# MELPA [![Build Status](https://travis-ci.org/milkypostman/melpa.png?branch=master)](https://travis-ci.org/milkypostman/melpa) MELPA is a growing collection of `package.el`-compatible Emacs Lisp packages built automatically on our server from the upstream source code using simple recipes. (Think of it as a server-side version of [el-get](https://github.com/dimitri/el-get), or even [homebrew](https://github.com/mxcl/homebrew).) Packages are updated at intervals throughout the day. To browse available packages, check out the [archive index page](http://melpa.milkbox.net/). Adding packages is as simple as submitting a pull request; read on for details. ## Table of Contents * [Usage](#usage) * [Contributing](#contributing-new-recipes) * [Recipe Format](#recipe-format) * [Build Scripts](#build-scripts) * [API](#api) * [About](#about) * [Stable Packages](#stable-packages) ## Usage To use the MELPA repository, you'll need an Emacs with `package.el`. Emacs 24 has `package.el` bundled with it, and there's also a [version you can use with Emacs 23](http://repo.or.cz/w/emacs.git/blob_plain/1a0a666f941c99882093d7bd08ced15033bc3f0c:/lisp/emacs-lisp/package.el). Enable installation of packages from MELPA by adding an entry to `package-archives` after `(require 'package)` and before the call to `package-initialize` in your `init.el` or `.emacs` file: ```lisp (require 'package) (add-to-list 'package-archives '("melpa" . "http://melpa.milkbox.net/packages/") t) (when (< emacs-major-version 24) ;; For important compatibility libraries like cl-lib (add-to-list 'package-archives '("gnu" . "http://elpa.gnu.org/packages/"))) (package-initialize) ``` Then just use `M-x package-list-packages` to browse and install packages from MELPA and elsewhere. Note that MELPA packages will always have higher versions than those from other archives like Marmalade, so if you decide you need non-MELPA versions of specific packages for some reason, extra configuration will be required: If your Emacs has the variable `package-pinned-packages`, you can customize or modify that variable as needed. Otherwise, use the separate [package-filter.el](https://github.com/milkypostman/package-filter) package which we provide. ## Contributing New Recipes New recipe submissions should adhere to the following guidelines, * One pull request per recipe. You can create multiple branches and create a pull request for each branch. * Upstream source must be stored in an authoritative [SCM](http://en.wikipedia.org/wiki/Software_configuration_management) repository. Emacswiki recipes are discouraged but can be accepted. * Packages should be built from the *official* package repository. Forks of the official repository will not be accepted except in *extreme* circumstances. * The package name should match the name of the feature provided. See the `package` function for more information. * Packages should adhere to the `package.el` format as specified by `(info "(elisp) Packaging")`. More information on this format is provided by the [marmalade package manual](https://web.archive.org/web/20111120220609/http://marmalade-repo.org/doc-files/package.5.html). * Recipes should try to minimize the size of the resulting package by specifying only files relevant to the package. See the [Recipe Format](#recipe-format) section for more information on specifying package files. ### Expediting Recipe Reviews Because we care about the quality of packages that are part of MELPA we review all submissions. The following steps can help us with this process and expedite the recipe review process, * Include the following information in the pull request: * A brief summary of what the package does. * A direct link to the package repository. * Your association with the package (e.g., are you the maintainer? have you contributed? do you just like the package a lot?). * Relevant communications with the upstream package maintainer (e.g., `package.el` compatibility changes that you have submitted). * Test that the package builds properly via `make recipes/`, or pressing `C-c C-c` in the recipe buffer. * Test that the package installs properly via `package-install-file`, or entering "yes" when prompted after pressing `C-c C-c` in the recipe buffer. ### Testing Let `` denote the name of the recipe to submit. 1. Fork the MELPA repository. 2. Add your new file under the directory specified by `package-build-recipes-dir` (default: `recipes/` directory where `package-build` was loaded). If you prefer, the interactive command `package-build-create-recipe` in `package-build.el` will guide you through this process. 3. Confirm your package builds properly by running make recipes/ (Be sure that the `emacs` on your path is at least version 23, or set `$EMACS` to the location of a suitable binary.) Alternatively, open the recipe in Emacs and press `C-c C-c` in the recipe buffer: this will also prompt you to install the freshly-built package. 4. Install the file you built by running `package-install-file` from within Emacs and specifying the newly built package in the directory specified by `package-build-archive-dir` (default: `packages/` directory where `package-build` was loaded). You can optionally run a sandboxed Emacs in which locally-built packages will be available for installation along with those already in MELPA: ``` EMACS=/path/to/emacs make sandbox ``` then `M-x package-list-packages`, install and test as appropriate. This is a useful way to discover missing dependencies! ### Submitting After verifying the entry works properly please open a pull request on Github. Consider the [hub](https://github.com/defunkt/hub) command-line utility by [defunkt](http://chriswanstrath.com/) which helps simplify this process. ## Recipe Format Packages are specified by files in the `recipes` directory. You can contribute a new package by adding a new file under `recipes` using the following form (`[...]` denotes optional or conditional values), ```lisp ( :fetcher [git|github|bzr|hg|darcs|fossil|svn|cvs|wiki] [:url ""] [:repo "github-user/repo-name"] [:module "cvs-module"] [:files ("" ...)]) ``` - `package-name` a lisp symbol that has the same name as the package being specified. - `:fetcher` (one of `git, github, bzr, hg, darcs, fossil, svn, cvs, wiki`) specifies the type of repository that `:url` points to. Right now package-build supports [git][git], [github][github], [bazaar (bzr)][bzr], [mercurial (hg)][hg], [subversion (svn)][svn], [cvs][cvs], [darcs][darcs], [fossil][fossil], and [Emacs Wiki (wiki)][emacswiki] as possible mechanisms for checking out the repository. *package-build* uses the corresponding application to update files before building the package. In the case of the `github` fetcher, use `:repo` instead of `:url`; the git URL will then be deduced. The Emacs Wiki fetcher gets the latest version of the package from `http://www.emacswiki.org/emacs/download/.el` where `NAME` is the package name. Note that the `:url` property is not needed for the `wiki` engine unless the name of the package file on the EmacsWiki differs from the package name being built. - `:url` specifies the URL of the version control repository. *required for the `git`, `bzr`, `hg`, `darcs`, `fossil`, `svn` and `cvs` fetchers.* - `:repo` specifies the github repository and is of the form `github-user/repo-name`. *required for the `github` fetcher*. - `:commit` specifies the commit of the git repo to checkout. The value will be passed to `git reset` in a repo where `upstream` is the original repository. Can therefore be either a sha, if pointing at a specific commit, or a full ref prefixed with "origin/". Only used by the `git` and `github` fetchers. - `:branch` specifies the branch of the git repo to use. This is like `:commit`, but it adds the "origin/" prefix automatically. - `:module` specifies the module of a CVS repository to check out. Defaults to to `package-name`. Only used with `:fetcher cvs`, and otherwise ignored. - `:files` optional property specifying the elisp and info files used to build the package. Automatically populated by matching all `.el`, `.info` and `dir` files in the root of the repository and the `doc` directory. Excludes all files in the root directory ending in `test.el` or `tests.el`. See the default value below, ("*.el" "*.el.in" "dir" "*.info" "*.texi" "*.texinfo" "doc/dir" "doc/*.info" "doc/*.texi" "doc/*.texinfo" (:exclude ".dir-locals.el" "tests.el" "*-test.el" "*-tests.el")) This option is necessary when there are multiple packages in the repository and thus the package should only be built from a subset of `.el` files. For example, elisp test files should not normally be packaged. *Any file specified at any path in the repository is copied to the root of the package.* More complex options are available, submit an [Issue](https://github.com/milkypostman/melpa/issues) if the specified package requires more complex file specification. [git]: http://git-scm.com/ [github]: https://github.com/ [bzr]: http://bazaar.canonical.com/en/ [hg]: http://mercurial.selenic.com/ [svn]: http://subversion.apache.org/ [cvs]: http://www.nongnu.org/cvs/ [darcs]: http://darcs.net/ [fossil]: http://www.fossil-scm.org/ [emacswiki]: http://www.emacswiki.org/ ### Example: Single File Repository [ido-ubiquitous](https://github.com/DarwinAwardWinner/ido-ubiquitous) is a repository that contains two files: * `README.md` * `ido-ubiquitous.el` Since there is only one `.el` file, this package only needs the `:url` and `:fetcher` specified, ```lisp (ido-ubiquitous :url "https://github.com/DarwinAwardWinner/ido-ubiquitous.git" :fetcher git) ``` ### Example: Multiple Packages in one Repository The [emacs-starter-kit](https://github.com/technomancy/emacs-starter-kit) contains the *starter-kit* package along with extra packages in the `modules` directory; *starter-kit-bindings*, *starter-kit-lisp*, etc. ```lisp (starter-kit :url "https://github.com/technomancy/emacs-starter-kit.git" :fetcher git) (starter-kit-bindings :url "https://github.com/technomancy/emacs-starter-kit.git" :fetcher git :files ("modules/starter-kit-bindings.el")) ``` Notice that `:files` is not specified for `starter-kit` since package-build will automatically add all `.el` files in the root directory of the repository. The `starter-kit-bindings` repository is contained in the `modules/` subdirectory and thus needs the packages files specified explicitly. ### Example: Multiple Files in Multiple Directories There are special cases where creation of the package comes from many different sub-directories in the repository and the destination sub-directories need to be explicitly set. Consider the `flymake-perlcritic` recipe, ```lisp (flymake-perlcritic :repo "illusori/emacs-flymake-perlcritic" :fetcher github :files ("*.el" ("bin" "bin/flymake_perlcritic"))) ``` which will result in a package structure of, ``` flymake-perlcritic-YYYMMDD |-- bin | `-- flymake_perlcritic |-- flymake-perlcritic-pkg.el `-- flymake-perlcritic.el ``` Notice that specifying an entry in `:files` that is a list takes the first element to be the destination directory. These can be embedded further, such as the following---hypothetical---entry for `:files`, ```lisp ("*.el" ("snippets" ("html-mode" "snippets/html-mode/*") ("python-mode" "snippets/python-mode/*"))) ``` which would result in a package with `*.el` in something like, ``` package-YYYYMMDD |-- snippets | |-- html-mode | | |-- div | | `-- html | `-- python-mode | |-- for | `-- main `-- package.el ``` But a better solution, given that we probably want to copy the *entire* `snippets` directory to the root of the package, we could just specify that directory. Consider the `pony-mode` recipe, ```lisp (pony-mode :repo "davidmiller/pony-mode" :fetcher github :files ("src/*.el" "snippets")) ``` which generates the package, ``` pony-mode-YYYYMMDD |-- pony-mode-pkg.el |-- pony-mode.el |-- pony-tpl.el `-- snippets |-- html-mode | |-- bl | |-- ex | |-- for | |-- if | |-- loa | |-- sup | |-- testc | `-- {{ `-- python-mode |-- auth-view |-- bn |-- model |-- modelform |-- render-to |-- testc `-- view ``` ## Build Scripts Building MELPA is all based around using the `Makefile` included in the root repository directory. Described below are the actions that accepted by the `Makefile`. * `all` -- Builds all packages under the `recipes/` directory and compiles the `index.html` file for the [melpa] website. * `recipes/` -- Build individual recipe ``. Built packages are put in the `packages/` folder with version corresponding to the newest HEAD revision available; given according to the `%Y%m%d` format. * `json` -- build all JSON files. * `archive.json` -- construct the `archive.json` file that will contain a JSON object of all compiled packages. * `recipes.json` -- construct the `recipes.json` file containing a JSON object of all packages available for building. * `clean` -- clean everything. * `html` -- build `index.html`. * `clean-working` -- remove all repositories that have been checked out to the `working/` directory. * `clean-packages` -- remove all compiled packages from the `packages` directory. * `clean-json` -- remove all JSON files. Note that these scripts require an Emacs with `package.el` installed, such as Emacs 24. If you have an older version of Emacs, you can get a suitable `package.el` [here](http://bit.ly/pkg-el23). [melpa]: http://melpa.milkbox.net ## API All repository code is contained in the `package-build.el`. ### Functions - `(package-build-all)` : build packages for all recipes in the directory specified by `package-build-recipes-dir`. - `(package-build-archive NAME)` : interactive elisp function to build a single archive. NAME is a symbol for the package to be built. Packages are staged in the directory specified by `package-build-working-dir` and built packages are placed in the directory specified by `package-build-archive-dir`. Packages are versioned based on the most recent commit date to package files based on commits to upstream package repository. For multi-file packages, the file `-pkg.el` is automatically generated and contains *description*, *version*, and *requires* information determined by searching `-pkg.el`, `.el`, and `-pkg.el.in`, if they exist in the repository. ### Variables - `package-build-working-dir` : Staging area containing package repositories and package directories being built. - `package-build-archive-dir` : Location to store `archive-contents` and any built packages. - `package-build-recipes-dir` : Directory containing MELPA compatible recipes. See [Recipe Format](#recipe-format) section for more details. ## Configuration Packages end up in the `packages/` directory by default. This can be configured using the `package-build-archive-dir` variable. Repositories are checked out to the `working/` directory by default. This can be configured using the `package-build-working-dir` variable. ## About *MELPA* is *Milkypostman's ELPA* or *Milkypostman's Experimental Lisp Package Archive* if you're not into the whole brevity thing. ## Stable Packages MELPA now includes a mechanism to build *stable* versions of packages given that the repositories meet the following criteria, 1. Hosted using *git*. 2. Tag names are version strings compatible parseable by the `version-to-list` function. To use the stable versions of packages you should use the stable server in your `package-archives` list. ```lisp (add-to-list 'package-archives '("melpa-stable" . "http://hiddencameras.milkbox.net/packages/") t) ``` An online list of available packages can be found at [http://hiddencameras.milkbox.net](http://hiddencameras.milkbox.net). ### Stable Version Generation To have a stable version generated for your package simply tag the repository using a naming compatible with `version-to-list`. The repo state of this tag will be used to generate the stable package. ### Notes *Versions for packages on the original MELPA server are based on the date of the last commit and will likely be higher than any version on the stable server.* Keep the following things in mind, * If you leave the original MELPA server in your `package-archives` then by default you will get the *development* versions of packages and not the stable ones. * You will probably want to remove all packages and then reinstall them. Any packages you already have installed from MELPA will never get "updated" to the stable version because of the way version numbering is handled.