# Tutorial For those of you new to the JVM who have never touched Ant or Maven in anger: don't panic. Leiningen is designed with you in mind. This tutorial will help you get started and explain Leiningen's take on project automation and JVM-land dependency management. Also keep in mind that Leiningen ships with fairly comprehensive help; `lein help` gives a list of tasks while `lein help task` provides details. Further documentation such as the readme, sample configuration, and even this tutorial are also provided. ## Creating a Project We'll assume you've got Leiningen installed as per the [README](https://github.com/technomancy/leiningen/blob/preview/README.md). Generating a new project is easy: $ lein new my-stuff Generating a project called my-stuff based on the 'default' template. $ cd my-stuff $ tree . |-- project.clj |-- README.md |-- src | `-- my_stuff | `-- core.clj `-- test `-- my_stuff `-- core_test.clj Here we've got your project's README, a `src/` directory containing the code, a `test/` directory, and a `project.clj` file which describes your project to Leiningen. The `src/my_stuff/core.clj` file corresponds to the `my-stuff.core` namespace. Note that we use `my-stuff.core` instead of just `my-stuff` since single-segment namespaces are discouraged in Clojure. Also note that namespaces with dashes in the name will have the corresponding file named with underscores instead since the JVM has trouble loading files with dashes in the name. The intricacies of namespaces are a common source of confusion for newcomers, and while they are mostly outside the scope of this tutorial, you can [read up on them elsewhere](http://blog.8thlight.com/colin-jones/2010/12/05/clojure-libs-and-namespaces-require-use-import-and-ns.html). ## project.clj $ cat project.clj ```clj (defproject my-stuff "0.1.0-SNAPSHOT" :description "FIXME: write description" :url "http://example.com/FIXME" :license {:name "Eclipse Public License" :url "http://www.eclipse.org/legal/epl-v10.html"} :dependencies [[org.clojure/clojure "1.3.0"]]) ``` If you don't fill in the `:description` with a short sentence, your project will be harder to find in search results, so start there. Be sure to fix the `:url` as well. At some point you'll need to flesh out the README too, but for now let's skip ahead to setting `:dependencies`. Note that Clojure is just another dependency here. Unlike most languages, it's easy to swap out any version of Clojure. ## Dependencies By default, Leiningen projects download dependencies from [Clojars](http://clojars.org) and [Central](http://search.maven.org). Clojars is the Clojure community's centralized jar repository, while Central is for the wider JVM community. Libraries for the JVM are packaged up as .jar files, which are basically just .zip files with a little extra JVM-specific metadata. They usually contain .class files (JVM bytecode) and .clj source files, but they can also contain other things like config files. You can [search Clojars](http://clojars.org/search?q=clj-http) using its web interface. On the page for `clj-http` it shows this: [clj-http "0.4.1"] There are two different ways of specifying a dependency on the latest stable version of the `clj-http` library, one in Leiningen format shown above and one in Maven format. We'll skip the Maven one for now, though you'll need to learn to read it for Java libraries from [Central](http://search.maven.org). You can copy the Leiningen version directly into the `:dependencies` vector in `project.clj`. Within the vector, "clj-http" is referred to as the "artifact id". "0.4.1" is the version. Some libraries will also have "group ids", which are displayed like this: [com.cedarsoft.utils.legacy/hibernate "1.3.4"] The group-id is the part before the slash. Especially for Java libraries, it's often a reversed domain name. Clojure libraries often use the same group-id and artifact-id (as with clj-http), in which case you can omit the group-id. If there is a library that's part of a larger group (such as `ring-jetty-adapter` being part of the `ring` project), the group-id is often the same across all the sub-projects. Sometimes versions will end in "-SNAPSHOT". This means that it is not an official release but a development build. Relying on snapshot dependencies is discouraged but is sometimes necessary if you need bug fixes, etc. that have not made their way into a release yet. However, snapshot versions are not guaranteed to stick around, so it's important that non-development releases never depend upon snapshot versions that you don't control. Adding a snapshot dependency to your project will cause Leiningen to actively go seek out the latest version of the dependency daily (whereas normal release versions are cached in the local repository) so if you have a lot of snapshots it will slow things down. Note that some libraries make their group-id and artifact-id correspond with the namespace they provide inside the jar, but this is just a convention. There is no guarantee they will match up at all, so consult the library's documentation before writing your `:require` and `:import` clauses. You can add third-party repositories by setting the `:repositories` key in project.clj. See the [sample.project.clj](https://github.com/technomancy/leiningen/blob/preview/sample.project.clj). ## Running Code Enough setup; let's see some code running. Start with a REPL (read-eval-print loop): $ lein repl nREPL server started on port 40612 Welcome to REPL-y! Clojure 1.4.0 Exit: Control+D or (exit) or (quit) Commands: (user/help) Docs: (doc function-name-here) (find-doc "part-of-name-here") Source: (source function-name-here) (user/sourcery function-name-here) Javadoc: (javadoc java-object-or-class-here) Examples from clojuredocs.org: [clojuredocs or cdoc] (user/clojuredocs name-here) (user/clojuredocs "ns-here" "name-here") user=> The REPL is an interactive prompt where you can enter arbitrary code to run in the context of your project. Since we've added `clj-http` to `:dependencies`, we are able to load it here along with code from the `my-stuff.core` namespace in your project's own `src/` directory: user=> (require 'my-stuff.core) nil user=> (my-stuff.core/-main) Hello, World! nil user=> (require '[clj-http.client :as http]) nil user=> (def response (http/get "http://leiningen.org")) #'user/response user=> (keys response) (:trace-redirects :status :headers :body) The call to `-main` shows both println output ("Hello, World!") and the return value (nil) together. Built-in documentation is available via `doc`, while `clojuredocs` offers more thorough examples from the [ClojureDocs](http://clojuredocs.org) site: user=> (doc reduce) ------------------------- clojure.core/reduce ([f coll] [f val coll]) f should be a function of 2 arguments. If val is not supplied, returns the result of applying f to the first 2 items in coll, then applying f to that result and the 3rd item, etc. If coll contains no items, f must accept no arguments as well, and reduce returns the result of calling f with no arguments. If coll has only 1 item, it is returned and f is not called. If val is supplied, returns the result of applying f to val and the first item in coll, then applying f to that result and the 2nd item, etc. If coll contains no items, returns val and f is not called. user=> (user/clojuredocs pprint) Loading clojuredocs-client... ========== vvv Examples ================ user=> (def *map* (zipmap [:a :b :c :d :e] (repeat (zipmap [:a :b :c :d :e] (take 5 (range)))))) #'user/*map* user=> *map* {:e {:e 4, :d 3, :c 2, :b 1, :a 0}, :d {:e 4, :d 3, :c 2, :b 1, :a 0}, :c {:e 4, :d 3, :c 2, :b 1, :a 0}, :b {:e 4, :d 3, :c 2, :b 1, :a 0}, :a {:e 4, :d 3, :c 2, :b 1, :a 0}} user=> (clojure.pprint/pprint *map*) {:e {:e 4, :d 3, :c 2, :b 1, :a 0}, :d {:e 4, :d 3, :c 2, :b 1, :a 0}, :c {:e 4, :d 3, :c 2, :b 1, :a 0}, :b {:e 4, :d 3, :c 2, :b 1, :a 0}, :a {:e 4, :d 3, :c 2, :b 1, :a 0}} nil ========== ^^^ Examples ================ 1 example found for clojure.pprint/pprint You can even examine the source of functions: user=> (source my-stuff.core/-main) (defn -main "I don't do a whole lot." [& args] (println "Hello, World!")) user=> ; use control+d to exit If you already have code in a `-main` function ready to go and don't need to enter code interactively, the `run` task is simpler: $ lein run -m my-stuff.core Hello, World! Providing an alternate `-m` argument will tell Leiningen to look for the `-main` function in another namespace. Setting a default `:main` in `project.clj` lets you omit `-m`. For long-running `lein run` processes, you may wish to save memory with the trampoline higher-order task, which allows the Leiningen JVM process to exit before launching your project's JVM. $ lein trampoline run -m my-stuff.server 5000 ## Tests It's easy to kick off a test run: $ lein test lein test my.test.stuff FAIL in (a-test) (stuff.clj:7) FIXME, I fail. expected: (= 0 1) actual: (not (= 0 1)) Ran 1 tests containing 1 assertions. 1 failures, 0 errors. Of course, we haven't written any tests yet, so we've just got the skeleton failing tests that Leiningen gave us with `lein new`. But once we fill it in the test suite will become more useful. Sometimes if you've got a large test suite you'll want to run just one or two namespaces at a time. You also might want to break up your tests using test selectors; see `lein help test` for more details. Running `lein test` from the command-line is suitable for regression testing, but the slow startup time of the JVM makes it a poor fit for testing styles that require tighter feedback loops. In these cases, either keep a repl open for running the appropriate call to [clojure.test/run-tests](http://clojuredocs.org/clojure_core/1.3.0/clojure.test/run-tests) or look into editor integration such as [clojure-test-mode](https://github.com/technomancy/clojure-mode). Keep in mind that while keeping a single process around is convenient, it's easy for that process to get into a state that doesn't reflect the files on disk—functions that are loaded and then deleted from the file will remain in memory, making it easy to miss problems arising from missing functions (often referred to as "getting slimed"). Because of this it's advised to do a `lein test` run with a fresh instance periodically in any case, perhaps before you commit. ## What to do with it Generally speaking, there are three different goals that are typical of Leiningen projects: * An application you can distribute to end-users * A server-side application * A library for other Clojure projects to consume For the first, you typically build an uberjar. For libraries, you will want to have them published to a repository like Clojars or a private repository. For server-side applications it varies as described below. ### Uberjar The simplest thing to do is to distribute an uberjar. This is a single standalone executable jar file most suitable for giving to nontechnical users. For this to work you'll need to specify a namespace as your `:main` in `project.clj`. By this point our `project.clj` file should look like this: ```clj (defproject my-stuff "0.1.0-SNAPSHOT" :description "FIXME: write description" :url "http://example.com/FIXME" :license {:name "Eclipse Public License" :url "http://www.eclipse.org/legal/epl-v10.html"} :dependencies [[org.clojure/clojure "1.3.0"] [org.apache.lucene/lucene-core "3.0.2"] [clj-http "0.4.1"]] :profiles {:dev {:dependencies [[midje "1.3.1"]]}} :test-selectors {:default (complement :integration) :integration :integration :all (fn [_] true)} :main my.stuff) ``` The namespace you specify will need to contain a `-main` function that will get called when your standalone jar is run. This namespace should have a `(:gen-class)` declaration in the `ns` form at the top. The `-main` function will get passed the command-line arguments. Let's try something simple in `src/my/stuff.clj`: ```clj (ns my.stuff (:gen-class)) (defn -main [& args] (println "Welcome to my project! These are your args:" args)) ``` Now we're ready to generate your uberjar: $ lein uberjar Compiling my.stuff Compilation succeeded. Created /home/phil/src/leiningen/my-stuff/target/my-stuff-0.1.0-SNAPSHOT.jar Including my-stuff-0.1.0-SNAPSHOT.jar Including clj-http-0.4.1.jar Including clojure-1.3.0.jar Including lucene-core-3.0.2.jar Created /home/phil/src/leiningen/my-stuff/target/my-stuff-0.1.0-SNAPSHOT-standalone.jar This creates a single jar file that contains the contents of all your dependencies. Users can run it with a simple `java` invocation, or on some systems just by double-clicking the jar file. $ java -jar my-stuff-0.1.0-standalone.jar Hello world. Welcome to my project! These are your args: (Hello world.) You can run a regular (non-uber) jar with the `java` command-line tool, but that requires constructing the classpath yourself, so it's not a good solution for end-users. Of course if your users already have Leiningen installed, you can instruct them to use `lein run` as described above. ### Server-side Projects There are many ways to get your project deployed as a server-side application. Aside from the obvious `lein run` approach, simple programs can be packaged up as tarballs with accompanied shell scripts using the [lein-tar plugin](https://github.com/technomancy/lein-tar) and then deployed using [pallet](http://hugoduncan.github.com/pallet/), [chef](http://opscode.com/chef/), or other mechanisms. Debian packages can be created with [lein-deb](https://github.com/travis/lein-deb). Web applications may be deployed using .war (web application archive) files created by the [lein-ring plugin](https://github.com/weavejester/lein-ring). You can even create [Hadoop projects](https://github.com/ndimiduk/lein-hadoop). These kinds of deployments are so varied that they are better-handled using plugins rather than tasks that are built-in to Leiningen itself. If you do end up involving Leiningen in production, it's very important to ensure you take steps to freeze all the dependencies before deploying, otherwise it could be easy to end up with [unrepeatable deployments](https://github.com/technomancy/leiningen/wiki/Repeatability). It's recommended to use Leiningen to create a deployable artifact in a continuous integration setting. For example, you could have a [Jenkins](http://jenkins-ci.org) CI server run your project's full test suite, and if it passes, upload a tarball to S3. Then deployment is just a matter of pulling down and extracting the known-good tarball on your production servers. ### Publishing Libraries If your project is a library and you would like others to be able to use it as a dependency in their projects, you will need to get it into a public repository. While it's possible to [maintain your own private repository](https://github.com/technomancy/leiningen/blob/preview/doc/DEPLOY.md) or get it into Central, the easiest way is to publish it at [Clojars](http://clojars.org). Once you have [created an account](https://clojars.org/register) there, publishing is easy: $ lein deploy clojars Created ~/src/my-stuff/target/my-stuff-0.1.0-SNAPSHOT.jar Wrote ~/src/my-stuff/pom.xml No credentials found for clojars See `lein help deploying` for how to configure credentials. Username: me Password: Retrieving my-stuff/my-stuff/0.1.0-SNAPSHOT/maven-metadata.xml (1k) from https://clojars.org/repo/ Sending my-stuff/my-stuff/0.1.0-SNAPSHOT/my-stuff-0.1.0-20120531.032047-14.jar (5k) to https://clojars.org/repo/ Sending my-stuff/my-stuff/0.1.0-SNAPSHOT/my-stuff-0.1.0-20120531.032047-14.pom (3k) to https://clojars.org/repo/ Retrieving my-stuff/my-stuff/maven-metadata.xml (1k) from https://clojars.org/repo/ Sending my-stuff/my-stuff/0.1.0-SNAPSHOT/maven-metadata.xml (1k) to https://clojars.org/repo/ Sending my-stuff/my-stuff/maven-metadata.xml (1k) to https://clojars.org/repo/ Once that succeeds it will be available as a package on which other projects may depend. For instructions on storing your credentials so they don't have to be re-entered every time, see `lein help deploying`. For further details about publishing including setting up private repositories, see the [deploy guide](https://github.com/technomancy/leiningen/blob/preview/doc/DEPLOY.md) ## That's It! Now go start coding your next project!