purescript-httpurple/docs/Differences.md
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Differences to HTTPure

HTTPurple 🪁 is a fork of HTTPure that I started to freely experiment with some ideas I have on improving the usage experience. Currently I have no intentions on back-porting any of it to HTTPure, as I don't have the time for it and also don't want to restrict myself.

If you have used HTTPure before, you'll probably want to go through the following changes to get started using HTTPurple 🪁:

Routing-duplex

The most notable difference to HTTPure is that HTTPurple 🪁 uses the amazing routing-duplex library for routing. I found the previous lookup-based routing tedious to work with, especially when having more complex routes, and quite error-prone, especially if you need reverse-routing for redirects.

routing-duplex offers an elegant bidirectional routing which was initially designed for SPAs. Have a look at the really extensive documentation. The benefits of using routing-duplex are

  • Much simpler and less tedious definition of routes
  • Roundtrip printing/parsing of routes, so no more invalid redirects
  • Exhaustive pattern matching so you are sure to match all defined routes
  • Option to separate routes into logical groups

Here is a bit more elaborated examples:

module Main where

import Prelude hiding ((/))

import Data.Either (Either(..))
import Data.Generic.Rep (class Generic)
import Data.Maybe (Maybe(..))
import Data.Tuple (Tuple(..))
import HTTPurple

data Route
  = Home
  | Profile String
  | Account String
  | Search { q :: String, sorting :: Maybe Sort }
derive instance Generic Route _

data Sort = Asc | Desc
derive instance Generic Sort _

sortToString :: Sort -> String
sortToString = case _ of
  Asc -> "asc"
  Desc -> "desc"

sortFromString :: String -> Either String Sort
sortFromString = case _ of
  "asc" -> Right Asc
  "desc" -> Right Desc
  val -> Left $ "Not a sort: " <> val

sort :: RouteDuplex' String -> RouteDuplex' Sort
sort = as sortToString sortFromString

api :: RouteDuplex' Route
api = mkRoute
  { "Home": noArgs
  , "Profile": "profile" / string segment
  , "Account": "account" / string segment
  , "Search": "search" ? { q: string, sorting: optional <<< sort }
  }

main :: ServerM
main = serve { port: 8080 } { route: api, router: apiRouter }
  where

  apiRouter { route: Home } = ok "hello world!"
  apiRouter { route: Profile profile } = ok $ "hello " <> profile <> "!"
  apiRouter { route: Account account } = found' redirect ""
    where
    reverseRoute = print api $ Profile account
    redirect = headers [ Tuple "Location" reverseRoute ]
  apiRouter { route: Search { q, sorting } } = ok $ "searching for query " <> q <> " " <> case sorting of
    Just Asc -> "ascending"
    Just Desc -> "descending"
    Nothing -> "defaulting to ascending"

Startup options

HTTPurple 🪁 greatly simplifies the startup options and functions. The serve, serve', serveSecure and serveSecure' have been merged into a single function serve that accepts listen options as the first parameter and uses sane defaults if you don't provide any.

The easiest way to start a server is to provide just the route and a router:

main :: ServerM
main =
  serve {} { route, router }

This will spin up the http server with sane defaults.

HTTPurple 🪁 up and running on http://0.0.0.0:8080

But you can overwrite any of the optional properties like this

main :: ServerM
main =
  serve {
    hostname: "localhost"
  , port: 9000
  , certFile: "./Certificate.cer"
  , keyFile: "./Key.key"
  , notFoundHandler
  , onStarted: log "Server started 🚀"
  , closingHandler: NoClosingHandler
  } { route, router }
  where
  notFoundHandler :: Request Unit -> ResponseM
  notFoundHandler = const $ ok "Nothing to see here"

Request parsing and validation

HTTPurple 🪁 makes request parsing and validation super simple. My typical http service scenario looks like this:

  1. Parse the request json and return a bad request if the request body doesn't contain the valid json format
  2. Validate the json input semanticall and transform it into some kind of internal model. Return bad request (with some error code) in case it is invalid.
  3. Do something with the request
  4. Return the output as a json

HTTPurple 🪁 uses continuations to make this standard scenario straight-forward (see example below).

Furthermore, HTTPurple 🪁 doesn't mandate a json parsing library. So you can use argonaut using the argonaut-driver, use yoga-json using the yoga-json-driver or write your own json driver.

Here is an example how that looks like:

apiRouter { route: Home, method: Post, body } = usingCont do
    req@{ name } :: HelloWorldRequest <- fromJson Argonaut.jsonDecoder body
    ok $ "hello " <> name <> "!"

In case fromJson succeeds, the next step will be executed, otherwise a 400 bad request is returned.

Other improvmenets

  • Default closing handler - A default closing handler is provided so you can just stop your server using ctrl+x without having to worry about anything. You can deactivate it by setting closingHandler: NoClosingHandler in the listen options.

Hot module reloading

With HTTPurple 🪁 you can easily set up a hot module reloading workflow:

Create an index.js with the content:

import * as Main from './output/Main/index.js'
Main.main()

Add to package.json:

  ...
  "scripts": {
      "hot": "spago build -w & nodemon \"node index.js\""
    },
  "type": "module",
  ...

Spin up:

npm run hot

Develop:

HTTPurple 🪁 up and running on http://0.0.0.0:8080
[nodemon] restarting due to changes...
[nodemon] restarting due to changes...
[nodemon] starting `node "node index.js" index.js`
HTTPurple 🪁 up and running on http://0.0.0.0:8080
[nodemon] restarting due to changes...
[nodemon] restarting due to changes...
[nodemon] starting `node "node index.js" index.js`
HTTPurple 🪁 up and running on http://0.0.0.0:8080