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4242d21d55
(strokes-xpm-header, strokes-rate-stroke): Fix typos. (strokes-character, strokes-get-grid-position, strokes-list-strokes): Remove superfluous backslashes. (strokes-last-stroke, strokes-global-map, strokes-mode): Reflow docstrings. (strokes-xpm-for-stroke, strokes-xpm-to-compressed-string) (strokes-xpm-for-compressed-string): Use quotes with buffer name. (strokes-distance-squared, strokes-global-set-stroke) (strokes-global-set-stroke-string): Doc fixes. (strokes-help): Fix typos; reflow docstring.
1761 lines
67 KiB
EmacsLisp
1761 lines
67 KiB
EmacsLisp
;;; strokes.el --- control Emacs through mouse strokes
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;; Copyright (C) 1997, 2000-2014 Free Software Foundation, Inc.
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;; Author: David Bakhash <cadet@alum.mit.edu>
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;; Maintainer: emacs-devel@gnu.org
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;; Keywords: lisp, mouse, extensions
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;; This file is part of GNU Emacs.
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;; GNU Emacs is free software: you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation, either version 3 of the License, or
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;; (at your option) any later version.
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;; GNU Emacs is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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;; You should have received a copy of the GNU General Public License
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;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
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;;; Commentary:
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;; This is the strokes package. It is intended to allow the user to
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;; control Emacs by means of mouse strokes. Once strokes is loaded, you
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;; can always get help be invoking `strokes-help':
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;; > M-x strokes-help
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;; and you can learn how to use the package. A mouse stroke, for now,
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;; can be defined as holding the shift key and the middle button, for
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;; instance, and then moving the mouse in whatever pattern you wish,
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;; which you have set Emacs to understand as mapping to a given
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;; command. For example, you may wish the have a mouse stroke that
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;; looks like a capital `C' which means `copy-region-as-kill'. Treat
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;; strokes just like you do key bindings. For example, Emacs sets key
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;; bindings globally with the `global-set-key' command. Likewise, you
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;; can do
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;; > M-x strokes-global-set-stroke
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;; to interactively program in a stroke. It would be wise to set the
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;; first one to this very command, so that from then on, you invoke
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;; `strokes-global-set-stroke' with a stroke. Likewise, there may
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;; eventually be a `strokes-local-set-stroke' command, also analogous
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;; to `local-set-key'.
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;; You can always unset the last stroke definition with the command
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;; > M-x strokes-unset-last-stroke
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;; and the last stroke that was added to `strokes-global-map' will be
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;; removed.
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;; Other analogies between strokes and key bindings are as follows:
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;; 1) To describe a stroke binding, you can type
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;; > M-x strokes-describe-stroke
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;; analogous to `describe-key'. It's also wise to have a stroke,
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;; like an `h', for help, or a `?', mapped to `describe-stroke'.
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;; 2) stroke bindings are set internally through the Lisp function
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;; `strokes-define-stroke', similar to the `define-key' function.
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;; some examples for a 3x3 stroke grid would be
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;; (strokes-define-stroke c-mode-stroke-map
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;; '((0 . 0) (1 . 1) (2 . 2))
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;; 'kill-region)
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;; (strokes-define-stroke strokes-global-map
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;; '((0 . 0) (0 . 1) (0 . 2) (1 . 2) (2 . 2))
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;; 'list-buffers)
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;; however, if you would probably just have the user enter in the
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;; stroke interactively and then set the stroke to whatever he/she
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;; entered. The Lisp function to interactively read a stroke is
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;; `strokes-read-stroke'. This is especially helpful when you're
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;; on a fast computer that can handle a 9x9 stroke grid.
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;; NOTE: only global stroke bindings are currently implemented,
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;; however mode- and buffer-local stroke bindings may eventually
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;; be implemented in a future version.
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;; The important variables to be aware of for this package are listed
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;; below. They can all be altered through the customizing package via
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;; > M-x customize
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;; and customizing the group named `strokes'. You can also read
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;; documentation on the variables there.
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;; `strokes-minimum-match-score' (determines the threshold of error that
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;; makes a stroke acceptable or unacceptable. If your strokes aren't
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;; matching, then you should raise this variable.
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;; `strokes-grid-resolution' (determines the grid dimensions that you use
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;; when defining/reading strokes. The finer the grid your computer can
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;; handle, the more you can do, but even a 3x3 grid is pretty cool.)
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;; The default value (9) should be fine for most decent computers.
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;; NOTE: This variable should not be set to a number less than 3.
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;; `strokes-display-strokes-buffer' will allow you to hide the strokes
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;; buffer when doing simple strokes. This is a speedup for slow
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;; computers as well as people who don't want to see their strokes.
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;; If you find that your mouse is accelerating too fast, you can
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;; execute an X command to slow it down. A good possibility is
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;; % xset m 5/4 8
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;; which seems, heuristically, to work okay, without much disruption.
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;; Whenever you load in the strokes package, you will be able to save
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;; what you've done upon exiting Emacs. You can also do
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;; > M-x strokes-prompt-user-save-strokes
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;; and it will save your strokes in your `strokes-file'.
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;; Note that internally, all of the routines that are part of this
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;; package are able to deal with complex strokes, as they are a superset
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;; of simple strokes. However, the default of this package will map
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;; S-mouse-2 to the command `strokes-do-stroke', and M-mouse-2 to
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;; `strokes-do-complex-stroke'. Complex strokes are terminated
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;; with mouse button 3.
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;; You can also toggle between strokes mode by simple typing
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;; > M-x strokes-mode
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;; I hope that, with the help of others, this package will be useful
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;; in entering in pictographic-like language text using the mouse
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;; (i.e. Korean). Japanese and Chinese are a bit trickier, but I'm
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;; sure that with help it can be done. The next version will allow
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;; the user to enter strokes which "remove the pencil from the paper"
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;; so to speak, so one character can have multiple strokes.
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;; NOTE (Oct 7, 2006): The URLs below seem to be invalid!!!
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;; You can read more about strokes at:
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;; http://www.mit.edu/people/cadet/strokes-help.html
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;; If you're interested in using strokes for writing English into Emacs
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;; using strokes, then you'll want to read about it on the web page above
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;; or just download from http://www.mit.edu/people/cadet/strokes-abc.el,
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;; which is nothing but a file with some helper commands for inserting
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;; alphanumerics and punctuation.
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;; Great thanks to Rob Ristroph for his generosity in letting me use
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;; his PC to develop this, Jason Johnson for his help in algorithms,
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;; Euna Kim for her help in Korean, and massive thanks to the helpful
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;; guys on the help instance on athena (zeno, jered, amu, gsstark,
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;; ghudson, etc) Special thanks to Steve Baur, Kyle Jones, and Hrvoje
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;; Niksic for all their help. And special thanks to Dave Gillespie
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;; for all the elisp help--he is responsible for helping me use the cl
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;; macros at (near) max speed.
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;; Tasks: (what I'm getting ready for future version)...
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;; 2) use 'strokes-read-complex-stroke for Korean, etc.
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;; 4) buffer-local 'strokes-local-map, and mode-stroke-maps would be nice
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;; 6) add some hooks, like `strokes-read-stroke-hook'
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;; 7) See what people think of the factory settings. Should I change
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;; them? They're all pretty arbitrary in a way. I guess they
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;; should be minimal, but computers are getting lots faster, and
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;; if I choose the defaults too conservatively, then strokes will
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;; surely disappoint some people on decent machines (until they
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;; figure out M-x customize). I need feedback.
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;; Other: I always have the most beta version of strokes, so if you
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;; want it just let me know.
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;; Fixme: Use pbm instead of xpm for pixmaps to work generally.
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;;; Code:
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;;; Requirements and provisions...
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(autoload 'mail-position-on-field "sendmail")
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(eval-when-compile (require 'cl-lib))
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;;; Constants...
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(defconst strokes-lift :strokes-lift
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"Symbol representing a stroke lift event for complex strokes.
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Complex strokes are those which contain two or more simple strokes.")
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(defconst strokes-xpm-header "/* XPM */
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static char * stroke_xpm[] = {
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/* width height ncolors cpp [x_hot y_hot] */
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\"33 33 9 1 26 23\",
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/* colors */
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\" c none s none\",
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\"* c #000000 s foreground\",
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\"R c #FFFF00000000\",
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\"O c #FFFF80000000\",
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\"Y c #FFFFFFFF0000\",
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\"G c #0000FFFF0000\",
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\"B c #00000000FFFF\",
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\"P c #FFFF0000FFFF\",
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\". c #45458B8B0000\",
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/* pixels */\n"
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"The header to all XPM buffers created by strokes.")
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;;; user variables...
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(defgroup strokes nil
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"Control Emacs through mouse strokes."
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:link '(emacs-commentary-link "strokes")
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:group 'mouse)
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(define-obsolete-variable-alias 'strokes-modeline-string 'strokes-lighter
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"24.3")
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(defcustom strokes-lighter " Strokes"
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"Mode line identifier for Strokes mode."
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:type 'string
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:group 'strokes)
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(defcustom strokes-character ?@
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"Character used when drawing strokes in the strokes buffer.
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\(The default is `@', which works well.)"
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:type 'character
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:group 'strokes)
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(defcustom strokes-minimum-match-score 1000
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"Minimum score for a stroke to be considered a possible match.
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Setting this variable to 0 would require a perfectly precise match.
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The default value is 1000, but it's mostly dependent on how precisely
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you manage to replicate your user-defined strokes. It also depends on
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the value of `strokes-grid-resolution', since a higher grid resolution
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will correspond to more sample points, and thus more distance
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measurements. Usually, this is not a problem since you first set
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`strokes-grid-resolution' based on what your computer seems to be able
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to handle (though the defaults are usually more than sufficient), and
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then you can set `strokes-minimum-match-score' to something that works
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for you. The only purpose of this variable is to insure that if you
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do a bogus stroke that really doesn't match any of the predefined
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ones, then strokes should NOT pick the one that came closest."
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:type 'integer
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:group 'strokes)
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(defcustom strokes-grid-resolution 9
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"Integer defining dimensions of the stroke grid.
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The grid is a square grid, where `strokes-grid-resolution' defaults to
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`9', making a 9x9 grid whose coordinates go from (0 . 0) on the top
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left to ((strokes-grid-resolution - 1) . (strokes-grid-resolution - 1))
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on the bottom right. The greater the resolution, the more intricate
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your strokes can be.
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NOTE: This variable should be odd and MUST NOT be less than 3 and need
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not be greater than 33, which is the resolution of the pixmaps.
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WARNING: Changing the value of this variable will gravely affect the
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strokes you have already programmed in. You should try to
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figure out what it should be based on your needs and on how
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quick the particular platform(s) you're operating on, and
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only then start programming in your custom strokes."
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:type 'integer
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:group 'strokes)
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(defcustom strokes-file (locate-user-emacs-file "strokes" ".strokes")
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"File containing saved strokes for Strokes mode."
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:version "24.4" ; added locate-user-emacs-file
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:type 'file
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:group 'strokes)
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(defvar strokes-buffer-name " *strokes*"
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"The name of the buffer that the strokes take place in.")
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(defcustom strokes-use-strokes-buffer t
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"If non-nil, the strokes buffer is used and strokes are displayed.
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If nil, strokes will be read the same, however the user will not be
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able to see the strokes. This be helpful for people who don't like
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the delay in switching to the strokes buffer."
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:type 'boolean
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:group 'strokes)
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;;; internal variables...
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(defvar strokes-window-configuration nil
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"The special window configuration used when entering strokes.
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This is set properly in the function `strokes-update-window-configuration'.")
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(defvar strokes-last-stroke nil
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"Last stroke entered by the user.
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Its value gets set every time the function `strokes-fill-stroke'
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gets called, since that is the best time to set the variable.")
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(defvar strokes-global-map '()
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"Association list of strokes and their definitions.
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Each entry is (STROKE . COMMAND) where STROKE is itself a list of
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coordinates (X . Y) where X and Y are lists of positions on the
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normalized stroke grid, with the top left at (0 . 0). COMMAND is
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the corresponding interactive function.")
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(defvar strokes-load-hook nil
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"Functions to be called when Strokes is loaded.")
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;;; ### NOT IMPLEMENTED YET ###
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;;(defvar edit-strokes-menu
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;; '("Edit-Strokes"
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;; ["Add stroke..." strokes-global-set-stroke t]
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;; ["Delete stroke..." strokes-edit-delete-stroke t]
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;; ["Change stroke" strokes-smaller t]
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;; ["Change definition" strokes-larger t]
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;; ["[Re]List Strokes chronologically" strokes-list-strokes t]
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;; ["[Re]List Strokes alphabetically" strokes-list-strokes t]
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;; ["Quit" strokes-edit-quit t]
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;; ))
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;;; Macros...
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;; unused
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;; (defmacro strokes-while-inhibiting-garbage-collector (&rest forms)
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;; "Execute FORMS without interference from the garbage collector."
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;; `(let ((gc-cons-threshold 134217727))
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;; ,@forms))
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(defsubst strokes-click-p (stroke)
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"Non-nil if STROKE is really click."
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(< (length stroke) 2))
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;;; old, but worked pretty good (just in case)...
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;;(defmacro strokes-define-stroke (stroke-map stroke def)
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;; "Add STROKE to STROKE-MAP alist with given command DEF"
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;; (list 'if (list '< (list 'length stroke) 2)
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;; (list 'error
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;; "That's a click, not a stroke. See `strokes-click-command'")
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;; (list 'setq stroke-map (list 'cons (list 'cons stroke def)
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;; (list 'remassoc stroke stroke-map)))))
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(defsubst strokes-remassoc (key list)
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(let (elt)
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(while (setq elt (assoc key list))
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(setq list (delete elt list))))
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list)
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(defmacro strokes-define-stroke (stroke-map stroke def)
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"Add STROKE to STROKE-MAP alist with given command DEF."
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`(if (strokes-click-p ,stroke)
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(error "That's a click, not a stroke")
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(setq ,stroke-map (cons (cons ,stroke ,def)
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(strokes-remassoc ,stroke ,stroke-map)))))
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(defsubst strokes-square (x)
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"Return the square of the number X."
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(* x x))
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(defsubst strokes-distance-squared (p1 p2)
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"Compute the distance (squared) between to points P1 and P2.
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P1 and P2 are cons cells in the form (X . Y)."
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(let ((x1 (car p1))
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(y1 (cdr p1))
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(x2 (car p2))
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(y2 (cdr p2)))
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(+ (strokes-square (- x2 x1))
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(strokes-square (- y2 y1)))))
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;;; Functions...
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(defsubst strokes-mouse-event-p (event)
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(and (consp event) (symbolp (car event))
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(or (eq (car event) 'mouse-movement)
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(memq 'click (get (car event) 'event-symbol-elements))
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(memq 'down (get (car event) 'event-symbol-elements))
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(memq 'drag (get (car event) 'event-symbol-elements)))))
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(defsubst strokes-button-press-event-p (event)
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(and (consp event) (symbolp (car event))
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(memq 'down (get (car event) 'event-symbol-elements))))
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(defsubst strokes-button-release-event-p (event)
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(and (consp event) (symbolp (car event))
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(or (memq 'click (get (car event) 'event-symbol-elements))
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(memq 'drag (get (car event) 'event-symbol-elements)))))
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(defun strokes-event-closest-point-1 (window &optional line)
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"Return position of start of line LINE in WINDOW.
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If LINE is nil, return the last position visible in WINDOW."
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(let* ((total (- (window-height window)
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(if (window-minibuffer-p window)
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0 1)))
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(distance (or line total)))
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(save-excursion
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(goto-char (window-start window))
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(if (= (vertical-motion distance) distance)
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(if (not line)
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(forward-char -1)))
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(point))))
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(defun strokes-event-closest-point (event &optional start-window)
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"Return the nearest position to where EVENT ended its motion.
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This is computed for the window where EVENT's motion started,
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or for window START-WINDOW if that is specified."
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(or start-window (setq start-window (posn-window (event-start event))))
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(if (eq start-window (posn-window (event-end event)))
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(if (eq (posn-point (event-end event)) 'vertical-line)
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(strokes-event-closest-point-1 start-window
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(cdr (posn-col-row (event-end event))))
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(if (eq (posn-point (event-end event)) 'mode-line)
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(strokes-event-closest-point-1 start-window)
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(posn-point (event-end event))))
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;; EVENT ended in some other window.
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(let* ((end-w (posn-window (event-end event)))
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(end-w-top)
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(w-top (nth 1 (window-edges start-window))))
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(setq end-w-top
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(if (windowp end-w)
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(nth 1 (window-edges end-w))
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(/ (cdr (posn-x-y (event-end event)))
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(frame-char-height end-w))))
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(if (>= end-w-top w-top)
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(strokes-event-closest-point-1 start-window)
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(window-start start-window)))))
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(defun strokes-lift-p (object)
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"Return non-nil if OBJECT is a stroke-lift."
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(eq object strokes-lift))
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(defun strokes-unset-last-stroke ()
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"Undo the last stroke definition."
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(interactive)
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(let ((command (cdar strokes-global-map)))
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(if (y-or-n-p
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(format "Really delete last stroke definition, defined to `%s'? "
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command))
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(progn
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(setq strokes-global-map (cdr strokes-global-map))
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(message "That stroke has been deleted"))
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(message "Nothing done"))))
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;;;###autoload
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(defun strokes-global-set-stroke (stroke command)
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"Interactively give STROKE the global binding as COMMAND.
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Works just like `global-set-key', except for strokes. COMMAND is
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a symbol naming an interactively-callable function. STROKE is a
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list of sampled positions on the stroke grid as described in the
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documentation for the `strokes-define-stroke' function.
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See also `strokes-global-set-stroke-string'."
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(interactive
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(list
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(and (or strokes-mode (strokes-mode t))
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(strokes-read-complex-stroke
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"Draw with mouse button 1 (or 2). End with button 3..."))
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(read-command "Command to map stroke to: ")))
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(strokes-define-stroke strokes-global-map stroke command))
|
|
|
|
(defun strokes-global-set-stroke-string (stroke string)
|
|
"Interactively give STROKE the global binding as STRING.
|
|
Works just like `global-set-key', except for strokes. STRING
|
|
is a string to be inserted by the stroke. STROKE is a list of
|
|
sampled positions on the stroke grid as described in the
|
|
documentation for the `strokes-define-stroke' function.
|
|
|
|
Compare `strokes-global-set-stroke'."
|
|
(interactive
|
|
(list
|
|
(and (or strokes-mode (strokes-mode t))
|
|
(strokes-read-complex-stroke
|
|
"Draw with mouse button 1 (or 2). End with button 3..."))
|
|
(read-string "String to map stroke to: ")))
|
|
(strokes-define-stroke strokes-global-map stroke string))
|
|
|
|
;;(defun global-unset-stroke (stroke); FINISH THIS DEFUN!
|
|
;; "delete all strokes matching STROKE from `strokes-global-map',
|
|
;; letting the user input
|
|
;; the stroke with the mouse"
|
|
;; (interactive
|
|
;; (list
|
|
;; (strokes-read-stroke "Enter the stroke you want to delete...")))
|
|
;; (strokes-define-stroke 'strokes-global-map stroke command))
|
|
|
|
(defun strokes-get-grid-position (stroke-extent position &optional grid-resolution)
|
|
"Map POSITION to a new grid position.
|
|
Do so based on its STROKE-EXTENT and GRID-RESOLUTION.
|
|
STROKE-EXTENT is a list ((XMIN . YMIN) (XMAX . YMAX)).
|
|
If POSITION is a `strokes-lift', then it is itself returned.
|
|
Optional GRID-RESOLUTION may be used in place of `strokes-grid-resolution'.
|
|
The grid is a square whose dimension is [0,GRID-RESOLUTION)."
|
|
(cond ((consp position) ; actual pixel location
|
|
(let ((grid-resolution (or grid-resolution strokes-grid-resolution))
|
|
(x (car position))
|
|
(y (cdr position))
|
|
(xmin (caar stroke-extent))
|
|
(ymin (cdar stroke-extent))
|
|
;; the `1+' is there to insure that the
|
|
;; formula evaluates correctly at the boundaries
|
|
(xmax (1+ (car (cadr stroke-extent))))
|
|
(ymax (1+ (cdr (cadr stroke-extent)))))
|
|
(cons (floor (* grid-resolution
|
|
(/ (float (- x xmin))
|
|
(- xmax xmin))))
|
|
(floor (* grid-resolution
|
|
(/ (float (- y ymin))
|
|
(- ymax ymin)))))))
|
|
((strokes-lift-p position) ; stroke lift
|
|
strokes-lift)))
|
|
|
|
(defun strokes-get-stroke-extent (pixel-positions)
|
|
"From a list of absolute PIXEL-POSITIONS, return absolute spatial extent.
|
|
The return value is a list ((XMIN . YMIN) (XMAX . YMAX))."
|
|
(if pixel-positions
|
|
(let ((xmin (caar pixel-positions))
|
|
(xmax (caar pixel-positions))
|
|
(ymin (cdar pixel-positions))
|
|
(ymax (cdar pixel-positions))
|
|
(rest (cdr pixel-positions)))
|
|
(while rest
|
|
(if (consp (car rest))
|
|
(let ((x (caar rest))
|
|
(y (cdar rest)))
|
|
(if (< x xmin)
|
|
(setq xmin x))
|
|
(if (> x xmax)
|
|
(setq xmax x))
|
|
(if (< y ymin)
|
|
(setq ymin y))
|
|
(if (> y ymax)
|
|
(setq ymax y))))
|
|
(setq rest (cdr rest)))
|
|
(let ((delta-x (- xmax xmin))
|
|
(delta-y (- ymax ymin)))
|
|
(if (> delta-x delta-y)
|
|
(setq ymin (- ymin
|
|
(/ (- delta-x delta-y)
|
|
2))
|
|
ymax (+ ymax
|
|
(/ (- delta-x delta-y)
|
|
2)))
|
|
(setq xmin (- xmin
|
|
(/ (- delta-y delta-x)
|
|
2))
|
|
xmax (+ xmax
|
|
(/ (- delta-y delta-x)
|
|
2))))
|
|
(list (cons xmin ymin)
|
|
(cons xmax ymax))))
|
|
nil))
|
|
|
|
(defun strokes-eliminate-consecutive-redundancies (entries)
|
|
"Return a list with no consecutive redundant entries."
|
|
;; defun a grande vitesse grace a Dave G.
|
|
(cl-loop for element on entries
|
|
if (not (equal (car element) (cadr element)))
|
|
collect (car element)))
|
|
;; (cl-loop for element on entries
|
|
;; nconc (if (not (equal (car el) (cadr el)))
|
|
;; (list (car el)))))
|
|
;; yet another (orig) way of doing it...
|
|
;; (if entries
|
|
;; (let* ((current (car entries))
|
|
;; (rest (cdr entries))
|
|
;; (non-redundant-list (list current))
|
|
;; (next nil))
|
|
;; (while rest
|
|
;; (setq next (car rest))
|
|
;; (if (equal current next)
|
|
;; (setq rest (cdr rest))
|
|
;; (setq non-redundant-list (cons next non-redundant-list)
|
|
;; current next
|
|
;; rest (cdr rest))))
|
|
;; (nreverse non-redundant-list))
|
|
;; nil))
|
|
|
|
(defun strokes-renormalize-to-grid (positions &optional grid-resolution)
|
|
"Map POSITIONS to a new grid whose dimensions are based on GRID-RESOLUTION.
|
|
POSITIONS is a list of positions and stroke-lifts.
|
|
Optional GRID-RESOLUTION may be used in place of `strokes-grid-resolution'.
|
|
The grid is a square whose dimension is [0,GRID-RESOLUTION)."
|
|
(or grid-resolution (setq grid-resolution strokes-grid-resolution))
|
|
(let ((stroke-extent (strokes-get-stroke-extent positions)))
|
|
(mapcar (function
|
|
(lambda (pos)
|
|
(strokes-get-grid-position stroke-extent pos grid-resolution)))
|
|
positions)))
|
|
|
|
(defun strokes-fill-stroke (unfilled-stroke &optional force)
|
|
"Fill in missing grid locations in the list of UNFILLED-STROKE.
|
|
If FORCE is non-nil, then fill the stroke even if it's `stroke-click'.
|
|
NOTE: This is where the global variable `strokes-last-stroke' is set."
|
|
(setq strokes-last-stroke ; this is global
|
|
(if (and (strokes-click-p unfilled-stroke)
|
|
(not force))
|
|
unfilled-stroke
|
|
(cl-loop
|
|
for grid-locs on unfilled-stroke
|
|
nconc (let* ((current (car grid-locs))
|
|
(current-is-a-point-p (consp current))
|
|
(next (cadr grid-locs))
|
|
(next-is-a-point-p (consp next))
|
|
(both-are-points-p (and current-is-a-point-p
|
|
next-is-a-point-p))
|
|
(x1 (and current-is-a-point-p
|
|
(car current)))
|
|
(y1 (and current-is-a-point-p
|
|
(cdr current)))
|
|
(x2 (and next-is-a-point-p
|
|
(car next)))
|
|
(y2 (and next-is-a-point-p
|
|
(cdr next)))
|
|
(delta-x (and both-are-points-p
|
|
(- x2 x1)))
|
|
(delta-y (and both-are-points-p
|
|
(- y2 y1)))
|
|
(slope (and both-are-points-p
|
|
(if (zerop delta-x)
|
|
nil ; undefined vertical slope
|
|
(/ (float delta-y)
|
|
delta-x)))))
|
|
(cond ((not both-are-points-p)
|
|
(list current))
|
|
((null slope) ; undefined vertical slope
|
|
(if (>= delta-y 0)
|
|
(cl-loop for y from y1 below y2
|
|
collect (cons x1 y))
|
|
(cl-loop for y from y1 above y2
|
|
collect (cons x1 y))))
|
|
((zerop slope) ; (= y1 y2)
|
|
(if (>= delta-x 0)
|
|
(cl-loop for x from x1 below x2
|
|
collect (cons x y1))
|
|
(cl-loop for x from x1 above x2
|
|
collect (cons x y1))))
|
|
((>= (abs delta-x) (abs delta-y))
|
|
(if (> delta-x 0)
|
|
(cl-loop for x from x1 below x2
|
|
collect (cons x
|
|
(+ y1
|
|
(round (* slope
|
|
(- x x1))))))
|
|
(cl-loop for x from x1 above x2
|
|
collect (cons x
|
|
(+ y1
|
|
(round (* slope
|
|
(- x x1))))))))
|
|
(t ; (< (abs delta-x) (abs delta-y))
|
|
(if (> delta-y 0)
|
|
;; FIXME: Reduce redundancy between branches.
|
|
(cl-loop for y from y1 below y2
|
|
collect (cons (+ x1
|
|
(round (/ (- y y1)
|
|
slope)))
|
|
y))
|
|
(cl-loop for y from y1 above y2
|
|
collect (cons (+ x1
|
|
(round (/ (- y y1)
|
|
slope)))
|
|
y))))))))))
|
|
|
|
(defun strokes-rate-stroke (stroke1 stroke2)
|
|
"Rate STROKE1 with STROKE2 and return a score based on a distance metric.
|
|
Note: the rating is an error rating, and therefore, a return of 0
|
|
represents a perfect match. Also note that the order of stroke
|
|
arguments is order-independent for the algorithm used here."
|
|
(if (and stroke1 stroke2)
|
|
(let ((rest1 (cdr stroke1))
|
|
(rest2 (cdr stroke2))
|
|
(err (strokes-distance-squared (car stroke1)
|
|
(car stroke2))))
|
|
(while (and rest1 rest2)
|
|
(while (and (consp (car rest1))
|
|
(consp (car rest2)))
|
|
(setq err (+ err
|
|
(strokes-distance-squared (car rest1)
|
|
(car rest2)))
|
|
stroke1 rest1
|
|
stroke2 rest2
|
|
rest1 (cdr stroke1)
|
|
rest2 (cdr stroke2)))
|
|
(cond ((and (strokes-lift-p (car rest1))
|
|
(strokes-lift-p (car rest2)))
|
|
(setq rest1 (cdr rest1)
|
|
rest2 (cdr rest2)))
|
|
((strokes-lift-p (car rest2))
|
|
(while (consp (car rest1))
|
|
(setq err (+ err
|
|
(strokes-distance-squared (car rest1)
|
|
(car stroke2)))
|
|
rest1 (cdr rest1))))
|
|
((strokes-lift-p (car rest1))
|
|
(while (consp (car rest2))
|
|
(setq err (+ err
|
|
(strokes-distance-squared (car stroke1)
|
|
(car rest2)))
|
|
rest2 (cdr rest2))))))
|
|
(if (null rest2)
|
|
(while (consp (car rest1))
|
|
(setq err (+ err
|
|
(strokes-distance-squared (car rest1)
|
|
(car stroke2)))
|
|
rest1 (cdr rest1))))
|
|
(if (null rest1)
|
|
(while (consp (car rest2))
|
|
(setq err (+ err
|
|
(strokes-distance-squared (car stroke1)
|
|
(car rest2)))
|
|
rest2 (cdr rest2))))
|
|
(if (or (strokes-lift-p (car rest1))
|
|
(strokes-lift-p (car rest2)))
|
|
(setq err nil)
|
|
err))
|
|
nil))
|
|
|
|
(defun strokes-match-stroke (stroke stroke-map)
|
|
"Find the best matching command of STROKE in STROKE-MAP.
|
|
Returns the corresponding match as (COMMAND . SCORE)."
|
|
(if (and stroke stroke-map)
|
|
(let ((score (strokes-rate-stroke stroke (caar stroke-map)))
|
|
(command (cdar stroke-map))
|
|
(map (cdr stroke-map)))
|
|
(while map
|
|
(let ((newscore (strokes-rate-stroke stroke (caar map))))
|
|
(if (or (and newscore score (< newscore score))
|
|
(and newscore (null score)))
|
|
(setq score newscore
|
|
command (cdar map)))
|
|
(setq map (cdr map))))
|
|
(if score
|
|
(cons command score)
|
|
nil))
|
|
nil))
|
|
|
|
(defsubst strokes-fill-current-buffer-with-whitespace ()
|
|
"Erase the contents of the current buffer and fill it with whitespace."
|
|
(erase-buffer)
|
|
(cl-loop repeat (frame-height) do
|
|
(insert-char ?\s (1- (frame-width)))
|
|
(newline))
|
|
(goto-char (point-min)))
|
|
|
|
;;;###autoload
|
|
(defun strokes-read-stroke (&optional prompt event)
|
|
"Read a simple stroke (interactively) and return the stroke.
|
|
Optional PROMPT in minibuffer displays before and during stroke reading.
|
|
This function will display the stroke interactively as it is being
|
|
entered in the strokes buffer if the variable
|
|
`strokes-use-strokes-buffer' is non-nil.
|
|
Optional EVENT is acceptable as the starting event of the stroke."
|
|
(save-excursion
|
|
(let ((pix-locs nil)
|
|
(grid-locs nil)
|
|
(safe-to-draw-p nil))
|
|
(if strokes-use-strokes-buffer
|
|
;; switch to the strokes buffer and
|
|
;; display the stroke as it's being read
|
|
(save-window-excursion
|
|
(set-window-configuration strokes-window-configuration)
|
|
;; The frame has been resized, so we need to refill the
|
|
;; strokes buffer so that the strokes canvas is the whole
|
|
;; visible buffer.
|
|
(unless (> 1 (abs (- (line-end-position) (window-width))))
|
|
(strokes-fill-current-buffer-with-whitespace))
|
|
(when prompt
|
|
(message "%s" prompt)
|
|
(setq event (read-event))
|
|
(or (strokes-button-press-event-p event)
|
|
(error "You must draw with the mouse")))
|
|
(unwind-protect
|
|
(track-mouse
|
|
(or event (setq event (read-event)
|
|
safe-to-draw-p t))
|
|
(while (not (strokes-button-release-event-p event))
|
|
(if (strokes-mouse-event-p event)
|
|
(let ((point (strokes-event-closest-point event)))
|
|
(if (and point safe-to-draw-p)
|
|
;; we can draw that point
|
|
(progn
|
|
(goto-char point)
|
|
(subst-char-in-region point (1+ point)
|
|
?\s strokes-character))
|
|
;; otherwise, we can start drawing the next time...
|
|
(setq safe-to-draw-p t))
|
|
(push (cdr (mouse-pixel-position))
|
|
pix-locs)))
|
|
(setq event (read-event)))))
|
|
;; protected
|
|
;; clean up strokes buffer and then bury it.
|
|
(when (equal (buffer-name) strokes-buffer-name)
|
|
(subst-char-in-region (point-min) (point-max)
|
|
strokes-character ?\s)
|
|
(goto-char (point-min))
|
|
(bury-buffer))))
|
|
;; Otherwise, don't use strokes buffer and read stroke silently
|
|
(when prompt
|
|
(message "%s" prompt)
|
|
(setq event (read-event))
|
|
(or (strokes-button-press-event-p event)
|
|
(error "You must draw with the mouse")))
|
|
(track-mouse
|
|
(or event (setq event (read-event)))
|
|
(while (not (strokes-button-release-event-p event))
|
|
(if (strokes-mouse-event-p event)
|
|
(push (cdr (mouse-pixel-position))
|
|
pix-locs))
|
|
(setq event (read-event))))
|
|
(setq grid-locs (strokes-renormalize-to-grid (nreverse pix-locs)))
|
|
(strokes-fill-stroke
|
|
(strokes-eliminate-consecutive-redundancies grid-locs)))))
|
|
|
|
;;;###autoload
|
|
(defun strokes-read-complex-stroke (&optional prompt event)
|
|
"Read a complex stroke (interactively) and return the stroke.
|
|
Optional PROMPT in minibuffer displays before and during stroke reading.
|
|
Note that a complex stroke allows the user to pen-up and pen-down. This
|
|
is implemented by allowing the user to paint with button 1 or button 2 and
|
|
then complete the stroke with button 3.
|
|
Optional EVENT is acceptable as the starting event of the stroke."
|
|
(save-excursion
|
|
(save-window-excursion
|
|
(set-window-configuration strokes-window-configuration)
|
|
(let ((pix-locs nil)
|
|
(grid-locs nil))
|
|
(if prompt
|
|
(while (not (strokes-button-press-event-p event))
|
|
(message "%s" prompt)
|
|
(setq event (read-event))))
|
|
(unwind-protect
|
|
(track-mouse
|
|
(or event (setq event (read-event)))
|
|
(while (not (and (strokes-button-press-event-p event)
|
|
(eq 'mouse-3
|
|
(car (get (car event)
|
|
'event-symbol-elements)))))
|
|
(while (not (strokes-button-release-event-p event))
|
|
(if (strokes-mouse-event-p event)
|
|
(let ((point (strokes-event-closest-point event)))
|
|
(when point
|
|
(goto-char point)
|
|
(subst-char-in-region point (1+ point)
|
|
?\s strokes-character))
|
|
(push (cdr (mouse-pixel-position))
|
|
pix-locs)))
|
|
(setq event (read-event)))
|
|
(push strokes-lift pix-locs)
|
|
(while (not (strokes-button-press-event-p event))
|
|
(setq event (read-event))))
|
|
;; ### KLUDGE! ### sit and wait
|
|
;; for some useless event to
|
|
;; happen to fix the minibuffer bug.
|
|
(while (not (strokes-button-release-event-p (read-event))))
|
|
(setq pix-locs (nreverse (cdr pix-locs))
|
|
grid-locs (strokes-renormalize-to-grid pix-locs))
|
|
(strokes-fill-stroke
|
|
(strokes-eliminate-consecutive-redundancies grid-locs)))
|
|
;; protected
|
|
(when (equal (buffer-name) strokes-buffer-name)
|
|
(subst-char-in-region (point-min) (point-max)
|
|
strokes-character ?\s)
|
|
(goto-char (point-min))
|
|
(bury-buffer)))))))
|
|
|
|
(defun strokes-execute-stroke (stroke)
|
|
"Given STROKE, execute the command which corresponds to it.
|
|
The command will be executed provided one exists for that stroke,
|
|
based on the variable `strokes-minimum-match-score'.
|
|
If no stroke matches, nothing is done and return value is nil."
|
|
;; FIXME: Undocument return value. It is not documented for all cases,
|
|
;; and doesn't allow to difference between no stroke matches and
|
|
;; command-execute returning nil, anyway.
|
|
(let* ((match (strokes-match-stroke stroke strokes-global-map))
|
|
(command (car match))
|
|
(score (cdr match)))
|
|
(cond ((and match (<= score strokes-minimum-match-score))
|
|
(message "%s" command)
|
|
(command-execute command))
|
|
((null strokes-global-map)
|
|
(if (file-exists-p strokes-file)
|
|
(and (y-or-n-p
|
|
(format "No strokes loaded. Load `%s'? "
|
|
strokes-file))
|
|
(strokes-load-user-strokes))
|
|
(error "No strokes defined; use `strokes-global-set-stroke'")))
|
|
(t
|
|
(error
|
|
"No stroke matches; see variable `strokes-minimum-match-score'")
|
|
nil))))
|
|
|
|
;;;###autoload
|
|
(defun strokes-do-stroke (event)
|
|
"Read a simple stroke from the user and then execute its command.
|
|
This must be bound to a mouse event."
|
|
(interactive "e")
|
|
(or strokes-mode (strokes-mode t))
|
|
(strokes-execute-stroke (strokes-read-stroke nil event)))
|
|
|
|
;;;###autoload
|
|
(defun strokes-do-complex-stroke (event)
|
|
"Read a complex stroke from the user and then execute its command.
|
|
This must be bound to a mouse event."
|
|
(interactive "e")
|
|
(or strokes-mode (strokes-mode t))
|
|
(strokes-execute-stroke (strokes-read-complex-stroke nil event)))
|
|
|
|
;;;###autoload
|
|
(defun strokes-describe-stroke (stroke)
|
|
"Displays the command which STROKE maps to, reading STROKE interactively."
|
|
(interactive
|
|
(list
|
|
(strokes-read-complex-stroke
|
|
"Enter stroke to describe; end with button 3...")))
|
|
(let* ((match (strokes-match-stroke stroke strokes-global-map))
|
|
(command (car match))
|
|
(score (cdr match)))
|
|
(if (and match
|
|
(<= score strokes-minimum-match-score))
|
|
(message "That stroke maps to `%s'" command)
|
|
(message "That stroke is undefined"))
|
|
(sleep-for 1))) ; helpful for recursive edits
|
|
|
|
;;;###autoload
|
|
(defun strokes-help ()
|
|
"Get instruction on using the Strokes package."
|
|
(interactive)
|
|
(with-output-to-temp-buffer "*Help with Strokes*"
|
|
(princ
|
|
(substitute-command-keys
|
|
"This is help for the strokes package.
|
|
|
|
------------------------------------------------------------
|
|
|
|
** Strokes...
|
|
|
|
The strokes package allows you to define strokes, made with
|
|
the mouse or other pointer device, that Emacs can interpret as
|
|
corresponding to commands, and then executes the commands. It does
|
|
character recognition, so you don't have to worry about getting it
|
|
right every time.
|
|
|
|
Strokes also allows you to compose documents graphically. You can
|
|
fully edit documents in Chinese, Japanese, etc. based on Emacs
|
|
strokes. Once you've done so, you can ASCII compress-and-encode them
|
|
and then safely save them for later use, send letters to friends
|
|
\(using Emacs, of course). Strokes will later decode these documents,
|
|
extracting the strokes for editing use once again, so the editing
|
|
cycle can continue.
|
|
|
|
To toggle strokes-mode, invoke the command
|
|
|
|
> M-x strokes-mode
|
|
|
|
** Strokes for controlling the behavior of Emacs...
|
|
|
|
When you're ready to start defining strokes, just use the command
|
|
|
|
> M-x strokes-global-set-stroke
|
|
|
|
You will see a ` *strokes*' buffer which is waiting for you to enter in
|
|
your stroke. When you enter in the stroke, you draw with button 1 or
|
|
button 2, and then end with button 3. Next, you enter in the command
|
|
which will be executed when that stroke is invoked. Simple as that.
|
|
For now, try to define a stroke to copy a region. This is a popular
|
|
edit command, so type
|
|
|
|
> M-x strokes-global-set-stroke
|
|
|
|
Then, in the ` *strokes*' buffer, draw the letter `C' (for `copy')
|
|
and then, when it asks you to enter the command to map that to, type
|
|
|
|
> copy-region-as-kill
|
|
|
|
That's about as hard as it gets.
|
|
Remember: paint with button 1 or button 2 and then end with button 3.
|
|
|
|
If ever you want to know what a certain strokes maps to, then do
|
|
|
|
> M-x strokes-describe-stroke
|
|
|
|
and you can enter in any arbitrary stroke. Remember: The strokes
|
|
package lets you program in simple and complex (multi-lift) strokes.
|
|
The only difference is how you *invoke* the two. You will most likely
|
|
use simple strokes, as complex strokes were developed for
|
|
Chinese/Japanese/Korean. So the shifted middle mouse button (S-mouse-2)
|
|
will invoke the command `strokes-do-stroke'.
|
|
|
|
If ever you define a stroke which you don't like, then you can unset
|
|
it with the command
|
|
|
|
> M-x strokes-unset-last-stroke
|
|
|
|
You can always get an idea of what your current strokes look like with
|
|
the command
|
|
|
|
> M-x strokes-list-strokes
|
|
|
|
Your strokes will be displayed in alphabetical order (based on command
|
|
names) and the beginning of each simple stroke will be marked by a
|
|
color dot. Since you may have several simple strokes in a complex
|
|
stroke, the dot colors are arranged in the rainbow color sequence,
|
|
`ROYGBIV'. If you want a listing of your strokes from most recent
|
|
down, then use a prefix argument:
|
|
|
|
> C-u M-x strokes-list-strokes
|
|
|
|
Your strokes are stored as you enter them. They get saved into the
|
|
file specified by the `strokes-file' variable, along with other strokes
|
|
configuration variables. You will be prompted to save them when you
|
|
exit Emacs, or you can save them with
|
|
|
|
> M-x strokes-prompt-user-save-strokes
|
|
|
|
Your strokes get loaded automatically when you enable `strokes-mode'.
|
|
You can also load in your user-defined strokes with
|
|
|
|
> M-x strokes-load-user-strokes
|
|
|
|
** Strokes for pictographic editing...
|
|
|
|
If you'd like to create graphical files with strokes, you'll have to
|
|
be running a version of Emacs with XPM support. You use the binding
|
|
to `strokes-compose-complex-stroke' to start drawing your strokes.
|
|
These are just complex strokes, and thus continue drawing with mouse-1
|
|
or mouse-2 and end with mouse-3. Then the stroke image gets inserted
|
|
into the buffer. You treat it somewhat like any other character,
|
|
which you can copy, paste, delete, move, etc. When all is done, you
|
|
may want to send the file, or save it. This is done with
|
|
|
|
> M-x strokes-encode-buffer
|
|
|
|
Likewise, to decode the strokes from a strokes-encoded buffer you do
|
|
|
|
> M-x strokes-decode-buffer
|
|
|
|
** A few more important things...
|
|
|
|
o The command `strokes-do-complex-stroke' is invoked with M-mouse-2,
|
|
so that you can execute complex strokes (i.e. with more than one lift)
|
|
if preferred.
|
|
|
|
o Strokes are a bit computer-dependent in that they depend somewhat on
|
|
the speed of the computer you're working on. This means that you
|
|
may have to tweak some variables. You can read about them in the
|
|
commentary of `strokes.el'. Better to just use \\[apropos] and read their
|
|
docstrings. All variables/functions start with `strokes'. The one
|
|
variable which many people wanted to see was
|
|
`strokes-use-strokes-buffer' which allows the user to use strokes
|
|
silently--without displaying the strokes. All variables can be set
|
|
by customizing the group `strokes' via \\[customize-group]."))
|
|
(set-buffer standard-output)
|
|
(help-mode)
|
|
(help-print-return-message)))
|
|
|
|
(define-obsolete-function-alias 'strokes-report-bug 'report-emacs-bug "24.1")
|
|
|
|
(defun strokes-window-configuration-changed-p ()
|
|
"Non-nil if the `strokes-window-configuration' frame properties changed.
|
|
This is based on the last time `strokes-window-configuration' was updated."
|
|
(compare-window-configurations (current-window-configuration)
|
|
strokes-window-configuration))
|
|
|
|
(defun strokes-update-window-configuration ()
|
|
"Ensure that `strokes-window-configuration' is up-to-date."
|
|
(interactive)
|
|
(let ((current-window (selected-window)))
|
|
(cond ((or (window-minibuffer-p current-window)
|
|
(window-dedicated-p current-window))
|
|
;; don't try to update strokes window configuration
|
|
;; if window is dedicated or a minibuffer
|
|
nil)
|
|
((or (called-interactively-p 'interactive)
|
|
(not (buffer-live-p (get-buffer strokes-buffer-name)))
|
|
(null strokes-window-configuration))
|
|
;; create `strokes-window-configuration' from scratch...
|
|
(save-excursion
|
|
(save-window-excursion
|
|
(set-buffer (get-buffer-create strokes-buffer-name))
|
|
(set-window-buffer current-window strokes-buffer-name)
|
|
(delete-other-windows)
|
|
(fundamental-mode)
|
|
(auto-save-mode 0)
|
|
(font-lock-mode 0)
|
|
(abbrev-mode 0)
|
|
(buffer-disable-undo (current-buffer))
|
|
(setq truncate-lines nil)
|
|
(strokes-fill-current-buffer-with-whitespace)
|
|
(setq strokes-window-configuration (current-window-configuration))
|
|
(bury-buffer))))
|
|
((strokes-window-configuration-changed-p) ; simple update
|
|
;; update the strokes-window-configuration for this
|
|
;; specific frame...
|
|
(save-excursion
|
|
(save-window-excursion
|
|
(set-window-buffer current-window strokes-buffer-name)
|
|
(delete-other-windows)
|
|
(strokes-fill-current-buffer-with-whitespace)
|
|
(setq strokes-window-configuration (current-window-configuration))
|
|
(bury-buffer)))))))
|
|
|
|
;;;###autoload
|
|
(defun strokes-load-user-strokes ()
|
|
"Load user-defined strokes from file named by `strokes-file'."
|
|
(interactive)
|
|
(cond ((and (file-exists-p strokes-file)
|
|
(file-readable-p strokes-file))
|
|
(load-file strokes-file))
|
|
((called-interactively-p 'interactive)
|
|
(error "Trouble loading user-defined strokes; nothing done"))
|
|
(t
|
|
(message "No user-defined strokes, sorry"))))
|
|
|
|
(defun strokes-prompt-user-save-strokes ()
|
|
"Save user-defined strokes to file named by `strokes-file'."
|
|
(interactive)
|
|
(save-excursion
|
|
(let ((current strokes-global-map))
|
|
(unwind-protect
|
|
(progn
|
|
(setq strokes-global-map nil)
|
|
(strokes-load-user-strokes)
|
|
(if (and (not (equal current strokes-global-map))
|
|
(or (called-interactively-p 'interactive)
|
|
(yes-or-no-p "Save your strokes? ")))
|
|
(progn
|
|
(require 'pp) ; pretty-print variables
|
|
(message "Saving strokes in %s..." strokes-file)
|
|
(get-buffer-create "*saved-strokes*")
|
|
(set-buffer "*saved-strokes*")
|
|
(erase-buffer)
|
|
(emacs-lisp-mode)
|
|
(goto-char (point-min))
|
|
(insert
|
|
";; -*- emacs-lisp -*-\n")
|
|
(insert (format ";;; saved strokes for %s, as of %s\n\n"
|
|
(user-full-name)
|
|
(format-time-string "%B %e, %Y" nil)))
|
|
(message "Saving strokes in %s..." strokes-file)
|
|
(insert (format "(setq strokes-global-map\n'%s)"
|
|
(pp current)))
|
|
(message "Saving strokes in %s..." strokes-file)
|
|
(indent-region (point-min) (point-max) nil)
|
|
(write-region (point-min)
|
|
(point-max)
|
|
strokes-file))
|
|
(message "(no changes need to be saved)")))
|
|
;; protected
|
|
(if (get-buffer "*saved-strokes*")
|
|
(kill-buffer (get-buffer "*saved-strokes*")))
|
|
(setq strokes-global-map current)))))
|
|
|
|
(defun strokes-toggle-strokes-buffer (&optional arg)
|
|
"Toggle the use of the strokes buffer.
|
|
In other words, toggle the variable `strokes-use-strokes-buffer'.
|
|
With ARG, use strokes buffer if and only if ARG is positive or true.
|
|
Returns value of `strokes-use-strokes-buffer'."
|
|
(interactive "P")
|
|
(setq strokes-use-strokes-buffer
|
|
(if arg (> (prefix-numeric-value arg) 0)
|
|
(not strokes-use-strokes-buffer))))
|
|
|
|
(defun strokes-xpm-for-stroke (&optional stroke bufname b/w-only)
|
|
"Create an XPM pixmap for the given STROKE in buffer \" *strokes-xpm*\".
|
|
If STROKE is not supplied, then `strokes-last-stroke' will be used.
|
|
Optional BUFNAME to name something else.
|
|
The pixmap will contain time information via rainbow dot colors
|
|
where each individual strokes begins.
|
|
Optional B/W-ONLY non-nil will create a mono pixmap, not intended
|
|
for trying to figure out the order of strokes, but rather for reading
|
|
the stroke as a character in some language."
|
|
(interactive)
|
|
(save-excursion
|
|
(let ((buf (get-buffer-create (or bufname " *strokes-xpm*")))
|
|
(stroke (strokes-eliminate-consecutive-redundancies
|
|
(strokes-fill-stroke
|
|
(strokes-renormalize-to-grid (or stroke
|
|
strokes-last-stroke)
|
|
31))))
|
|
(lift-flag t)
|
|
(rainbow-chars (list ?R ?O ?Y ?G ?B ?P))) ; ROYGBIV w/o indigo
|
|
(set-buffer buf)
|
|
(erase-buffer)
|
|
(insert strokes-xpm-header)
|
|
(cl-loop repeat 33 do
|
|
(insert ?\")
|
|
(insert-char ?\s 33)
|
|
(insert "\",")
|
|
(newline)
|
|
finally
|
|
(forward-line -1)
|
|
(end-of-line)
|
|
(insert "}\n"))
|
|
(cl-loop for point in stroke
|
|
for x = (car-safe point)
|
|
for y = (cdr-safe point) do
|
|
(cond ((consp point)
|
|
;; draw a point, and possibly a starting-point
|
|
(if (and lift-flag (not b/w-only))
|
|
;; mark starting point with the appropriate color
|
|
(let ((char (or (car rainbow-chars) ?\.)))
|
|
(cl-loop for i from 0 to 2 do
|
|
(cl-loop for j from 0 to 2 do
|
|
(goto-char (point-min))
|
|
(forward-line (+ 15 i y))
|
|
(forward-char (+ 1 j x))
|
|
(delete-char 1)
|
|
(insert char)))
|
|
(setq rainbow-chars (cdr rainbow-chars)
|
|
lift-flag nil))
|
|
;; Otherwise, just plot the point...
|
|
(goto-char (point-min))
|
|
(forward-line (+ 16 y))
|
|
(forward-char (+ 2 x))
|
|
(subst-char-in-region (point) (1+ (point)) ?\s ?\*)))
|
|
((strokes-lift-p point)
|
|
;; a lift--tell the loop to X out the next point...
|
|
(setq lift-flag t))))
|
|
(when (called-interactively-p 'interactive)
|
|
(pop-to-buffer " *strokes-xpm*")
|
|
;; (xpm-mode 1)
|
|
(goto-char (point-min))
|
|
(put-image (create-image (buffer-string) 'xpm t :ascent 100)
|
|
(line-end-position))))))
|
|
|
|
;;; Strokes Edit stuff... ### NOT IMPLEMENTED YET ###
|
|
|
|
;;(defun strokes-edit-quit ()
|
|
;; (interactive)
|
|
;; (or (one-window-p t 0)
|
|
;; (delete-window))
|
|
;; (kill-buffer "*Strokes List*"))
|
|
|
|
;;(define-derived-mode edit-strokes-mode list-mode
|
|
;; "Edit-Strokes"
|
|
;; "Major mode for `edit-strokes' and `list-strokes' buffers.
|
|
|
|
;;Editing commands:
|
|
|
|
;;\\{edit-strokes-mode-map}"
|
|
;; (setq truncate-lines nil
|
|
;; auto-show-mode nil ; don't want problems here either
|
|
;; mode-popup-menu edit-strokes-menu) ; what about extent-specific stuff?
|
|
;; (and (featurep 'menubar)
|
|
;; current-menubar
|
|
;; (set (make-local-variable 'current-menubar)
|
|
;; (copy-sequence current-menubar))
|
|
;; (add-submenu nil edit-strokes-menu)))
|
|
|
|
;;(let ((map edit-strokes-mode-map))
|
|
;; (define-key map "<" 'beginning-of-buffer)
|
|
;; (define-key map ">" 'end-of-buffer)
|
|
;; ;; (define-key map "c" 'strokes-copy-other-face)
|
|
;; ;; (define-key map "C" 'strokes-copy-this-face)
|
|
;; ;; (define-key map "s" 'strokes-smaller)
|
|
;; ;; (define-key map "l" 'strokes-larger)
|
|
;; ;; (define-key map "b" 'strokes-bold)
|
|
;; ;; (define-key map "i" 'strokes-italic)
|
|
;; (define-key map "e" 'strokes-list-edit)
|
|
;; ;; (define-key map "f" 'strokes-font)
|
|
;; ;; (define-key map "u" 'strokes-underline)
|
|
;; ;; (define-key map "t" 'strokes-truefont)
|
|
;; ;; (define-key map "F" 'strokes-foreground)
|
|
;; ;; (define-key map "B" 'strokes-background)
|
|
;; ;; (define-key map "D" 'strokes-doc-string)
|
|
;; (define-key map "a" 'strokes-global-set-stroke)
|
|
;; (define-key map "d" 'strokes-list-delete-stroke)
|
|
;; ;; (define-key map "n" 'strokes-list-next)
|
|
;; ;; (define-key map "p" 'strokes-list-prev)
|
|
;; ;; (define-key map " " 'strokes-list-next)
|
|
;; ;; (define-key map "\C-?" 'strokes-list-prev)
|
|
;; (define-key map "g" 'strokes-list-strokes) ; refresh display
|
|
;; (define-key map "q" 'strokes-edit-quit)
|
|
;; (define-key map [(control c) (control c)] 'bury-buffer))
|
|
|
|
;;;;;###autoload
|
|
;;(defun strokes-edit-strokes (&optional chronological strokes-map)
|
|
;; ;; ### DEAL WITH THE 2nd ARGUMENT ISSUE! ###
|
|
;; "Edit strokes in a pop-up buffer containing strokes and their definitions.
|
|
;;If STROKES-MAP is not given, `strokes-global-map' will be used instead.
|
|
|
|
;;Editing commands:
|
|
|
|
;;\\{edit-faces-mode-map}"
|
|
;; (interactive "P")
|
|
;; (pop-to-buffer (get-buffer-create "*Strokes List*"))
|
|
;; (reset-buffer (current-buffer)) ; handy function from minibuf.el
|
|
;; (setq strokes-map (or strokes-map
|
|
;; strokes-global-map
|
|
;; (progn
|
|
;; (strokes-load-user-strokes)
|
|
;; strokes-global-map)))
|
|
;; (or chronological
|
|
;; (setq strokes-map (sort (copy-sequence strokes-map)
|
|
;; 'strokes-alphabetic-lessp)))
|
|
;; ;; (push-window-configuration)
|
|
;; (insert
|
|
;; "Command Stroke\n"
|
|
;; "------- ------")
|
|
;; (cl-loop for def in strokes-map
|
|
;; for i from 0 to (1- (length strokes-map)) do
|
|
;; (let ((stroke (car def))
|
|
;; (command-name (symbol-name (cdr def))))
|
|
;; (strokes-xpm-for-stroke stroke " *strokes-xpm*")
|
|
;; (newline 2)
|
|
;; (insert-char ?\s 45)
|
|
;; (beginning-of-line)
|
|
;; (insert command-name)
|
|
;; (beginning-of-line)
|
|
;; (forward-char 45)
|
|
;; (set (intern (format "strokes-list-annotation-%d" i))
|
|
;; (make-annotation (make-glyph
|
|
;; (list
|
|
;; (vector 'xpm
|
|
;; :data (buffer-substring
|
|
;; (point-min " *strokes-xpm*")
|
|
;; (point-max " *strokes-xpm*")
|
|
;; " *strokes-xpm*"))
|
|
;; [string :data "[Stroke]"]))
|
|
;; (point) 'text))
|
|
;; (set-annotation-data (symbol-value (intern (format "strokes-list-annotation-%d" i)))
|
|
;; def))
|
|
;; finally do (kill-region (1+ (point)) (point-max)))
|
|
;; (edit-strokes-mode)
|
|
;; (goto-char (point-min)))
|
|
|
|
;;;;;###autoload
|
|
;;(defalias 'edit-strokes 'strokes-edit-strokes)
|
|
|
|
(defvar view-mode-map)
|
|
|
|
;;;###autoload
|
|
(defun strokes-list-strokes (&optional chronological strokes-map)
|
|
"Pop up a buffer containing an alphabetical listing of strokes in STROKES-MAP.
|
|
With CHRONOLOGICAL prefix arg (\\[universal-argument]) list strokes chronologically
|
|
by command name.
|
|
If STROKES-MAP is not given, `strokes-global-map' will be used instead."
|
|
(interactive "P")
|
|
(setq strokes-map (or strokes-map
|
|
strokes-global-map
|
|
(progn
|
|
(strokes-load-user-strokes)
|
|
strokes-global-map)))
|
|
(if (not chronological)
|
|
;; then alphabetize the strokes based on command names...
|
|
(setq strokes-map (sort (copy-sequence strokes-map)
|
|
(function strokes-alphabetic-lessp))))
|
|
(let ((config (current-window-configuration)))
|
|
(set-buffer (get-buffer-create "*Strokes List*"))
|
|
(setq buffer-read-only nil)
|
|
(erase-buffer)
|
|
(insert
|
|
"Command Stroke\n"
|
|
"------- ------")
|
|
(cl-loop
|
|
for def in strokes-map do
|
|
(let ((stroke (car def))
|
|
(command-name (if (symbolp (cdr def))
|
|
(symbol-name (cdr def))
|
|
(prin1-to-string (cdr def)))))
|
|
(strokes-xpm-for-stroke stroke " *strokes-xpm*")
|
|
(newline 2)
|
|
(insert-char ?\s 45)
|
|
(beginning-of-line)
|
|
(insert command-name)
|
|
(beginning-of-line)
|
|
(forward-char 45)
|
|
(insert-image
|
|
(create-image (with-current-buffer " *strokes-xpm*"
|
|
(buffer-string))
|
|
'xpm t
|
|
:color-symbols
|
|
`(("foreground"
|
|
. ,(frame-parameter nil 'foreground-color))))))
|
|
finally do (unless (eobp)
|
|
(kill-region (1+ (point)) (point-max))))
|
|
(view-buffer "*Strokes List*" nil)
|
|
(set (make-local-variable 'view-mode-map)
|
|
(let ((map (copy-keymap view-mode-map)))
|
|
(define-key map "q" `(lambda ()
|
|
(interactive)
|
|
(View-quit)
|
|
(set-window-configuration ,config)))
|
|
map))
|
|
(goto-char (point-min))))
|
|
|
|
(defun strokes-alphabetic-lessp (stroke1 stroke2)
|
|
"Return t if STROKE1's command name precedes STROKE2's in lexicographic order."
|
|
(let ((command-name-1 (symbol-name (cdr stroke1)))
|
|
(command-name-2 (symbol-name (cdr stroke2))))
|
|
(string-lessp command-name-1 command-name-2)))
|
|
|
|
(defvar strokes-mode-map
|
|
(let ((map (make-sparse-keymap)))
|
|
(define-key map [(shift down-mouse-2)] 'strokes-do-stroke)
|
|
(define-key map [(meta down-mouse-2)] 'strokes-do-complex-stroke)
|
|
map))
|
|
|
|
;;;###autoload
|
|
(define-minor-mode strokes-mode
|
|
"Toggle Strokes mode, a global minor mode.
|
|
With a prefix argument ARG, enable Strokes mode if ARG is
|
|
positive, and disable it otherwise. If called from Lisp,
|
|
enable the mode if ARG is omitted or nil.
|
|
|
|
\\<strokes-mode-map>
|
|
Strokes are pictographic mouse gestures which invoke commands.
|
|
Strokes are invoked with \\[strokes-do-stroke]. You can define
|
|
new strokes with \\[strokes-global-set-stroke]. See also
|
|
\\[strokes-do-complex-stroke] for `complex' strokes.
|
|
|
|
To use strokes for pictographic editing, such as Chinese/Japanese, use
|
|
\\[strokes-compose-complex-stroke], which draws strokes and inserts them.
|
|
Encode/decode your strokes with \\[strokes-encode-buffer],
|
|
\\[strokes-decode-buffer].
|
|
|
|
\\{strokes-mode-map}"
|
|
nil strokes-lighter strokes-mode-map
|
|
:group 'strokes :global t
|
|
(cond ((not (display-mouse-p))
|
|
(error "Can't use Strokes without a mouse"))
|
|
(strokes-mode ; turn on strokes
|
|
(and (file-exists-p strokes-file)
|
|
(null strokes-global-map)
|
|
(strokes-load-user-strokes))
|
|
(add-hook 'kill-emacs-query-functions
|
|
'strokes-prompt-user-save-strokes)
|
|
(add-hook 'select-frame-hook
|
|
'strokes-update-window-configuration)
|
|
(strokes-update-window-configuration))
|
|
(t ; turn off strokes
|
|
(if (get-buffer strokes-buffer-name)
|
|
(kill-buffer (get-buffer strokes-buffer-name)))
|
|
(remove-hook 'select-frame-hook
|
|
'strokes-update-window-configuration))))
|
|
|
|
|
|
;;;; strokes-xpm stuff (later may be separate)...
|
|
|
|
;; This is the stuff that will eventually be used for composing letters in
|
|
;; any language, compression, decompression, graphics, editing, etc.
|
|
|
|
(defface strokes-char '((t (:background "lightgray")))
|
|
"Face for strokes characters."
|
|
:version "21.1"
|
|
:group 'strokes)
|
|
|
|
(put 'strokes 'char-table-extra-slots 0)
|
|
(defconst strokes-char-table (make-char-table 'strokes) ;
|
|
"The table which stores values for the character keys.")
|
|
(aset strokes-char-table ?0 0)
|
|
(aset strokes-char-table ?1 1)
|
|
(aset strokes-char-table ?2 2)
|
|
(aset strokes-char-table ?3 3)
|
|
(aset strokes-char-table ?4 4)
|
|
(aset strokes-char-table ?5 5)
|
|
(aset strokes-char-table ?6 6)
|
|
(aset strokes-char-table ?7 7)
|
|
(aset strokes-char-table ?8 8)
|
|
(aset strokes-char-table ?9 9)
|
|
(aset strokes-char-table ?a 10)
|
|
(aset strokes-char-table ?b 11)
|
|
(aset strokes-char-table ?c 12)
|
|
(aset strokes-char-table ?d 13)
|
|
(aset strokes-char-table ?e 14)
|
|
(aset strokes-char-table ?f 15)
|
|
(aset strokes-char-table ?g 16)
|
|
(aset strokes-char-table ?h 17)
|
|
(aset strokes-char-table ?i 18)
|
|
(aset strokes-char-table ?j 19)
|
|
(aset strokes-char-table ?k 20)
|
|
(aset strokes-char-table ?l 21)
|
|
(aset strokes-char-table ?m 22)
|
|
(aset strokes-char-table ?n 23)
|
|
(aset strokes-char-table ?o 24)
|
|
(aset strokes-char-table ?p 25)
|
|
(aset strokes-char-table ?q 26)
|
|
(aset strokes-char-table ?r 27)
|
|
(aset strokes-char-table ?s 28)
|
|
(aset strokes-char-table ?t 29)
|
|
(aset strokes-char-table ?u 30)
|
|
(aset strokes-char-table ?v 31)
|
|
(aset strokes-char-table ?w 32)
|
|
(aset strokes-char-table ?x 33)
|
|
(aset strokes-char-table ?y 34)
|
|
(aset strokes-char-table ?z 35)
|
|
(aset strokes-char-table ?A 36)
|
|
(aset strokes-char-table ?B 37)
|
|
(aset strokes-char-table ?C 38)
|
|
(aset strokes-char-table ?D 39)
|
|
(aset strokes-char-table ?E 40)
|
|
(aset strokes-char-table ?F 41)
|
|
(aset strokes-char-table ?G 42)
|
|
(aset strokes-char-table ?H 43)
|
|
(aset strokes-char-table ?I 44)
|
|
(aset strokes-char-table ?J 45)
|
|
(aset strokes-char-table ?K 46)
|
|
(aset strokes-char-table ?L 47)
|
|
(aset strokes-char-table ?M 48)
|
|
(aset strokes-char-table ?N 49)
|
|
(aset strokes-char-table ?O 50)
|
|
(aset strokes-char-table ?P 51)
|
|
(aset strokes-char-table ?Q 52)
|
|
(aset strokes-char-table ?R 53)
|
|
(aset strokes-char-table ?S 54)
|
|
(aset strokes-char-table ?T 55)
|
|
(aset strokes-char-table ?U 56)
|
|
(aset strokes-char-table ?V 57)
|
|
(aset strokes-char-table ?W 58)
|
|
(aset strokes-char-table ?X 59)
|
|
(aset strokes-char-table ?Y 60)
|
|
(aset strokes-char-table ?Z 61)
|
|
|
|
(defconst strokes-base64-chars
|
|
;; I wanted to make this a vector of individual like (vector ?0
|
|
;; ?1 ?2 ...), but `concat' refuses to accept single
|
|
;; characters.
|
|
(vector "0" "1" "2" "3" "4" "5" "6" "7" "8" "9"
|
|
"a" "b" "c" "d" "e" "f" "g" "h" "i" "j" "k" "l" "m" "n" "o"
|
|
"p" "q" "r" "s" "t" "u" "v" "w" "x" "y" "z" "A" "B" "C" "D"
|
|
"E" "F" "G" "H" "I" "J" "K" "L" "M" "N" "O" "P" "Q" "R" "S"
|
|
"T" "U" "V" "W" "X" "Y" "Z")
|
|
;; (vector [?0] [?1] [?2] [?3] [?4] [?5] [?6] [?7] [?8] [?9]
|
|
;; [?a] [?b] [?c] [?d] [?e] [?f] [?g] [?h] [?i] [?j]
|
|
;; [?k] [?l] [?m] [?n] [?o] [?p] [?q] [?r] [?s] [?t]
|
|
;; [?u] [?v] [?w] [?x] [?y] [?z]
|
|
;; [?A] [?B] [?C] [?D] [?E] [?F] [?G] [?H] [?I] [?J]
|
|
;; [?K] [?L] [?M] [?N] [?O] [?P] [?Q] [?R] [?S] [?T]
|
|
;; [?U] [?V] [?W] [?X] [?Y] [?Z])
|
|
"Character vector for fast lookup of base-64 encoding of numbers in [0,61].")
|
|
|
|
(defsubst strokes-xpm-char-on-p (char)
|
|
"Non-nil if CHAR represents an `on' bit in the XPM."
|
|
(eq char ?*))
|
|
|
|
(defsubst strokes-xpm-char-bit-p (char)
|
|
"Non-nil if CHAR represents an `on' or `off' bit in the XPM."
|
|
(or (eq char ?\s)
|
|
(eq char ?*)))
|
|
|
|
;;(defsubst strokes-xor (a b) ### Should I make this an inline function? ###
|
|
;; "T if one and only one of A and B is non-nil; otherwise, returns nil.
|
|
;;NOTE: Don't use this as a numeric xor since it treats all non-nil
|
|
;; values as t including `0' (zero)."
|
|
;; (eq (null a) (not (null b))))
|
|
|
|
(defsubst strokes-xpm-encode-length-as-string (length)
|
|
"Given some LENGTH in [0,62) do a fast lookup of its encoding."
|
|
(aref strokes-base64-chars length))
|
|
|
|
(defsubst strokes-xpm-decode-char (character)
|
|
"Given a CHARACTER, do a fast lookup to find its corresponding integer value."
|
|
(aref strokes-char-table character))
|
|
|
|
(defun strokes-xpm-to-compressed-string (&optional xpm-buffer)
|
|
"Convert XPM in XPM-BUFFER to compressed string representing the stroke.
|
|
XPM-BUFFER defaults to \" *strokes-xpm*\"."
|
|
(with-current-buffer (setq xpm-buffer (or xpm-buffer " *strokes-xpm*"))
|
|
(goto-char (point-min))
|
|
(search-forward "/* pixels */") ; skip past header junk
|
|
(forward-char 2)
|
|
;; a note for below:
|
|
;; the `current-char' is the char being counted -- NOT the char at (point)
|
|
;; which happens to be called `char-at-point'
|
|
(let ((compressed-string "+/") ; initialize the output
|
|
(count 0) ; keep a current count of
|
|
; `current-char'
|
|
(last-char-was-on-p t) ; last entered stream
|
|
; represented `on' bits
|
|
(current-char-is-on-p nil) ; current stream represents `on' bits
|
|
(char-at-point (char-after))) ; read the first char
|
|
(while (not (eq char-at-point ?})) ; a `}' denotes the
|
|
; end of the pixmap
|
|
(cond ((zerop count) ; must restart counting
|
|
;; check to see if the `char-at-point' is an actual pixmap bit
|
|
(when (strokes-xpm-char-bit-p char-at-point)
|
|
(setq count 1
|
|
current-char-is-on-p (strokes-xpm-char-on-p char-at-point)))
|
|
(forward-char 1))
|
|
((= count 61) ; maximum single char's
|
|
; encoding length
|
|
(setq compressed-string
|
|
(concat compressed-string
|
|
;; add a zero-length encoding when
|
|
;; necessary
|
|
(when (eq last-char-was-on-p
|
|
current-char-is-on-p)
|
|
;; "0"
|
|
(strokes-xpm-encode-length-as-string 0))
|
|
(strokes-xpm-encode-length-as-string 61))
|
|
last-char-was-on-p current-char-is-on-p
|
|
count 0)) ; note that we just set
|
|
; count=0 and *don't* advance
|
|
; (point)
|
|
((strokes-xpm-char-bit-p char-at-point) ; an actual xpm bit
|
|
(if (eq current-char-is-on-p
|
|
(strokes-xpm-char-on-p char-at-point))
|
|
;; yet another of the same bit-type, so we continue
|
|
;; counting...
|
|
(progn
|
|
(cl-incf count)
|
|
(forward-char 1))
|
|
;; otherwise, it's the opposite bit-type, so we do a
|
|
;; write and then restart count ### NOTE (for myself
|
|
;; to be aware of) ### I really should advance
|
|
;; (point) in this case instead of letting another
|
|
;; iteration go through and letting the case: count=0
|
|
;; take care of this stuff for me. That's why
|
|
;; there's no (forward-char 1) below.
|
|
(setq compressed-string
|
|
(concat compressed-string
|
|
;; add a zero-length encoding when
|
|
;; necessary
|
|
(when (eq last-char-was-on-p
|
|
current-char-is-on-p)
|
|
;; "0"
|
|
(strokes-xpm-encode-length-as-string 0))
|
|
(strokes-xpm-encode-length-as-string count))
|
|
count 0
|
|
last-char-was-on-p current-char-is-on-p)))
|
|
(t ; ELSE it's some other useless
|
|
; char, like `"' or `,'
|
|
(forward-char 1)))
|
|
(setq char-at-point (char-after)))
|
|
(concat compressed-string
|
|
(when (> count 0)
|
|
(concat (when (eq last-char-was-on-p
|
|
current-char-is-on-p)
|
|
;; "0"
|
|
(strokes-xpm-encode-length-as-string 0))
|
|
(strokes-xpm-encode-length-as-string count)))
|
|
"/"))))
|
|
|
|
;;;###autoload
|
|
(defun strokes-decode-buffer (&optional buffer force)
|
|
"Decode stroke strings in BUFFER and display their corresponding glyphs.
|
|
Optional BUFFER defaults to the current buffer.
|
|
Optional FORCE non-nil will ignore the buffer's read-only status."
|
|
(interactive)
|
|
;; (interactive "*bStrokify buffer: ")
|
|
(with-current-buffer (setq buffer (get-buffer (or buffer (current-buffer))))
|
|
(when (or (not buffer-read-only)
|
|
force
|
|
inhibit-read-only
|
|
(y-or-n-p
|
|
(format "Buffer %s is read-only. Strokify anyway? " buffer)))
|
|
(let ((inhibit-read-only t))
|
|
(message "Strokifying %s..." buffer)
|
|
(goto-char (point-min))
|
|
(let (string image)
|
|
;; The comment below is what I'd have to do if I wanted to
|
|
;; deal with random newlines in the midst of the compressed
|
|
;; strings. If I do this, I'll also have to change
|
|
;; `strokes-xpm-to-compress-string' to deal with the newline,
|
|
;; and possibly other whitespace stuff. YUCK!
|
|
;; (while (re-search-forward "\\+/\\(\\w\\|\\)+/" nil t nil (get-buffer buffer))
|
|
(while (with-current-buffer buffer
|
|
(when (re-search-forward "\\+/\\(\\w+\\)/" nil t nil)
|
|
(setq string (match-string 1))
|
|
(goto-char (match-end 0))
|
|
(replace-match " ")
|
|
t))
|
|
(strokes-xpm-for-compressed-string string " *strokes-xpm*")
|
|
(setq image (create-image (with-current-buffer " *strokes-xpm*"
|
|
(buffer-string))
|
|
'xpm t))
|
|
(insert-image image
|
|
(propertize " "
|
|
'type 'stroke-glyph
|
|
'stroke-glyph image
|
|
'data string))))
|
|
(message "Strokifying %s...done" buffer)))))
|
|
|
|
(defun strokes-encode-buffer (&optional buffer force)
|
|
"Convert the glyphs in BUFFER to their base-64 ASCII representations.
|
|
Optional BUFFER defaults to the current buffer.
|
|
Optional FORCE non-nil will ignore the buffer's read-only status."
|
|
;; ### NOTE !!! ### (for me)
|
|
;; For later on, you can/should make the inserted strings atomic
|
|
;; extents, so that the users have a clue that they shouldn't be
|
|
;; editing inside them. Plus, if you make them extents, you can
|
|
;; very easily just hide the glyphs, so if you unstrokify, and the
|
|
;; restrokify, then those that already are glyphed don't need to be
|
|
;; re-calculated, etc. It's just nicer that way. The only things
|
|
;; to worry about is cleanup (i.e. do the glyphs get gc'd when the
|
|
;; buffer is killed?
|
|
;; (interactive "*bUnstrokify buffer: ")
|
|
(interactive)
|
|
(with-current-buffer (setq buffer (or buffer (current-buffer)))
|
|
(when (or (not buffer-read-only)
|
|
force
|
|
inhibit-read-only
|
|
(y-or-n-p
|
|
(format "Buffer %s is read-only. Encode anyway? " buffer)))
|
|
(message "Encoding strokes in %s..." buffer)
|
|
;; (map-extents
|
|
;; (lambda (ext buf)
|
|
;; (when (eq (extent-property ext 'type) 'stroke-glyph)
|
|
;; (goto-char (extent-start-position ext))
|
|
;; (delete-char 1) ; ### What the hell do I do here? ###
|
|
;; (insert "+/" (extent-property ext 'data) "/")
|
|
;; (delete-extent ext))))))
|
|
(let ((inhibit-read-only t)
|
|
(start nil)
|
|
glyph)
|
|
(while (or (and (bobp)
|
|
(get-text-property (point) 'type))
|
|
(setq start (next-single-property-change (point) 'type)))
|
|
(when (eq 'stroke-glyph (get-text-property (point) 'type))
|
|
(goto-char start)
|
|
(setq start (point-marker)
|
|
glyph (get-text-property start 'display))
|
|
(insert "+/" (get-text-property (point) 'data) ?/)
|
|
(delete-char 1)
|
|
(add-text-properties start (point)
|
|
(list 'type 'stroke-string
|
|
'face 'strokes-char
|
|
'stroke-glyph glyph
|
|
'display nil))))
|
|
(message "Encoding strokes in %s...done" buffer)))))
|
|
|
|
(defun strokes-xpm-for-compressed-string (compressed-string &optional bufname)
|
|
"Convert the stroke represented by COMPRESSED-STRING into an XPM.
|
|
Store XPM in buffer BUFNAME if supplied (default is \" *strokes-xpm*\")"
|
|
(or bufname (setq bufname " *strokes-xpm*"))
|
|
(with-current-buffer (get-buffer-create bufname)
|
|
(erase-buffer)
|
|
(insert compressed-string)
|
|
(goto-char (point-min))
|
|
(let ((current-char-is-on-p nil))
|
|
(while (not (eobp))
|
|
(insert-char
|
|
(if current-char-is-on-p
|
|
?*
|
|
?\s)
|
|
(strokes-xpm-decode-char (char-after)))
|
|
(delete-char 1)
|
|
(setq current-char-is-on-p (not current-char-is-on-p)))
|
|
(goto-char (point-min))
|
|
(cl-loop repeat 33 do
|
|
(insert ?\")
|
|
(forward-char 33)
|
|
(insert "\",\n"))
|
|
(goto-char (point-min))
|
|
(insert strokes-xpm-header))))
|
|
|
|
;;;###autoload
|
|
(defun strokes-compose-complex-stroke ()
|
|
;; ### NOTE !!! ###
|
|
;; Even though we don't have lexical scoping, it's somewhat ugly how I
|
|
;; pass around variables in the global name space. I can/should
|
|
;; change this.
|
|
"Read a complex stroke and insert its glyph into the current buffer."
|
|
(interactive "*")
|
|
(let ((strokes-grid-resolution 33))
|
|
(strokes-read-complex-stroke)
|
|
(strokes-xpm-for-stroke nil " *strokes-xpm*" t)
|
|
(insert (strokes-xpm-to-compressed-string " *strokes-xpm*"))
|
|
(strokes-decode-buffer)
|
|
;; strokes-decode-buffer does a save-excursion.
|
|
(forward-char)))
|
|
|
|
(defun strokes-unload-function ()
|
|
"Unload the Strokes library."
|
|
(strokes-mode -1)
|
|
;; continue standard unloading
|
|
nil)
|
|
|
|
(run-hooks 'strokes-load-hook)
|
|
(provide 'strokes)
|
|
|
|
;;; strokes.el ends here
|