# reitit [![Build Status](https://travis-ci.org/metosin/reitit.svg?branch=master)](https://travis-ci.org/metosin/reitit) [![Dependencies Status](https://jarkeeper.com/metosin/reitit/status.svg)](https://jarkeeper.com/metosin/reitit) Snappy data-driven router for Clojure(Script). * Simple data-driven route syntax * First-class route meta-data * Generic, not tied to HTTP * Extendable * Fast ## Latest version [![Clojars Project](http://clojars.org/metosin/reitit/latest-version.svg)](http://clojars.org/metosin/reitit) ## Route Syntax Routes are defined as vectors, which String path as the first element, then optional meta-data (non-vector) and optional child routes. Routes can be wrapped in vectors. Simple route: ```clj ["/ping"] ``` Two routes: ```clj [["/ping"] ["/pong"]] ``` Routes with meta-data: ```clj [["/ping" ::ping] ["/pong" {:name ::pong}]] ``` Routes with path and catch-all parameters: ```clj [["/users/:user-id"] ["/public/*path"]] ``` Nested routes with meta-data: ```clj ["/api" ["/admin" {:middleware [::admin]} ["/user" ::user] ["/db" ::db] ["/ping" ::ping]] ``` Previous example flattened: ```clj [["/api/admin/user" {:middleware [::admin], :name ::user} ["/api/admin/db" {:middleware [::admin], :name ::db} ["/api/ping" ::ping]] ``` ## Routers For actual routing, we need to create a `Router`. Reitit ships with 2 different router implementations: `LinearRouter` and `LookupRouter`, both based on the awesome [Pedestal](https://github.com/pedestal/pedestal/tree/master/route) implementation. `Router` is created with `reitit.core/router`, which takes routes and optionally an options map as arguments. The route-tree gets expanded, optionally coerced and compiled to support both fast path- and name-based lookups. Creating a router: ```clj (require '[reitit.core :as reitit]) (def router (reitit/router [["/api" ["/ping" ::ping] ["/user/:id" ::user]])) ``` `LinearRouter` is created (as there are wildcard): ```clj (class router) ; reitit.core.LinearRouter ``` The expanded routes: ```clj (reitit/routes router) ; [["/api/ping" {:name :user/ping}] ; ["/api/user/:id" {:name :user/user}]] ``` Path-based routing: ```clj (reitit/match-by-path router "/hello") ; nil (reitit/match-by-path router "/api/user/1") ; #Match{:template "/api/user/:id" ; :meta {:name :user/user} ; :path "/api/user/1" ; :handler nil ; :params {:id "1"}} ``` Name-based (reverse) routing: ```clj (reitit/match-by-name router ::user) ; ExceptionInfo missing path-params for route '/api/user/:id': #{:id} (reitit/match-by-name router ::user {:id "1"}) ; #Match{:template "/api/user/:id" ; :meta {:name :user/user} ; :path "/api/user/1" ; :handler nil ; :params {:id "1"}} ``` ## Route meta-data Routes can have arbitrary meta-data. For nested routes, the meta-data is accumulated from root towards leafs using [meta-merge](https://github.com/weavejester/meta-merge). A router based on nested route tree: ```clj (def router (reitit/router ["/api" {:interceptors [::api]} ["/ping" ::ping] ["/public/*path" ::resources] ["/user/:id" {:name ::get-user :parameters {:id String}} ["/orders" ::user-orders]] ["/admin" {:interceptors [::admin] :roles #{:admin}} ["/root" {:name ::root :roles ^:replace #{:root}}] ["/db" {:name ::db :interceptors [::db]}]]])) ``` Resolved route tree: ```clj (reitit/routes router) ; [["/api/ping" {:name :user/ping ; :interceptors [::api]}] ; ["/api/public/*path" {:name :user/resources ; :interceptors [::api]}] ; ["/api/user/:id/orders" {:name :user/user-orders ; :interceptors [::api] ; :parameters {:id String}}] ; ["/api/admin/root" {:name :user/root ; :interceptors [::api ::admin] ; :roles #{:root}}] ; ["/api/admin/db" {:name :user/db ; :interceptors [::api ::admin ::db] ; :roles #{:admin}}]] ``` Path-based routing: ```clj (reitit/match-by-path router "/api/admin/root") ; #Match{:template "/api/admin/root" ; :meta {:name :user/root ; :interceptors [::api ::admin] ; :roles #{:root}} ; :path "/api/admin/root" ; :handler nil ; :params {}} ``` On match, route meta-data is returned and can interpreted by the application. Routers also support meta-data compilation enabling things like fast [Ring](https://github.com/ring-clojure/ring) or [Pedestal](http://pedestal.io/) -style handlers. Compilation results are found under `:handler` in the match. See [configuring routers](configuring-routers) for details. ## Ring Simple [Ring](https://github.com/ring-clojure/ring)-based routing app: ```clj (require '[reitit.ring :as ring]) (defn handler [_] {:status 200, :body "ok"}) (def app (ring/ring-handler (ring/router ["/ping" handler]))) ``` It's backed by a `LookupRouter` (no wildcards!) ```clj (-> app (ring/get-router) class) ; reitit.core.LookupRouter ``` The expanded routes: ```clj (-> app (ring/get-router) (reitit/routes)) ; [["/ping" {:handler #object[...]}]] ``` Applying the handler: ```clj (app {:request-method :get, :uri "/favicon.ico"}) ; nil (app {:request-method :get, :uri "/ping"}) ; {:status 200, :body "ok"} ``` Routing based on `:request-method`: ```clj (def app (ring/ring-handler (ring/router ["/ping" {:get handler :post handler}]))) (app {:request-method :get, :uri "/ping"}) ; {:status 200, :body "ok"} (app {:request-method :put, :uri "/ping"}) ; nil ``` Define some middleware and a new handler: ```clj (defn wrap [handler id] (fn [request] (handler (update request ::acc (fnil conj []) id)))) (defn wrap-api [handler] (wrap handler :api)) (defn handler [{:keys [::acc]}] {:status 200, :body (conj acc :handler)}) ``` App with nested middleware: ```clj (def app (ring/ring-handler (ring/router ["/api" {:middleware [wrap-api]} ["/ping" handler] ["/admin" {:middleware [[wrap :admin]]} ["/db" {:middleware [[wrap :db]] :delete {:middleware [#(wrap % :delete)] :handler handler}}]]]))) ``` Middleware is applied correctly: ```clj (app {:request-method :delete, :uri "/api/ping"}) ; {:status 200, :body [:api :handler]} ``` Nested middleware works too: ```clj (app {:request-method :delete, :uri "/api/admin/db"}) ; {:status 200, :body [:api :admin :db :delete :handler]} ``` Ring-router supports also 3-arity [Async Ring](https://www.booleanknot.com/blog/2016/07/15/asynchronous-ring.html), so it can be used on [Node.js](https://nodejs.org/en/) too. ## Validating route-tree **TODO** ## Merging route-trees **TODO** ## Schema, Spec, Swagger & Openapi **TODO** ## Interceptors **TODO** ## Custom extensions **TODO** ## Configuring Routers Routers can be configured via options to do things like custom coercion and compilatin of meta-data. These can be used to do things like [`clojure.spec`](https://clojure.org/about/spec) validation of meta-data and fast, compiled [Ring](https://github.com/ring-clojure/ring/wiki/Concepts) or [Pedestal](http://pedestal.io/) -style handlers. The following options are available for the `Router`: | key | description | | -----------|-------------| | `:path` | Base-path for routes (default `""`) | `:routes` | Initial resolved routes (default `[]`) | `:meta` | Initial expanded route-meta vector (default `[]`) | `:expand` | Function of `arg => meta` to expand route arg to route meta-data (default `reitit.core/expand`) | `:coerce` | Function of `[path meta] opts => [path meta]` to coerce resolved route, can throw or return `nil` | `:compile` | Function of `[path meta] opts => handler` to compile a route handler ## Special thanks To all Clojure(Script) routing libs out there, expecially to [Ataraxy](https://github.com/weavejester/ataraxy), [Bide](https://github.com/funcool/bide), [Bidi](https://github.com/juxt/bidi), [Compojure](https://github.com/weavejester/compojure) and [Pedestal](https://github.com/pedestal/pedestal/tree/master/route). ## License Copyright © 2017 [Metosin Oy](http://www.metosin.fi) Distributed under the Eclipse Public License, the same as Clojure.