servant/doc/cookbook/using-custom-monad/UsingCustomMonad.lhs

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# Using a custom monad
In this section we will create and API for a book shelf without any backing DB storage.
We will keep state in memory and share it between requests using `Reader` monad and `STM`.
We start with a pretty standard set of imports and definition of the model:
``` haskell
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE DeriveGeneric #-}
{-# LANGUAGE TypeOperators #-}
import Control.Concurrent (forkIO, killThread)
import Control.Concurrent.STM.TVar (TVar, newTVar, readTVar,
writeTVar)
import Control.Exception (bracket)
import Control.Monad.IO.Class (liftIO)
import Control.Monad.STM (atomically)
import Control.Monad.Trans.Reader (ReaderT, ask, runReaderT)
import Data.Aeson (FromJSON, ToJSON)
import GHC.Generics (Generic)
import Network.HTTP.Client (defaultManagerSettings,
newManager)
import Network.Wai.Handler.Warp (run)
import Servant
import Servant.Client
newtype Book = Book String deriving (Show, Generic)
instance ToJSON Book
instance FromJSON Book
```
Now, let's define the API for book storage.
For the sake of simplicity we'll only have methods for getting all books and adding a new one.
``` haskell
type GetBooks = Get '[JSON] [Book]
type AddBook = ReqBody '[JSON] Book :> PostCreated '[JSON] Book
type BooksAPI = "books" :> (GetBooks :<|> AddBook)
api :: Proxy BooksAPI
api = Proxy
```
Next, we define the state and the monad to run our handlers
``` haskell
data State = State
{ books :: TVar [Book]
}
type AppM = ReaderT State Handler
```
Note that we can't use `State` monad here, because state will not be shared between requests.
We can now define handlers in terms of `AppM`...
```haskell
server :: ServerT BooksAPI AppM
server = getBooks :<|> addBook
where getBooks :: AppM [Book]
getBooks = do
State{books = p} <- ask
liftIO $ atomically $ readTVar p
addBook :: Book -> AppM Book
addBook book = do
State{books = p} <- ask
liftIO $ atomically $ readTVar p >>= writeTVar p . (book :)
return book
```
...and transform `AppM` to `Handler` by simply using `runReaderT`
``` haskell
nt :: State -> AppM a -> Handler a
nt s x = runReaderT x s
app :: State -> Application
app s = serve api $ hoistServer api (nt s) server
```
Finally, we end up with the following program
``` haskell
main :: IO ()
main = do
let port = 8080
mgr <- newManager defaultManagerSettings
initialBooks <- atomically $ newTVar []
let runApp = run port $ app $ State initialBooks
bracket (forkIO runApp) killThread $ \_ -> do
let getBooksClient :<|> addBookClient = client api
let printBooks = getBooksClient >>= liftIO . print
_ <- flip runClientM (mkClientEnv mgr (BaseUrl Http "localhost" port "")) $ do
_ <- printBooks
_ <- addBookClient $ Book "Harry Potter and the Order of the Phoenix"
_ <- printBooks
_ <- addBookClient $ Book "To Kill a Mockingbird"
_ <- printBooks
_ <- addBookClient $ Book "The Picture of Dorian Gray"
printBooks
return ()
```
When run, it outputs the following:
```
Running cookbook-using-custom-monad...
[]
[Book "Harry Potter and the Order of the Phoenix"]
[Book "To Kill a Mockingbird",Book "Harry Potter and the Order of the Phoenix"]
[Book "The Picture of Dorian Gray",Book "To Kill a Mockingbird",Book "Harry Potter and the Order of the Phoenix"]
```
To use `Raw` endpoints, look at the
[servant-rawm](http://hackage.haskell.org/package/servant-rawm) package.