;;; viper-macs.el --- functions implementing keyboard macros for Viper ;; Copyright (C) 1994, 1995, 1996, 1997, 2000, 2001, 2002, 2003, 2004, ;; 2005, 2006, 2007 Free Software Foundation, Inc. ;; Author: Michael Kifer <kifer@cs.stonybrook.edu> ;; 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 2, 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; see the file COPYING. If not, write to the ;; Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, ;; Boston, MA 02110-1301, USA. ;;; Commentary: ;;; Code: (provide 'viper-macs) ;; compiler pacifier (defvar viper-ex-work-buf) (defvar viper-custom-file-name) (defvar viper-current-state) (defvar viper-fast-keyseq-timeout) ;; loading happens only in non-interactive compilation ;; in order to spare non-viperized emacs from being viperized (if noninteractive (eval-when-compile (let ((load-path (cons (expand-file-name ".") load-path))) (or (featurep 'viper-util) (load "viper-util.el" nil nil 'nosuffix)) (or (featurep 'viper-keym) (load "viper-keym.el" nil nil 'nosuffix)) (or (featurep 'viper-mous) (load "viper-mous.el" nil nil 'nosuffix)) (or (featurep 'viper-cmd) (load "viper-cmd.el" nil nil 'nosuffix)) ))) ;; end pacifier (require 'viper-util) (require 'viper-keym) ;;; Variables ;; Register holding last macro. (defvar viper-last-macro-reg nil) ;; format of the elements of kbd alists: ;; (name ((buf . macr)...(buf . macr)) ((maj-mode . macr)...) (t . macr)) ;; kbd macro alist for Vi state (defvar viper-vi-kbd-macro-alist nil) ;; same for insert/replace state (defvar viper-insert-kbd-macro-alist nil) ;; same for emacs state (defvar viper-emacs-kbd-macro-alist nil) ;; Internal var that passes info between start-kbd-macro and end-kbd-macro ;; in :map and :map! (defvar viper-kbd-macro-parameters nil) (defvar viper-this-kbd-macro nil "Vector of keys representing the name of currently running Viper kbd macro.") (defvar viper-last-kbd-macro nil "Vector of keys representing the name of last Viper keyboard macro.") (defcustom viper-repeat-from-history-key 'f12 "Prefix key for accessing previously typed Vi commands. The previous command is accessible, as usual, via `.'. The command before this can be invoked as `<this key> 1', and the command before that, and the command before that one is accessible as `<this key> 2'. The notation for these keys is borrowed from XEmacs. Basically, a key is a symbol, e.g., `a', `\\1', `f2', etc., or a list, e.g., `(meta control f1)'." :type 'sexp :group 'viper) ;;; Code ;; Ex map command (defun ex-map () (let ((mod-char "") macro-name macro-body map-args ins) (save-window-excursion (set-buffer viper-ex-work-buf) (if (looking-at "!") (progn (setq ins t mod-char "!") (forward-char 1)))) (setq map-args (ex-map-read-args mod-char) macro-name (car map-args) macro-body (cdr map-args)) (setq viper-kbd-macro-parameters (list ins mod-char macro-name macro-body)) (if macro-body (viper-end-mapping-kbd-macro 'ignore) (ex-fixup-history (format "map%s %S" mod-char (viper-display-macro macro-name))) ;; if defining macro for insert, switch there for authentic WYSIWYG (if ins (viper-change-state-to-insert)) (start-kbd-macro nil) (define-key viper-vi-intercept-map "\C-x)" 'viper-end-mapping-kbd-macro) (define-key viper-insert-intercept-map "\C-x)" 'viper-end-mapping-kbd-macro) (define-key viper-emacs-intercept-map "\C-x)" 'viper-end-mapping-kbd-macro) (message "Mapping %S in %s state. Type macro definition followed by `C-x )'" (viper-display-macro macro-name) (if ins "Insert" "Vi"))) )) ;; Ex unmap (defun ex-unmap () (let ((mod-char "") temp macro-name ins) (save-window-excursion (set-buffer viper-ex-work-buf) (if (looking-at "!") (progn (setq ins t mod-char "!") (forward-char 1)))) (setq macro-name (ex-unmap-read-args mod-char)) (setq temp (viper-fixup-macro (vconcat macro-name))) ;; copy and fixup (ex-fixup-history (format "unmap%s %S" mod-char (viper-display-macro temp))) (viper-unrecord-kbd-macro macro-name (if ins 'insert-state 'vi-state)) )) ;; read arguments for ex-map (defun ex-map-read-args (variant) (let ((cursor-in-echo-area t) (key-seq []) temp key event message macro-name macro-body args) (condition-case nil (setq args (concat (ex-get-inline-cmd-args ".*map[!]*[ \t]?" "\n\C-m") " nil nil ") temp (read-from-string args) macro-name (car temp) macro-body (car (read-from-string args (cdr temp)))) (error (signal 'error '("map: Macro name and body must be a quoted string or a vector")))) ;; We expect macro-name to be a vector, a string, or a quoted string. ;; In the second case, it will emerge as a symbol when read from ;; the above read-from-string. So we need to convert it into a string (if macro-name (cond ((vectorp macro-name) nil) ((stringp macro-name) (setq macro-name (vconcat macro-name))) (t (setq macro-name (vconcat (prin1-to-string macro-name))))) (message ":map%s <Macro Name>" variant)(sit-for 2) (while (not (member key '(?\C-m ?\n (control m) (control j) return linefeed))) (setq key-seq (vconcat key-seq (if key (vector key) []))) ;; the only keys available for editing are these-- no help while there (if (member key '(?\b ?\d '^? '^H (control h) (control \?) backspace delete)) (setq key-seq (viper-subseq key-seq 0 (- (length key-seq) 2)))) (setq message (format ":map%s %s" variant (if (> (length key-seq) 0) (prin1-to-string (viper-display-macro key-seq)) ""))) (message "%s" message) (setq event (viper-read-key)) ;;(setq event (viper-read-event)) (setq key (if (viper-mouse-event-p event) (progn (message "%s (No mouse---only keyboard keys, please)" message) (sit-for 2) nil) (viper-event-key event))) ) (setq macro-name key-seq)) (if (= (length macro-name) 0) (error "Can't map an empty macro name")) (setq macro-name (viper-fixup-macro macro-name)) (if (viper-char-array-p macro-name) (setq macro-name (viper-char-array-to-macro macro-name))) (if macro-body (cond ((viper-char-array-p macro-body) (setq macro-body (viper-char-array-to-macro macro-body))) ((vectorp macro-body) nil) (t (error "map: Invalid syntax in macro definition")))) (setq cursor-in-echo-area nil)(sit-for 0) ; this overcomes xemacs tty bug (cons macro-name macro-body))) ;; read arguments for ex-unmap (defun ex-unmap-read-args (variant) (let ((cursor-in-echo-area t) (macro-alist (if (string= variant "!") viper-insert-kbd-macro-alist viper-vi-kbd-macro-alist)) ;; these are disabled just in case, to avoid surprises when doing ;; completing-read viper-vi-kbd-minor-mode viper-insert-kbd-minor-mode viper-emacs-kbd-minor-mode viper-vi-intercept-minor-mode viper-insert-intercept-minor-mode viper-emacs-intercept-minor-mode event message key key-seq macro-name) (setq macro-name (ex-get-inline-cmd-args ".*unma?p?[!]*[ \t]*")) (if (> (length macro-name) 0) () (message ":unmap%s <Name>" variant) (sit-for 2) (while (not (member key '(?\C-m ?\n (control m) (control j) return linefeed))) (setq key-seq (vconcat key-seq (if key (vector key) []))) ;; the only keys available for editing are these-- no help while there (cond ((member key '(?\b ?\d '^? '^H (control h) (control \?) backspace delete)) (setq key-seq (viper-subseq key-seq 0 (- (length key-seq) 2)))) ((member key '(tab (control i) ?\t)) (setq key-seq (viper-subseq key-seq 0 (1- (length key-seq)))) (setq message (format ":unmap%s %s" variant (if (> (length key-seq) 0) (prin1-to-string (viper-display-macro key-seq)) ""))) (setq key-seq (viper-do-sequence-completion key-seq macro-alist message)) )) (setq message (format ":unmap%s %s" variant (if (> (length key-seq) 0) (prin1-to-string (viper-display-macro key-seq)) ""))) (message "%s" message) (setq event (viper-read-key)) ;;(setq event (viper-read-event)) (setq key (if (viper-mouse-event-p event) (progn (message "%s (No mouse---only keyboard keys, please)" message) (sit-for 2) nil) (viper-event-key event))) ) (setq macro-name key-seq)) (if (= (length macro-name) 0) (error "Can't unmap an empty macro name")) ;; convert macro names into vector, if starts with a `[' (if (memq (elt macro-name 0) '(?\[ ?\")) (car (read-from-string macro-name)) (vconcat macro-name)) )) ;; Terminate a Vi kbd macro. ;; optional argument IGNORE, if t, indicates that we are dealing with an ;; existing macro that needs to be registered, but there is no need to ;; terminate a kbd macro. (defun viper-end-mapping-kbd-macro (&optional ignore) (interactive) (define-key viper-vi-intercept-map "\C-x)" nil) (define-key viper-insert-intercept-map "\C-x)" nil) (define-key viper-emacs-intercept-map "\C-x)" nil) (if (and (not ignore) (or (not viper-kbd-macro-parameters) (not defining-kbd-macro))) (error "Not mapping a kbd-macro")) (let ((mod-char (nth 1 viper-kbd-macro-parameters)) (ins (nth 0 viper-kbd-macro-parameters)) (macro-name (nth 2 viper-kbd-macro-parameters)) (macro-body (nth 3 viper-kbd-macro-parameters))) (setq viper-kbd-macro-parameters nil) (or ignore (progn (end-kbd-macro nil) (setq macro-body (viper-events-to-macro last-kbd-macro)) ;; always go back to Vi, since this is where we started ;; defining macro (viper-change-state-to-vi))) (viper-record-kbd-macro macro-name (if ins 'insert-state 'vi-state) (viper-display-macro macro-body)) (ex-fixup-history (format "map%s %S %S" mod-char (viper-display-macro macro-name) (viper-display-macro macro-body))) )) ;;; Recording, unrecording, executing ;; Accepts as macro names: strings and vectors. ;; strings must be strings of characters; vectors must be vectors of keys ;; in canonic form. The canonic form is essentially the form used in XEmacs ;; More general definitions are inherited by more specific scopes: ;; global->major mode->buffer. More specific definitions override more general (defun viper-record-kbd-macro (macro-name state macro-body &optional scope) "Record a Vi macro. Can be used in `.viper' file to define permanent macros. MACRO-NAME is a string of characters or a vector of keys. STATE is either `vi-state' or `insert-state'. It specifies the Viper state in which to define the macro. MACRO-BODY is a string that represents the keyboard macro. Optional SCOPE says whether the macro should be global \(t\), mode-specific \(a major-mode symbol\), or buffer-specific \(buffer name, a string\). If SCOPE is nil, the user is asked to specify the scope." (let* (state-name keymap (macro-alist-var (cond ((eq state 'vi-state) (setq state-name "Vi state" keymap viper-vi-kbd-map) 'viper-vi-kbd-macro-alist) ((memq state '(insert-state replace-state)) (setq state-name "Insert state" keymap viper-insert-kbd-map) 'viper-insert-kbd-macro-alist) (t (setq state-name "Emacs state" keymap viper-emacs-kbd-map) 'viper-emacs-kbd-macro-alist) )) new-elt old-elt old-sub-elt msg temp lis lis2) (if (= (length macro-name) 0) (error "Can't map an empty macro name")) ;; Macro-name is usually a vector. However, command history or macros ;; recorded in ~/.viper may be recorded as strings. So, convert to ;; vectors. (setq macro-name (viper-fixup-macro macro-name)) (if (viper-char-array-p macro-name) (setq macro-name (viper-char-array-to-macro macro-name))) (setq macro-body (viper-fixup-macro macro-body)) (if (viper-char-array-p macro-body) (setq macro-body (viper-char-array-to-macro macro-body))) ;; don't ask if scope is given and is of the right type (or (eq scope t) (stringp scope) (and scope (symbolp scope)) (progn (setq scope (cond ((y-or-n-p (format "Map this macro for buffer `%s' only? " (buffer-name))) (setq msg (format "%S is mapped to %s for %s in `%s'" (viper-display-macro macro-name) (viper-abbreviate-string (format "%S" (setq temp (viper-display-macro macro-body))) 14 "" "" (if (stringp temp) " ....\"" " ....]")) state-name (buffer-name))) (buffer-name)) ((y-or-n-p (format "Map this macro for the major mode `%S' only? " major-mode)) (setq msg (format "%S is mapped to %s for %s in `%S'" (viper-display-macro macro-name) (viper-abbreviate-string (format "%S" (setq temp (viper-display-macro macro-body))) 14 "" "" (if (stringp macro-body) " ....\"" " ....]")) state-name major-mode)) major-mode) (t (setq msg (format "%S is globally mapped to %s in %s" (viper-display-macro macro-name) (viper-abbreviate-string (format "%S" (setq temp (viper-display-macro macro-body))) 14 "" "" (if (stringp macro-body) " ....\"" " ....]")) state-name)) t))) (if (y-or-n-p (format "Save this macro in %s? " (viper-abbreviate-file-name viper-custom-file-name))) (viper-save-string-in-file (format "\n(viper-record-kbd-macro %S '%S %s '%S)" (viper-display-macro macro-name) state ;; if we don't let vector macro-body through %S, ;; the symbols `\.' `\[' etc will be converted into ;; characters, causing invalid read error on recorded ;; macros in .viper. ;; I am not sure is macro-body can still be a string at ;; this point, but I am preserving this option anyway. (if (vectorp macro-body) (format "%S" macro-body) macro-body) scope) viper-custom-file-name)) (message "%s" msg) )) (setq new-elt (cons macro-name (cond ((eq scope t) (list nil nil (cons t nil))) ((symbolp scope) (list nil (list (cons scope nil)) (cons t nil))) ((stringp scope) (list (list (cons scope nil)) nil (cons t nil)))))) (setq old-elt (assoc macro-name (eval macro-alist-var))) (if (null old-elt) (progn ;; insert new-elt in macro-alist-var and keep the list sorted (define-key keymap (vector (viper-key-to-emacs-key (aref macro-name 0))) 'viper-exec-mapped-kbd-macro) (setq lis (eval macro-alist-var)) (while (and lis (string< (viper-array-to-string (car (car lis))) (viper-array-to-string macro-name))) (setq lis2 (cons (car lis) lis2)) (setq lis (cdr lis))) (setq lis2 (reverse lis2)) (set macro-alist-var (append lis2 (cons new-elt lis))) (setq old-elt new-elt))) (setq old-sub-elt (cond ((eq scope t) (viper-kbd-global-pair old-elt)) ((symbolp scope) (assoc scope (viper-kbd-mode-alist old-elt))) ((stringp scope) (assoc scope (viper-kbd-buf-alist old-elt))))) (if old-sub-elt (setcdr old-sub-elt macro-body) (cond ((symbolp scope) (setcar (cdr (cdr old-elt)) (cons (cons scope macro-body) (viper-kbd-mode-alist old-elt)))) ((stringp scope) (setcar (cdr old-elt) (cons (cons scope macro-body) (viper-kbd-buf-alist old-elt)))))) )) ;; macro name must be a vector of viper-style keys ;; viper-unrecord-kbd-macro doesn't have scope. Macro definitions are inherited ;; from global -> major mode -> buffer ;; More specific definition overrides more general ;; Can't unrecord definition for more specific, if a more general definition is ;; in effect (defun viper-unrecord-kbd-macro (macro-name state) "Delete macro MACRO-NAME from Viper STATE. MACRO-NAME must be a vector of viper-style keys. This command is used by Viper internally, but the user can also use it in ~/.viper to delete pre-defined macros supplied with Viper. The best way to avoid mistakes in macro names to be passed to this function is to use viper-describe-kbd-macros and copy the name from there." (let* (state-name keymap (macro-alist-var (cond ((eq state 'vi-state) (setq state-name "Vi state" keymap viper-vi-kbd-map) 'viper-vi-kbd-macro-alist) ((memq state '(insert-state replace-state)) (setq state-name "Insert state" keymap viper-insert-kbd-map) 'viper-insert-kbd-macro-alist) (t (setq state-name "Emacs state" keymap viper-emacs-kbd-map) 'viper-emacs-kbd-macro-alist) )) buf-mapping mode-mapping global-mapping macro-pair macro-entry) ;; Macro-name is usually a vector. However, command history or macros ;; recorded in ~/.viper may appear as strings. So, convert to vectors. (setq macro-name (viper-fixup-macro macro-name)) (if (viper-char-array-p macro-name) (setq macro-name (viper-char-array-to-macro macro-name))) (setq macro-entry (assoc macro-name (eval macro-alist-var))) (if (= (length macro-name) 0) (error "Can't unmap an empty macro name")) (if (null macro-entry) (error "%S is not mapped to a macro for %s in `%s'" (viper-display-macro macro-name) state-name (buffer-name))) (setq buf-mapping (viper-kbd-buf-pair macro-entry) mode-mapping (viper-kbd-mode-pair macro-entry) global-mapping (viper-kbd-global-pair macro-entry)) (cond ((and (cdr buf-mapping) (or (and (not (cdr mode-mapping)) (not (cdr global-mapping))) (y-or-n-p (format "Unmap %S for `%s' only? " (viper-display-macro macro-name) (buffer-name))))) (setq macro-pair buf-mapping) (message "%S is unmapped for %s in `%s'" (viper-display-macro macro-name) state-name (buffer-name))) ((and (cdr mode-mapping) (or (not (cdr global-mapping)) (y-or-n-p (format "Unmap %S for the major mode `%S' only? " (viper-display-macro macro-name) major-mode)))) (setq macro-pair mode-mapping) (message "%S is unmapped for %s in %S" (viper-display-macro macro-name) state-name major-mode)) ((cdr (setq macro-pair global-mapping)) (message "Global mapping for %S in %s is removed" (viper-display-macro macro-name) state-name)) (t (error "%S is not mapped to a macro for %s in `%s'" (viper-display-macro macro-name) state-name (buffer-name)))) (setcdr macro-pair nil) (or (cdr buf-mapping) (cdr mode-mapping) (cdr global-mapping) (progn (set macro-alist-var (delq macro-entry (eval macro-alist-var))) (if (viper-can-release-key (aref macro-name 0) (eval macro-alist-var)) (define-key keymap (vector (viper-key-to-emacs-key (aref macro-name 0))) nil)) )) )) ;; Check if MACRO-ALIST has an entry for a macro name starting with ;; CHAR. If not, this indicates that the binding for this char ;; in viper-vi/insert-kbd-map can be released. (defun viper-can-release-key (char macro-alist) (let ((lis macro-alist) (can-release t) macro-name) (while (and lis can-release) (setq macro-name (car (car lis))) (if (eq char (aref macro-name 0)) (setq can-release nil)) (setq lis (cdr lis))) can-release)) (defun viper-exec-mapped-kbd-macro (count) "Dispatch kbd macro." (interactive "P") (let* ((macro-alist (cond ((eq viper-current-state 'vi-state) viper-vi-kbd-macro-alist) ((memq viper-current-state '(insert-state replace-state)) viper-insert-kbd-macro-alist) (t viper-emacs-kbd-macro-alist))) (unmatched-suffix "") ;; Macros and keys are executed with other macros turned off ;; For macros, this is done to avoid macro recursion viper-vi-kbd-minor-mode viper-insert-kbd-minor-mode viper-emacs-kbd-minor-mode next-best-match keyseq event-seq macro-first-char macro-alist-elt macro-body command) (setq macro-first-char last-command-event event-seq (viper-read-fast-keysequence macro-first-char macro-alist) keyseq (viper-events-to-macro event-seq) macro-alist-elt (assoc keyseq macro-alist) next-best-match (viper-find-best-matching-macro macro-alist keyseq)) (if (null macro-alist-elt) (setq macro-alist-elt (car next-best-match) unmatched-suffix (viper-subseq event-seq (cdr next-best-match)))) (cond ((null macro-alist-elt)) ((setq macro-body (viper-kbd-buf-definition macro-alist-elt))) ((setq macro-body (viper-kbd-mode-definition macro-alist-elt))) ((setq macro-body (viper-kbd-global-definition macro-alist-elt)))) ;; when defining keyboard macro, don't use the macro mappings (if (and macro-body (not defining-kbd-macro)) ;; block cmd executed as part of a macro from entering command history (let ((command-history command-history)) (setq viper-this-kbd-macro (car macro-alist-elt)) (execute-kbd-macro (viper-macro-to-events macro-body) count) (setq viper-this-kbd-macro nil viper-last-kbd-macro (car macro-alist-elt)) (viper-set-unread-command-events unmatched-suffix)) ;; If not a macro, or the macro is suppressed while defining another ;; macro, put keyseq back on the event queue (viper-set-unread-command-events event-seq) ;; if the user typed arg, then use it if prefix arg is not set by ;; some other command (setting prefix arg can happen if we do, say, ;; 2dw and there is a macro starting with 2. Then control will go to ;; this routine (or prefix-arg (setq prefix-arg count)) (setq command (key-binding (read-key-sequence nil))) (if (commandp command) (command-execute command) (beep 1))) )) ;;; Displaying and completing macros (defun viper-describe-kbd-macros () "Show currently defined keyboard macros." (interactive) (with-output-to-temp-buffer " *viper-info*" (princ "Macros in Vi state:\n===================\n") (mapcar 'viper-describe-one-macro viper-vi-kbd-macro-alist) (princ "\n\nMacros in Insert and Replace states:\n====================================\n") (mapcar 'viper-describe-one-macro viper-insert-kbd-macro-alist) (princ "\n\nMacros in Emacs state:\n======================\n") (mapcar 'viper-describe-one-macro viper-emacs-kbd-macro-alist) )) (defun viper-describe-one-macro (macro) (princ (format "\n *** Mappings for %S:\n ------------\n" (viper-display-macro (car macro)))) (princ " ** Buffer-specific:") (if (viper-kbd-buf-alist macro) (mapcar 'viper-describe-one-macro-elt (viper-kbd-buf-alist macro)) (princ " none\n")) (princ "\n ** Mode-specific:") (if (viper-kbd-mode-alist macro) (mapcar 'viper-describe-one-macro-elt (viper-kbd-mode-alist macro)) (princ " none\n")) (princ "\n ** Global:") (if (viper-kbd-global-definition macro) (princ (format "\n %S" (cdr (viper-kbd-global-pair macro)))) (princ " none")) (princ "\n")) (defun viper-describe-one-macro-elt (elt) (let ((name (car elt)) (defn (cdr elt))) (princ (format "\n * %S:\n %S\n" name defn)))) ;; check if SEQ is a prefix of some car of an element in ALIST (defun viper-keyseq-is-a-possible-macro (seq alist) (let ((converted-seq (viper-events-to-macro seq))) (eval (cons 'or (mapcar (lambda (elt) (viper-prefix-subseq-p converted-seq elt)) (viper-this-buffer-macros alist)))))) ;; whether SEQ1 is a prefix of SEQ2 (defun viper-prefix-subseq-p (seq1 seq2) (let ((len1 (length seq1)) (len2 (length seq2))) (if (<= len1 len2) (equal seq1 (viper-subseq seq2 0 len1))))) ;; find the longest common prefix (defun viper-common-seq-prefix (&rest seqs) (let* ((first (car seqs)) (rest (cdr seqs)) (pref []) (idx 0) len) (if (= (length seqs) 0) (setq len 0) (setq len (apply 'min (mapcar 'length seqs)))) (while (< idx len) (if (eval (cons 'and (mapcar (lambda (s) (equal (elt first idx) (elt s idx))) rest))) (setq pref (vconcat pref (vector (elt first idx))))) (setq idx (1+ idx))) pref)) ;; get all sequences that match PREFIX from a given A-LIST (defun viper-extract-matching-alist-members (pref alist) (delq nil (mapcar (lambda (elt) (if (viper-prefix-subseq-p pref elt) elt)) (viper-this-buffer-macros alist)))) (defun viper-do-sequence-completion (seq alist compl-message) (let* ((matches (viper-extract-matching-alist-members seq alist)) (new-seq (apply 'viper-common-seq-prefix matches)) ) (cond ((and (equal seq new-seq) (= (length matches) 1)) (message "%s (Sole completion)" compl-message) (sit-for 2)) ((null matches) (message "%s (No match)" compl-message) (sit-for 2) (setq new-seq seq)) ((member seq matches) (message "%s (Complete, but not unique)" compl-message) (sit-for 2) (viper-display-vector-completions matches)) ((equal seq new-seq) (viper-display-vector-completions matches))) new-seq)) (defun viper-display-vector-completions (list) (with-output-to-temp-buffer "*Completions*" (display-completion-list (mapcar 'prin1-to-string (mapcar 'viper-display-macro list))))) ;; alist is the alist of macros ;; str is the fast key sequence entered ;; returns: (matching-macro-def . unmatched-suffix-start-index) (defun viper-find-best-matching-macro (alist str) (let ((lis alist) (def-len 0) (str-len (length str)) match unmatched-start-idx found macro-def) (while (and (not found) lis) (setq macro-def (car lis) def-len (length (car macro-def))) (if (and (>= str-len def-len) (equal (car macro-def) (viper-subseq str 0 def-len))) (if (or (viper-kbd-buf-definition macro-def) (viper-kbd-mode-definition macro-def) (viper-kbd-global-definition macro-def)) (setq found t)) ) (setq lis (cdr lis))) (if found (setq match macro-def unmatched-start-idx def-len) (setq match nil unmatched-start-idx 0)) (cons match unmatched-start-idx))) ;; returns a list of names of macros defined for the current buffer (defun viper-this-buffer-macros (macro-alist) (let (candidates) (setq candidates (mapcar (lambda (elt) (if (or (viper-kbd-buf-definition elt) (viper-kbd-mode-definition elt) (viper-kbd-global-definition elt)) (car elt))) macro-alist)) (setq candidates (delq nil candidates)))) ;; if seq of Viper key symbols (representing a macro) can be converted to a ;; string--do so. Otherwise, do nothing. (defun viper-display-macro (macro-name-or-body) (cond ((viper-char-symbol-sequence-p macro-name-or-body) (mapconcat 'symbol-name macro-name-or-body "")) ((viper-char-array-p macro-name-or-body) (mapconcat 'char-to-string macro-name-or-body "")) (t macro-name-or-body))) ;; convert sequence of events (that came presumably from emacs kbd macro) into ;; Viper's macro, which is a vector of the form ;; [ desc desc ... ] ;; Each desc is either a symbol of (meta symb), (shift symb), etc. ;; Here we purge events that happen to be lists. In most cases, these events ;; got into a macro definition unintentionally; say, when the user moves mouse ;; during a macro definition, then something like (switch-frame ...) might get ;; in. Another reason for purging lists-events is that we can't store them in ;; textual form (say, in .emacs) and then read them back. (defun viper-events-to-macro (event-seq) (vconcat (delq nil (mapcar (lambda (elt) (if (consp elt) nil (viper-event-key elt))) event-seq)))) ;; convert strings or arrays of characters to Viper macro form (defun viper-char-array-to-macro (array) (let ((vec (vconcat array)) macro) (if viper-xemacs-p (setq macro (mapcar 'character-to-event vec)) (setq macro vec)) (vconcat (mapcar 'viper-event-key macro)))) ;; For macros bodies and names, goes over MACRO and checks if all members are ;; names of keys (actually, it only checks if they are symbols or lists ;; if a digit is found, it is converted into a symbol (e.g., 0 -> \0, etc). ;; If MACRO is not a list or vector -- doesn't change MACRO. (defun viper-fixup-macro (macro) (let ((len (length macro)) (idx 0) elt break) (if (or (vectorp macro) (listp macro)) (while (and (< idx len) (not break)) (setq elt (elt macro idx)) (cond ((numberp elt) ;; fix number (if (and (<= 0 elt) (<= elt 9)) (cond ((arrayp macro) (aset macro idx (intern (char-to-string (+ ?0 elt))))) ((listp macro) (setcar (nthcdr idx macro) (intern (char-to-string (+ ?0 elt))))) ))) ((listp elt) (viper-fixup-macro elt)) ((symbolp elt) nil) (t (setq break t))) (setq idx (1+ idx)))) (if break (error "Wrong type macro component, symbol-or-listp, %S" elt) macro))) (defun viper-macro-to-events (macro-body) (vconcat (mapcar 'viper-key-to-emacs-key macro-body))) ;;; Reading fast key sequences ;; Assuming that CHAR was the first character in a fast succession of key ;; strokes, read the rest. Return the vector of keys that was entered in ;; this fast succession of key strokes. ;; A fast keysequence is one that is terminated by a pause longer than ;; viper-fast-keyseq-timeout. (defun viper-read-fast-keysequence (event macro-alist) (let ((lis (vector event)) next-event) (while (and (viper-fast-keysequence-p) (viper-keyseq-is-a-possible-macro lis macro-alist)) (setq next-event (viper-read-key)) ;;(setq next-event (viper-read-event)) (or (viper-mouse-event-p next-event) (setq lis (vconcat lis (vector next-event))))) lis)) ;;; Keyboard macros in registers ;; sets register to last-kbd-macro carefully. (defun viper-set-register-macro (reg) (if (get-register reg) (if (y-or-n-p "Register contains data. Overwrite? ") () (error "Macro not saved in register. Can still be invoked via `C-x e'"))) (set-register reg last-kbd-macro)) (defun viper-register-macro (count) "Keyboard macros in registers - a modified \@ command." (interactive "P") (let ((reg (downcase (read-char)))) (cond ((or (and (<= ?a reg) (<= reg ?z))) (setq viper-last-macro-reg reg) (if defining-kbd-macro (progn (end-kbd-macro) (viper-set-register-macro reg)) (execute-kbd-macro (get-register reg) count))) ((or (= ?@ reg) (= ?\^j reg) (= ?\^m reg)) (if viper-last-macro-reg nil (error "No previous kbd macro")) (execute-kbd-macro (get-register viper-last-macro-reg) count)) ((= ?\# reg) (start-kbd-macro count)) ((= ?! reg) (setq reg (downcase (read-char))) (if (or (and (<= ?a reg) (<= reg ?z))) (progn (setq viper-last-macro-reg reg) (viper-set-register-macro reg)))) (t (error "`%c': Unknown register" reg))))) (defun viper-global-execute () "Call last keyboad macro for each line in the region." (if (> (point) (mark t)) (exchange-point-and-mark)) (beginning-of-line) (call-last-kbd-macro) (while (< (point) (mark t)) (forward-line 1) (beginning-of-line) (call-last-kbd-macro))) ;;; arch-tag: ecd3cc5c-8cd0-4bbe-b2ec-7e75a4b7d0aa ;;; viper-macs.el ends here