-# Context Coloring [![Build Status](https://travis-ci.org/jacksonrayhamilton/context-coloring.png?branch=develop)](https://travis-ci.org/jacksonrayhamilton/context-coloring)
+# Context Coloring [![Build Status](https://travis-ci.org/jacksonrayhamilton/context-coloring.png?branch=master)](https://travis-ci.org/jacksonrayhamilton/context-coloring) [![Coverage Status](https://coveralls.io/repos/jacksonrayhamilton/context-coloring/badge.svg?branch=master)](https://coveralls.io/r/jacksonrayhamilton/context-coloring?branch=master)
<p align="center">
<img alt="Screenshot of JavaScript code highlighted by context." src="screenshot.png" title="Screenshot">
</p>
-Highlights code according to function context.
+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.
-- Code in the global scope is one color. Code in functions within the global
- scope is a different color, and code within such functions is another color,
- and so on.
-- Identifiers retain the color of the scope in which they were declared.
-- Comments are gray.
-
-Lexical scope information at-a-glance can assist a programmer in understanding
-the overall structure of a program. It can also help curb nasty bugs like name
-shadowing or unexpected assignment. A rainbow can indicate excessive
-complexity. A spot of contrast followed by an assignment expression could be a
-side-effect... or, the state of a closure could be undergoing change.
-
-This coloring strategy is probably more useful than conventional *syntax*
-highlighting. Highlighting keywords can help one to detect spelling errors, and
-highlighting the content between quotation marks can alert one to unclosed
-string literals. But a [linter][] could also spot those errors, and if
-[integrated via flycheck][integration], an extra spot opens up in your editing
-toolbelt.
-
-Give context coloring a try; you may find that it *changes the way you write
-code*.
+By default, comments and strings are still highlighted syntactically.
## Features
-- Supported languages: JavaScript
- Light and dark (customizable) color schemes.
-- Fast AST parsing. Some total parse + recolor times:
- - jQuery (9191 lines): 0.43 seconds (js2-mode), 0.63 seconds (js-mode)
- - Lodash (6786 lines): 0.19 seconds (js2-mode), 0.37 seconds (js-mode)
- - Async (1124 lines): 0.05 seconds (js2-mode), 0.17 seconds (js-mode)
- - mkdirp (98 lines): 0.005 seconds (js2-mode), 0.09 seconds (js-mode)
+- JavaScript support:
+ - Script, function and block scopes (and even `catch` block scopes).
+ - Very fast for files under 1000 lines.
+- Emacs Lisp support:
+ - `defun`, `lambda`, `let`, `let*`, quotes, backticks, commas.
+ - 25,000 lines per second!
-## Usage
+## Installation
Requires Emacs 24+.
-JavaScript language support requires either [js2-mode][] or
-[Node.js 0.10+][node], respectively.
+JavaScript language support requires either [js2-mode][], or
+[Node.js 0.10+][node] and the [scopifier][] executable.
+
+### ELPA
+
+- `M-x package-install RET context-coloring RET`
+
+### Git
- Clone this repository.
git clone https://github.com/jacksonrayhamilton/context-coloring.git
```
-- Add the following to your `~/.emacs` file:
+- Byte-compile the package for improved speed.
+
+```bash
+cd context-coloring/
+make compile
+```
+
+- Add the following to your init file:
```lisp
(add-to-list 'load-path "~/.emacs.d/context-coloring")
(require 'context-coloring)
+```
+
+### Dependencies (js-mode)
+
+```bash
+npm install -g scopifier
+```
+
+## Usage
+
+Add the following to your init file:
+
+```lisp
+;; js-mode:
(add-hook 'js-mode-hook 'context-coloring-mode)
+
+;; js2-mode:
+(add-to-list 'auto-mode-alist '("\\.js\\'" . js2-mode))
+(add-hook 'js2-mode-hook 'context-coloring-mode)
+
+;; emacs-lisp-mode:
+(add-hook 'emacs-lisp-mode-hook 'context-coloring-mode)
```
+## Customizing
+
+### Options
+
+- `context-coloring-syntactic-comments` (default: `t`): If non-nil, also color
+ comments using `font-lock`.
+- `context-coloring-syntactic-strings` (default: `t`): If non-nil, also color
+ strings using `font-lock`.
+- `context-coloring-default-delay` (default: `0.25`; supported modes: `js-mode`,
+ `js3-mode`): Default (sometimes overridden) delay between a buffer update and
+ colorization.
+- `context-coloring-js-block-scopes` (default: `nil`; supported modes:
+ `js2-mode`): If non-nil, also color block scopes in the scope hierarchy in
+ JavaScript.
+
+### Color Schemes
+
+Color schemes for custom themes are automatically applied when those themes are
+active. Built-in theme support is available for: `ample`, `anti-zenburn`,
+`grandshell`, `leuven`, `monokai`, `solarized`, `spacegray`, `tango` and
+`zenburn`.
+
+You can define your own theme colors too:
+
+```lisp
+(context-coloring-define-theme
+ 'zenburn
+ :colors '("#dcdccc"
+ "#93e0e3"
+ "#bfebbf"
+ "#f0dfaf"
+ "#dfaf8f"
+ "#cc9393"
+ "#dc8cc3"
+ "#94bff3"
+ "#9fc59f"
+ "#d0bf8f"
+ "#dca3a3"))
+```
+
+See `C-h f context-coloring-define-theme` for more info on theme parameters.
+
## Extending
-To add support for a new language, write a "scopifier" for it, and add an entry
-to `context-coloring-dispatch-plist`. Then the plugin should handle the rest.
+To add support for a new language, write a "scopifier" for it, and define a new
+coloring dispatch strategy with `context-coloring-define-dispatch`. Then the
+plugin should handle the rest. (See `C-h f context-coloring-define-dispatch`
+for more info on dispatch strategies.)
A "scopifier" is a CLI program that reads a buffer's contents from stdin and
-writes a JSON array of numbers to stdout. Every three numbers in the array
-represent a range of color. For instance, if I fed the following string of
-JavaScript code to a scopifier,
+writes a JSON array of numbers to stdout. Every three numbers in the array
+represent a range of color. For instance, if I fed the following string of
+JavaScript code to a scopifier
```js
var a = function () {};
```
-then the scopifier would produce the following array:
+then the scopifier would produce the following array
```js
[1,24,0,9,23,1]
```
-Where, for every three numbers, the first number is a 1-indexed start [point][],
+where, for every three numbers, the first number is a 1-indexed start [point][],
the second number is an exclusive end point, and the third number is a scope
-level. The result of applying level 0 coloring to the range [1, 24) and then
-applying level 1 coloring to the range [9, 23) would result in the following
-coloring:
+level. The result of applying level 0 coloring to the range [1, 24) and
+then applying level 1 coloring to the range [9, 23) would result in the
+following coloring:
<p align="center">
- <img alt="Screenshot of ranges [1, 24) and [9, 23)." src="scopifier-example.png" title="Screenshot">
+ <img alt="Screenshot of ranges [1, 24) and [9, 23)." src="scopifier.png" title="Screenshot">
</p>
If there is an abstract syntax tree generator for your language, you can walk
-the syntax tree, find variables and scopes, and build their lengths and levels
+the syntax tree, find variables and scopes, and build their positions and levels
into an array like the one above.
-[linter]: https://github.com/jacksonrayhamilton/jslinted
-[integration]: https://github.com/jacksonrayhamilton/jslinted#emacs-integration
-[point]: http://www.gnu.org/software/emacs/manual/html_node/elisp/Point.html
+For example, a Ruby scopifier might be defined and implemented like this:
+
+```lisp
+(context-coloring-define-dispatch
+ 'ruby
+ :modes '(ruby-mode)
+ :executable "ruby"
+ :command "/home/username/scopifier")
+```
+
+```ruby
+#!/usr/bin/env ruby
+def scopifier(code)
+ # Parse code.
+ # Return an array.
+end
+print scopifier ARGF.read
+```
+
+When a `--version` argument is passed, a scopifier should print its version
+number and exit. This allows context-coloring to determine if an update is
+required.
+
+Alternatively, you could implement a "colorizer" in Emacs Lisp. A colorizer
+also handles the job of calling `context-coloring-colorize-region` to apply
+colors to a buffer. A colorizer may have better performance than a scopifier
+when parsing and coloring can be performed in the same pass.
+
[js2-mode]: https://github.com/mooz/js2-mode
[node]: http://nodejs.org/download/
-[load path]: https://www.gnu.org/software/emacs/manual/html_node/emacs/Lisp-Libraries.html
+[scopifier]: https://github.com/jacksonrayhamilton/scopifier
+[point]: http://www.gnu.org/software/emacs/manual/html_node/elisp/Point.html