# Creating Packages Packages are at the core of Atom. Nearly everything outside of the main editor is handled by a package. That includes "core" pieces like the [file tree][file-tree], [status bar][status-bar], [syntax highlighting][cs-syntax], and more. A package can contain a variety of different resource types to change Atom's behavior. The basic package layout is as follows: ```text my-package/ grammars/ keymaps/ lib/ menus/ spec/ snippets/ stylesheets/ index.coffee package.json ``` Not every package will have (or need) all of these directories. We have [a tutorial on creating your first package][first-package]. ## package.json Similar to [npm packages][npm], Atom packages contain a _package.json_ file in their top-level directory. This file contains metadata about the package, such as the path to its "main" module, library dependencies, and manifests specifying the order in which its resources should be loaded. In addition to the regular [npm package.json keys][npm-keys] available, Atom package.json files have their own additions. - `main` (**Required**): the path to the CoffeeScript file that's the entry point to your package - `stylesheets` (**Optional**): an Array of Strings identifying the order of the stylesheets your package needs to load. If not specified, stylesheets in the _stylesheets_ directory are added alphabetically. - `keymaps`(**Optional**): an Array of Strings identifying the order of the key mappings your package needs to load. If not specified, mappings in the _keymaps_ directory are added alphabetically. - `menus`(**Optional**): an Array of Strings identifying the order of the menu mappings your package needs to load. If not specified, mappings in the _keymap_ directory are added alphabetically. - `snippets` (**Optional**): an Array of Strings identifying the order of the snippets your package needs to load. If not specified, snippets in the _snippets_ directory are added alphabetically. - `activationEvents` (**Optional**): an Array of Strings identifying events that trigger your package's activation. You can delay the loading of your package until one of these events is trigged. ## Source Code If you want to extend Atom's behavior, your package should contain a single top-level module, which you export from _index.coffee_ (or whichever file is indicated by the `main` key in your _package.json_ file). The remainder of your code should be placed in the `lib` directory, and required from your top-level file. Your package's top-level module is a singleton object that manages the lifecycle of your extensions to Atom. Even if your package creates ten different views and appends them to different parts of the DOM, it's all managed from your top-level object. Your package's top-level module should implement the following methods: - `activate(state)`: This **required** method is called when your package is activated. It is passed the state data from the last time the window was serialized if your module implements the `serialize()` method. Use this to do initialization work when your package is started (like setting up DOM elements or binding events). - `serialize()`: This **optional** method is called when the window is shutting down, allowing you to return JSON to represent the state of your component. When the window is later restored, the data you returned is passed to your module's `activate` method so you can restore your view to where the user left off. - `deactivate()`: This **optional** method is called when the window is shutting down. If your package is watching any files or holding external resources in any other way, release them here. If you're just subscribing to things on window, you don't need to worry because that's getting torn down anyway. ### Simple Package Code Your directory would look like this: ```text my-package/ package.json index.coffee lib/ my-package.coffee ``` `index.coffee` might be: ```coffeescript module.exports = require "./lib/my-package" ``` `my-package/my-package.coffee` might start: ```coffeescript module.exports = activate: (state) -> # ... deactivate: -> # ... serialize: -> # ... ``` Beyond this simple contract, your package has access to Atom's API. Be aware that since we are early in development, APIs are subject to change and we have not yet established clear boundaries between what is public and what is private. Also, please collaborate with us if you need an API that doesn't exist. Our goal is to build out Atom's API organically based on the needs of package authors like you. ## Stylesheets Stylesheets for your package should be placed in the _stylesheets_ directory. Any stylesheets in this directory will be loaded and attached to the DOM when your package is activated. Stylesheets can be written as CSS or [LESS] (but LESS is recommended). Ideally, you won't need much in the way of styling. We've provided a standard set of components which define both the colors and UI elements for any package that fits into Atom seamlessly. You can view all of Atom's UI components by opening the styleguide: open the command palette (`cmd-shift-P`) and search for _styleguide_, or just type `cmd-ctrl-G`. If you _do_ need special styling, try to keep only structural styles in the package stylesheets. If you _must_ specify colors and sizing, these should be taken from the active theme's [ui-variables.less][ui-variables]. For more information, see the [theme variables docs][theme-variables]. If you follow this guideline, your package will look good out of the box with any theme! An optional `stylesheets` array in your _package.json_ can list the stylesheets by name to specify a loading order; otherwise, stylesheets are loaded alphabetically. ## Keymaps It's recommended that you provide key bindings for commonly used actions for your extension, especially if you're also adding a new command: ```coffeescript '.tree-view-scroller': 'ctrl-V': 'changer:magic' ``` Keymaps are placed in the _keymaps_ subdirectory. By default, all keymaps are loaded in alphabetical order. An optional `keymaps` array in your _package.json_ can specify which keymaps to load and in what order. Keybindings are executed by determining which element the keypress occured on. In the example above, `changer:magic` command is executed when pressing `ctrl-V` on the `.tree-view-scroller` element. See the [main keymaps documentation][keymaps] for more detailed information on how keymaps work. ## Menus Menus are placed in the _menus_ subdirectory. By default, all menus are loaded in alphabetical order. An optional `menus` array in your _package.json_ can specify which menus to load and in what order. ### Application Menu It's recommended that you create an application menu item for common actions with your package that aren't tied to a specific element: ```coffee-script 'menu': [ { 'label': 'Packages' 'submenu': [ { 'label': 'My Package' 'submenu': [ { 'label': 'Toggle' 'command': 'my-package:toggle' } ] } ] } ] ``` To add your own item to the application menu, simply create a top level `menu` key in any menu configuration file in _menus_. This can be a JSON or [CSON] file. The menu templates you specify are merged with all other templates provided by other packages in the order which they were loaded. ### Context Menu It's recommended to specify a context menu item for commands that are linked to specific parts of the interface, like adding a file in the tree-view: ```coffee-script 'context-menu': '.tree-view': 'Add file': 'tree-view:add-file' '.workspace': 'Inspect Element': 'core:inspect' ``` To add your own item to the application menu simply create a top level `context-menu` key in any menu configuration file in _menus_. This can be a JSON or [CSON] file. Context menus are created by determining which element was selected and then adding all of the menu items whose selectors match that element (in the order which they were loaded). The process is then repeated for the elements until reaching the top of the DOM tree. In the example above, the `Add file` item will only appear when the focused item or one of its parents has the `tree-view` class applied to it. ## Snippets An extension can supply language snippets in the _snippets_ directory which allows the user to enter repetitive text quickly: ```coffeescript ".source.coffee .specs": "Expect": prefix: "ex" body: "expect($1).to$2" "Describe": prefix: "de" body: """ describe "${1:description}", -> ${2:body} """ ``` A snippets file contains scope selectors at its top level (`.source.coffee .spec`). Each scope selector contains a hash of snippets keyed by their name (`Expect`, `Describe`). Each snippet also specifies a `prefix` and a `body` key. The `prefix` represents the first few letters to type before hitting the `tab` key to autocomplete. The `body` defines the autofilled text. You can use placeholders like `$1`, `$2`, to indicate regions in the body the user can navigate to every time they hit `tab`. All files in the directory are automatically loaded, unless the _package.json_ supplies a `snippets` key. As with all scoped items, snippets loaded later take precedence over earlier snippets when two snippets match a scope with the same specificity. ## Language Grammars If you're developing a new language grammar, you'll want to place your file in the _grammars_ directory. Each grammar is a pairing of two keys, `match` and `captures`. `match` is a regular expression identifying the pattern to highlight, while `captures` is an object representing what to do with each matching group. For example: ```coffeescript { 'match': '(?:^|\\s)(__[^_]+__)' 'captures': '1': 'name': 'markup.bold.gfm' } ``` This indicates that the first matching capture (`(__[^_]+__)`) should have the `markup.bold.gfm` token applied to it. To capture a single group, simply use the `name` key instead: ```coffeescript { 'match': '^#{1,6}\\s+.+$' 'name': 'markup.heading.gfm' } ``` This indicates that Markdown header lines (`#`, `##`, `###`) should be applied with the `markup.heading.gfm` token. More information about the significance of these tokens can be found in [section 12.4 of the TextMate Manual][tm-tokens]. Your grammar should also include a `filetypes` array, which is a list of file extensions your grammar supports: ```coffeescript 'fileTypes': [ 'markdown' 'md' 'mkd' 'mkdown' 'ron' ] ``` ## Bundle External Resources It's common to ship external resources like images and fonts in the package, to make it easy to reference the resources in HTML or CSS, you can use the `atom` protocol URLs to load resources in the package. The URLs should be in the format of `atom://package-name/relative-path-to-package-of-resource`, for example, the `atom://image-view/images/transparent-background.gif` would be equivalent to `~/.atom/packages/image-view/images/transparent-background.gif`. You can also use the `atom` protocol URLs in themes. ## Writing Tests Your package **should** have tests, and if they're placed in the _spec_ directory, they can be run by Atom. Under the hood, [Jasmine] executes your tests, so you can assume that any DSL available there is available to your package as well. **FIXME: Explain the following** * jasmine * jasmine-focused * `spec/fixtures` and global.project * setTimeout * whatever else is different in spec-helper ## Running Tests TODO: Probably use the menu option now. Once you've got your test suite written, the recommended way to run it is `apm test`. `apm test` prints its output to the console and returns the proper status code depending on whether tests passed or failed. ## Publishing Atom bundles a command line utility called [apm] which can be used to publish Atom packages to the public registry. Once your package is written and ready for distribution you can run the following to publish your package: ```sh cd my-package apm publish minor ``` This will update your `package.json` to have a new minor `version`, commit the change, create a new [Git tag][git-tag], and then upload the package to the registry. Run `apm help publish` to see all the available options and `apm help` to see all the other available commands. ## Included Libraries FIXME: Describe `require 'atom' In addition to core node.js modules, all packages can `require` the following popular libraries into their packages: * [SpacePen] (as `require 'space-pen'`) * [jQuery] (as `require 'jquery'`) * [Underscore] (as `require 'underscore'`) Additional libraries can be found by browsing Atom's *node_modules* folder. [file-tree]: https://github.com/atom/tree-view [status-bar]: https://github.com/atom/status-bar [cs-syntax]: https://github.com/atom/language-coffee-script [npm]: http://en.wikipedia.org/wiki/Npm_(software) [npm-keys]: https://npmjs.org/doc/json.html [apm]: https://github.com/atom/apm [git-tag]: http://git-scm.com/book/en/Git-Basics-Tagging [wrap-guide]: https://github.com/atom/wrap-guide/ [keymaps]: internals/keymaps.md [theme-variables]: theme-variables.md [tm-tokens]: http://manual.macromates.com/en/language_grammars.html [spacepen]: https://github.com/nathansobo/space-pen [path]: http://nodejs.org/docs/latest/api/path.html [jquery]: http://jquery.com/ [underscore]: http://underscorejs.org/ [jasmine]: https://github.com/pivotal/jasmine [cson]: https://github.com/atom/season [less]: http://lesscss.org [ui-variables]: https://github.com/atom/atom-dark-ui/blob/master/stylesheets/ui-variables.less [first-package]: your-first-package.html