;;; Code:
(require 'context-coloring)
+(require 'context-coloring-javascript)
+(require 'context-coloring-emacs-lisp)
(require 'elp)
-(require 'js2-mode)
(defconst context-coloring-benchmark-path
--- /dev/null
+;;; context-coloring-emacs-lisp.el --- Emacs Lisp support -*- lexical-binding: t; -*-
+
+;; Copyright (C) 2014-2016 Free Software Foundation, Inc.
+
+;; 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 <http://www.gnu.org/licenses/>.
+
+;;; Commentary:
+
+;; Add Emacs Lisp context coloring support.
+
+;;; Code:
+
+(require 'context-coloring)
+
+
+;;; Emacs Lisp colorization
+
+(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 "`"))
+
+(defsubst context-coloring-get-syntax-code ()
+ "Get the syntax code at point."
+ (syntax-class
+ ;; Faster version of `syntax-after':
+ (aref (syntax-table) (char-after (point)))))
+
+(defsubst context-coloring-forward-sws ()
+ "Move forward through whitespace and comments."
+ (while (forward-comment 1)))
+
+(defsubst context-coloring-elisp-forward-sws ()
+ "Move through whitespace and comments, coloring comments."
+ (let ((start (point)))
+ (context-coloring-forward-sws)
+ (context-coloring-colorize-comments-and-strings start (point))))
+
+(defsubst context-coloring-elisp-forward-sexp ()
+ "Skip/ignore missing sexps, coloring comments and strings."
+ (let ((start (point)))
+ (when (= (context-coloring-get-syntax-code)
+ context-coloring-EXPRESSION-PREFIX-CODE)
+ ;; `forward-sexp' does not skip an unfinished expression (e.g. when the
+ ;; name of a symbol or the parentheses of a list do not follow a single
+ ;; quote).
+ (forward-char))
+ (condition-case nil
+ (forward-sexp)
+ (scan-error (context-coloring-forward-sws)))
+ (context-coloring-elisp-colorize-comments-and-strings-in-region
+ start (point))))
+
+(defsubst context-coloring-exact-regexp (word)
+ "Create a regexp matching exactly WORD."
+ (concat "\\`" (regexp-quote word) "\\'"))
+
+(defsubst context-coloring-exact-or-regexp (words)
+ "Create a regexp matching any exact word in WORDS."
+ (context-coloring-join
+ (mapcar #'context-coloring-exact-regexp words) "\\|"))
+
+(defconst context-coloring-elisp-ignored-word-regexp
+ (context-coloring-join (list "\\`[-+]?[0-9]"
+ "\\`[&:].+"
+ (context-coloring-exact-or-regexp
+ '("t" "nil" "." "?")))
+ "\\|")
+ "Match symbols that can't be bound as variables.")
+
+(defsubst context-coloring-elisp-identifier-p (syntax-code)
+ "Check if SYNTAX-CODE is an elisp identifier constituent."
+ (or (= syntax-code context-coloring-WORD-CODE)
+ (= syntax-code context-coloring-SYMBOL-CODE)))
+
+(defconst context-coloring-elisp-sexps-per-pause 350
+ "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.
+
+This number should trigger pausing at about 60 frames per
+second.")
+
+(defvar context-coloring-elisp-sexp-count 0
+ "Current number of sexps leading up to the next pause.")
+
+(defsubst context-coloring-elisp-increment-sexp-count ()
+ "Maybe check if the user interrupted the current parse."
+ (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 '()
+ "List of scopes in the current parse.")
+
+(defsubst context-coloring-elisp-make-scope (level)
+ "Make a scope object for LEVEL."
+ (list
+ :level level
+ :variables '()))
+
+(defsubst context-coloring-elisp-scope-get-level (scope)
+ "Get the level of SCOPE object."
+ (plist-get scope :level))
+
+(defsubst context-coloring-elisp-scope-add-variable (scope variable)
+ "Add to SCOPE a VARIABLE."
+ (plist-put scope :variables (cons variable (plist-get scope :variables))))
+
+(defsubst context-coloring-elisp-scope-has-variable (scope variable)
+ "Check if SCOPE has VARIABLE."
+ (member variable (plist-get scope :variables)))
+
+(defsubst context-coloring-elisp-get-variable-level (variable)
+ "Return the level of VARIABLE, or 0 if it isn't found."
+ (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-get-current-scope-level ()
+ "Get the nesting level of the current scope."
+ (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 ()
+ "Add a new scope to the bottom of the scope chain."
+ (push (context-coloring-elisp-make-scope
+ (1+ (context-coloring-elisp-get-current-scope-level)))
+ context-coloring-elisp-scope-stack))
+
+(defsubst context-coloring-elisp-pop-scope ()
+ "Remove the scope on the bottom of the scope chain."
+ (pop context-coloring-elisp-scope-stack))
+
+(defsubst context-coloring-elisp-add-variable (variable)
+ "Add VARIABLE to the current scope."
+ (context-coloring-elisp-scope-add-variable
+ (car context-coloring-elisp-scope-stack)
+ variable))
+
+(defsubst context-coloring-elisp-parse-bindable (callback)
+ "Parse the symbol at point.
+If the symbol can be bound, invoke CALLBACK with it."
+ (let* ((arg-string (buffer-substring-no-properties
+ (point)
+ (progn (context-coloring-elisp-forward-sexp)
+ (point)))))
+ (when (not (string-match-p
+ context-coloring-elisp-ignored-word-regexp
+ arg-string))
+ (funcall callback arg-string))))
+
+(defun context-coloring-elisp-parse-let-varlist (type)
+ "Parse the list of variable initializers at point.
+If TYPE is `let', all the variables are bound after all their
+initializers are parsed; if TYPE is `let*', each variable is
+bound immediately after its own initializer is parsed."
+ (let ((varlist '())
+ syntax-code)
+ ;; Enter.
+ (forward-char)
+ (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)
+ (forward-char)
+ (context-coloring-elisp-forward-sws)
+ (setq syntax-code (context-coloring-get-syntax-code))
+ (when (context-coloring-elisp-identifier-p syntax-code)
+ (context-coloring-elisp-parse-bindable
+ (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))
+ ((context-coloring-elisp-identifier-p syntax-code)
+ (context-coloring-elisp-parse-bindable
+ (lambda (var)
+ (push var varlist))))
+ (t
+ ;; Ignore artifacts.
+ (context-coloring-elisp-forward-sexp)))
+ (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 ()
+ "Parse the list of function arguments at point."
+ (let (syntax-code)
+ ;; Enter.
+ (forward-char)
+ (context-coloring-elisp-forward-sws)
+ (while (/= (setq syntax-code (context-coloring-get-syntax-code))
+ context-coloring-CLOSE-PARENTHESIS-CODE)
+ (cond
+ ((context-coloring-elisp-identifier-p syntax-code)
+ (context-coloring-elisp-parse-bindable
+ (lambda (arg)
+ (context-coloring-elisp-add-variable arg))))
+ (t
+ ;; Ignore artifacts.
+ (context-coloring-elisp-forward-sexp)))
+ (context-coloring-elisp-forward-sws))
+ ;; Exit.
+ (forward-char)))
+
+(defun context-coloring-elisp-skip-callee-name ()
+ "Skip past the opening parenthesis and name of a function."
+ ;; Enter.
+ (forward-char)
+ (context-coloring-elisp-forward-sws)
+ ;; Skip past the function name.
+ (forward-sexp)
+ (context-coloring-elisp-forward-sws))
+
+(defun context-coloring-elisp-colorize-scope (callback)
+ "Color the whole scope at point with its one color.
+Handle a header in CALLBACK."
+ (let ((start (point))
+ (end (progn (forward-sexp)
+ (point))))
+ (context-coloring-elisp-push-scope)
+ ;; Splash the whole thing in one color.
+ (context-coloring-colorize-region
+ start
+ end
+ (context-coloring-elisp-get-current-scope-level))
+ ;; Even if the parse is interrupted, this region should still be colored
+ ;; syntactically.
+ (context-coloring-elisp-colorize-comments-and-strings-in-region
+ start
+ end)
+ (goto-char start)
+ (context-coloring-elisp-skip-callee-name)
+ (funcall callback)
+ (context-coloring-elisp-colorize-region (point) (1- end))
+ ;; Exit.
+ (forward-char)
+ (context-coloring-elisp-pop-scope)))
+
+(defun context-coloring-elisp-parse-header (callback)
+ "Parse a function header at point with CALLBACK."
+ (when (= (context-coloring-get-syntax-code) context-coloring-OPEN-PARENTHESIS-CODE)
+ (funcall callback)))
+
+(defun context-coloring-elisp-colorize-defun-like (callback)
+ "Color the defun-like function at point.
+Parse the header with CALLBACK."
+ (context-coloring-elisp-colorize-scope
+ (lambda ()
+ (when (context-coloring-elisp-identifier-p (context-coloring-get-syntax-code))
+ ;; Color the defun's name with the top-level color.
+ (context-coloring-colorize-region
+ (point)
+ (progn (forward-sexp)
+ (point))
+ 0)
+ (context-coloring-elisp-forward-sws)
+ (context-coloring-elisp-parse-header callback)))))
+
+(defun context-coloring-elisp-colorize-defun ()
+ "Color the `defun' at point."
+ (context-coloring-elisp-colorize-defun-like
+ 'context-coloring-elisp-parse-arglist))
+
+(defun context-coloring-elisp-colorize-defadvice ()
+ "Color the `defadvice' at point."
+ (context-coloring-elisp-colorize-defun-like
+ (lambda ()
+ (let (syntax-code)
+ ;; Enter.
+ (forward-char)
+ (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)
+ (context-coloring-elisp-parse-arglist))
+ (t
+ ;; Ignore artifacts.
+ (context-coloring-elisp-forward-sexp)))
+ (context-coloring-elisp-forward-sws))))))
+
+(defun context-coloring-elisp-colorize-lambda-like (callback)
+ "Color the lambda-like function at point.
+Parsing the header with CALLBACK."
+ (context-coloring-elisp-colorize-scope
+ (lambda ()
+ (context-coloring-elisp-parse-header callback))))
+
+(defun context-coloring-elisp-colorize-lambda ()
+ "Color the `lambda' at point."
+ (context-coloring-elisp-colorize-lambda-like
+ 'context-coloring-elisp-parse-arglist))
+
+(defun context-coloring-elisp-colorize-let ()
+ "Color the `let' at point."
+ (context-coloring-elisp-colorize-lambda-like
+ (lambda ()
+ (context-coloring-elisp-parse-let-varlist 'let))))
+
+(defun context-coloring-elisp-colorize-let* ()
+ "Color the `let*' at point."
+ (context-coloring-elisp-colorize-lambda-like
+ (lambda ()
+ (context-coloring-elisp-parse-let-varlist 'let*))))
+
+(defun context-coloring-elisp-colorize-macroexp-let2 ()
+ "Color the `macroexp-let2' at point."
+ (let (syntax-code
+ variable)
+ (context-coloring-elisp-colorize-scope
+ (lambda ()
+ (and
+ (progn
+ (setq syntax-code (context-coloring-get-syntax-code))
+ (context-coloring-elisp-identifier-p syntax-code))
+ (progn
+ (context-coloring-elisp-colorize-sexp)
+ (context-coloring-elisp-forward-sws)
+ (setq syntax-code (context-coloring-get-syntax-code))
+ (context-coloring-elisp-identifier-p syntax-code))
+ (progn
+ (context-coloring-elisp-parse-bindable
+ (lambda (parsed-variable)
+ (setq variable parsed-variable)))
+ (context-coloring-elisp-forward-sws)
+ (when variable
+ (context-coloring-elisp-add-variable variable))))))))
+
+(defun context-coloring-elisp-colorize-cond ()
+ "Color the `cond' at point."
+ (let (syntax-code)
+ (context-coloring-elisp-skip-callee-name)
+ (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
+ ;; Ignore artifacts.
+ (context-coloring-elisp-forward-sexp)))
+ (context-coloring-elisp-forward-sws))
+ ;; Exit.
+ (forward-char)))
+
+(defun context-coloring-elisp-colorize-condition-case ()
+ "Color the `condition-case' at point."
+ (let (syntax-code
+ variable
+ case-pos
+ case-end)
+ (context-coloring-elisp-colorize-scope
+ (lambda ()
+ (setq syntax-code (context-coloring-get-syntax-code))
+ ;; Gracefully ignore missing variables.
+ (when (context-coloring-elisp-identifier-p syntax-code)
+ (context-coloring-elisp-parse-bindable
+ (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))))))
+
+(defun context-coloring-elisp-colorize-dolist ()
+ "Color the `dolist' at point."
+ (let (syntax-code
+ (index 0))
+ (context-coloring-elisp-colorize-scope
+ (lambda ()
+ (setq syntax-code (context-coloring-get-syntax-code))
+ (when (= syntax-code context-coloring-OPEN-PARENTHESIS-CODE)
+ (forward-char)
+ (context-coloring-elisp-forward-sws)
+ (while (/= (setq syntax-code (context-coloring-get-syntax-code))
+ context-coloring-CLOSE-PARENTHESIS-CODE)
+ (cond
+ ((and
+ (or (= index 0) (= index 2))
+ (context-coloring-elisp-identifier-p syntax-code))
+ ;; Add the first or third name to the scope.
+ (context-coloring-elisp-parse-bindable
+ (lambda (variable)
+ (context-coloring-elisp-add-variable variable))))
+ (t
+ ;; Color artifacts.
+ (context-coloring-elisp-colorize-sexp)))
+ (context-coloring-elisp-forward-sws)
+ (setq index (1+ index)))
+ ;; Exit.
+ (forward-char))))))
+
+(defun context-coloring-elisp-colorize-quote ()
+ "Color the `quote' at point."
+ (let* ((start (point))
+ (end (progn (forward-sexp)
+ (point))))
+ (context-coloring-colorize-region
+ start
+ end
+ (context-coloring-elisp-get-current-scope-level))
+ (context-coloring-elisp-colorize-comments-and-strings-in-region start end)))
+
+(defvar context-coloring-elisp-callee-dispatch-hash-table
+ (let ((table (make-hash-table :test 'equal)))
+ (dolist (callee '("defun" "defun*" "defsubst" "defmacro" "cl-defun" "cl-defsubst" "cl-defmacro"))
+ (puthash callee #'context-coloring-elisp-colorize-defun table))
+ (dolist (callee '("condition-case" "condition-case-unless-debug"))
+ (puthash callee #'context-coloring-elisp-colorize-condition-case table))
+ (dolist (callee '("dolist" "dotimes"))
+ (puthash callee #'context-coloring-elisp-colorize-dolist table))
+ (dolist (callee '("let" "gv-letplace"))
+ (puthash callee #'context-coloring-elisp-colorize-let table))
+ (puthash "let*" #'context-coloring-elisp-colorize-let* table)
+ (puthash "macroexp-let2" #'context-coloring-elisp-colorize-macroexp-let2 table)
+ (puthash "lambda" #'context-coloring-elisp-colorize-lambda table)
+ (puthash "cond" #'context-coloring-elisp-colorize-cond table)
+ (puthash "defadvice" #'context-coloring-elisp-colorize-defadvice table)
+ (puthash "quote" #'context-coloring-elisp-colorize-quote table)
+ (puthash "backquote" #'context-coloring-elisp-colorize-backquote table)
+ table)
+ "Map function names to their coloring functions.")
+
+(defun context-coloring-elisp-colorize-parenthesized-sexp ()
+ "Color the sexp enclosed by parenthesis at point."
+ (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)))
+ dispatch-function)
+ ;; Figure out if the sexp is a special form.
+ (cond
+ ((and (context-coloring-elisp-identifier-p syntax-code)
+ (setq dispatch-function (gethash
+ (buffer-substring-no-properties
+ (point)
+ (progn (forward-sexp)
+ (point)))
+ context-coloring-elisp-callee-dispatch-hash-table)))
+ (goto-char start)
+ (funcall dispatch-function))
+ ;; Not a special form; just colorize the remaining region.
+ (t
+ (context-coloring-colorize-region
+ start
+ end
+ (context-coloring-elisp-get-current-scope-level))
+ (context-coloring-elisp-colorize-region (point) (1- end))
+ (forward-char)))))
+
+(defun context-coloring-elisp-colorize-symbol ()
+ "Color the symbol at point."
+ (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-elisp-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-backquote-form ()
+ "Color the backquote form at point."
+ (let ((start (point))
+ (end (progn (forward-sexp)
+ (point)))
+ char)
+ (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-backquote ()
+ "Color the `backquote' at point."
+ (context-coloring-elisp-skip-callee-name)
+ (context-coloring-elisp-colorize-backquote-form)
+ ;; Exit.
+ (forward-char))
+
+(defun context-coloring-elisp-colorize-expression-prefix ()
+ "Color the expression prefix and expression at point.
+It could be a quoted or backquoted expression."
+ (context-coloring-elisp-increment-sexp-count)
+ (cond
+ ((/= (char-after) context-coloring-BACKTICK-CHAR)
+ (context-coloring-elisp-forward-sexp))
+ (t
+ (context-coloring-elisp-colorize-backquote-form))))
+
+(defun context-coloring-elisp-colorize-comment ()
+ "Color the comment at point."
+ (context-coloring-elisp-increment-sexp-count)
+ (context-coloring-elisp-forward-sws))
+
+(defun context-coloring-elisp-colorize-string ()
+ "Color the string at point."
+ (context-coloring-elisp-increment-sexp-count)
+ (let ((start (point)))
+ (forward-sexp)
+ (context-coloring-colorize-comments-and-strings start (point))))
+
+;; Elisp has whitespace, words, symbols, open/close parenthesis, expression
+;; prefix, string quote, comment starters/enders and escape syntax classes only.
+
+(defun context-coloring-elisp-colorize-sexp ()
+ "Color the sexp at point."
+ (let ((syntax-code (context-coloring-get-syntax-code)))
+ (cond
+ ((= syntax-code context-coloring-OPEN-PARENTHESIS-CODE)
+ (context-coloring-elisp-colorize-parenthesized-sexp))
+ ((context-coloring-elisp-identifier-p syntax-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)))))
+
+(defun context-coloring-elisp-colorize-comments-and-strings-in-region (start end)
+ "Color comments and strings between START and 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))))))
+
+(defun context-coloring-elisp-colorize-region (start end)
+ "Color everything between START and 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))
+ ((context-coloring-elisp-identifier-p syntax-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))))))
+
+(defun context-coloring-elisp-colorize-region-initially (start end)
+ "Begin coloring everything between START and 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-guard (callback)
+ "Silently color in CALLBACK."
+ (with-silent-modifications
+ (save-excursion
+ (condition-case nil
+ (funcall callback)
+ ;; Scan errors can happen virtually anywhere if parenthesis are
+ ;; unbalanced. Just swallow them. (`progn' for test coverage.)
+ (scan-error (progn))))))
+
+;;;###autoload
+(defun context-coloring-elisp-colorize ()
+ "Color the current Emacs Lisp buffer."
+ (interactive)
+ (context-coloring-elisp-colorize-guard
+ (lambda ()
+ (cond
+ ;; Just colorize the changed region.
+ (context-coloring-changed-p
+ (let* ( ;; Prevent `beginning-of-defun' from making poor assumptions.
+ (open-paren-in-column-0-is-defun-start nil)
+ ;; Seek the beginning and end of the previous and next
+ ;; offscreen defuns, so just enough is colored.
+ (start (progn (goto-char context-coloring-changed-start)
+ (while (and (< (point-min) (point))
+ (pos-visible-in-window-p))
+ (end-of-line 0))
+ (beginning-of-defun)
+ (point)))
+ (end (progn (goto-char context-coloring-changed-end)
+ (while (and (> (point-max) (point))
+ (pos-visible-in-window-p))
+ (forward-line 1))
+ (end-of-defun)
+ (point))))
+ (context-coloring-elisp-colorize-region-initially start end)
+ ;; Fast coloring is nice, but if the code is not well-formed
+ ;; (e.g. an unclosed string literal is parsed at any time) then
+ ;; there could be leftover incorrectly-colored code offscreen. So
+ ;; do a clean sweep as soon as appropriate.
+ (context-coloring-schedule-coloring context-coloring-default-delay)))
+ (t
+ (context-coloring-elisp-colorize-region-initially (point-min) (point-max)))))))
+
+(context-coloring-define-dispatch
+ 'emacs-lisp
+ :modes '(emacs-lisp-mode lisp-interaction-mode)
+ :colorizer #'context-coloring-elisp-colorize
+ :delay 0.016 ;; Thanks to lazy colorization this can be 60 frames per second.
+ :setup #'context-coloring-setup-idle-change-detection
+ :teardown #'context-coloring-teardown-idle-change-detection)
+
+
+;;; eval-expression colorization
+
+(defun context-coloring-eval-expression-match ()
+ "Determine expression start in `eval-expression'."
+ (string-match "\\`Eval: " (buffer-string)))
+
+;;;###autoload
+(defun context-coloring-eval-expression-colorize ()
+ "Color the `eval-expression' minibuffer prompt as elisp."
+ (interactive)
+ (context-coloring-elisp-colorize-guard
+ (lambda ()
+ (context-coloring-elisp-colorize-region-initially
+ (progn
+ (context-coloring-eval-expression-match)
+ (1+ (match-end 0)))
+ (point-max)))))
+
+;; `eval-expression-minibuffer-setup-hook' is not available in Emacs 24.3, so
+;; the backwards-compatible recommendation is to use `minibuffer-setup-hook' and
+;; rely on this predicate instead.
+(defun context-coloring-eval-expression-predicate ()
+ "Non-nil if the minibuffer is for `eval-expression'."
+ ;; Kinda better than checking `this-command', because `this-command' changes.
+ (context-coloring-eval-expression-match))
+
+(context-coloring-define-dispatch
+ 'eval-expression
+ :predicate #'context-coloring-eval-expression-predicate
+ :colorizer #'context-coloring-eval-expression-colorize
+ :delay 0.016
+ :setup #'context-coloring-setup-idle-change-detection
+ :teardown #'context-coloring-teardown-idle-change-detection)
+
+(provide 'context-coloring-emacs-lisp)
+
+;;; context-coloring-emacs-lisp.el ends here
--- /dev/null
+;;; context-coloring-javascript.el --- JavaScript support -*- lexical-binding: t; -*-
+
+;; Copyright (C) 2014-2016 Free Software Foundation, Inc.
+
+;; 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 <http://www.gnu.org/licenses/>.
+
+;;; Commentary:
+
+;; Add JavaScript context coloring support with js2-mode.
+
+;;; Code:
+
+(require 'context-coloring)
+(require 'js2-mode)
+
+
+;;; JavaScript colorization
+
+(defvar-local context-coloring-js2-scope-level-hash-table nil
+ "Associate `js2-scope' structures and with their scope
+ levels.")
+
+(defcustom context-coloring-javascript-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."
+ :type 'boolean
+ :safe #'booleanp
+ :group 'context-coloring)
+
+(make-obsolete-variable
+ 'context-coloring-js-block-scopes
+ 'context-coloring-javascript-block-scopes
+ "7.0.0")
+
+(defsubst context-coloring-js2-scope-level (scope initial)
+ "Return the level of SCOPE, starting from INITIAL."
+ (cond ((gethash scope context-coloring-js2-scope-level-hash-table))
+ (t
+ (let ((level initial)
+ (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-javascript-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 represents 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-ast ()
+ "Color the buffer using the `js2-mode' abstract syntax tree."
+ ;; 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-initial-level)))
+ ((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
+ ;; Use `0' as an initial level so global variables are always at
+ ;; the highest level (even if `context-coloring-initial-level'
+ ;; specifies an initial level for the rest of the code).
+ (context-coloring-js2-scope-level defining-scope 0))))))
+ ;; The `t' indicates to search children.
+ t)))
+ (context-coloring-colorize-comments-and-strings)))
+
+(defconst context-coloring-node-comment-regexp
+ (concat
+ ;; Ensure the "//" or "/*" comment starts with the directive.
+ "\\(//[[:space:]]*\\|/\\*[[:space:]]*\\)"
+ ;; Support multiple directive formats.
+ "\\("
+ ;; JSLint and JSHint support a JSON-like format.
+ "\\(jslint\\|jshint\\)[[:space:]].*?node:[[:space:]]*true"
+ "\\|"
+ ;; ESLint just specifies the option name.
+ "eslint-env[[:space:]].*?node"
+ "\\)")
+ "Match a comment body hinting at a Node.js program.")
+
+;; TODO: Add ES6 module detection.
+(defun context-coloring-js2-top-level-local-p ()
+ "Guess whether top-level variables are local.
+For instance, the current file could be a Node.js program."
+ (or
+ ;; A shebang is a pretty obvious giveaway.
+ (string-equal
+ "node"
+ (save-excursion
+ (goto-char (point-min))
+ (when (looking-at auto-mode-interpreter-regexp)
+ (match-string 2))))
+ ;; Otherwise, perform static analysis.
+ (progn
+ (setq context-coloring-js2-scope-level-hash-table (make-hash-table :test #'eq))
+ (catch 'node-program-p
+ (js2-visit-ast
+ js2-mode-ast
+ (lambda (node end-p)
+ (when (null end-p)
+ (when
+ (cond
+ ;; Infer based on inline linter configuration.
+ ((js2-comment-node-p node)
+ (string-match-p
+ context-coloring-node-comment-regexp
+ (js2-node-string node)))
+ ;; Infer based on the prescence of certain variables.
+ ((and (js2-name-node-p node)
+ (let ((parent (js2-node-parent node)))
+ (not (and (js2-object-prop-node-p parent)
+ (eq node (js2-object-prop-node-left parent))))))
+ (let ((name (js2-name-node-name node))
+ (parent (js2-node-parent node)))
+ (and
+ (cond
+ ;; Check whether this is "exports.something" or
+ ;; "module.exports".
+ ((js2-prop-get-node-p parent)
+ (and
+ (eq node (js2-prop-get-node-left parent))
+ (or (string-equal name "exports")
+ (let* ((property (js2-prop-get-node-right parent))
+ (property-name (js2-name-node-name property)))
+ (and (string-equal name "module")
+ (string-equal property-name "exports"))))))
+ ;; Check whether it's a "require('module')" call.
+ ((js2-call-node-p parent)
+ (or (string-equal name "require"))))
+ (let* ((enclosing-scope (js2-node-get-enclosing-scope node))
+ (defining-scope (js2-get-defining-scope
+ enclosing-scope name)))
+ ;; The variable also must be global.
+ (null defining-scope))))))
+ (throw 'node-program-p t))
+ ;; The `t' indicates to search children.
+ t)))
+ ;; Default to returning nil from the catch body.
+ nil))))
+
+(defcustom context-coloring-javascript-detect-top-level-scope t
+ "If non-nil, detect when to use file-level scope."
+ :type 'boolean
+ :group 'context-coloring)
+
+;;;###autoload
+(defun context-coloring-js2-colorize ()
+ "Color the buffer using the `js2-mode'."
+ (cond
+ ;; Increase the initial level if we should.
+ ((and context-coloring-javascript-detect-top-level-scope
+ (context-coloring-js2-top-level-local-p))
+ (let ((context-coloring-initial-level 1))
+ (context-coloring-js2-colorize-ast)))
+ (t
+ (context-coloring-js2-colorize-ast))))
+
+(context-coloring-define-dispatch
+ 'javascript
+ :modes '(js2-mode js2-jsx-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)))
+
+(provide 'context-coloring-javascript)
+
+;;; context-coloring-javascript.el ends here
;; Author: Jackson Ray Hamilton <jackson@jacksonrayhamilton.com>
;; Version: 7.2.1
;; Keywords: convenience faces tools
-;; Package-Requires: ((emacs "24.3") (js2-mode "20150713"))
+;; Package-Requires: ((emacs "24.3"))
;; URL: https://github.com/jacksonrayhamilton/context-coloring
;; This file is part of GNU Emacs.
;;; Code:
-(require 'js2-mode)
-
;;; Utilities
:group 'context-coloring)
-;;; JavaScript colorization
-
-(defvar-local context-coloring-js2-scope-level-hash-table nil
- "Associate `js2-scope' structures and with their scope
- levels.")
-
-(defcustom context-coloring-javascript-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."
- :type 'boolean
- :safe #'booleanp
- :group 'context-coloring)
-
-(make-obsolete-variable
- 'context-coloring-js-block-scopes
- 'context-coloring-javascript-block-scopes
- "7.0.0")
-
-(defsubst context-coloring-js2-scope-level (scope initial)
- "Return the level of SCOPE, starting from INITIAL."
- (cond ((gethash scope context-coloring-js2-scope-level-hash-table))
- (t
- (let ((level initial)
- (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-javascript-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 represents 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-ast ()
- "Color the buffer using the `js2-mode' abstract syntax tree."
- ;; 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-initial-level)))
- ((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
- ;; Use `0' as an initial level so global variables are always at
- ;; the highest level (even if `context-coloring-initial-level'
- ;; specifies an initial level for the rest of the code).
- (context-coloring-js2-scope-level defining-scope 0))))))
- ;; The `t' indicates to search children.
- t)))
- (context-coloring-colorize-comments-and-strings)))
-
-(defconst context-coloring-node-comment-regexp
- (concat
- ;; Ensure the "//" or "/*" comment starts with the directive.
- "\\(//[[:space:]]*\\|/\\*[[:space:]]*\\)"
- ;; Support multiple directive formats.
- "\\("
- ;; JSLint and JSHint support a JSON-like format.
- "\\(jslint\\|jshint\\)[[:space:]].*?node:[[:space:]]*true"
- "\\|"
- ;; ESLint just specifies the option name.
- "eslint-env[[:space:]].*?node"
- "\\)")
- "Match a comment body hinting at a Node.js program.")
-
-;; TODO: Add ES6 module detection.
-(defun context-coloring-js2-top-level-local-p ()
- "Guess whether top-level variables are local.
-For instance, the current file could be a Node.js program."
- (or
- ;; A shebang is a pretty obvious giveaway.
- (string-equal
- "node"
- (save-excursion
- (goto-char (point-min))
- (when (looking-at auto-mode-interpreter-regexp)
- (match-string 2))))
- ;; Otherwise, perform static analysis.
- (progn
- (setq context-coloring-js2-scope-level-hash-table (make-hash-table :test #'eq))
- (catch 'node-program-p
- (js2-visit-ast
- js2-mode-ast
- (lambda (node end-p)
- (when (null end-p)
- (when
- (cond
- ;; Infer based on inline linter configuration.
- ((js2-comment-node-p node)
- (string-match-p
- context-coloring-node-comment-regexp
- (js2-node-string node)))
- ;; Infer based on the prescence of certain variables.
- ((and (js2-name-node-p node)
- (let ((parent (js2-node-parent node)))
- (not (and (js2-object-prop-node-p parent)
- (eq node (js2-object-prop-node-left parent))))))
- (let ((name (js2-name-node-name node))
- (parent (js2-node-parent node)))
- (and
- (cond
- ;; Check whether this is "exports.something" or
- ;; "module.exports".
- ((js2-prop-get-node-p parent)
- (and
- (eq node (js2-prop-get-node-left parent))
- (or (string-equal name "exports")
- (let* ((property (js2-prop-get-node-right parent))
- (property-name (js2-name-node-name property)))
- (and (string-equal name "module")
- (string-equal property-name "exports"))))))
- ;; Check whether it's a "require('module')" call.
- ((js2-call-node-p parent)
- (or (string-equal name "require"))))
- (let* ((enclosing-scope (js2-node-get-enclosing-scope node))
- (defining-scope (js2-get-defining-scope
- enclosing-scope name)))
- ;; The variable also must be global.
- (null defining-scope))))))
- (throw 'node-program-p t))
- ;; The `t' indicates to search children.
- t)))
- ;; Default to returning nil from the catch body.
- nil))))
-
-(defcustom context-coloring-javascript-detect-top-level-scope t
- "If non-nil, detect when to use file-level scope."
- :type 'boolean
- :group 'context-coloring)
-
-(defun context-coloring-js2-colorize ()
- "Color the buffer using the `js2-mode'."
- (cond
- ;; Increase the initial level if we should.
- ((and context-coloring-javascript-detect-top-level-scope
- (context-coloring-js2-top-level-local-p))
- (let ((context-coloring-initial-level 1))
- (context-coloring-js2-colorize-ast)))
- (t
- (context-coloring-js2-colorize-ast))))
-
-
-;;; Emacs Lisp colorization
-
-(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 "`"))
-
-(defsubst context-coloring-get-syntax-code ()
- "Get the syntax code at point."
- (syntax-class
- ;; Faster version of `syntax-after':
- (aref (syntax-table) (char-after (point)))))
-
-(defsubst context-coloring-forward-sws ()
- "Move forward through whitespace and comments."
- (while (forward-comment 1)))
-
-(defsubst context-coloring-elisp-forward-sws ()
- "Move through whitespace and comments, coloring comments."
- (let ((start (point)))
- (context-coloring-forward-sws)
- (context-coloring-colorize-comments-and-strings start (point))))
-
-(defsubst context-coloring-elisp-forward-sexp ()
- "Skip/ignore missing sexps, coloring comments and strings."
- (let ((start (point)))
- (when (= (context-coloring-get-syntax-code)
- context-coloring-EXPRESSION-PREFIX-CODE)
- ;; `forward-sexp' does not skip an unfinished expression (e.g. when the
- ;; name of a symbol or the parentheses of a list do not follow a single
- ;; quote).
- (forward-char))
- (condition-case nil
- (forward-sexp)
- (scan-error (context-coloring-forward-sws)))
- (context-coloring-elisp-colorize-comments-and-strings-in-region
- start (point))))
-
-(defsubst context-coloring-exact-regexp (word)
- "Create a regexp matching exactly WORD."
- (concat "\\`" (regexp-quote word) "\\'"))
-
-(defsubst context-coloring-exact-or-regexp (words)
- "Create a regexp matching any exact word in WORDS."
- (context-coloring-join
- (mapcar #'context-coloring-exact-regexp words) "\\|"))
-
-(defconst context-coloring-elisp-ignored-word-regexp
- (context-coloring-join (list "\\`[-+]?[0-9]"
- "\\`[&:].+"
- (context-coloring-exact-or-regexp
- '("t" "nil" "." "?")))
- "\\|")
- "Match symbols that can't be bound as variables.")
-
-(defsubst context-coloring-elisp-identifier-p (syntax-code)
- "Check if SYNTAX-CODE is an elisp identifier constituent."
- (or (= syntax-code context-coloring-WORD-CODE)
- (= syntax-code context-coloring-SYMBOL-CODE)))
-
-(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 350
- "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.
-
-This number should trigger pausing at about 60 frames per
-second.")
-
-(defvar context-coloring-elisp-sexp-count 0
- "Current number of sexps leading up to the next pause.")
-
-(defsubst context-coloring-elisp-increment-sexp-count ()
- "Maybe check if the user interrupted the current parse."
- (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 '()
- "List of scopes in the current parse.")
-
-(defsubst context-coloring-elisp-make-scope (level)
- "Make a scope object for LEVEL."
- (list
- :level level
- :variables '()))
-
-(defsubst context-coloring-elisp-scope-get-level (scope)
- "Get the level of SCOPE object."
- (plist-get scope :level))
-
-(defsubst context-coloring-elisp-scope-add-variable (scope variable)
- "Add to SCOPE a VARIABLE."
- (plist-put scope :variables (cons variable (plist-get scope :variables))))
-
-(defsubst context-coloring-elisp-scope-has-variable (scope variable)
- "Check if SCOPE has VARIABLE."
- (member variable (plist-get scope :variables)))
-
-(defsubst context-coloring-elisp-get-variable-level (variable)
- "Return the level of VARIABLE, or 0 if it isn't found."
- (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-get-current-scope-level ()
- "Get the nesting level of the current scope."
- (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 ()
- "Add a new scope to the bottom of the scope chain."
- (push (context-coloring-elisp-make-scope
- (1+ (context-coloring-elisp-get-current-scope-level)))
- context-coloring-elisp-scope-stack))
-
-(defsubst context-coloring-elisp-pop-scope ()
- "Remove the scope on the bottom of the scope chain."
- (pop context-coloring-elisp-scope-stack))
-
-(defsubst context-coloring-elisp-add-variable (variable)
- "Add VARIABLE to the current scope."
- (context-coloring-elisp-scope-add-variable
- (car context-coloring-elisp-scope-stack)
- variable))
-
-(defsubst context-coloring-elisp-parse-bindable (callback)
- "Parse the symbol at point.
-If the symbol can be bound, invoke CALLBACK with it."
- (let* ((arg-string (buffer-substring-no-properties
- (point)
- (progn (context-coloring-elisp-forward-sexp)
- (point)))))
- (when (not (string-match-p
- context-coloring-elisp-ignored-word-regexp
- arg-string))
- (funcall callback arg-string))))
-
-(defun context-coloring-elisp-parse-let-varlist (type)
- "Parse the list of variable initializers at point.
-If TYPE is `let', all the variables are bound after all their
-initializers are parsed; if TYPE is `let*', each variable is
-bound immediately after its own initializer is parsed."
- (let ((varlist '())
- syntax-code)
- ;; Enter.
- (forward-char)
- (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)
- (forward-char)
- (context-coloring-elisp-forward-sws)
- (setq syntax-code (context-coloring-get-syntax-code))
- (when (context-coloring-elisp-identifier-p syntax-code)
- (context-coloring-elisp-parse-bindable
- (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))
- ((context-coloring-elisp-identifier-p syntax-code)
- (context-coloring-elisp-parse-bindable
- (lambda (var)
- (push var varlist))))
- (t
- ;; Ignore artifacts.
- (context-coloring-elisp-forward-sexp)))
- (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 ()
- "Parse the list of function arguments at point."
- (let (syntax-code)
- ;; Enter.
- (forward-char)
- (context-coloring-elisp-forward-sws)
- (while (/= (setq syntax-code (context-coloring-get-syntax-code))
- context-coloring-CLOSE-PARENTHESIS-CODE)
- (cond
- ((context-coloring-elisp-identifier-p syntax-code)
- (context-coloring-elisp-parse-bindable
- (lambda (arg)
- (context-coloring-elisp-add-variable arg))))
- (t
- ;; Ignore artifacts.
- (context-coloring-elisp-forward-sexp)))
- (context-coloring-elisp-forward-sws))
- ;; Exit.
- (forward-char)))
-
-(defun context-coloring-elisp-skip-callee-name ()
- "Skip past the opening parenthesis and name of a function."
- ;; Enter.
- (forward-char)
- (context-coloring-elisp-forward-sws)
- ;; Skip past the function name.
- (forward-sexp)
- (context-coloring-elisp-forward-sws))
-
-(defun context-coloring-elisp-colorize-scope (callback)
- "Color the whole scope at point with its one color.
-Handle a header in CALLBACK."
- (let ((start (point))
- (end (progn (forward-sexp)
- (point))))
- (context-coloring-elisp-push-scope)
- ;; Splash the whole thing in one color.
- (context-coloring-colorize-region
- start
- end
- (context-coloring-elisp-get-current-scope-level))
- ;; Even if the parse is interrupted, this region should still be colored
- ;; syntactically.
- (context-coloring-elisp-colorize-comments-and-strings-in-region
- start
- end)
- (goto-char start)
- (context-coloring-elisp-skip-callee-name)
- (funcall callback)
- (context-coloring-elisp-colorize-region (point) (1- end))
- ;; Exit.
- (forward-char)
- (context-coloring-elisp-pop-scope)))
-
-(defun context-coloring-elisp-parse-header (callback)
- "Parse a function header at point with CALLBACK."
- (when (= (context-coloring-get-syntax-code) context-coloring-OPEN-PARENTHESIS-CODE)
- (funcall callback)))
-
-(defun context-coloring-elisp-colorize-defun-like (callback)
- "Color the defun-like function at point.
-Parse the header with CALLBACK."
- (context-coloring-elisp-colorize-scope
- (lambda ()
- (when (context-coloring-elisp-identifier-p (context-coloring-get-syntax-code))
- ;; Color the defun's name with the top-level color.
- (context-coloring-colorize-region
- (point)
- (progn (forward-sexp)
- (point))
- 0)
- (context-coloring-elisp-forward-sws)
- (context-coloring-elisp-parse-header callback)))))
-
-(defun context-coloring-elisp-colorize-defun ()
- "Color the `defun' at point."
- (context-coloring-elisp-colorize-defun-like
- 'context-coloring-elisp-parse-arglist))
-
-(defun context-coloring-elisp-colorize-defadvice ()
- "Color the `defadvice' at point."
- (context-coloring-elisp-colorize-defun-like
- (lambda ()
- (let (syntax-code)
- ;; Enter.
- (forward-char)
- (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)
- (context-coloring-elisp-parse-arglist))
- (t
- ;; Ignore artifacts.
- (context-coloring-elisp-forward-sexp)))
- (context-coloring-elisp-forward-sws))))))
-
-(defun context-coloring-elisp-colorize-lambda-like (callback)
- "Color the lambda-like function at point.
-Parsing the header with CALLBACK."
- (context-coloring-elisp-colorize-scope
- (lambda ()
- (context-coloring-elisp-parse-header callback))))
-
-(defun context-coloring-elisp-colorize-lambda ()
- "Color the `lambda' at point."
- (context-coloring-elisp-colorize-lambda-like
- 'context-coloring-elisp-parse-arglist))
-
-(defun context-coloring-elisp-colorize-let ()
- "Color the `let' at point."
- (context-coloring-elisp-colorize-lambda-like
- (lambda ()
- (context-coloring-elisp-parse-let-varlist 'let))))
-
-(defun context-coloring-elisp-colorize-let* ()
- "Color the `let*' at point."
- (context-coloring-elisp-colorize-lambda-like
- (lambda ()
- (context-coloring-elisp-parse-let-varlist 'let*))))
-
-(defun context-coloring-elisp-colorize-macroexp-let2 ()
- "Color the `macroexp-let2' at point."
- (let (syntax-code
- variable)
- (context-coloring-elisp-colorize-scope
- (lambda ()
- (and
- (progn
- (setq syntax-code (context-coloring-get-syntax-code))
- (context-coloring-elisp-identifier-p syntax-code))
- (progn
- (context-coloring-elisp-colorize-sexp)
- (context-coloring-elisp-forward-sws)
- (setq syntax-code (context-coloring-get-syntax-code))
- (context-coloring-elisp-identifier-p syntax-code))
- (progn
- (context-coloring-elisp-parse-bindable
- (lambda (parsed-variable)
- (setq variable parsed-variable)))
- (context-coloring-elisp-forward-sws)
- (when variable
- (context-coloring-elisp-add-variable variable))))))))
-
-(defun context-coloring-elisp-colorize-cond ()
- "Color the `cond' at point."
- (let (syntax-code)
- (context-coloring-elisp-skip-callee-name)
- (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
- ;; Ignore artifacts.
- (context-coloring-elisp-forward-sexp)))
- (context-coloring-elisp-forward-sws))
- ;; Exit.
- (forward-char)))
-
-(defun context-coloring-elisp-colorize-condition-case ()
- "Color the `condition-case' at point."
- (let (syntax-code
- variable
- case-pos
- case-end)
- (context-coloring-elisp-colorize-scope
- (lambda ()
- (setq syntax-code (context-coloring-get-syntax-code))
- ;; Gracefully ignore missing variables.
- (when (context-coloring-elisp-identifier-p syntax-code)
- (context-coloring-elisp-parse-bindable
- (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))))))
-
-(defun context-coloring-elisp-colorize-dolist ()
- "Color the `dolist' at point."
- (let (syntax-code
- (index 0))
- (context-coloring-elisp-colorize-scope
- (lambda ()
- (setq syntax-code (context-coloring-get-syntax-code))
- (when (= syntax-code context-coloring-OPEN-PARENTHESIS-CODE)
- (forward-char)
- (context-coloring-elisp-forward-sws)
- (while (/= (setq syntax-code (context-coloring-get-syntax-code))
- context-coloring-CLOSE-PARENTHESIS-CODE)
- (cond
- ((and
- (or (= index 0) (= index 2))
- (context-coloring-elisp-identifier-p syntax-code))
- ;; Add the first or third name to the scope.
- (context-coloring-elisp-parse-bindable
- (lambda (variable)
- (context-coloring-elisp-add-variable variable))))
- (t
- ;; Color artifacts.
- (context-coloring-elisp-colorize-sexp)))
- (context-coloring-elisp-forward-sws)
- (setq index (1+ index)))
- ;; Exit.
- (forward-char))))))
-
-(defun context-coloring-elisp-colorize-quote ()
- "Color the `quote' at point."
- (let* ((start (point))
- (end (progn (forward-sexp)
- (point))))
- (context-coloring-colorize-region
- start
- end
- (context-coloring-elisp-get-current-scope-level))
- (context-coloring-elisp-colorize-comments-and-strings-in-region start end)))
-
-(defvar context-coloring-elisp-callee-dispatch-hash-table
- (let ((table (make-hash-table :test 'equal)))
- (dolist (callee '("defun" "defun*" "defsubst" "defmacro" "cl-defun" "cl-defsubst" "cl-defmacro"))
- (puthash callee #'context-coloring-elisp-colorize-defun table))
- (dolist (callee '("condition-case" "condition-case-unless-debug"))
- (puthash callee #'context-coloring-elisp-colorize-condition-case table))
- (dolist (callee '("dolist" "dotimes"))
- (puthash callee #'context-coloring-elisp-colorize-dolist table))
- (dolist (callee '("let" "gv-letplace"))
- (puthash callee #'context-coloring-elisp-colorize-let table))
- (puthash "let*" #'context-coloring-elisp-colorize-let* table)
- (puthash "macroexp-let2" #'context-coloring-elisp-colorize-macroexp-let2 table)
- (puthash "lambda" #'context-coloring-elisp-colorize-lambda table)
- (puthash "cond" #'context-coloring-elisp-colorize-cond table)
- (puthash "defadvice" #'context-coloring-elisp-colorize-defadvice table)
- (puthash "quote" #'context-coloring-elisp-colorize-quote table)
- (puthash "backquote" #'context-coloring-elisp-colorize-backquote table)
- table)
- "Map function names to their coloring functions.")
-
-(defun context-coloring-elisp-colorize-parenthesized-sexp ()
- "Color the sexp enclosed by parenthesis at point."
- (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)))
- dispatch-function)
- ;; Figure out if the sexp is a special form.
- (cond
- ((and (context-coloring-elisp-identifier-p syntax-code)
- (setq dispatch-function (gethash
- (buffer-substring-no-properties
- (point)
- (progn (forward-sexp)
- (point)))
- context-coloring-elisp-callee-dispatch-hash-table)))
- (goto-char start)
- (funcall dispatch-function))
- ;; Not a special form; just colorize the remaining region.
- (t
- (context-coloring-colorize-region
- start
- end
- (context-coloring-elisp-get-current-scope-level))
- (context-coloring-elisp-colorize-region (point) (1- end))
- (forward-char)))))
-
-(defun context-coloring-elisp-colorize-symbol ()
- "Color the symbol at point."
- (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-elisp-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-backquote-form ()
- "Color the backquote form at point."
- (let ((start (point))
- (end (progn (forward-sexp)
- (point)))
- char)
- (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-backquote ()
- "Color the `backquote' at point."
- (context-coloring-elisp-skip-callee-name)
- (context-coloring-elisp-colorize-backquote-form)
- ;; Exit.
- (forward-char))
-
-(defun context-coloring-elisp-colorize-expression-prefix ()
- "Color the expression prefix and expression at point.
-It could be a quoted or backquoted expression."
- (context-coloring-elisp-increment-sexp-count)
- (cond
- ((/= (char-after) context-coloring-BACKTICK-CHAR)
- (context-coloring-elisp-forward-sexp))
- (t
- (context-coloring-elisp-colorize-backquote-form))))
-
-(defun context-coloring-elisp-colorize-comment ()
- "Color the comment at point."
- (context-coloring-elisp-increment-sexp-count)
- (context-coloring-elisp-forward-sws))
-
-(defun context-coloring-elisp-colorize-string ()
- "Color the string at point."
- (context-coloring-elisp-increment-sexp-count)
- (let ((start (point)))
- (forward-sexp)
- (context-coloring-colorize-comments-and-strings start (point))))
-
-;; Elisp has whitespace, words, symbols, open/close parenthesis, expression
-;; prefix, string quote, comment starters/enders and escape syntax classes only.
-
-(defun context-coloring-elisp-colorize-sexp ()
- "Color the sexp at point."
- (let ((syntax-code (context-coloring-get-syntax-code)))
- (cond
- ((= syntax-code context-coloring-OPEN-PARENTHESIS-CODE)
- (context-coloring-elisp-colorize-parenthesized-sexp))
- ((context-coloring-elisp-identifier-p syntax-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)))))
-
-(defun context-coloring-elisp-colorize-comments-and-strings-in-region (start end)
- "Color comments and strings between START and 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))))))
-
-(defun context-coloring-elisp-colorize-region (start end)
- "Color everything between START and 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))
- ((context-coloring-elisp-identifier-p syntax-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))))))
-
-(defun context-coloring-elisp-colorize-region-initially (start end)
- "Begin coloring everything between START and 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-guard (callback)
- "Silently color in CALLBACK."
- (with-silent-modifications
- (save-excursion
- (condition-case nil
- (funcall callback)
- ;; Scan errors can happen virtually anywhere if parenthesis are
- ;; unbalanced. Just swallow them. (`progn' for test coverage.)
- (scan-error (progn))))))
-
-(defun context-coloring-elisp-colorize ()
- "Color the current Emacs Lisp buffer."
- (interactive)
- (context-coloring-elisp-colorize-guard
- (lambda ()
- (cond
- ;; Just colorize the changed region.
- (context-coloring-changed-p
- (let* ( ;; Prevent `beginning-of-defun' from making poor assumptions.
- (open-paren-in-column-0-is-defun-start nil)
- ;; Seek the beginning and end of the previous and next
- ;; offscreen defuns, so just enough is colored.
- (start (progn (goto-char context-coloring-changed-start)
- (while (and (< (point-min) (point))
- (pos-visible-in-window-p))
- (end-of-line 0))
- (beginning-of-defun)
- (point)))
- (end (progn (goto-char context-coloring-changed-end)
- (while (and (> (point-max) (point))
- (pos-visible-in-window-p))
- (forward-line 1))
- (end-of-defun)
- (point))))
- (context-coloring-elisp-colorize-region-initially start end)
- ;; Fast coloring is nice, but if the code is not well-formed
- ;; (e.g. an unclosed string literal is parsed at any time) then
- ;; there could be leftover incorrectly-colored code offscreen. So
- ;; do a clean sweep as soon as appropriate.
- (context-coloring-schedule-coloring context-coloring-default-delay)))
- (t
- (context-coloring-elisp-colorize-region-initially (point-min) (point-max)))))))
-
-
-;;; eval-expression colorization
-
-(defun context-coloring-eval-expression-match ()
- "Determine expression start in `eval-expression'."
- (string-match "\\`Eval: " (buffer-string)))
-
-(defun context-coloring-eval-expression-colorize ()
- "Color the `eval-expression' minibuffer prompt as elisp."
- (interactive)
- (context-coloring-elisp-colorize-guard
- (lambda ()
- (context-coloring-elisp-colorize-region-initially
- (progn
- (context-coloring-eval-expression-match)
- (1+ (match-end 0)))
- (point-max)))))
-
-
;;; Dispatch
(defvar context-coloring-dispatch-hash-table (make-hash-table :test #'eq)
(context-coloring-colorize))))
-;;; Built-in dispatches
-
-(context-coloring-define-dispatch
- 'javascript
- :modes '(js2-mode js2-jsx-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 lisp-interaction-mode)
- :colorizer #'context-coloring-elisp-colorize
- :delay 0.016 ;; Thanks to lazy colorization this can be 60 frames per second.
- :setup #'context-coloring-setup-idle-change-detection
- :teardown #'context-coloring-teardown-idle-change-detection)
-
-;; `eval-expression-minibuffer-setup-hook' is not available in Emacs 24.3, so
-;; the backwards-compatible recommendation is to use `minibuffer-setup-hook' and
-;; rely on this predicate instead.
-(defun context-coloring-eval-expression-predicate ()
- "Non-nil if the minibuffer is for `eval-expression'."
- ;; Kinda better than checking `this-command', because `this-command' changes.
- (context-coloring-eval-expression-match))
-
-(context-coloring-define-dispatch
- 'eval-expression
- :predicate #'context-coloring-eval-expression-predicate
- :colorizer #'context-coloring-eval-expression-colorize
- :delay 0.016
- :setup #'context-coloring-setup-idle-change-detection
- :teardown #'context-coloring-teardown-idle-change-detection)
+;;; Minor mode
(defvar context-coloring-ignore-unavailable-predicates
(list
(setq ignore-p (funcall (pop predicates))))
ignore-p))
-
-;;; Minor mode
+(defvar context-coloring-parse-interruptable-p t
+ "Set this to nil to force parse to continue until finished.")
;;;###autoload
(define-minor-mode context-coloring-mode
(require 'cl-lib)
(require 'context-coloring)
+(require 'context-coloring-javascript)
+(require 'context-coloring-emacs-lisp)
(require 'ert)
-(require 'js2-mode)
;;; Test running utilities