1
0
mirror of https://git.savannah.gnu.org/git/emacs.git synced 2024-11-28 07:45:00 +00:00
emacs/lisp/emulation/viper-macs.el
2012-01-05 01:46:05 -08:00

935 lines
31 KiB
EmacsLisp
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

;;; viper-macs.el --- functions implementing keyboard macros for Viper
;; Copyright (C) 1994-1997, 2000-2012 Free Software Foundation, Inc.
;; Author: Michael Kifer <kifer@cs.stonybrook.edu>
;; Package: viper
;; 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 <http://www.gnu.org/licenses/>.
;;; 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
(require 'viper-cmd)
))
;; 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 canonical form, which 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")
(mapc 'viper-describe-one-macro viper-vi-kbd-macro-alist)
(princ "\n\nMacros in Insert and Replace states:\n====================================\n")
(mapc '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)
(mapc 'viper-describe-one-macro-elt (viper-kbd-buf-alist macro))
(princ " none\n"))
(princ "\n ** Mode-specific:")
(if (viper-kbd-mode-alist macro)
(mapc '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 (featurep 'xemacs)
(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))
;; Seems that viper-read-event is more robust here. We need to be able to
;; place these events on unread-command-events list. If we use
;; viper-read-key then events will be converted to keys, and sometimes
;; (e.g., (control \[)) those keys differ from the corresponding events.
;; So, do not use (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 keyboard 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)))
;;; viper-macs.el ends here