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598 lines
23 KiB
EmacsLisp
598 lines
23 KiB
EmacsLisp
;;; ansi-color.el --- translate ANSI escape sequences into faces
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;; Copyright (C) 1999, 2000, 2001, 2002, 2003, 2004,
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;; 2005, 2006, 2007, 2008, 2009, 2010, 2011 Free Software Foundation, Inc.
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;; Author: Alex Schroeder <alex@gnu.org>
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;; Maintainer: Alex Schroeder <alex@gnu.org>
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;; Version: 3.4.2
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;; Keywords: comm processes terminals services
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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 file provides a function that takes a string or a region
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;; containing Select Graphic Rendition (SGR) control sequences (formerly
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;; known as ANSI escape sequences) and tries to translate these into
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;; faces.
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;;
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;; This allows you to run ls --color=yes in shell-mode. It is now
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;; enabled by default; to disable it, set ansi-color-for-comint-mode
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;; to nil.
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;;
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;; Note that starting your shell from within Emacs might set the TERM
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;; environment variable. The new setting might disable the output of
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;; SGR control sequences. Using ls --color=yes forces ls to produce
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;; these.
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;;
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;; SGR control sequences are defined in section 3.8.117 of the ECMA-48
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;; standard (identical to ISO/IEC 6429), which is freely available as a
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;; PDF file <URL:http://www.ecma.ch/ecma1/STAND/ECMA-048.HTM>. The
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;; "Graphic Rendition Combination Mode (GRCM)" implemented is
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;; "cumulative mode" as defined in section 7.2.8. Cumulative mode means
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;; that whenever possible, SGR control sequences are combined (ie. blue
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;; and bold).
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;; The basic functions are:
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;;
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;; `ansi-color-apply' to colorize a string containing SGR control
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;; sequences.
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;;
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;; `ansi-color-filter-apply' to filter SGR control sequences from a
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;; string.
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;;
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;; `ansi-color-apply-on-region' to colorize a region containing SGR
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;; control sequences.
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;;
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;; `ansi-color-filter-region' to filter SGR control sequences from a
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;; region.
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;;; Thanks
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;; Georges Brun-Cottan <gbruncot@emc.com> for improving ansi-color.el
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;; substantially by adding the code needed to cope with arbitrary chunks
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;; of output and the filter functions.
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;;
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;; Markus Kuhn <Markus.Kuhn@cl.cam.ac.uk> for pointing me to ECMA-48.
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;;
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;; Stefan Monnier <foo@acm.com> explaing obscure font-lock stuff and
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;; code suggestions.
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;;; Code:
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(defvar comint-last-output-start)
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;; Customization
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(defgroup ansi-colors nil
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"Translating SGR control sequences to faces.
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This translation effectively colorizes strings and regions based upon
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SGR control sequences embedded in the text. SGR (Select Graphic
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Rendition) control sequences are defined in section 3.8.117 of the
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ECMA-48 standard \(identical to ISO/IEC 6429), which is freely available
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as a PDF file <URL:http://www.ecma.ch/ecma1/STAND/ECMA-048.HTM>."
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:version "21.1"
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:group 'processes)
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(defcustom ansi-color-faces-vector
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[default bold default italic underline bold bold-italic modeline]
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"Faces used for SGR control sequences determining a face.
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This vector holds the faces used for SGR control sequence parameters 0
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to 7.
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Parameter Description Face used by default
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0 default default
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1 bold bold
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2 faint default
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3 italic italic
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4 underlined underline
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5 slowly blinking bold
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6 rapidly blinking bold-italic
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7 negative image modeline
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Note that the symbol `default' is special: It will not be combined
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with the current face.
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This vector is used by `ansi-color-make-color-map' to create a color
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map. This color map is stored in the variable `ansi-color-map'."
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:type '(vector face face face face face face face face)
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:set 'ansi-color-map-update
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:initialize 'custom-initialize-default
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:group 'ansi-colors)
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(defcustom ansi-color-names-vector
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["black" "red" "green" "yellow" "blue" "magenta" "cyan" "white"]
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"Colors used for SGR control sequences determining a color.
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This vector holds the colors used for SGR control sequences parameters
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30 to 37 \(foreground colors) and 40 to 47 (background colors).
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Parameter Color
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30 40 black
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31 41 red
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32 42 green
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33 43 yellow
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34 44 blue
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35 45 magenta
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36 46 cyan
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37 47 white
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This vector is used by `ansi-color-make-color-map' to create a color
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map. This color map is stored in the variable `ansi-color-map'."
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:type '(vector string string string string string string string string)
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:set 'ansi-color-map-update
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:initialize 'custom-initialize-default
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:group 'ansi-colors)
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(defconst ansi-color-regexp "\033\\[\\([0-9;]*m\\)"
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"Regexp that matches SGR control sequences.")
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(defconst ansi-color-drop-regexp
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"\033\\[\\([ABCDsuK]\\|2J\\|=[0-9]+[hI]\\|[0-9;]*[Hf]\\)"
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"Regexp that matches ANSI control sequences to silently drop.")
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(defconst ansi-color-parameter-regexp "\\([0-9]*\\)[m;]"
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"Regexp that matches SGR control sequence parameters.")
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;; Convenience functions for comint modes (eg. shell-mode)
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(defcustom ansi-color-for-comint-mode t
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"Determines what to do with comint output.
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If nil, do nothing.
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If the symbol `filter', then filter all SGR control sequences.
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If anything else (such as t), then translate SGR control sequences
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into text properties.
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In order for this to have any effect, `ansi-color-process-output' must
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be in `comint-output-filter-functions'.
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This can be used to enable colorized ls --color=yes output
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in shell buffers. You set this variable by calling one of:
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\\[ansi-color-for-comint-mode-on]
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\\[ansi-color-for-comint-mode-off]
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\\[ansi-color-for-comint-mode-filter]"
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:type '(choice (const :tag "Do nothing" nil)
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(const :tag "Filter" filter)
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(const :tag "Translate" t))
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:group 'ansi-colors
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:version "23.2")
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;;;###autoload
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(defun ansi-color-for-comint-mode-on ()
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"Set `ansi-color-for-comint-mode' to t."
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(interactive)
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(setq ansi-color-for-comint-mode t))
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(defun ansi-color-for-comint-mode-off ()
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"Set `ansi-color-for-comint-mode' to nil."
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(interactive)
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(setq ansi-color-for-comint-mode nil))
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(defun ansi-color-for-comint-mode-filter ()
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"Set `ansi-color-for-comint-mode' to symbol `filter'."
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(interactive)
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(setq ansi-color-for-comint-mode 'filter))
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;;;###autoload
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(defun ansi-color-process-output (ignored)
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"Maybe translate SGR control sequences of comint output into text properties.
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Depending on variable `ansi-color-for-comint-mode' the comint output is
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either not processed, SGR control sequences are filtered using
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`ansi-color-filter-region', or SGR control sequences are translated into
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text properties using `ansi-color-apply-on-region'.
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The comint output is assumed to lie between the marker
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`comint-last-output-start' and the process-mark.
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This is a good function to put in `comint-output-filter-functions'."
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(let ((start-marker (or comint-last-output-start
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(point-min-marker)))
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(end-marker (process-mark (get-buffer-process (current-buffer)))))
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(cond ((eq ansi-color-for-comint-mode nil))
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((eq ansi-color-for-comint-mode 'filter)
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(ansi-color-filter-region start-marker end-marker))
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(t
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(ansi-color-apply-on-region start-marker end-marker)))))
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(add-hook 'comint-output-filter-functions
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'ansi-color-process-output)
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(defalias 'ansi-color-unfontify-region 'font-lock-default-unfontify-region)
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(make-obsolete 'ansi-color-unfontify-region "not needed any more" "24.1")
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;; Working with strings
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(defvar ansi-color-context nil
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"Context saved between two calls to `ansi-color-apply'.
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This is a list of the form (FACES FRAGMENT) or nil. FACES is a list of
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faces the last call to `ansi-color-apply' ended with, and FRAGMENT is a
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string starting with an escape sequence, possibly the start of a new
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escape sequence.")
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(make-variable-buffer-local 'ansi-color-context)
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(defun ansi-color-filter-apply (string)
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"Filter out all ANSI control sequences from STRING.
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Every call to this function will set and use the buffer-local variable
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`ansi-color-context' to save partial escape sequences. This information
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will be used for the next call to `ansi-color-apply'. Set
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`ansi-color-context' to nil if you don't want this.
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This function can be added to `comint-preoutput-filter-functions'."
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(let ((start 0) end result)
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;; if context was saved and is a string, prepend it
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(if (cadr ansi-color-context)
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(setq string (concat (cadr ansi-color-context) string)
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ansi-color-context nil))
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;; find the next escape sequence
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(while (setq end (string-match ansi-color-regexp string start))
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(setq result (concat result (substring string start end))
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start (match-end 0)))
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;; save context, add the remainder of the string to the result
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(let (fragment)
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(if (string-match "\033" string start)
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(let ((pos (match-beginning 0)))
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(setq fragment (substring string pos)
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result (concat result (substring string start pos))))
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(setq result (concat result (substring string start))))
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(setq ansi-color-context (if fragment (list nil fragment))))
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result))
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(defun ansi-color-apply (string)
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"Translates SGR control sequences into text properties.
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Delete all other control sequences without processing them.
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Applies SGR control sequences setting foreground and background colors
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to STRING using text properties and returns the result. The colors used
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are given in `ansi-color-faces-vector' and `ansi-color-names-vector'.
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See function `ansi-color-apply-sequence' for details.
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Every call to this function will set and use the buffer-local variable
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`ansi-color-context' to save partial escape sequences and current face.
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This information will be used for the next call to `ansi-color-apply'.
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Set `ansi-color-context' to nil if you don't want this.
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This function can be added to `comint-preoutput-filter-functions'."
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(let ((face (car ansi-color-context))
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(start 0) end escape-sequence result
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colorized-substring)
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;; If context was saved and is a string, prepend it.
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(if (cadr ansi-color-context)
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(setq string (concat (cadr ansi-color-context) string)
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ansi-color-context nil))
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;; Find the next escape sequence.
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(while (setq end (string-match ansi-color-regexp string start))
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(setq escape-sequence (match-string 1 string))
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;; Colorize the old block from start to end using old face.
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(when face
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(put-text-property start end 'font-lock-face face string))
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(setq colorized-substring (substring string start end)
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start (match-end 0))
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;; Eliminate unrecognized ANSI sequences.
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(while (string-match ansi-color-drop-regexp colorized-substring)
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(setq colorized-substring
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(replace-match "" nil nil colorized-substring)))
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(push colorized-substring result)
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;; Create new face, by applying escape sequence parameters.
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(setq face (ansi-color-apply-sequence escape-sequence face)))
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;; if the rest of the string should have a face, put it there
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(when face
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(put-text-property start (length string) 'font-lock-face face string))
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;; save context, add the remainder of the string to the result
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(let (fragment)
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(if (string-match "\033" string start)
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(let ((pos (match-beginning 0)))
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(setq fragment (substring string pos))
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(push (substring string start pos) result))
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(push (substring string start) result))
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(setq ansi-color-context (if (or face fragment) (list face fragment))))
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(apply 'concat (nreverse result))))
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;; Working with regions
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(defvar ansi-color-context-region nil
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"Context saved between two calls to `ansi-color-apply-on-region'.
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This is a list of the form (FACES MARKER) or nil. FACES is a list of
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faces the last call to `ansi-color-apply-on-region' ended with, and
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MARKER is a buffer position within an escape sequence or the last
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position processed.")
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(make-variable-buffer-local 'ansi-color-context-region)
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(defun ansi-color-filter-region (begin end)
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"Filter out all ANSI control sequences from region BEGIN to END.
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Every call to this function will set and use the buffer-local variable
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`ansi-color-context-region' to save position. This information will be
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used for the next call to `ansi-color-apply-on-region'. Specifically,
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it will override BEGIN, the start of the region. Set
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`ansi-color-context-region' to nil if you don't want this."
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(let ((end-marker (copy-marker end))
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(start (or (cadr ansi-color-context-region) begin)))
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(save-excursion
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(goto-char start)
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;; Delete unrecognized escape sequences.
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(while (re-search-forward ansi-color-drop-regexp end-marker t)
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(replace-match ""))
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(goto-char start)
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;; Delete SGR escape sequences.
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(while (re-search-forward ansi-color-regexp end-marker t)
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(replace-match ""))
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;; save context, add the remainder of the string to the result
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(if (re-search-forward "\033" end-marker t)
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(setq ansi-color-context-region (list nil (match-beginning 0)))
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(setq ansi-color-context-region nil)))))
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(defun ansi-color-apply-on-region (begin end)
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"Translates SGR control sequences into overlays or extents.
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Delete all other control sequences without processing them.
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SGR control sequences are applied by setting foreground and
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background colors to the text between BEGIN and END using
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overlays. The colors used are given in `ansi-color-faces-vector'
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and `ansi-color-names-vector'. See `ansi-color-apply-sequence'
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for details.
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Every call to this function will set and use the buffer-local variable
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`ansi-color-context-region' to save position and current face. This
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information will be used for the next call to
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`ansi-color-apply-on-region'. Specifically, it will override BEGIN, the
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start of the region and set the face with which to start. Set
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`ansi-color-context-region' to nil if you don't want this."
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(let ((face (car ansi-color-context-region))
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(start-marker (or (cadr ansi-color-context-region)
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(copy-marker begin)))
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(end-marker (copy-marker end))
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escape-sequence)
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;; First, eliminate unrecognized ANSI control sequences.
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(save-excursion
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(goto-char start-marker)
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(while (re-search-forward ansi-color-drop-regexp end-marker t)
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(replace-match "")))
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(save-excursion
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(goto-char start-marker)
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;; Find the next SGR sequence.
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(while (re-search-forward ansi-color-regexp end-marker t)
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;; Colorize the old block from start to end using old face.
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(when face
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(ansi-color-set-extent-face
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(ansi-color-make-extent start-marker (match-beginning 0))
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face))
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;; store escape sequence and new start position
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(setq escape-sequence (match-string 1)
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start-marker (copy-marker (match-end 0)))
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;; delete the escape sequence
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(replace-match "")
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;; create new face by applying all the parameters in the escape
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;; sequence
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(setq face (ansi-color-apply-sequence escape-sequence face)))
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;; search for the possible start of a new escape sequence
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(if (re-search-forward "\033" end-marker t)
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(progn
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;; if the rest of the region should have a face, put it there
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(when face
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(ansi-color-set-extent-face
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(ansi-color-make-extent start-marker (point))
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face))
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;; save face and point
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(setq ansi-color-context-region
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(list face (copy-marker (match-beginning 0)))))
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;; if the rest of the region should have a face, put it there
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(if face
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(progn
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(ansi-color-set-extent-face
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(ansi-color-make-extent start-marker end-marker)
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face)
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(setq ansi-color-context-region (list face)))
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;; reset context
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(setq ansi-color-context-region nil))))))
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;; This function helps you look for overlapping overlays. This is
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;; usefull in comint-buffers. Overlapping overlays should not happen!
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;; A possible cause for bugs are the markers. If you create an overlay
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;; up to the end of the region, then that end might coincide with the
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;; process-mark. As text is added BEFORE the process-mark, the overlay
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;; will keep growing. Therefore, as more overlays are created later on,
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;; there will be TWO OR MORE overlays covering the buffer at that point.
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;; This function helps you check your buffer for these situations.
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; (defun ansi-color-debug-overlays ()
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; (interactive)
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; (let ((pos (point-min)))
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; (while (< pos (point-max))
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; (if (<= 2 (length (overlays-at pos)))
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; (progn
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; (goto-char pos)
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; (error "%d overlays at %d" (length (overlays-at pos)) pos))
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; (let (message-log-max)
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; (message "Reached %d." pos)))
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; (setq pos (next-overlay-change pos)))))
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;; Emacs/XEmacs compatibility layer
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(defun ansi-color-make-face (property color)
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"Return a face with PROPERTY set to COLOR.
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PROPERTY can be either symbol `foreground' or symbol `background'.
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For Emacs, we just return the cons cell \(PROPERTY . COLOR).
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For XEmacs, we create a temporary face and return it."
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(if (featurep 'xemacs)
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(let ((face (make-face (intern (concat color "-" (symbol-name property)))
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"Temporary face created by ansi-color."
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t)))
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(set-face-property face property color)
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face)
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(cond ((eq property 'foreground)
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(cons 'foreground-color color))
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((eq property 'background)
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(cons 'background-color color))
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(t
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(cons property color)))))
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(defun ansi-color-make-extent (from to &optional object)
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"Make an extent for the range [FROM, TO) in OBJECT.
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|
||
OBJECT defaults to the current buffer. XEmacs uses `make-extent', Emacs
|
||
uses `make-overlay'. XEmacs can use a buffer or a string for OBJECT,
|
||
Emacs requires OBJECT to be a buffer."
|
||
(if (fboundp 'make-extent)
|
||
(make-extent from to object)
|
||
;; In Emacs, the overlay might end at the process-mark in comint
|
||
;; buffers. In that case, new text will be inserted before the
|
||
;; process-mark, ie. inside the overlay (using insert-before-marks).
|
||
;; In order to avoid this, we use the `insert-behind-hooks' overlay
|
||
;; property to make sure it works.
|
||
(let ((overlay (make-overlay from to object)))
|
||
(overlay-put overlay 'modification-hooks '(ansi-color-freeze-overlay))
|
||
overlay)))
|
||
|
||
(defun ansi-color-freeze-overlay (overlay is-after begin end &optional len)
|
||
"Prevent OVERLAY from being extended.
|
||
This function can be used for the `modification-hooks' overlay
|
||
property."
|
||
;; if stuff was inserted at the end of the overlay
|
||
(when (and is-after
|
||
(= 0 len)
|
||
(= end (overlay-end overlay)))
|
||
;; reset the end of the overlay
|
||
(move-overlay overlay (overlay-start overlay) begin)))
|
||
|
||
(defun ansi-color-set-extent-face (extent face)
|
||
"Set the `face' property of EXTENT to FACE.
|
||
XEmacs uses `set-extent-face', Emacs uses `overlay-put'."
|
||
(if (featurep 'xemacs)
|
||
(set-extent-face extent face)
|
||
(overlay-put extent 'face face)))
|
||
|
||
;; Helper functions
|
||
|
||
(defun ansi-color-apply-sequence (escape-sequence faces)
|
||
"Apply ESCAPE-SEQ to FACES and return the new list of faces.
|
||
|
||
ESCAPE-SEQ is an escape sequences parsed by `ansi-color-get-face'.
|
||
|
||
If the new faces start with the symbol `default', then the new
|
||
faces are returned. If the faces start with something else,
|
||
they are appended to the front of the FACES list, and the new
|
||
list of faces is returned.
|
||
|
||
If `ansi-color-get-face' returns nil, then we either got a
|
||
null-sequence, or we stumbled upon some garbage. In either
|
||
case we return nil."
|
||
(let ((new-faces (ansi-color-get-face escape-sequence)))
|
||
(cond ((null new-faces)
|
||
nil)
|
||
((eq (car new-faces) 'default)
|
||
(cdr new-faces))
|
||
(t
|
||
;; Like (append NEW-FACES FACES)
|
||
;; but delete duplicates in FACES.
|
||
(let ((modified-faces (copy-sequence faces)))
|
||
(dolist (face (nreverse new-faces))
|
||
(setq modified-faces (delete face modified-faces))
|
||
(push face modified-faces))
|
||
modified-faces)))))
|
||
|
||
(defun ansi-color-make-color-map ()
|
||
"Creates a vector of face definitions and returns it.
|
||
|
||
The index into the vector is an ANSI code. See the documentation of
|
||
`ansi-color-map' for an example.
|
||
|
||
The face definitions are based upon the variables
|
||
`ansi-color-faces-vector' and `ansi-color-names-vector'."
|
||
(let ((ansi-color-map (make-vector 50 nil))
|
||
(index 0))
|
||
;; miscellaneous attributes
|
||
(mapc
|
||
(function (lambda (e)
|
||
(aset ansi-color-map index e)
|
||
(setq index (1+ index)) ))
|
||
ansi-color-faces-vector)
|
||
;; foreground attributes
|
||
(setq index 30)
|
||
(mapc
|
||
(function (lambda (e)
|
||
(aset ansi-color-map index
|
||
(ansi-color-make-face 'foreground e))
|
||
(setq index (1+ index)) ))
|
||
ansi-color-names-vector)
|
||
;; background attributes
|
||
(setq index 40)
|
||
(mapc
|
||
(function (lambda (e)
|
||
(aset ansi-color-map index
|
||
(ansi-color-make-face 'background e))
|
||
(setq index (1+ index)) ))
|
||
ansi-color-names-vector)
|
||
ansi-color-map))
|
||
|
||
(defvar ansi-color-map (ansi-color-make-color-map)
|
||
"A brand new color map suitable for `ansi-color-get-face'.
|
||
|
||
The value of this variable is usually constructed by
|
||
`ansi-color-make-color-map'. The values in the array are such that the
|
||
numbers included in an SGR control sequences point to the correct
|
||
foreground or background colors.
|
||
|
||
Example: The sequence \033[34m specifies a blue foreground. Therefore:
|
||
(aref ansi-color-map 34)
|
||
=> \(foreground-color . \"blue\")")
|
||
|
||
(defun ansi-color-map-update (symbol value)
|
||
"Update `ansi-color-map'.
|
||
|
||
Whenever the vectors used to construct `ansi-color-map' are changed,
|
||
this function is called. Therefore this function is listed as the :set
|
||
property of `ansi-color-faces-vector' and `ansi-color-names-vector'."
|
||
(set-default symbol value)
|
||
(setq ansi-color-map (ansi-color-make-color-map)))
|
||
|
||
(defun ansi-color-get-face-1 (ansi-code)
|
||
"Get face definition from `ansi-color-map'.
|
||
ANSI-CODE is used as an index into the vector."
|
||
(condition-case nil
|
||
(aref ansi-color-map ansi-code)
|
||
(args-out-of-range nil)))
|
||
|
||
(defun ansi-color-get-face (escape-seq)
|
||
"Create a new face by applying all the parameters in ESCAPE-SEQ.
|
||
|
||
Should any of the parameters result in the default face (usually this is
|
||
the parameter 0), then the effect of all previous parameters is cancelled.
|
||
|
||
ESCAPE-SEQ is a SGR control sequences such as \\033[34m. The parameter
|
||
34 is used by `ansi-color-get-face-1' to return a face definition."
|
||
(let ((i 0)
|
||
f val)
|
||
(while (string-match ansi-color-parameter-regexp escape-seq i)
|
||
(setq i (match-end 0)
|
||
val (ansi-color-get-face-1
|
||
(string-to-number (match-string 1 escape-seq) 10)))
|
||
(cond ((not val))
|
||
((eq val 'default)
|
||
(setq f (list val)))
|
||
(t
|
||
(unless (member val f)
|
||
(push val f)))))
|
||
f))
|
||
|
||
(provide 'ansi-color)
|
||
|
||
;;; ansi-color.el ends here
|