You can keep reading here or jump to my blog to get the full experience, including the wonderful pink, blue and white palette.
When learning how to jump with the snowboard, my trainer used to say: "you need to take a lot of air". In other words, if you want to learn how to jump, you need to jump a lot.
Functional programming is a skill like many others. Thus, we need to do a lot of it to get fluent with the paradigm. This is difficult since most of us at work do object oriented programming.
Recently, at Monadic Party somebody told me that a good trick to do functional at work is to write scripts. I would have never considered Haskell or PureScript as scripting languages. Turns out it's not only easy to do, but also a great idea to do more FP.
In this post, we are gonna see the setup needed to write scripts in both Haskell and PureScript. Also, we are gonna take a look at the Haskell script I wrote at Monadic Party to test the idea.
Haskell Stack Scripting
As the website puts it
Stack is a cross-platform program for developing Haskell projects
The best thing is that Stack provides an interpreter for scripts.
The "Hello, World!" would be
#!/usr/bin/env stack
{- stack
script
--resolver lts-13.27
-}
main :: IO ()
main = putStrLn "Hello, World!"
That can be run with
chmod +x MY_SCRIPT
./MY_SCRIPT
# Hello, World!
It's possible to import packages as any other Haskell program. For example, the following script uses directory to do something similar to ls in Bash:
#!/usr/bin/env stack
{- stack
script
--resolver lts-13.27
--package directory
-}
import Data.List (intercalate)
import System.Directory (listDirectory)
main :: IO ()
main = do
entries <- listDirectory "."
putStrLn $ intercalate " " entries
PureScript Scripting
Since PureScript compiles to JavaScript we can use Node as our interpreter. First, we scaffold a PureScript project with pulp init
mkdir MY_SCRIPT_DIR && cd MY_SCRIPT_DIR
pulp init
That generates a src/Main.purs that looks like
module Main where
import Prelude
import Effect (Effect)
import Effect.Console (log)
main :: Effect Unit
main = do
log "Hello sailor!"
Then we can compile to a Node file with
pulp build --to output/index.js
And interpret the file with node
node output/index.js
# Hello sailor!
Alternatively we can create a small shim and interpret it with the node interpreter
echo '#!/usr/bin/env node\n\nrequire("./output/index.js");' > MY_SCRIPT
chmod +x MY_SCRIPT
./MY_SCRIPT
# Hello sailor!
The ls script in PureScript uses two additional packages that we can install with
bower install --save purescript-node-fs
bower install --save purescript-strings
and looks like
module Main where
import Prelude
import Effect (Effect)
import Effect.Console (log)
import Node.FS.Sync (readdir)
import Data.String.Common (joinWith)
main :: Effect Unit
main = do
entries <- readdir "."
log $ joinWith " " entries
The downside of scripting with PureScript is that we need to keep around the entire "project" directory. With Stack there's only the script file to take care of.
A non-trivial Haskell Stack Script
#!/usr/bin/env stack
{- stack
script
--resolver nightly-2019-06-20
--package directory
--package req
--package text
--package aeson
--package process
--package parsec
--package filepath
--package unix
-}
-- This script creates a Brewfile using `brew bundle dump`
-- and adds to that all the apps installed in `/Applications`
-- that can be installed via HomeBrew as casks.
-- Later you can use `brew bundle` to install or upgrade
-- all dependencies listed in the Brewfile.
-- It can be useful to restore the same packages and apps
-- on a different Mac.
{-# LANGUAGE DeriveGeneric #-}
{-# LANGUAGE FlexibleContexts #-}
import System.Directory
import Data.Char
import Network.HTTP.Req
import qualified Data.Text as T
import Control.Monad.IO.Class
import GHC.Generics
import Data.Aeson
import Data.List
import System.Process
import Text.Parsec
import System.FilePath.Posix
import System.Posix.Files
import System.Exit
import Control.Monad
data Package =
Package { name :: [String] } deriving (Generic, Show)
data BrewfileLine
= Tap String
| Brew String
| Cask String
deriving (Eq)
instance Show BrewfileLine where
show (Tap s) = "tap \"" <> s <> "\""
show (Brew s) = "brew \"" <> s <> "\""
show (Cask s) = "cask \"" <> s <> "\""
instance Ord BrewfileLine where
(<=) (Tap s1) (Tap s2) = fmap toLower s1 <= fmap toLower s2
(<=) (Tap _) _ = True
(<=) (Brew s1) (Brew s2) = fmap toLower s1 <= fmap toLower s2
(<=) (Brew _) _ = True
(<=) (Cask s1) (Cask s2) = fmap toLower s1 <= fmap toLower s2
(<=) (Cask _) _ = False
instance ToJSON Package where
toEncoding = genericToEncoding defaultOptions
instance FromJSON Package
data Response =
Response [Package] deriving (Generic, Show)
instance ToJSON Response where
toEncoding = genericToEncoding defaultOptions
instance FromJSON Response
main :: IO ()
main = do
doesBrewfileExist <- fileExist "Brewfile"
when doesBrewfileExist $ die "Brewfile already exists! Aborted."
installed <- getInstalledApps
installable <- fetchInstallableAppsWithBrew
let casks = installed `intersect` installable
lines <- getBrewDumpLines
let all = union casks <$> lines
either
(die . show)
(writeBrewfile >=> \_ -> putStrLn "Brewfile generated!")
all
getInstalledApps :: IO [BrewfileLine]
getInstalledApps = do
filePaths <- listDirectory "/Applications"
let names = takeBaseName <$> filePaths
pure $ Cask <$> names
fetchInstallableAppsWithBrew :: IO [BrewfileLine]
fetchInstallableAppsWithBrew = runReq defaultHttpConfig $ do
res <- req
GET
(https (T.pack "formulae.brew.sh") /: (T.pack "api") /: (T.pack "cask.json"))
NoReqBody
jsonResponse
mempty
pure $ fmap Cask $ unNames $ (responseBody res :: Response)
unNames :: Response -> [String]
unNames (Response xs) = unName <$> xs
unName :: Package -> String
unName (Package name) = head name
writeBrewfile :: [BrewfileLine] -> IO ()
writeBrewfile lines = do
let lines' = unlines $ fmap show $ sort $ nub lines
writeFile "Brewfile" lines'
getBrewDumpLines :: IO (Either ParseError [BrewfileLine])
getBrewDumpLines = do
out <- readProcess "brew" ["bundle", "dump", "--file=/dev/stdout"] []
pure $ parse brewfileParser "" out
brewfileParser :: Stream s m Char => ParsecT s u m [BrewfileLine]
brewfileParser = endBy1 brewfileLine $ char '\n'
brewfileLine :: Stream s m Char => ParsecT s u m BrewfileLine
brewfileLine = brewfileLine' "tap" Tap <|> brewfileLine' "brew" Brew <|> brewfileLine' "cask" Cask
brewfileLine' :: Stream s m Char => String -> (String -> BrewfileLine) -> ParsecT s u m BrewfileLine
brewfileLine' prefix constructor = do
string $ prefix <> " "
name <- quoted
pure $ constructor name
quote :: Stream s m Char => ParsecT s u m Char
quote = char '"'
quoted :: Stream s m Char => ParsecT s u m String
quoted = between quote quote (many1 $ noneOf "\"")
Outro
Special thanks to Justin from whom I blatantly copied half of this post. Be sure to check his (Write a simple CLI in PureScript)[https://qiita.com/kimagure/items/39b26642b89bd87bf177].
Get the latest content via email from me personally. Reply with your thoughts. Let's learn from each other. Subscribe to my PinkLetter!
Oldest comments (0)