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|
;;; subword.el --- Handling capitalized subwords in a nomenclature -*- lexical-binding: t -*-
;; Copyright (C) 2004-2017 Free Software Foundation, Inc.
;; Author: Masatake YAMATO
;; 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:
;; This package provides the `subword' minor mode, which merges the
;; old remap-based subword.el (derived from cc-mode code) and
;; cap-words.el, which takes advantage of core Emacs
;; word-motion-customization functionality.
;; In spite of GNU Coding Standards, it is popular to name a symbol by
;; mixing uppercase and lowercase letters, e.g. "GtkWidget",
;; "EmacsFrameClass", "NSGraphicsContext", etc. Here we call these
;; mixed case symbols `nomenclatures'. Also, each capitalized (or
;; completely uppercase) part of a nomenclature is called a `subword'.
;; Here are some examples:
;; Nomenclature Subwords
;; ===========================================================
;; GtkWindow => "Gtk" and "Window"
;; EmacsFrameClass => "Emacs", "Frame" and "Class"
;; NSGraphicsContext => "NS", "Graphics" and "Context"
;; The subword oriented commands defined in this package recognize
;; subwords in a nomenclature to move between them and to edit them as
;; words. You also get a mode to treat symbols as words instead,
;; called `superword-mode' (the opposite of `subword-mode').
;; To make the mode turn on automatically, put the following code in
;; your .emacs:
;;
;; (add-hook 'c-mode-common-hook 'subword-mode)
;;
;; To make the mode turn `superword-mode' on automatically for
;; only some modes, put the following code in your .emacs:
;;
;; (add-hook 'c-mode-common-hook 'superword-mode)
;;
;; Acknowledgment:
;; The regular expressions to detect subwords are mostly based on
;; the old `c-forward-into-nomenclature' originally contributed by
;; Terry_Glanfield dot Southern at rxuk dot xerox dot com.
;; TODO: ispell-word.
;;; Code:
(defvar subword-forward-function 'subword-forward-internal
"Function to call for forward subword movement.")
(defvar subword-backward-function 'subword-backward-internal
"Function to call for backward subword movement.")
(defvar subword-forward-regexp
"\\W*\\(\\([[:upper:]]*\\(\\W\\)?\\)[[:lower:][:digit:]]*\\)"
"Regexp used by `subword-forward-internal'.")
(defvar subword-backward-regexp
"\\(\\(\\W\\|[[:lower:][:digit:]]\\)\\([[:upper:]]+\\W*\\)\\|\\W\\w+\\)"
"Regexp used by `subword-backward-internal'.")
(defvar subword-mode-map
;; We originally remapped motion keys here, but now use Emacs core
;; hooks. Leave this keymap around so that user additions to it
;; keep working.
(make-sparse-keymap)
"Keymap used in `subword-mode' minor mode.")
;;;###autoload
(define-obsolete-function-alias
'capitalized-words-mode 'subword-mode "25.1")
;;;###autoload
(define-minor-mode subword-mode
"Toggle subword movement and editing (Subword mode).
With a prefix argument ARG, enable Subword mode if ARG is
positive, and disable it otherwise. If called from Lisp, enable
the mode if ARG is omitted or nil.
Subword mode is a buffer-local minor mode. Enabling it changes
the definition of a word so that word-based commands stop inside
symbols with mixed uppercase and lowercase letters,
e.g. \"GtkWidget\", \"EmacsFrameClass\", \"NSGraphicsContext\".
Here we call these mixed case symbols `nomenclatures'. Each
capitalized (or completely uppercase) part of a nomenclature is
called a `subword'. Here are some examples:
Nomenclature Subwords
===========================================================
GtkWindow => \"Gtk\" and \"Window\"
EmacsFrameClass => \"Emacs\", \"Frame\" and \"Class\"
NSGraphicsContext => \"NS\", \"Graphics\" and \"Context\"
This mode changes the definition of a word so that word commands
treat nomenclature boundaries as word boundaries.
\\{subword-mode-map}"
:lighter " ,"
(when subword-mode (superword-mode -1))
(subword-setup-buffer))
(define-obsolete-function-alias 'c-subword-mode 'subword-mode "23.2")
;;;###autoload
(define-global-minor-mode global-subword-mode subword-mode
(lambda () (subword-mode 1))
:group 'convenience)
;; N.B. These commands aren't used unless explicitly invoked; they're
;; here for compatibility. Today, subword-mode leaves motion commands
;; alone and uses `find-word-boundary-function-table' to change how
;; `forward-word' and other low-level commands detect word boundaries.
;; This way, all word-related activities, not just the images we
;; imagine here, get subword treatment.
(defun subword-forward (&optional arg)
"Do the same as `forward-word' but on subwords.
See the command `subword-mode' for a description of subwords.
Optional argument ARG is the same as for `forward-word'."
(interactive "^p")
(unless arg (setq arg 1))
(cond
((< 0 arg)
(dotimes (_i arg (point))
(funcall subword-forward-function)))
((> 0 arg)
(dotimes (_i (- arg) (point))
(funcall subword-backward-function)))
(t
(point))))
(put 'subword-forward 'CUA 'move)
(defun subword-backward (&optional arg)
"Do the same as `backward-word' but on subwords.
See the command `subword-mode' for a description of subwords.
Optional argument ARG is the same as for `backward-word'."
(interactive "^p")
(subword-forward (- (or arg 1))))
(defun subword-right (&optional arg)
"Do the same as `right-word' but on subwords."
(interactive "^p")
(if (eq (current-bidi-paragraph-direction) 'left-to-right)
(subword-forward arg)
(subword-backward arg)))
(defun subword-left (&optional arg)
"Do the same as `left-word' but on subwords."
(interactive "^p")
(if (eq (current-bidi-paragraph-direction) 'left-to-right)
(subword-backward arg)
(subword-forward arg)))
(defun subword-mark (arg)
"Do the same as `mark-word' but on subwords.
See the command `subword-mode' for a description of subwords.
Optional argument ARG is the same as for `mark-word'."
;; This code is almost copied from `mark-word' in GNU Emacs.
(interactive "p")
(cond ((and (eq last-command this-command) (mark t))
(set-mark
(save-excursion
(goto-char (mark))
(subword-forward arg)
(point))))
(t
(push-mark
(save-excursion
(subword-forward arg)
(point))
nil t))))
(put 'subword-backward 'CUA 'move)
(defun subword-kill (arg)
"Do the same as `kill-word' but on subwords.
See the command `subword-mode' for a description of subwords.
Optional argument ARG is the same as for `kill-word'."
(interactive "p")
(kill-region (point) (subword-forward arg)))
(defun subword-backward-kill (arg)
"Do the same as `backward-kill-word' but on subwords.
See the command `subword-mode' for a description of subwords.
Optional argument ARG is the same as for `backward-kill-word'."
(interactive "p")
(subword-kill (- arg)))
(defun subword-transpose (arg)
"Do the same as `transpose-words' but on subwords.
See the command `subword-mode' for a description of subwords.
Optional argument ARG is the same as for `transpose-words'."
(interactive "*p")
(transpose-subr 'subword-forward arg))
(defun subword-downcase (arg)
"Do the same as `downcase-word' but on subwords.
See the command `subword-mode' for a description of subwords.
Optional argument ARG is the same as for `downcase-word'."
(interactive "p")
(let ((start (point)))
(downcase-region (point) (subword-forward arg))
(when (< arg 0)
(goto-char start))))
(defun subword-upcase (arg)
"Do the same as `upcase-word' but on subwords.
See the command `subword-mode' for a description of subwords.
Optional argument ARG is the same as for `upcase-word'."
(interactive "p")
(let ((start (point)))
(upcase-region (point) (subword-forward arg))
(when (< arg 0)
(goto-char start))))
(defun subword-capitalize (arg)
"Do the same as `capitalize-word' but on subwords.
See the command `subword-mode' for a description of subwords.
Optional argument ARG is the same as for `capitalize-word'."
(interactive "p")
(condition-case nil
(let ((count (abs arg))
(start (point))
(advance (>= arg 0)))
(dotimes (_i count)
(if advance
(progn
(re-search-forward "[[:alpha:]]")
(goto-char (match-beginning 0)))
(subword-backward))
(let* ((p (point))
(pp (1+ p))
(np (subword-forward)))
(upcase-region p pp)
(downcase-region pp np)
(goto-char (if advance np p))))
(unless advance
(goto-char start)))
(search-failed nil)))
(defvar superword-mode-map subword-mode-map
"Keymap used in `superword-mode' minor mode.")
;;;###autoload
(define-minor-mode superword-mode
"Toggle superword movement and editing (Superword mode).
With a prefix argument ARG, enable Superword mode if ARG is
positive, and disable it otherwise. If called from Lisp, enable
the mode if ARG is omitted or nil.
Superword mode is a buffer-local minor mode. Enabling it changes
the definition of words such that symbols characters are treated
as parts of words: e.g., in `superword-mode',
\"this_is_a_symbol\" counts as one word.
\\{superword-mode-map}"
:lighter " ²"
(when superword-mode (subword-mode -1))
(subword-setup-buffer))
;;;###autoload
(define-global-minor-mode global-superword-mode superword-mode
(lambda () (superword-mode 1))
:group 'convenience)
;;
;; Internal functions
;;
(defun subword-forward-internal ()
(if superword-mode
(forward-symbol 1)
(if (and
(save-excursion
(let ((case-fold-search nil))
(re-search-forward subword-forward-regexp nil t)))
(> (match-end 0) (point)))
(goto-char
(cond
((and (< 1 (- (match-end 2) (match-beginning 2)))
;; If we have an all-caps word with no following lower-case or
;; non-word letter, don't leave the last char (bug#13758).
(not (and (null (match-beginning 3))
(eq (match-end 2) (match-end 1)))))
(1- (match-end 2)))
(t
(match-end 0))))
(forward-word 1))))
(defun subword-backward-internal ()
(if superword-mode
(forward-symbol -1)
(if (save-excursion
(let ((case-fold-search nil))
(re-search-backward subword-backward-regexp nil t)))
(goto-char
(cond
((and (match-end 3)
(< 1 (- (match-end 3) (match-beginning 3)))
(not (eq (point) (match-end 3))))
(1- (match-end 3)))
(t
(1+ (match-beginning 0)))))
(backward-word 1))))
(defconst subword-find-word-boundary-function-table
(let ((tab (make-char-table nil)))
(set-char-table-range tab t #'subword-find-word-boundary)
tab)
"Assigned to `find-word-boundary-function-table' in
`subword-mode' and `superword-mode'; defers to
`subword-find-word-boundary'.")
(defconst subword-empty-char-table
(make-char-table nil)
"Assigned to `find-word-boundary-function-table' while we're
searching subwords in order to avoid unwanted reentrancy.")
(defun subword-setup-buffer ()
(set (make-local-variable 'find-word-boundary-function-table)
(if (or subword-mode superword-mode)
subword-find-word-boundary-function-table
subword-empty-char-table)))
(defun subword-find-word-boundary (pos limit)
"Catch-all handler in `subword-find-word-boundary-function-table'."
(let ((find-word-boundary-function-table subword-empty-char-table))
(save-match-data
(save-excursion
(save-restriction
(if (< pos limit)
(progn
(goto-char pos)
(narrow-to-region (point-min) limit)
(funcall subword-forward-function))
(goto-char (1+ pos))
(narrow-to-region limit (point-max))
(funcall subword-backward-function))
(point))))))
(provide 'subword)
(provide 'superword)
(provide 'cap-words) ; Obsolete alias
;;; subword.el ends here
|