Introducing NamedRoutes cookbook
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@ -19,6 +19,7 @@ you name it!
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structuring-apis/StructuringApis.lhs
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structuring-apis/StructuringApis.lhs
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generic/Generic.lhs
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generic/Generic.lhs
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namedRoutes/NamedRoutes.lhs
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https/Https.lhs
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https/Https.lhs
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db-mysql-basics/MysqlBasics.lhs
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db-mysql-basics/MysqlBasics.lhs
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db-sqlite-simple/DBConnection.lhs
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db-sqlite-simple/DBConnection.lhs
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375
doc/cookbook/namedRoutes/NamedRoutes.lhs
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375
doc/cookbook/namedRoutes/NamedRoutes.lhs
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# NamedRoutes - Using records to define APIs
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*Available in Servant 0.19 or higher*
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Servant offers a very natural way of constructing APIs with nested records, called `NamedRoutes`.
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This cookbook explains how to implement such nested-record-APIs using `NamedRoutes` through the example of a Movie Catalog.
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First, we start by constructing the domain types of our Movie Catalog.
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After, we show you how to implement the API type with the NamedRoutes records.
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Lastly, we make a Server and a Client out of the API type.
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However, it should be understood that this cookbook does _not_ dwell on the
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built-in servant combinators as the [Structuring APIs
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](<../structuring-apis/StructuringApis.html>) cookbook already covers that angle.
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## Why would I want to use `NamedRoutes` over the alternative `:<|>` operator?
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With `NamedRoutes`, we don’t need to care about the declaration order of the endpoints.
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For example, with the `:<|>` operator there’s room for error when the order of the API type
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```haskell,ignore
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type API1 = "version" :> Get '[JSON] Version
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:<|> "movies" :> Get '[JSON] [Movie]
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```
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does not follow the `Handler` implementation order
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```haskell,ignore
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apiHandler :: ServerT API1 Handler
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apiHandler = getMovies
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:<|> getVersion
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```
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GHC could scold you with a very tedious message such as :
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```console
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• Couldn't match type 'Handler NoContent'
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with 'Movie -> Handler NoContent'
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Expected type: ServerT MovieCatalogAPI Handler
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Actual type: Handler Version
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:<|> ((Maybe SortBy -> Handler [Movie])
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:<|> ((MovieId -> Handler (Maybe Movie))
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:<|> ((MovieId -> Movie -> Handler NoContent)
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:<|> (MovieId -> Handler NoContent))))
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• In the expression:
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versionHandler
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:<|>
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movieListHandler
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:<|>
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getMovieHandler :<|> updateMovieHandler :<|> deleteMovieHandler
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In an equation for 'server':
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server
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= versionHandler
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:<|>
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movieListHandler
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:<|>
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getMovieHandler :<|> updateMovieHandler :<|> deleteMovieHandler
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226 | server = versionHandler
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```
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On the contrary, with the `NamedRoutes` technique, we refer to the routes by their name:
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```haskell,ignore
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data API mode = API
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{ list :: "list" :> ...
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, delete :: "delete" :> ...
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}
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```
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and GHC follows the lead :
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```console
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• Couldn't match type 'NoContent' with 'Movie'
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Expected type: AsServerT Handler :- Delete '[JSON] Movie
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Actual type: Handler NoContent
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• In the 'delete' field of a record
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In the expression:
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MovieAPI
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{get = getMovieHandler movieId,
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update = updateMovieHandler movieId,
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delete = deleteMovieHandler movieId}
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In an equation for 'movieHandler':
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movieHandler movieId
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= MovieAPI
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{get = getMovieHandler movieId,
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update = updateMovieHandler movieId,
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delete = deleteMovieHandler movieId}
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252 | , delete = deleteMovieHandler movieId
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```
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So, NamedRoutes is more readable for a human, and GHC gives you more accurate error messages.
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What are we waiting for?
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## Boilerplate time!
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First, let’s get rid of the the extensions and imports boilerplate in order to focus on our new technique:
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```haskell
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{-# LANGUAGE DataKinds #-}
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{-# LANGUAGE DeriveAnyClass #-}
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{-# LANGUAGE DerivingStrategies #-}
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{-# LANGUAGE DeriveGeneric #-}
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{-# LANGUAGE OverloadedStrings #-}
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{-# LANGUAGE TypeOperators #-}
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import GHC.Generics ( Generic )
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import Data.Aeson ( FromJSON, ToJSON )
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import Data.Proxy ( Proxy(..) )
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import Network.Wai.Handler.Warp ( run )
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import Servant ( NamedRoutes
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, Handler, serve )
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import Servant.API (Capture, Delete, Get, Put, QueryParam, ReqBody
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, JSON, NoContent (..)
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, FromHttpApiData (..),ToHttpApiData(..)
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, (:>) )
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import Servant.API.Generic ( (:-) )
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import Servant.Client ( AsClientT, ClientM, client
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, (//), (/:) )
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import Servant.Client.Generic ()
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import Servant.Server ( Application, ServerT )
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import Servant.Server.Generic ( AsServerT )
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```
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## Domain context
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Now that we’ve handled the boilerplate, we can dive into our Movie Catalog domain.
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Consider a `Movie` constructed from a `Title` and a `Year` of publication.
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``` haskell
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data Movie = Movie
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{ movieId :: MovieId
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, title :: Title
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, year :: Year
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}
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deriving stock Generic
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deriving anyclass (FromJSON, ToJSON)
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type MovieId = String
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type Title = String
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type Year = Int
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```
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Let’s forget about the deriving stuff for now and think about the API that we want to make.
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```
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"version" -> Get Version
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/
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api "list" -> Get [Movie] ?sortBy= Title | Year (sort by the Title or the Year)
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\ /
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"movies" Get Movie
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\ /
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Capture MovieId - Put Movie
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\
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Delete MovieId
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```
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In this example, we create a very simple endpoint for the Version,
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and several complex endpoints that use nested records for the CRUD part of the movie.
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So, the URLs would look like
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- GET …/version
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- GET …/movies/list?sortby=Title
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- GET …/movies/<MovieId>/
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- PUT …/movies/<MovieId>/
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- DELETE …/movies/<MovieId>
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### API Type
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Now that we have a very clear idea of the API we want to make, we need to transform it into usable Haskell code:
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``` haskell
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data API mode = API
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{ version :: mode :- "version" :> Get '[JSON] Version
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, movies :: mode :- "movies" :> NamedRoutes MoviesAPI
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} deriving stock Generic
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type Version = String -- This will do for the sake of example.
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```
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Here, we see the first node of our tree. It contains the two branches “version” and “movies” respectively:
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The “version” branch is very simple and self-explanatory.
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The “movies” branch will contain another node, represented by another record (see above). That is why we need the `NameRoutes` helper.
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Note:
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The `mode` type parameter indicates into which implementation the record’s `Generic` representation will be transformed—as a client or as a server. We will discuss that later.
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Let's jump into the "movies" subtree node:
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``` haskell
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data MoviesAPI mode = MoviesAPI
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{ list :: mode :- "list" :> QueryParam "SortBy" SortBy :> Get '[JSON] [Movie]
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, movie :: mode :- Capture "movieId" MovieId :> NamedRoutes MovieAPI
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} deriving stock Generic
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data SortBy = Year | Title
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instance ToHttpApiData SortBy where
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toQueryParam Year = "year"
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toQueryParam Title = "title"
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instance FromHttpApiData SortBy where
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parseQueryParam "year" = Right Year
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parseQueryParam "title" = Right Title
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parseQueryParam param = Left $ param <> " is not a valid value"
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```
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So, remember, this type represents the `MoviesAPI` node that we’ve connected earlier to the main `API` tree.
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In this subtree, we illustrated both an endpoint with a **query param** and also, a **capture** with a subtree underneath it.
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So, let's go deeper into our API tree.
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``` haskell
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data MovieAPI mode = MovieAPI
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{ get :: mode :- Get '[JSON] (Maybe Movie)
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, update :: mode :- ReqBody '[JSON] Movie :> Put '[JSON] NoContent
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, delete :: mode :- Delete '[JSON] NoContent
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} deriving stock Generic
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```
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As you can see, we end up implementing the deepest routes of our API.
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Small detail: as our main API tree is also a record, we need the `NamedRoutes` helper.
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To improve readability, we suggest you create a type alias:
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``` haskell
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type MovieCatalogAPI = NamedRoutes API
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```
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That's it, we have our `MovieCatalogAPI` type!
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Let's make a server and a client out of it!
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## The Server
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As you know, we can’t talk about a server, without addressing the handlers.
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First, we take our handlers…
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```haskell
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versionHandler :: Handler Version
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versionHandler = pure "0.0.1"
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movieListHandler :: Maybe SortBy -> Handler [Movie]
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movieListHandler _ = pure moviesDB
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moviesDB :: [Movie]
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moviesDB =
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[ Movie "1" "Se7en" 1995
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, Movie "2" "Minority Report" 2002
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, Movie "3" "The Godfather" 1972
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]
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getMovieHandler :: MovieId -> Handler (Maybe Movie)
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getMovieHandler requestMovieId = go moviesDB
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where
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go [] = pure Nothing
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go (movie:ms) | movieId movie == requestMovieId = pure $ Just movie
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go (m:ms) = go ms
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updateMovieHandler :: MovieId -> Movie -> Handler NoContent
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updateMovieHandler requestedMovieId newMovie =
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-- update the movie list in the database...
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pure NoContent
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deleteMovieHandler :: MovieId -> Handler NoContent
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deleteMovieHandler _ =
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-- delete the movie from the database...
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pure NoContent
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```
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And assemble them together with the record structure, which is the glue here.
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```haskell
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server :: ServerT MovieCatalogAPI Handler
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server =
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API
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{ version = versionHandler
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, movies = moviesHandler
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}
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moviesHandler :: MoviesAPI (AsServerT Handler)
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moviesHandler =
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MoviesAPI
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{ list = movieListHandler
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, movie = movieHandler
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}
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movieHandler :: MovieId -> MovieAPI (AsServerT Handler)
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movieHandler movieId = MovieAPI
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{ get = getMovieHandler movieId
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, update = updateMovieHandler movieId
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, delete = deleteMovieHandler movieId
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}
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```
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As you might have noticed, we build our handlers out of the same record types we used to define our API: `MoviesAPI` and `MovieAPI`. What kind of magic is this ?
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Remember the `mode` type parameter we saw earlier? Since we need to transform our API type into a _server_, we need to provide a server `mode`, which is `AsServerT Handler` here.
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Finally, we can run the server and connect the API routes to the handlers as usual:
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``` haskell
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api :: Proxy MovieCatalogAPI
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api = Proxy
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main :: IO ()
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main = run 8081 app
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app :: Application
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app = serve api server
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```
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Yay! That’s done and we’ve got our server!
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## The Client
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The client, so to speak, is very easy to implement:
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``` haskell
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movieCatalogClient :: API (AsClientT ClientM)
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movieCatalogClient = client api -- remember: api: Proxy MovieCatalogAPI
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```
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Have you noticed the `mode` `AsClient ClientM`?
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We’ve also introduced some operators that help navigate through the nested records.
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`(//)` is used to jump from one record to another.
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`(/:)` is used to provide a parameter, whether it be a query param or a capture.
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Let’s use those nice helpers for our movie catalog:
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```haskell
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listMovies :: Maybe SortBy -> ClientM [Movie]
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listMovies sortBy = movieCatalogClient // movies // list /: sortBy
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getMovie :: MovieId -> ClientM (Maybe Movie)
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getMovie movieId = movieCatalogClient // movies // movie /: movieId // get
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updateMovie :: MovieId -> Movie -> ClientM NoContent
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updateMovie movieId newMovie = movieCatalogClient // movies // movie /: movieId // update /: newMovie
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deleteMovie :: MovieId -> ClientM NoContent
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deleteMovie movieId = movieCatalogClient // movies // movie /: movieId // delete
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```
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Done! We’ve got our client!
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## Conclusion
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We hope that you found this workbook helpful, and that you now feel more confident using the `NamedRoutes` technique.
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If you are interested in further understanding the built-in Servant combinators, see [Structuring APIs](../structuring-apis/StructuringApis.html).
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Since `NamedRoutes` is based on the Generic mechanism, you might want to have a look at [Sandy Maguire’s _Thinking with Types_ book](https://doku.pub/download/sandy-maguire-thinking-with-typesz-liborgpdf-4lo5ne7kdj0x).
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doc/cookbook/namedRoutes/namedRoutes.cabal
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name: namedRoutes
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version: 0.1
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synopsis: NamedRoutes - Generic servant API implementation cookbook example
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homepage: http://docs.servant.dev/
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license: BSD3
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license-file: ../../../servant/LICENSE
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author: Servant Contributors
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maintainer: haskell-servant-maintainers@googlegroups.com
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build-type: Simple
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cabal-version: >=1.10
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tested-with: GHC==8.6.5, GHC==8.8.3, GHC ==8.10.1
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executable namedRoutes
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main-is: NamedRoutes.lhs
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build-depends: base == 4.*
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, aeson >= 1.2
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, text
|
||||||
|
, servant
|
||||||
|
, servant-client
|
||||||
|
, servant-client-core
|
||||||
|
, servant-server
|
||||||
|
, wai >= 3.2
|
||||||
|
, warp >= 3.2
|
||||||
|
|
||||||
|
default-language: Haskell2010
|
||||||
|
ghc-options: -Wall -pgmL markdown-unlit
|
||||||
|
build-tool-depends: markdown-unlit:markdown-unlit
|
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Reference in a new issue