;;; context-coloring.el --- Highlight by scope -*- lexical-binding: t; -*- ;; Copyright (C) 2014-2015 Free Software Foundation, Inc. ;; Author: Jackson Ray Hamilton ;; Version: 6.3.0 ;; Keywords: convenience faces tools ;; Package-Requires: ((emacs "24") (js2-mode "20150126")) ;; URL: https://github.com/jacksonrayhamilton/context-coloring ;; This file is part of GNU Emacs. ;; This program is free software; you can redistribute it and/or modify ;; it under the terms of the GNU General Public License as published by ;; the Free Software Foundation, either version 3 of the License, or ;; (at your option) any later version. ;; This program is distributed in the hope that it will be useful, ;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;; GNU General Public License for more details. ;; You should have received a copy of the GNU General Public License ;; along with this program. If not, see . ;;; Commentary: ;; Highlights code by scope. Top-level scopes are one color, second-level ;; scopes are another color, and so on. Variables retain the color of the scope ;; in which they are defined. A variable defined in an outer scope referenced ;; by an inner scope is colored the same as the outer scope. ;; By default, comments and strings are still highlighted syntactically. ;;; Code: (require 'js2-mode) ;;; Utilities (defun context-coloring-join (strings delimiter) "Join a list of STRINGS with the string DELIMITER." (mapconcat 'identity strings delimiter)) (defsubst context-coloring-trim-right (string) "Remove leading whitespace from STRING." (if (string-match "[ \t\n\r]+\\'" string) (replace-match "" t t string) string)) (defsubst context-coloring-trim-left (string) "Remove trailing whitespace from STRING." (if (string-match "\\`[ \t\n\r]+" string) (replace-match "" t t string) string)) (defsubst context-coloring-trim (string) "Remove leading and trailing whitespace from STRING." (context-coloring-trim-left (context-coloring-trim-right string))) ;;; Faces (defun context-coloring-defface (level tty light dark) "Define a face for LEVEL with colors for TTY, LIGHT and DARK backgrounds." (let ((face (intern (format "context-coloring-level-%s-face" level))) (doc (format "Context coloring face, level %s." level))) (custom-declare-face face `((((type tty)) (:foreground ,tty)) (((background light)) (:foreground ,light)) (((background dark)) (:foreground ,dark))) doc :group 'context-coloring))) (defun context-coloring-defface-neutral (level) "Define a face for LEVEL with the default neutral colors." (context-coloring-defface level nil "#3f3f3f" "#cdcdcd")) (context-coloring-defface 0 nil "#000000" "#ffffff") (context-coloring-defface 1 "yellow" "#008b8b" "#00ffff") (context-coloring-defface 2 "green" "#0000ff" "#87cefa") (context-coloring-defface 3 "cyan" "#483d8b" "#b0c4de") (context-coloring-defface 4 "blue" "#a020f0" "#eedd82") (context-coloring-defface 5 "magenta" "#a0522d" "#98fb98") (context-coloring-defface 6 "red" "#228b22" "#7fffd4") (context-coloring-defface-neutral 7) (defvar context-coloring-maximum-face nil "Index of the highest face available for coloring.") (defvar context-coloring-original-maximum-face nil "Fallback value for `context-coloring-maximum-face' when all themes have been disabled.") (setq context-coloring-maximum-face 7) (setq context-coloring-original-maximum-face context-coloring-maximum-face) ;; Theme authors can have up to 26 levels: 1 (0th) for globals, 24 (1st-24th) ;; for nested levels, and 1 (25th) for infinity. (dotimes (number 18) (context-coloring-defface-neutral (+ number context-coloring-maximum-face 1))) ;;; Face functions (defsubst context-coloring-level-face (level) "Return the symbol for a face with LEVEL." ;; `concat' is faster than `format' here. (intern-soft (concat "context-coloring-level-" (number-to-string level) "-face"))) (defsubst context-coloring-bounded-level-face (level) "Return the symbol for a face with LEVEL, bounded by `context-coloring-maximum-face'." (context-coloring-level-face (min level context-coloring-maximum-face))) ;;; Colorization utilities (defsubst context-coloring-colorize-region (start end level) "Color characters from the 1-indexed START point (inclusive) to the END point (exclusive) with the face corresponding to LEVEL." (add-text-properties start end `(face ,(context-coloring-bounded-level-face level)))) (make-obsolete-variable 'context-coloring-comments-and-strings "use `context-coloring-syntactic-comments' and `context-coloring-syntactic-strings' instead." "6.1.0") (defcustom context-coloring-syntactic-comments t "If non-nil, also color comments using `font-lock'." :group 'context-coloring) (defcustom context-coloring-syntactic-strings t "If non-nil, also color strings using `font-lock'." :group 'context-coloring) (defun context-coloring-font-lock-syntactic-comment-function (state) "Tell `font-lock' to color a comment but not a string." (if (nth 3 state) nil font-lock-comment-face)) (defun context-coloring-font-lock-syntactic-string-function (state) "Tell `font-lock' to color a string but not a comment." (if (nth 3 state) font-lock-string-face nil)) (defsubst context-coloring-maybe-colorize-comments-and-strings (&optional min max) "Color the current buffer's comments or strings if `context-coloring-syntactic-comments' or `context-coloring-syntactic-strings' are non-nil." (when (or context-coloring-syntactic-comments context-coloring-syntactic-strings) (let ((min (or min (point-min))) (max (or max (point-max))) (font-lock-syntactic-face-function (cond ((and context-coloring-syntactic-comments (not context-coloring-syntactic-strings)) 'context-coloring-font-lock-syntactic-comment-function) ((and context-coloring-syntactic-strings (not context-coloring-syntactic-comments)) 'context-coloring-font-lock-syntactic-string-function) (t font-lock-syntactic-face-function)))) (save-excursion (font-lock-fontify-syntactically-region min max) ;; TODO: Make configurable at the dispatch level. (when (eq major-mode 'emacs-lisp-mode) (font-lock-fontify-keywords-region min max)))))) ;;; js2-mode colorization (defvar-local context-coloring-js2-scope-level-hash-table nil "Associate `js2-scope' structures and with their scope levels.") (defcustom context-coloring-js-block-scopes nil "If non-nil, also color block scopes in the scope hierarchy in JavaScript. The block-scoped `let' and `const' are introduced in ES6. Enable this for ES6 code; disable it elsewhere. Supported modes: `js2-mode'" :group 'context-coloring) (defsubst context-coloring-js2-scope-level (scope) "Return the level of SCOPE." (cond ((gethash scope context-coloring-js2-scope-level-hash-table)) (t (let ((level 0) (current-scope scope) enclosing-scope) (while (and current-scope (js2-node-parent current-scope) (setq enclosing-scope (js2-node-get-enclosing-scope current-scope))) (when (or context-coloring-js-block-scopes (let ((type (js2-scope-type current-scope))) (or (= type js2-SCRIPT) (= type js2-FUNCTION) (= type js2-CATCH)))) (setq level (+ level 1))) (setq current-scope enclosing-scope)) (puthash scope level context-coloring-js2-scope-level-hash-table))))) (defsubst context-coloring-js2-local-name-node-p (node) "Determine if NODE is a `js2-name-node' representing a local variable." (and (js2-name-node-p node) (let ((parent (js2-node-parent node))) (not (or (and (js2-object-prop-node-p parent) (eq node (js2-object-prop-node-left parent))) (and (js2-prop-get-node-p parent) ;; For nested property lookup, the node on the left is a ;; `js2-prop-get-node', so this always works. (eq node (js2-prop-get-node-right parent)))))))) (defvar-local context-coloring-point-max nil "Cached value of `point-max'.") (defsubst context-coloring-js2-colorize-node (node level) "Color NODE with the color for LEVEL." (let ((start (js2-node-abs-pos node))) (context-coloring-colorize-region start (min ;; End (+ start (js2-node-len node)) ;; Somes nodes (like the ast when there is an unterminated multiline ;; comment) will stretch to the value of `point-max'. context-coloring-point-max) level))) (defun context-coloring-js2-colorize () "Color the current buffer using the abstract syntax tree generated by `js2-mode'." ;; Reset the hash table; the old one could be obsolete. (setq context-coloring-js2-scope-level-hash-table (make-hash-table :test 'eq)) (setq context-coloring-point-max (point-max)) (with-silent-modifications (js2-visit-ast js2-mode-ast (lambda (node end-p) (when (null end-p) (cond ((js2-scope-p node) (context-coloring-js2-colorize-node node (context-coloring-js2-scope-level node))) ((context-coloring-js2-local-name-node-p node) (let* ((enclosing-scope (js2-node-get-enclosing-scope node)) (defining-scope (js2-get-defining-scope enclosing-scope (js2-name-node-name node)))) ;; The tree seems to be walked lexically, so an entire scope will ;; be colored, including its name nodes, before they are reached. ;; Coloring the nodes defined in that scope would be redundant, so ;; don't do it. (when (not (eq defining-scope enclosing-scope)) (context-coloring-js2-colorize-node node (context-coloring-js2-scope-level defining-scope)))))) ;; The `t' indicates to search children. t))) (context-coloring-maybe-colorize-comments-and-strings))) ;;; Emacs Lisp colorization (defsubst context-coloring-forward-sws () "Move forward through whitespace and comments." (while (forward-comment 1))) (defsubst context-coloring-elisp-forward-sws () "Move forward through whitespace and comments, colorizing them along the way." (let ((start (point))) (context-coloring-forward-sws) (context-coloring-maybe-colorize-comments-and-strings start (point)))) (defsubst context-coloring-elisp-forward-sexp () "Like `forward-sexp', but colorize comments and strings along the way." (let ((start (point))) (forward-sexp) (context-coloring-elisp-colorize-comments-and-strings-in-region start (point)))) (defsubst context-coloring-get-syntax-code () (syntax-class ;; Faster version of `syntax-after': (aref (syntax-table) (char-after (point))))) (defsubst context-coloring-exact-regexp (word) "Create a regexp that matches exactly WORD." (concat "\\`" (regexp-quote word) "\\'")) (defsubst context-coloring-exact-or-regexp (words) "Create a regexp that matches any exact word in WORDS." (context-coloring-join (mapcar 'context-coloring-exact-regexp words) "\\|")) (defconst context-coloring-elisp-defun-regexp (context-coloring-exact-or-regexp '("defun" "defun*" "defsubst" "defmacro" "cl-defun" "cl-defsubst" "cl-defmacro"))) (defconst context-coloring-elisp-condition-case-regexp (context-coloring-exact-or-regexp '("condition-case" "condition-case-unless-debug"))) (defconst context-coloring-ignored-word-regexp (context-coloring-join (list "\\`[-+]?[0-9]" "\\`[&:].+" (context-coloring-exact-or-regexp '("t" "nil" "." "?"))) "\\|")) (defconst context-coloring-WORD-CODE 2) (defconst context-coloring-SYMBOL-CODE 3) (defconst context-coloring-OPEN-PARENTHESIS-CODE 4) (defconst context-coloring-CLOSE-PARENTHESIS-CODE 5) (defconst context-coloring-EXPRESSION-PREFIX-CODE 6) (defconst context-coloring-STRING-QUOTE-CODE 7) (defconst context-coloring-ESCAPE-CODE 9) (defconst context-coloring-COMMENT-START-CODE 11) (defconst context-coloring-COMMENT-END-CODE 12) (defconst context-coloring-OCTOTHORPE-CHAR (string-to-char "#")) (defconst context-coloring-APOSTROPHE-CHAR (string-to-char "'")) (defconst context-coloring-OPEN-PARENTHESIS-CHAR (string-to-char "(")) (defconst context-coloring-COMMA-CHAR (string-to-char ",")) (defconst context-coloring-AT-CHAR (string-to-char "@")) (defconst context-coloring-BACKTICK-CHAR (string-to-char "`")) (defvar context-coloring-parse-interruptable-p t "Set this to nil to force parse to continue until finished.") (defconst context-coloring-elisp-sexps-per-pause 1000 "Pause after this many iterations to check for user input. If user input is pending, stop the parse. This makes for a smoother user experience for large files. As of this writing, emacs lisp colorization seems to run at about 60,000 iterations per second. A default value of 1000 should provide visually \"instant\" updates at 60 frames per second.") (defvar context-coloring-elisp-sexp-count 0) (defsubst context-coloring-elisp-increment-sexp-count () (setq context-coloring-elisp-sexp-count (1+ context-coloring-elisp-sexp-count)) (when (and (zerop (% context-coloring-elisp-sexp-count context-coloring-elisp-sexps-per-pause)) context-coloring-parse-interruptable-p (input-pending-p)) (throw 'interrupted t))) (defvar context-coloring-elisp-scope-stack '()) (defsubst context-coloring-elisp-make-scope (level) (list :level level :variables '())) (defsubst context-coloring-elisp-scope-get-level (scope) (plist-get scope :level)) (defsubst context-coloring-elisp-scope-add-variable (scope variable) (plist-put scope :variables (cons variable (plist-get scope :variables)))) (defsubst context-coloring-elisp-scope-has-variable (scope variable) (member variable (plist-get scope :variables))) (defsubst context-coloring-elisp-get-variable-level (variable) (let* ((scope-stack context-coloring-elisp-scope-stack) scope level) (while (and scope-stack (not level)) (setq scope (car scope-stack)) (cond ((context-coloring-elisp-scope-has-variable scope variable) (setq level (context-coloring-elisp-scope-get-level scope))) (t (setq scope-stack (cdr scope-stack))))) ;; Assume a global variable. (or level 0))) (defsubst context-coloring-elisp-current-scope-level () (cond ((car context-coloring-elisp-scope-stack) (context-coloring-elisp-scope-get-level (car context-coloring-elisp-scope-stack))) (t 0))) (defsubst context-coloring-elisp-push-scope () (push (context-coloring-elisp-make-scope (1+ (context-coloring-elisp-current-scope-level))) context-coloring-elisp-scope-stack)) (defsubst context-coloring-elisp-pop-scope () (pop context-coloring-elisp-scope-stack)) (defsubst context-coloring-elisp-add-variable (variable) (context-coloring-elisp-scope-add-variable (car context-coloring-elisp-scope-stack) variable)) (defsubst context-coloring-elisp-parse-arg (callback) (let* ((arg-string (buffer-substring-no-properties (point) (progn (context-coloring-elisp-forward-sexp) (point))))) (when (not (string-match-p context-coloring-ignored-word-regexp arg-string)) (funcall callback arg-string)))) ;; TODO: These seem to spiral into an infinite loop sometimes. (defun context-coloring-elisp-parse-let-varlist (type) (let ((varlist '()) syntax-code) ;; Enter. (forward-char) (while (/= (setq syntax-code (context-coloring-get-syntax-code)) context-coloring-CLOSE-PARENTHESIS-CODE) (cond ((= syntax-code context-coloring-OPEN-PARENTHESIS-CODE) (forward-char) (context-coloring-elisp-forward-sws) (setq syntax-code (context-coloring-get-syntax-code)) (when (or (= syntax-code context-coloring-WORD-CODE) (= syntax-code context-coloring-SYMBOL-CODE)) (context-coloring-elisp-parse-arg (lambda (var) (push var varlist))) (context-coloring-elisp-forward-sws) (setq syntax-code (context-coloring-get-syntax-code)) (when (/= syntax-code context-coloring-CLOSE-PARENTHESIS-CODE) (context-coloring-elisp-colorize-sexp))) (context-coloring-elisp-forward-sws) ;; Skip past the closing parenthesis. (forward-char)) ((or (= syntax-code context-coloring-WORD-CODE) (= syntax-code context-coloring-SYMBOL-CODE)) (context-coloring-elisp-parse-arg (lambda (var) (push var varlist))))) (when (eq type 'let*) (context-coloring-elisp-add-variable (pop varlist))) (context-coloring-elisp-forward-sws)) (when (eq type 'let) (while varlist (context-coloring-elisp-add-variable (pop varlist)))) ;; Exit. (forward-char))) (defun context-coloring-elisp-parse-arglist () (let (syntax-code) ;; Enter. (forward-char) (while (/= (setq syntax-code (context-coloring-get-syntax-code)) context-coloring-CLOSE-PARENTHESIS-CODE) (cond ((or (= syntax-code context-coloring-WORD-CODE) (= syntax-code context-coloring-SYMBOL-CODE)) (context-coloring-elisp-parse-arg (lambda (arg) (context-coloring-elisp-add-variable arg)))) (t (context-coloring-elisp-forward-sexp))) (context-coloring-elisp-forward-sws)) ;; Exit. (forward-char))) (defun context-coloring-elisp-colorize-defun-like (&optional anonymous-p let-type) (let ((start (point)) end stop syntax-code defun-name-pos defun-name-end) (context-coloring-elisp-push-scope) ;; Color the whole sexp. (forward-sexp) (setq end (point)) (context-coloring-colorize-region start end (context-coloring-elisp-current-scope-level)) (goto-char start) ;; Enter. (forward-char) (context-coloring-elisp-forward-sws) ;; Skip past the "defun". (forward-sexp) (context-coloring-elisp-forward-sws) (setq stop nil) (unless anonymous-p ;; Check for the defun's name. (setq syntax-code (context-coloring-get-syntax-code)) (cond ((or (= syntax-code context-coloring-WORD-CODE) (= syntax-code context-coloring-SYMBOL-CODE)) ;; Color the defun's name with the top-level color. (setq defun-name-pos (point)) (forward-sexp) (setq defun-name-end (point)) (context-coloring-colorize-region defun-name-pos defun-name-end 0) (context-coloring-elisp-forward-sws)) (t (setq stop t)))) (cond (stop ;; Skip it. (goto-char start) (context-coloring-elisp-forward-sexp)) (t (setq syntax-code (context-coloring-get-syntax-code)) (cond ((= syntax-code context-coloring-OPEN-PARENTHESIS-CODE) (cond (let-type (context-coloring-elisp-parse-let-varlist let-type)) (t (context-coloring-elisp-parse-arglist))) ;; Colorize the rest of the function. (context-coloring-elisp-colorize-region (point) (1- end)) ;; Exit the defun. (forward-char)) (t ;; Skip it. (goto-char start) (context-coloring-elisp-forward-sexp))))) (context-coloring-elisp-pop-scope))) (defun context-coloring-elisp-colorize-defun () (context-coloring-elisp-colorize-defun-like)) (defun context-coloring-elisp-colorize-lambda () (context-coloring-elisp-colorize-defun-like t)) (defun context-coloring-elisp-colorize-let () (context-coloring-elisp-colorize-defun-like t 'let)) (defun context-coloring-elisp-colorize-let* () (context-coloring-elisp-colorize-defun-like t 'let*)) (defun context-coloring-elisp-colorize-cond () (let (syntax-code) ;; Enter. (forward-char) (context-coloring-elisp-forward-sws) ;; Skip past the "cond". (forward-sexp) (context-coloring-elisp-forward-sws) (while (/= (setq syntax-code (context-coloring-get-syntax-code)) context-coloring-CLOSE-PARENTHESIS-CODE) (cond ((= syntax-code context-coloring-OPEN-PARENTHESIS-CODE) ;; Colorize inside the parens. (let ((start (point))) (forward-sexp) (context-coloring-elisp-colorize-region (1+ start) (1- (point))) ;; Exit. (forward-char))) (t (context-coloring-elisp-forward-sexp))) (context-coloring-elisp-forward-sws)) ;; Exit. (forward-char))) (defun context-coloring-elisp-colorize-condition-case () (let ((start (point)) end syntax-code variable case-pos case-end) (context-coloring-elisp-push-scope) ;; Color the whole sexp. (forward-sexp) (setq end (point)) (context-coloring-colorize-region start end (context-coloring-elisp-current-scope-level)) (goto-char start) ;; Enter. (forward-char) (context-coloring-elisp-forward-sws) ;; Skip past the "condition-case". (forward-sexp) (context-coloring-elisp-forward-sws) (setq syntax-code (context-coloring-get-syntax-code)) ;; Gracefully ignore missing variables. (when (or (= syntax-code context-coloring-WORD-CODE) (= syntax-code context-coloring-SYMBOL-CODE)) (context-coloring-elisp-parse-arg (lambda (parsed-variable) (setq variable parsed-variable))) (context-coloring-elisp-forward-sws)) (context-coloring-elisp-colorize-sexp) (context-coloring-elisp-forward-sws) ;; Parse the handlers with the error variable in scope. (when variable (context-coloring-elisp-add-variable variable)) (while (/= (setq syntax-code (context-coloring-get-syntax-code)) context-coloring-CLOSE-PARENTHESIS-CODE) (cond ((= syntax-code context-coloring-OPEN-PARENTHESIS-CODE) (setq case-pos (point)) (context-coloring-elisp-forward-sexp) (setq case-end (point)) (goto-char case-pos) ;; Enter. (forward-char) (context-coloring-elisp-forward-sws) (setq syntax-code (context-coloring-get-syntax-code)) (when (/= syntax-code context-coloring-CLOSE-PARENTHESIS-CODE) ;; Skip the condition name(s). (context-coloring-elisp-forward-sexp) ;; Color the remaining portion of the handler. (context-coloring-elisp-colorize-region (point) (1- case-end))) ;; Exit. (forward-char)) (t ;; Ignore artifacts. (context-coloring-elisp-forward-sexp))) (context-coloring-elisp-forward-sws)) ;; Exit. (forward-char) (context-coloring-elisp-pop-scope))) (defun context-coloring-elisp-colorize-parenthesized-sexp () (context-coloring-elisp-increment-sexp-count) (let* ((start (point)) (end (progn (forward-sexp) (point))) (syntax-code (progn (goto-char start) (forward-char) ;; Coloring is unnecessary here, it'll happen ;; presently. (context-coloring-forward-sws) (context-coloring-get-syntax-code)))) ;; Figure out if the sexp is a special form. (cond ((when (or (= syntax-code context-coloring-WORD-CODE) (= syntax-code context-coloring-SYMBOL-CODE)) (let ((name-string (buffer-substring-no-properties (point) (progn (forward-sexp) (point))))) (cond ((string-match-p context-coloring-elisp-defun-regexp name-string) (goto-char start) (context-coloring-elisp-colorize-defun) t) ((string-equal "let" name-string) (goto-char start) (context-coloring-elisp-colorize-let) t) ((string-equal "let*" name-string) (goto-char start) (context-coloring-elisp-colorize-let*) t) ((string-equal "lambda" name-string) (goto-char start) (context-coloring-elisp-colorize-lambda) t) ((string-equal "cond" name-string) (goto-char start) (context-coloring-elisp-colorize-cond) t) ((string-match-p context-coloring-elisp-condition-case-regexp name-string) (goto-char start) (context-coloring-elisp-colorize-condition-case) t) (t nil))))) ;; Not a special form; just colorize the remaining region. (t (context-coloring-colorize-region start end (context-coloring-elisp-current-scope-level)) (context-coloring-elisp-colorize-region (point) (1- end)) (forward-char))))) (defun context-coloring-elisp-colorize-symbol () (context-coloring-elisp-increment-sexp-count) (let* ((symbol-pos (point)) (symbol-end (progn (forward-sexp) (point))) (symbol-string (buffer-substring-no-properties symbol-pos symbol-end))) (cond ((string-match-p context-coloring-ignored-word-regexp symbol-string)) (t (context-coloring-colorize-region symbol-pos symbol-end (context-coloring-elisp-get-variable-level symbol-string)))))) (defun context-coloring-elisp-colorize-expression-prefix () (context-coloring-elisp-increment-sexp-count) (let ((char (char-after)) start end) (cond ((or (= char context-coloring-APOSTROPHE-CHAR) (= char context-coloring-OCTOTHORPE-CHAR)) (context-coloring-elisp-forward-sexp)) ((= char context-coloring-BACKTICK-CHAR) (setq start (point)) (setq end (progn (forward-sexp) (point))) (goto-char start) (while (> end (progn (forward-char) (point))) (setq char (char-after)) (when (= char context-coloring-COMMA-CHAR) (forward-char) (when (= (char-after) context-coloring-AT-CHAR) ;; If we don't do this "@" could be interpreted as a symbol. (forward-char)) (context-coloring-elisp-forward-sws) (context-coloring-elisp-colorize-sexp))) ;; We could probably do this as part of the above loop but it'd be ;; repetitive. (context-coloring-elisp-colorize-comments-and-strings-in-region start end))))) (defun context-coloring-elisp-colorize-comment () (context-coloring-elisp-increment-sexp-count) (context-coloring-elisp-forward-sws)) (defun context-coloring-elisp-colorize-string () (context-coloring-elisp-increment-sexp-count) (let ((start (point))) (forward-sexp) (context-coloring-maybe-colorize-comments-and-strings start (point)))) (defun context-coloring-elisp-colorize-sexp () (let ((syntax-code (context-coloring-get-syntax-code))) (cond ((= syntax-code context-coloring-OPEN-PARENTHESIS-CODE) (context-coloring-elisp-colorize-parenthesized-sexp)) ((or (= syntax-code context-coloring-WORD-CODE) (= syntax-code context-coloring-SYMBOL-CODE)) (context-coloring-elisp-colorize-symbol)) ((= syntax-code context-coloring-EXPRESSION-PREFIX-CODE) (context-coloring-elisp-colorize-expression-prefix)) ((= syntax-code context-coloring-STRING-QUOTE-CODE) (context-coloring-elisp-colorize-string)) ((= syntax-code context-coloring-ESCAPE-CODE) (forward-char 2)) (t (forward-char))))) (defun context-coloring-elisp-colorize-comments-and-strings-in-region (start end) (let (syntax-code) (goto-char start) (while (> end (progn (skip-syntax-forward "^<\"\\" end) (point))) (setq syntax-code (context-coloring-get-syntax-code)) (cond ((= syntax-code context-coloring-STRING-QUOTE-CODE) (context-coloring-elisp-colorize-string)) ((= syntax-code context-coloring-COMMENT-START-CODE) (context-coloring-elisp-colorize-comment)) ((= syntax-code context-coloring-ESCAPE-CODE) (forward-char 2)) (t (forward-char)))))) (defun context-coloring-elisp-colorize-region (start end) (let (syntax-code) (goto-char start) (while (> end (progn (skip-syntax-forward "^()w_'<\"\\" end) (point))) (setq syntax-code (context-coloring-get-syntax-code)) (cond ((= syntax-code context-coloring-OPEN-PARENTHESIS-CODE) (context-coloring-elisp-colorize-parenthesized-sexp)) ((or (= syntax-code context-coloring-WORD-CODE) (= syntax-code context-coloring-SYMBOL-CODE)) (context-coloring-elisp-colorize-symbol)) ((= syntax-code context-coloring-EXPRESSION-PREFIX-CODE) (context-coloring-elisp-colorize-expression-prefix)) ((= syntax-code context-coloring-STRING-QUOTE-CODE) (context-coloring-elisp-colorize-string)) ((= syntax-code context-coloring-COMMENT-START-CODE) (context-coloring-elisp-colorize-comment)) ((= syntax-code context-coloring-ESCAPE-CODE) (forward-char 2)) (t (forward-char)))))) (defun context-coloring-elisp-colorize (start end) (setq context-coloring-elisp-sexp-count 0) (setq context-coloring-elisp-scope-stack '()) (let ((inhibit-point-motion-hooks t) (case-fold-search nil) ;; This is a recursive-descent parser, so give it a big stack. (max-lisp-eval-depth (max max-lisp-eval-depth 3000)) (max-specpdl-size (max max-specpdl-size 3000))) (context-coloring-elisp-colorize-region start end))) (defun context-coloring-elisp-colorize-changed-region (start end) (with-silent-modifications (save-excursion (let ((start (progn (goto-char start) (beginning-of-defun) (point))) (end (progn (goto-char end) (end-of-defun) (point)))) (context-coloring-elisp-colorize start end))))) (defun context-coloring-elisp-colorize-buffer () (interactive) (with-silent-modifications (save-excursion (context-coloring-elisp-colorize (point-min) (point-max))))) ;;; Shell command scopification / colorization (defun context-coloring-apply-tokens (tokens) "Process a string of TOKENS to apply context-based coloring to the current buffer. Tokens are 3 integers: start, end, level. A new token occurrs after every 3rd element, and the elements are separated by commas." (let* ((tokens (mapcar 'string-to-number (split-string tokens ",")))) (while tokens (context-coloring-colorize-region (pop tokens) (pop tokens) (pop tokens)))) (context-coloring-maybe-colorize-comments-and-strings)) (defun context-coloring-parse-array (array) "Parse ARRAY as a flat JSON array of numbers and use the tokens to colorize the buffer." (let* ((braceless (substring-no-properties (context-coloring-trim array) 1 -1))) (when (> (length braceless) 0) (with-silent-modifications (context-coloring-apply-tokens braceless))))) (defvar-local context-coloring-scopifier-cancel-function nil "Kills the current scopification process.") (defvar-local context-coloring-scopifier-process nil "The single scopifier process that can be running.") (defun context-coloring-cancel-scopification () "Stop the currently-running scopifier from scopifying." (when context-coloring-scopifier-cancel-function (funcall context-coloring-scopifier-cancel-function) (setq context-coloring-scopifier-cancel-function nil)) (when (not (null context-coloring-scopifier-process)) (delete-process context-coloring-scopifier-process) (setq context-coloring-scopifier-process nil))) (defun context-coloring-shell-command (command callback) "Invoke COMMAND, read its response asynchronously and invoke CALLBACK with its output. Return the command process." (let ((process (start-process-shell-command "context-coloring-process" nil command)) (output "")) ;; The process may produce output in multiple chunks. This filter ;; accumulates the chunks into a message. (set-process-filter process (lambda (_process chunk) (setq output (concat output chunk)))) ;; When the process's message is complete, this sentinel parses it as JSON ;; and applies the tokens to the buffer. (set-process-sentinel process (lambda (_process event) (when (equal "finished\n" event) (funcall callback output)))) process)) (defun context-coloring-scopify-shell-command (command callback) "Invoke a scopifier via COMMAND, read its response asynchronously and invoke CALLBACK with its output." ;; Prior running tokenization is implicitly obsolete if this function is ;; called. (context-coloring-cancel-scopification) ;; Start the process. (setq context-coloring-scopifier-process (context-coloring-shell-command command callback))) (defun context-coloring-send-buffer-to-scopifier () "Give the scopifier process its input so it can begin scopifying." (process-send-region context-coloring-scopifier-process (point-min) (point-max)) (process-send-eof context-coloring-scopifier-process)) (defun context-coloring-start-scopifier-server (command host port callback) (let* ((connect (lambda () (let ((stream (open-network-stream "context-coloring-stream" nil host port))) (funcall callback stream))))) ;; Try to connect in case a server is running, otherwise start one. (condition-case nil (progn (funcall connect)) (error (let ((server (start-process-shell-command "context-coloring-scopifier-server" nil (context-coloring-join (list command "--server" "--host" host "--port" (number-to-string port)) " "))) (output "")) ;; Connect as soon as the "listening" message is printed. (set-process-filter server (lambda (_process chunk) (setq output (concat output chunk)) (when (string-match-p (format "^Scopifier listening at %s:%s$" host port) output) (funcall connect))))))))) (defun context-coloring-send-buffer-to-scopifier-server (command host port callback) (context-coloring-start-scopifier-server command host port (lambda (process) (let* ((body (buffer-substring-no-properties (point-min) (point-max))) (header (concat "POST / HTTP/1.0\r\n" "Host: localhost\r\n" "Content-Type: application/x-www-form-urlencoded" "; charset=UTF8\r\n" (format "Content-Length: %d\r\n" (length body)) "\r\n")) (output "") (active t)) (set-process-filter process (lambda (_process chunk) (setq output (concat output chunk)))) (set-process-sentinel process (lambda (_process event) (when (and (equal "connection broken by remote peer\n" event) active) ;; Strip the response headers. (string-match "\r\n\r\n" output) (setq output (substring-no-properties output (match-end 0))) (funcall callback output)))) (process-send-string process (concat header body "\r\n")) (setq context-coloring-scopifier-cancel-function (lambda () "Cancel this scopification." (setq active nil))))))) (defun context-coloring-scopify-and-colorize-server (command host port &optional callback) "Contact or start a scopifier server via COMMAND at HOST and PORT with the current buffer's contents, read the scopifier's response asynchronously and apply a parsed list of tokens to `context-coloring-apply-tokens'. Invoke CALLBACK when complete." (let ((buffer (current-buffer))) (context-coloring-send-buffer-to-scopifier-server command host port (lambda (output) (with-current-buffer buffer (context-coloring-parse-array output)) (when callback (funcall callback)))))) (defun context-coloring-scopify-and-colorize (command &optional callback) "Invoke a scopifier via COMMAND with the current buffer's contents, read the scopifier's response asynchronously and apply a parsed list of tokens to `context-coloring-apply-tokens'. Invoke CALLBACK when complete." (let ((buffer (current-buffer))) (context-coloring-scopify-shell-command command (lambda (output) (with-current-buffer buffer (context-coloring-parse-array output)) (setq context-coloring-scopifier-process nil) (when callback (funcall callback))))) (context-coloring-send-buffer-to-scopifier)) ;;; Dispatch (defvar context-coloring-dispatch-hash-table (make-hash-table :test 'eq) "Map dispatch strategy names to their corresponding property lists, which contain details about the strategies.") (defvar context-coloring-mode-hash-table (make-hash-table :test 'eq) "Map major mode names to dispatch property lists.") (defun context-coloring-get-dispatch-for-mode (mode) "Return the dispatch for MODE (or a derivative mode)." (let ((parent mode) dispatch) (while (and parent (not (setq dispatch (gethash parent context-coloring-mode-hash-table))) (setq parent (get parent 'derived-mode-parent)))) dispatch)) (defun context-coloring-define-dispatch (symbol &rest properties) "Define a new dispatch named SYMBOL with PROPERTIES. A \"dispatch\" is a property list describing a strategy for coloring a buffer. There are three possible strategies: Parse and color in a single function (`:colorizer'), parse with a shell command that returns scope data (`:command'), or parse with a server that returns scope data (`:command', `:host' and `:port'). In the latter two cases, the scope data will be used to automatically color the buffer. PROPERTIES must include `:modes' and one of `:colorizer', `:scopifier' or `:command'. `:modes' - List of major modes this dispatch is valid for. `:colorizer' - Symbol referring to a function that parses and colors the buffer. `:executable' - Optional name of an executable required by `:command'. `:command' - Shell command to execute with the current buffer sent via stdin, and with a flat JSON array of start, end and level data returned via stdout. `:host' - Hostname of the scopifier server, e.g. \"localhost\". `:port' - Port number of the scopifier server, e.g. 80, 1337. `:version' - Minimum required version that should be printed when executing `:command' with a \"--version\" flag. The version should be numeric, e.g. \"2\", \"19700101\", \"1.2.3\", \"v1.2.3\" etc. `:setup' - Arbitrary code to set up this dispatch when `context-coloring-mode' is enabled. `:teardown' - Arbitrary code to tear down this dispatch when `context-coloring-mode' is disabled." (let ((modes (plist-get properties :modes)) (colorizer (plist-get properties :colorizer)) (command (plist-get properties :command))) (when (null modes) (error "No mode defined for dispatch")) (when (not (or colorizer command)) (error "No colorizer or command defined for dispatch")) (puthash symbol properties context-coloring-dispatch-hash-table) (dolist (mode modes) (puthash mode properties context-coloring-mode-hash-table)))) ;;; Colorization (defvar context-coloring-colorize-hook nil "Hooks to run after coloring a buffer.") (defun context-coloring-colorize (&optional callback) "Color the current buffer by function context. Invoke CALLBACK when complete; see `context-coloring-dispatch'." (interactive) (context-coloring-dispatch (lambda () (when callback (funcall callback)) (run-hooks 'context-coloring-colorize-hook)))) (defvar-local context-coloring-changed nil "Indication that the buffer has changed recently, which implies that it should be colored again by `context-coloring-colorize-idle-timer' if that timer is being used.") (defun context-coloring-change-function (_start _end _length) "Register a change so that a buffer can be colorized soon." ;; Tokenization is obsolete if there was a change. (context-coloring-cancel-scopification) (setq context-coloring-changed t)) (defun context-coloring-maybe-colorize (buffer) "Colorize the current buffer if it has changed." (when (and (eq buffer (current-buffer)) context-coloring-changed) (setq context-coloring-changed nil) (context-coloring-colorize))) ;;; Versioning (defun context-coloring-parse-version (string) "Extract segments of a version STRING into a list. \"v1.0.0\" produces (1 0 0), \"19700101\" produces (19700101), etc." (let (version) (while (string-match "[0-9]+" string) (setq version (append version (list (string-to-number (match-string 0 string))))) (setq string (substring string (match-end 0)))) version)) (defun context-coloring-check-version (expected actual) "Check that version EXPECTED is less than or equal to ACTUAL." (let ((expected (context-coloring-parse-version expected)) (actual (context-coloring-parse-version actual)) (continue t) (acceptable t)) (while (and continue expected) (let ((an-expected (car expected)) (an-actual (car actual))) (cond ((> an-actual an-expected) (setq acceptable t) (setq continue nil)) ((< an-actual an-expected) (setq acceptable nil) (setq continue nil)))) (setq expected (cdr expected)) (setq actual (cdr actual))) acceptable)) (defvar context-coloring-check-scopifier-version-hook nil "Hooks to run after checking the scopifier version.") (defun context-coloring-check-scopifier-version (&optional callback) "Asynchronously invoke CALLBACK with a predicate indicating whether the current scopifier version satisfies the minimum version number required for the current major mode." (let ((dispatch (context-coloring-get-dispatch-for-mode major-mode))) (when dispatch (let ((version (plist-get dispatch :version)) (command (plist-get dispatch :command))) (context-coloring-shell-command (context-coloring-join (list command "--version") " ") (lambda (output) (if (context-coloring-check-version version output) (progn (when callback (funcall callback t))) (when callback (funcall callback nil))) (run-hooks 'context-coloring-check-scopifier-version-hook))))))) ;;; Themes (defvar context-coloring-theme-hash-table (make-hash-table :test 'eq) "Map theme names to theme properties.") (defun context-coloring-theme-p (theme) "Return t if THEME is defined, nil otherwise." (and (gethash theme context-coloring-theme-hash-table))) (defconst context-coloring-level-face-regexp "context-coloring-level-\\([[:digit:]]+\\)-face" "Extract a level from a face.") (defvar context-coloring-originally-set-theme-hash-table (make-hash-table :test 'eq) "Cache custom themes who originally set their own `context-coloring-level-N-face' faces.") (defun context-coloring-theme-originally-set-p (theme) "Return t if there is a `context-coloring-level-N-face' originally set for THEME, nil otherwise." (let (originally-set) (cond ;; `setq' might return a non-nil value for the sake of this `cond'. ((setq originally-set (gethash theme context-coloring-originally-set-theme-hash-table)) (eq originally-set 'yes)) (t (let* ((settings (get theme 'theme-settings)) (tail settings) found) (while (and tail (not found)) (and (eq (nth 0 (car tail)) 'theme-face) (string-match context-coloring-level-face-regexp (symbol-name (nth 1 (car tail)))) (setq found t)) (setq tail (cdr tail))) found))))) (defun context-coloring-cache-originally-set (theme originally-set) "Remember if THEME had colors originally set for it. If ORIGINALLY-SET is non-nil, it did, otherwise it didn't." ;; Caching whether a theme was originally set is kind of dirty, but we have to ;; do it to remember the past state of the theme. There are probably some ;; edge cases where caching will be an issue, but they are probably rare. (puthash theme (if originally-set 'yes 'no) context-coloring-originally-set-theme-hash-table)) (defun context-coloring-warn-theme-originally-set (theme) "Warn the user that the colors for THEME are already originally set." (warn "Context coloring colors for theme `%s' are already defined" theme)) (defun context-coloring-theme-highest-level (theme) "Return the highest level N of a face like `context-coloring-level-N-face' set for THEME, or `-1' if there is none." (let* ((settings (get theme 'theme-settings)) (tail settings) face-string number (found -1)) (while tail (and (eq (nth 0 (car tail)) 'theme-face) (setq face-string (symbol-name (nth 1 (car tail)))) (string-match context-coloring-level-face-regexp face-string) (setq number (string-to-number (substring face-string (match-beginning 1) (match-end 1)))) (> number found) (setq found number)) (setq tail (cdr tail))) found)) (defun context-coloring-apply-theme (theme) "Apply THEME's properties to its respective custom theme, which must already exist and which *should* already be enabled." (let* ((properties (gethash theme context-coloring-theme-hash-table)) (colors (plist-get properties :colors)) (level -1)) ;; Only clobber when we have to. (when (custom-theme-enabled-p theme) (setq context-coloring-maximum-face (- (length colors) 1))) (apply 'custom-theme-set-faces theme (mapcar (lambda (color) (setq level (+ level 1)) `(,(context-coloring-level-face level) ((t (:foreground ,color))))) colors)))) (defun context-coloring-define-theme (theme &rest properties) "Define a context theme named THEME for coloring scope levels. PROPERTIES is a property list specifiying the following details: `:aliases': List of symbols of other custom themes that these colors are applicable to. `:colors': List of colors that this context theme uses. `:override': If non-nil, this context theme is intentionally overriding colors set by a custom theme. Don't set this non-nil unless there is a custom theme you want to use which sets `context-coloring-level-N-face' faces that you want to replace. `:recede': If non-nil, this context theme should not apply its colors if a custom theme already sets `context-coloring-level-N-face' faces. This option is optimistic; set this non-nil if you would rather confer the duty of picking colors to a custom theme author (if / when he ever gets around to it). By default, context themes will always override custom themes, even if those custom themes set `context-coloring-level-N-face' faces. If a context theme does override a custom theme, a warning will be raised, at which point you may want to enable the `:override' option, or just delete your context theme and opt to use your custom theme's author's colors instead. Context themes only work for the custom theme with the highest precedence, i.e. the car of `custom-enabled-themes'." (let ((aliases (plist-get properties :aliases)) (override (plist-get properties :override)) (recede (plist-get properties :recede))) (dolist (name (append `(,theme) aliases)) (puthash name properties context-coloring-theme-hash-table) (when (custom-theme-p name) (let ((originally-set (context-coloring-theme-originally-set-p name))) (context-coloring-cache-originally-set name originally-set) ;; In the particular case when you innocently define colors that a ;; custom theme originally set, warn. Arguably this only has to be ;; done at enable time, but it is probably more useful to do it at ;; definition time for prompter feedback. (when (and originally-set (not recede) (not override)) (context-coloring-warn-theme-originally-set name)) ;; Set (or overwrite) colors. (when (not (and originally-set recede)) (context-coloring-apply-theme name))))))) (defun context-coloring-enable-theme (theme) "Apply THEME if its colors are not already set, else just set `context-coloring-maximum-face' to the correct value for THEME." (let* ((properties (gethash theme context-coloring-theme-hash-table)) (recede (plist-get properties :recede)) (override (plist-get properties :override))) (cond (recede (let ((highest-level (context-coloring-theme-highest-level theme))) (cond ;; This can be true whether originally set by a custom theme or by a ;; context theme. ((> highest-level -1) (setq context-coloring-maximum-face highest-level)) ;; It is possible that the corresponding custom theme did not exist at ;; the time of defining this context theme, and in that case the above ;; condition proves the custom theme did not originally set any faces, ;; so we have license to apply the context theme for the first time ;; here. (t (context-coloring-apply-theme theme))))) (t (let ((originally-set (context-coloring-theme-originally-set-p theme))) ;; Cache now in case the context theme was defined after the custom ;; theme. (context-coloring-cache-originally-set theme originally-set) (when (and originally-set (not override)) (context-coloring-warn-theme-originally-set theme)) (context-coloring-apply-theme theme)))))) (defadvice enable-theme (after context-coloring-enable-theme (theme) activate) "Enable colors for context themes just-in-time." (when (and (not (eq theme 'user)) ; Called internally by `enable-theme'. (custom-theme-p theme) ; Guard against non-existent themes. (context-coloring-theme-p theme)) (when (= (length custom-enabled-themes) 1) ;; Cache because we can't reliably figure it out in reverse. (setq context-coloring-original-maximum-face context-coloring-maximum-face)) (context-coloring-enable-theme theme))) (defadvice disable-theme (after context-coloring-disable-theme (theme) activate) "Update `context-coloring-maximum-face'." (when (custom-theme-p theme) ; Guard against non-existent themes. (let ((enabled-theme (car custom-enabled-themes))) (if (context-coloring-theme-p enabled-theme) (progn (context-coloring-enable-theme enabled-theme)) ;; Assume we are back to no theme; act as if nothing ever happened. ;; This is still prone to intervention, but rather extraordinarily. (setq context-coloring-maximum-face context-coloring-original-maximum-face))))) (context-coloring-define-theme 'ample :recede t :colors '("#bdbdb3" "#baba36" "#6aaf50" "#5180b3" "#ab75c3" "#cd7542" "#df9522" "#454545")) (context-coloring-define-theme 'anti-zenburn :recede t :colors '("#232333" "#6c1f1c" "#401440" "#0f2050" "#205070" "#336c6c" "#23733c" "#6b400c" "#603a60" "#2f4070" "#235c5c")) (context-coloring-define-theme 'grandshell :recede t :colors '("#bebebe" "#5af2ee" "#b2baf6" "#f09fff" "#efc334" "#f6df92" "#acfb5a" "#888888")) (context-coloring-define-theme 'leuven :recede t :colors '("#333333" "#0000ff" "#6434a3" "#ba36a5" "#d0372d" "#036a07" "#006699" "#006fe0" "#808080")) (context-coloring-define-theme 'monokai :recede t :colors '("#f8f8f2" "#66d9ef" "#a1efe4" "#a6e22e" "#e6db74" "#fd971f" "#f92672" "#fd5ff0" "#ae81ff")) (context-coloring-define-theme 'solarized :recede t :aliases '(solarized-light solarized-dark sanityinc-solarized-light sanityinc-solarized-dark) :colors '("#839496" "#268bd2" "#2aa198" "#859900" "#b58900" "#cb4b16" "#dc322f" "#d33682" "#6c71c4" "#69b7f0" "#69cabf" "#b4c342" "#deb542" "#f2804f" "#ff6e64" "#f771ac" "#9ea0e5")) (context-coloring-define-theme 'spacegray :recede t :colors '("#ffffff" "#89aaeb" "#c189eb" "#bf616a" "#dca432" "#ebcb8b" "#b4eb89" "#89ebca")) (context-coloring-define-theme 'tango :recede t :colors '("#2e3436" "#346604" "#204a87" "#5c3566" "#a40000" "#b35000" "#c4a000" "#8ae234" "#8cc4ff" "#ad7fa8" "#ef2929" "#fcaf3e" "#fce94f")) (context-coloring-define-theme 'zenburn :recede t :colors '("#dcdccc" "#93e0e3" "#bfebbf" "#f0dfaf" "#dfaf8f" "#cc9393" "#dc8cc3" "#94bff3" "#9fc59f" "#d0bf8f" "#dca3a3")) ;;; Change detection (defvar-local context-coloring-colorize-idle-timer nil "The currently-running idle timer.") (defcustom context-coloring-delay 0.25 "Delay between a buffer update and colorization. Increase this if your machine is high-performing. Decrease it if it ain't. Supported modes: `js-mode', `js3-mode', `emacs-lisp-mode'" :group 'context-coloring) (defun context-coloring-setup-idle-change-detection () "Setup idle change detection." (add-hook 'after-change-functions 'context-coloring-change-function nil t) (add-hook 'kill-buffer-hook 'context-coloring-teardown-idle-change-detection nil t) (setq context-coloring-colorize-idle-timer (run-with-idle-timer context-coloring-delay t 'context-coloring-maybe-colorize (current-buffer)))) (defun context-coloring-teardown-idle-change-detection () "Teardown idle change detection." (context-coloring-cancel-scopification) (when context-coloring-colorize-idle-timer (cancel-timer context-coloring-colorize-idle-timer)) (remove-hook 'kill-buffer-hook 'context-coloring-teardown-idle-change-detection t) (remove-hook 'after-change-functions 'context-coloring-change-function t)) ;;; Built-in dispatches (context-coloring-define-dispatch 'javascript-node :modes '(js-mode js3-mode) :executable "scopifier" :command "scopifier" :version "v1.2.1" :host "localhost" :port 6969) (context-coloring-define-dispatch 'javascript-js2 :modes '(js2-mode) :colorizer 'context-coloring-js2-colorize :setup (lambda () (add-hook 'js2-post-parse-callbacks 'context-coloring-colorize nil t)) :teardown (lambda () (remove-hook 'js2-post-parse-callbacks 'context-coloring-colorize t))) (context-coloring-define-dispatch 'emacs-lisp :modes '(emacs-lisp-mode) :colorizer 'context-coloring-elisp-colorize-buffer :setup 'context-coloring-setup-idle-change-detection :teardown 'context-coloring-teardown-idle-change-detection) (defun context-coloring-dispatch (&optional callback) "Determine the optimal track for scopification / coloring of the current buffer, then execute it. Invoke CALLBACK when complete. It is invoked synchronously for elisp tracks, and asynchronously for shell command tracks." (let* ((dispatch (context-coloring-get-dispatch-for-mode major-mode)) (colorizer (plist-get dispatch :colorizer)) (command (plist-get dispatch :command)) (host (plist-get dispatch :host)) (port (plist-get dispatch :port)) interrupted-p) (cond (colorizer (setq interrupted-p (catch 'interrupted (funcall colorizer))) (cond (interrupted-p (setq context-coloring-changed t)) (t (when callback (funcall callback))))) (command (cond ((and host port) (context-coloring-scopify-and-colorize-server command host port callback)) (t (context-coloring-scopify-and-colorize command callback))))))) ;;; Minor mode ;;;###autoload (define-minor-mode context-coloring-mode "Context-based code coloring, inspired by Douglas Crockford." nil " Context" nil (if (not context-coloring-mode) (progn (let ((dispatch (context-coloring-get-dispatch-for-mode major-mode))) (when dispatch (let ((command (plist-get dispatch :command)) (teardown (plist-get dispatch :teardown))) (when command (context-coloring-teardown-idle-change-detection)) (when teardown (funcall teardown))))) (font-lock-mode) (jit-lock-mode t)) ;; Font lock is incompatible with this mode; the converse is also true. (font-lock-mode 0) (jit-lock-mode nil) ;; ...but we do use font-lock functions here. (font-lock-set-defaults) ;; Safely change the valye of this function as necessary. (make-local-variable 'font-lock-syntactic-face-function) (let ((dispatch (context-coloring-get-dispatch-for-mode major-mode))) (if dispatch (progn (let ((command (plist-get dispatch :command)) (version (plist-get dispatch :version)) (executable (plist-get dispatch :executable)) (setup (plist-get dispatch :setup)) (colorize-initially-p t)) (when command ;; Shell commands recolor on change, idly. (cond ((and executable (null (executable-find executable))) (message "Executable \"%s\" not found" executable) (setq colorize-initially-p nil)) (version (context-coloring-check-scopifier-version (lambda (sufficient-p) (if sufficient-p (progn (context-coloring-setup-idle-change-detection) (context-coloring-colorize)) (message "Update to the minimum version of \"%s\" (%s)" executable version)))) (setq colorize-initially-p nil)) (t (context-coloring-setup-idle-change-detection)))) (when setup (funcall setup)) ;; Colorize once initially. (when colorize-initially-p (let ((context-coloring-parse-interruptable-p nil)) (context-coloring-colorize))))) (when (null dispatch) (message "Context coloring is not available for this major mode")))))) (provide 'context-coloring) ;;; context-coloring.el ends here