;;; subword.el --- Handling capitalized subwords in a nomenclature -*- lexical-binding: t -*- ;; Copyright (C) 2004-2014 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 . ;;; 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 "24.5") ;;;###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 bounaries. \\{subword-mode-map}" :lighter " Subw" (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 bounaries. ;; 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 " Supw" (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-bounary'.") (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