherit))) m)) ;;;###autoload (defmacro easy-mmode-defmap (m bs doc &rest args) "Define a constant M whose value is the result of `easy-mmode-define-keymap'. The M, BS, and ARGS arguments are as per that function. DOC is the constant's documentation." (declare (indent 1)) `(defconst ,m (easy-mmode-define-keymap ,bs nil (if (boundp ',m) ,m) ,(cons 'list args)) ,doc)) ;;; ;;; easy-mmode-defsyntax ;;; (defun easy-mmode-define-syntax (css args) (let ((st (make-syntax-table (plist-get args :copy))) (parent (plist-get args :inherit))) (dolist (cs css) (let ((char (car cs)) (syntax (cdr cs))) (if (sequencep char) (mapc (lambda (c) (modify-syntax-entry c syntax st)) char) (modify-syntax-entry char syntax st)))) (if parent (set-char-table-parent st (if (symbolp parent) (symbol-value parent) parent))) st)) ;;;###autoload (defmacro easy-mmode-defsyntax (st css doc &rest args) "Define variable ST as a syntax-table. CSS contains a list of syntax specifications of the form (CHAR . SYNTAX)." (declare (indent 1)) `(progn (autoload 'easy-mmode-define-syntax "easy-mmode") (defconst ,st (easy-mmode-define-syntax ,css ,(cons 'list args)) ,doc))) ;;; ;;; easy-mmode-define-navigation ;;; (defmacro easy-mmode-define-navigation (base re &optional name endfun narrowfun &rest body) "Define BASE-next and BASE-prev to navigate in the buffer. RE determines the places the commands should move point to. NAME should describe the entities matched by RE. It is used to build the docstrings of the two functions. BASE-next also tries to make sure that the whole entry is visible by searching for its end (by calling ENDFUN if provided or by looking for the next entry) and recentering if necessary. ENDFUN should return the end position (with or without moving point). NARROWFUN non-nil means to check for narrowing before moving, and if found, do `widen' first and then call NARROWFUN with no args after moving. BODY is executed after moving to the destination location." (declare (indent 5) (debug (exp exp exp def-form def-form def-body))) (let* ((base-name (symbol-name base)) (prev-sym (intern (concat base-name "-prev"))) (next-sym (intern (concat base-name "-next"))) (when-narrowed (lambda (body) (if (null narrowfun) body `(let ((was-narrowed (prog1 (buffer-narrowed-p) (widen)))) ,body (when was-narrowed (funcall #',narrowfun))))))) (unless name (setq name base-name)) ;; FIXME: Move most of those functions's bodies to helper functions! `(progn (defun ,next-sym (&optional count) ,(format "Go to the next COUNT'th %s. Interactively, COUNT is the prefix numeric argument, and defaults to 1." name) (interactive "p") (unless count (setq count 1)) (if (< count 0) (,prev-sym (- count)) (if (looking-at ,re) (setq count (1+ count))) ,(funcall when-narrowed `(if (not (re-search-forward ,re nil t count)) (if (looking-at ,re) (goto-char (or ,(if endfun `(funcall #',endfun)) (point-max))) (user-error "No next %s" ,name)) (goto-char (match-beginning 0)) (when (and (eq (current-buffer) (window-buffer)) (called-interactively-p 'interactive)) (let ((endpt (or (save-excursion ,(if endfun `(funcall #',endfun) `(re-search-forward ,re nil t 2))) (point-max)))) (unless (pos-visible-in-window-p endpt nil t) (let ((ws (window-start))) (recenter '(0)) (if (< (window-start) ws) ;; recenter scrolled in the wrong direction! (set-window-start nil ws)))))))) ,@body)) (put ',next-sym 'definition-name ',base) (defun ,prev-sym (&optional count) ,(format "Go to the previous COUNT'th %s. Interactively, COUNT is the prefix numeric argument, and defaults to 1." (or name base-name)) (interactive "p") (unless count (setq count 1)) (if (< count 0) (,next-sym (- count)) ,(funcall when-narrowed `(unless (re-search-backward ,re nil t count) (user-error "No previous %s" ,name))) ,@body)) (put ',prev-sym 'definition-name ',base)))) (provide 'easy-mmode) ;;; easy-mmode.el ends here