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+{-# LANGUAGE ImplicitParams #-}
+{-# LANGUAGE LambdaCase #-}
+{-# LANGUAGE MagicHash #-}
+{-# LANGUAGE OverloadedStrings #-}
+{-# LANGUAGE PolyKinds #-}
+{-# LANGUAGE RankNTypes #-}
+{-# LANGUAGE ScopedTypeVariables #-}
+
+module MyPrelude
+  ( -- * Text conversions
+    Text,
+    ByteString,
+    Word8,
+    fmt,
+    textToString,
+    stringToText,
+    showToText,
+    textToBytesUtf8,
+    textToBytesUtf8Lazy,
+    bytesToTextUtf8,
+    bytesToTextUtf8Lazy,
+    bytesToTextUtf8Lenient,
+    bytesToTextUtf8LenientLazy,
+    bytesToTextUtf8Unsafe,
+    bytesToTextUtf8UnsafeLazy,
+    toStrict,
+    toLazy,
+    toStrictBytes,
+    toLazyBytes,
+    charToWordUnsafe,
+
+    -- * IO
+    putStrLn,
+    putStderrLn,
+    exitWithMessage,
+
+    -- * WIP code
+    todo,
+
+    -- * Control flow
+    (&),
+    (<&>),
+    (<|>),
+    foldMap1,
+    foldMap',
+    join,
+    when,
+    unless,
+    guard,
+    ExceptT,
+    runExceptT,
+    MonadError,
+    throwError,
+    MonadIO,
+    liftIO,
+    MonadReader,
+    asks,
+    Bifunctor,
+    first,
+    second,
+    bimap,
+    foldMap,
+    fold,
+    foldl',
+    mapMaybe,
+    findMaybe,
+    Traversable,
+    for,
+    for_,
+    traverse,
+    traverse_,
+    traverseFold,
+    traverseFold1,
+    traverseFoldDefault,
+
+    -- * Data types
+    Coercible,
+    coerce,
+    Proxy (Proxy),
+    Map,
+    annotate,
+    Validation (Success, Failure),
+    failure,
+    successes,
+    failures,
+    eitherToValidation,
+    eitherToListValidation,
+    validationToEither,
+    These (This, That, These),
+    eitherToThese,
+    eitherToListThese,
+    validationToThese,
+    thenThese,
+    thenValidate,
+    NonEmpty ((:|)),
+    singleton,
+    nonEmpty,
+    nonEmptyDef,
+    toList,
+    toNonEmptyDefault,
+    maximum1,
+    minimum1,
+    Generic,
+    Semigroup,
+    sconcat,
+    Monoid,
+    mconcat,
+    Void,
+    absurd,
+    Identity (Identity, runIdentity),
+    Natural,
+    intToNatural,
+    Contravariant,
+    contramap,
+    (>$<),
+    (>&<),
+    Profunctor,
+    dimap,
+    lmap,
+    rmap,
+    Semigroupoid,
+    Category,
+    (<<<),
+    (>>>),
+
+    -- * Enum definition
+    inverseFunction,
+    inverseMap,
+
+    -- * Error handling
+    HasCallStack,
+    module Data.Error,
+    smushErrors,
+  )
+where
+
+import Control.Applicative ((<|>))
+import Control.Category (Category, (<<<), (>>>))
+import Control.Monad (guard, join, unless, when)
+import Control.Monad.Except
+  ( ExceptT,
+    MonadError,
+    runExceptT,
+    throwError,
+  )
+import Control.Monad.IO.Class (MonadIO, liftIO)
+import Control.Monad.Identity (Identity (Identity))
+import Control.Monad.Reader (MonadReader, asks)
+import Data.Bifunctor (Bifunctor, bimap, first, second)
+import Data.ByteString
+  ( ByteString,
+  )
+import qualified Data.ByteString.Lazy
+import qualified Data.Char
+import Data.Coerce (Coercible, coerce)
+import Data.Data (Proxy (Proxy))
+import Data.Error
+import Data.Foldable (Foldable (foldMap', toList), fold, foldl', for_, traverse_)
+import qualified Data.Foldable as Foldable
+import Data.Function ((&))
+import Data.Functor ((<&>))
+import Data.Functor.Contravariant (Contravariant (contramap), (>$<))
+import Data.Functor.Identity (Identity (runIdentity))
+import Data.List.NonEmpty (NonEmpty ((:|)), nonEmpty)
+import Data.Map.Strict
+  ( Map,
+  )
+import qualified Data.Map.Strict as Map
+import Data.Maybe (mapMaybe)
+import qualified Data.Maybe as Maybe
+import Data.Profunctor (Profunctor, dimap, lmap, rmap)
+import Data.Semigroup (Max (Max, getMax), Min (Min, getMin), sconcat)
+import Data.Semigroup.Foldable (Foldable1 (fold1), foldMap1)
+import Data.Semigroup.Traversable (Traversable1)
+import Data.Semigroupoid (Semigroupoid)
+import Data.Text
+  ( Text,
+  )
+import qualified Data.Text
+import qualified Data.Text.Encoding
+import qualified Data.Text.Encoding.Error
+import qualified Data.Text.Lazy
+import qualified Data.Text.Lazy.Encoding
+import Data.These (These (That, These, This))
+import Data.Traversable (for)
+import Data.Void (Void, absurd)
+import Data.Word (Word8)
+import GHC.Exception (errorCallWithCallStackException)
+import GHC.Exts (RuntimeRep, TYPE, raise#)
+import GHC.Generics (Generic)
+import GHC.Natural (Natural)
+import GHC.Stack (HasCallStack)
+import PyF (fmt)
+import qualified System.Exit
+import qualified System.IO
+import Validation
+  ( Validation (Failure, Success),
+    eitherToValidation,
+    failure,
+    failures,
+    successes,
+    validationToEither,
+  )
+
+-- | Forward-applying 'contramap', like '&'/'$' and '<&>'/'<$>' but for '>$<'.
+(>&<) :: Contravariant f => f b -> (a -> b) -> f a
+(>&<) = flip contramap
+
+infixl 5 >&<
+
+-- | encode a Text to a UTF-8 encoded Bytestring
+textToBytesUtf8 :: Text -> ByteString
+textToBytesUtf8 = Data.Text.Encoding.encodeUtf8
+
+-- | encode a lazy Text to a UTF-8 encoded lazy Bytestring
+textToBytesUtf8Lazy :: Data.Text.Lazy.Text -> Data.ByteString.Lazy.ByteString
+textToBytesUtf8Lazy = Data.Text.Lazy.Encoding.encodeUtf8
+
+bytesToTextUtf8 :: ByteString -> Either Error Text
+bytesToTextUtf8 = first exceptionToError . Data.Text.Encoding.decodeUtf8'
+
+bytesToTextUtf8Lazy :: Data.ByteString.Lazy.ByteString -> Either Error Data.Text.Lazy.Text
+bytesToTextUtf8Lazy = first exceptionToError . Data.Text.Lazy.Encoding.decodeUtf8'
+
+-- | decode a Text from a ByteString that is assumed to be UTF-8 (crash if that is not the case)
+bytesToTextUtf8Unsafe :: ByteString -> Text
+bytesToTextUtf8Unsafe = Data.Text.Encoding.decodeUtf8
+
+-- | decode a Text from a ByteString that is assumed to be UTF-8 (crash if that is not the case)
+bytesToTextUtf8UnsafeLazy :: Data.ByteString.Lazy.ByteString -> Data.Text.Lazy.Text
+bytesToTextUtf8UnsafeLazy = Data.Text.Lazy.Encoding.decodeUtf8
+
+-- | decode a Text from a ByteString that is assumed to be UTF-8,
+-- replace non-UTF-8 characters with the replacment char U+FFFD.
+bytesToTextUtf8Lenient :: Data.ByteString.ByteString -> Data.Text.Text
+bytesToTextUtf8Lenient =
+  Data.Text.Encoding.decodeUtf8With Data.Text.Encoding.Error.lenientDecode
+
+-- | decode a lazy Text from a lazy ByteString that is assumed to be UTF-8,
+-- replace non-UTF-8 characters with the replacment char U+FFFD.
+bytesToTextUtf8LenientLazy :: Data.ByteString.Lazy.ByteString -> Data.Text.Lazy.Text
+bytesToTextUtf8LenientLazy =
+  Data.Text.Lazy.Encoding.decodeUtf8With Data.Text.Encoding.Error.lenientDecode
+
+-- | Make a lazy text strict
+toStrict :: Data.Text.Lazy.Text -> Text
+toStrict = Data.Text.Lazy.toStrict
+
+-- | Make a strict text lazy
+toLazy :: Text -> Data.Text.Lazy.Text
+toLazy = Data.Text.Lazy.fromStrict
+
+toStrictBytes :: Data.ByteString.Lazy.ByteString -> ByteString
+toStrictBytes = Data.ByteString.Lazy.toStrict
+
+toLazyBytes :: ByteString -> Data.ByteString.Lazy.ByteString
+toLazyBytes = Data.ByteString.Lazy.fromStrict
+
+textToString :: Text -> String
+textToString = Data.Text.unpack
+
+stringToText :: String -> Text
+stringToText = Data.Text.pack
+
+showToText :: (Show a) => a -> Text
+showToText = stringToText . show
+
+-- | Unsafe conversion between 'Char' and 'Word8'. This is a no-op and
+-- silently truncates to 8 bits Chars > '\255'. It is provided as
+-- convenience for ByteString construction.
+--
+-- Use if you want to get the 'Word8' representation of a character literal.
+-- Don’t use on arbitrary characters!
+--
+-- >>> charToWordUnsafe ','
+-- 44
+charToWordUnsafe :: Char -> Word8
+charToWordUnsafe = fromIntegral . Data.Char.ord
+{-# INLINE charToWordUnsafe #-}
+
+-- | Single element in a (non-empty) list.
+singleton :: a -> NonEmpty a
+singleton a = a :| []
+
+-- | If the given list is empty, use the given default element and return a non-empty list.
+nonEmptyDef :: a -> [a] -> NonEmpty a
+nonEmptyDef def xs =
+  xs & nonEmpty & \case
+    Nothing -> def :| []
+    Just ne -> ne
+
+-- | Construct a non-empty list, given a default value if the ist list was empty.
+toNonEmptyDefault :: a -> [a] -> NonEmpty a
+toNonEmptyDefault def xs = case xs of
+  [] -> def :| []
+  (x : xs') -> x :| xs'
+
+-- | @O(n)@. Get the maximum element from a non-empty structure.
+maximum1 :: (Foldable1 f, Ord a) => f a -> a
+maximum1 xs = xs & foldMap1 Max & getMax
+
+-- | @O(n)@. Get the minimum element from a non-empty structure.
+minimum1 :: (Foldable1 f, Ord a) => f a -> a
+minimum1 xs = xs & foldMap1 Min & getMin
+
+-- | Annotate a 'Maybe' with an error message and turn it into an 'Either'.
+annotate :: err -> Maybe a -> Either err a
+annotate err = \case
+  Nothing -> Left err
+  Just a -> Right a
+
+-- | Find the first element for which pred returns `Just a`, and return the `a`.
+--
+-- Example:
+-- @
+-- >>> :set -XTypeApplications
+-- >>> import qualified Text.Read
+--
+-- >>> findMaybe (Text.Read.readMaybe @Int) ["foo"]
+-- Nothing
+-- >>> findMaybe (Text.Read.readMaybe @Int) ["foo", "34.40", "34", "abc"]
+-- Just 34
+findMaybe :: Foldable t => (a -> Maybe b) -> t a -> Maybe b
+findMaybe mPred list =
+  let pred' x = Maybe.isJust $ mPred x
+   in case Foldable.find pred' list of
+        Just a -> mPred a
+        Nothing -> Nothing
+
+-- | Like 'eitherToValidation', but puts the Error side into a NonEmpty list
+-- to make it combine with other validations.
+eitherToListValidation :: Either a c -> Validation (NonEmpty a) c
+eitherToListValidation = first singleton . eitherToValidation
+
+-- | Convert an 'Either' to a 'These'.
+eitherToThese :: Either err a -> These err a
+eitherToThese (Left err) = This err
+eitherToThese (Right a) = That a
+
+-- | Like 'eitherToThese', but puts the Error side into a NonEmpty list
+-- to make it combine with other theses.
+eitherToListThese :: Either err a -> These (NonEmpty err) a
+eitherToListThese (Left e) = This (singleton e)
+eitherToListThese (Right a) = That a
+
+-- | Convert a 'Validation' to a 'These'.
+validationToThese :: Validation err a -> These err a
+validationToThese (Failure err) = This err
+validationToThese (Success a) = That a
+
+-- | Nested '>>=' of a These inside some other @m@.
+--
+-- Use if you want to collect errors and successes, and want to chain multiple function returning 'These'.
+thenThese ::
+  (Monad m, Semigroup err) =>
+  (a -> m (These err b)) ->
+  m (These err a) ->
+  m (These err b)
+thenThese f x = do
+  th <- x
+  join <$> traverse f th
+
+-- | Nested validating bind-like combinator inside some other @m@.
+--
+-- Use if you want to collect errors, and want to chain multiple functions returning 'Validation'.
+thenValidate ::
+  (Monad m) =>
+  (a -> m (Validation err b)) ->
+  m (Validation err a) ->
+  m (Validation err b)
+thenValidate f x =
+  eitherToValidation <$> do
+    x' <- validationToEither <$> x
+    case x' of
+      Left err -> pure $ Left err
+      Right a -> validationToEither <$> f a
+
+-- | Put the text to @stderr@.
+putStderrLn :: Text -> IO ()
+putStderrLn msg =
+  System.IO.hPutStrLn System.IO.stderr $ textToString msg
+
+exitWithMessage :: Text -> IO a
+exitWithMessage msg = do
+  putStderrLn msg
+  System.Exit.exitWith $ System.Exit.ExitFailure (-1)
+
+-- | Run some function producing applicative over a traversable data structure,
+-- then collect the results in a Monoid.
+--
+-- Very helpful with side-effecting functions returning @(Validation err a)@:
+--
+-- @
+-- let
+--   f :: Text -> IO (Validation (NonEmpty Error) Text)
+--   f t = pure $ if t == "foo" then Success t else Failure (singleton ("not foo: " <> t))
+--
+-- in traverseFold f [ "foo", "bar", "baz" ]
+--   == Failure ("not foo bar" :| ["not foo baz"])
+-- @
+--
+-- … since @(Semigroup err => Validation err a)@ is a @Semigroup@/@Monoid@ itself.
+traverseFold :: (Applicative ap, Traversable t, Monoid m) => (a -> ap m) -> t a -> ap m
+traverseFold f xs =
+  -- note: could be weakened to (Foldable t) via `getAp . foldMap (Ap . f)`
+  fold <$> traverse f xs
+{-# INLINE traverseFold #-}
+
+-- | Like 'traverseFold', but fold over a semigroup instead of a Monoid, by providing a starting element.
+traverseFoldDefault :: (Applicative ap, Traversable t, Semigroup m) => m -> (a -> ap m) -> t a -> ap m
+traverseFoldDefault def f xs = foldDef def <$> traverse f xs
+  where
+    foldDef = foldr (<>)
+{-# INLINE traverseFoldDefault #-}
+
+-- | Same as 'traverseFold', but with a 'Semigroup' and 'Traversable1' restriction.
+traverseFold1 :: (Applicative ap, Traversable1 t, Semigroup s) => (a -> ap s) -> t a -> ap s
+-- note: cannot be weakened to (Foldable1 t) because there is no `Ap` for Semigroup (No `Apply` typeclass)
+traverseFold1 f xs = fold1 <$> traverse f xs
+{-# INLINE traverseFold1 #-}
+
+-- | Use this in places where the code is still to be implemented.
+--
+-- It always type-checks and will show a warning at compile time if it was forgotten in the code.
+--
+-- Use instead of 'error' and 'undefined' for code that hasn’t been written.
+--
+-- Uses the same trick as https://hackage.haskell.org/package/protolude-0.3.0/docs/src/Protolude.Error.html#error
+{-# WARNING todo "'todo' (undefined code) remains in code" #-}
+todo :: forall (r :: RuntimeRep). forall (a :: TYPE r). HasCallStack => a
+todo = raise# (errorCallWithCallStackException "This code was not yet implemented: TODO" ?callStack)
+
+-- TODO: use a Text.Builder?
+
+-- | Pretty print a bunch of errors, on multiple lines, prefixed by the given message,
+-- then turn the result back into an 'Error'.
+--
+-- Example:
+--
+-- smushErrors "There was a problem with the frobl"
+--   [ (anyhow "frobz")
+--   , (errorContext "oh no" (anyhow "barz"))
+--   ]
+--
+-- ==>
+-- "There was a problem with the frobl\n\
+-- - frobz\n\
+-- - oh no: barz\n"
+-- @
+--
+-- TODO how do we make this compatible with/integrate it into the Error library?
+smushErrors :: Foldable t => Text -> t Error -> Error
+smushErrors msg errs =
+  errs
+    -- hrm, pretty printing and then creating a new error is kinda shady
+    & foldMap (\err -> "\n- " <> prettyError err)
+    & newError
+    & errorContext msg
+
+-- | Convert an integer to a 'Natural' if possible
+--
+-- Named the same as the function from "GHC.Natural", but does not crash.
+intToNatural :: Integral a => a -> Maybe Natural
+intToNatural i =
+  if i < 0
+    then Nothing
+    else Just $ fromIntegral i
+
+-- | @inverseFunction f@ creates a function that is the inverse of a given function
+-- @f@. It does so by constructing 'M.Map' internally for each value @f a@. The
+-- implementation makes sure that the 'M.Map' is constructed only once and then
+-- shared for every call.
+--
+-- __Memory usage note:__ don't inverse functions that have types like 'Int'
+-- as their result. In this case the created 'M.Map' will have huge size.
+--
+-- The complexity of reversed mapping is \(\mathcal{O}(\log n)\).
+--
+-- __Performance note:__ make sure to specialize monomorphic type of your functions
+-- that use 'inverseFunction' to avoid 'M.Map' reconstruction.
+--
+-- One of the common 'inverseFunction' use-case is inverting the 'show' or a 'show'-like
+-- function.
+--
+-- >>> data Color = Red | Green | Blue deriving (Show, Enum, Bounded)
+-- >>> parse = inverseFunction show :: String -> Maybe Color
+-- >>> parse "Red"
+-- Just Red
+-- >>> parse "Black"
+-- Nothing
+--
+-- __Correctness note:__ 'inverseFunction' expects /injective function/ as its argument,
+-- i.e. the function must map distinct arguments to distinct values.
+--
+-- Typical usage of this function looks like this:
+--
+-- @
+-- __data__ GhcVer
+--    = Ghc802
+--    | Ghc822
+--    | Ghc844
+--    | Ghc865
+--    | Ghc881
+--    __deriving__ ('Eq', 'Ord', 'Show', 'Enum', 'Bounded')
+--
+-- showGhcVer :: GhcVer -> 'Text'
+-- showGhcVer = \\__case__
+--    Ghc802 -> "8.0.2"
+--    Ghc822 -> "8.2.2"
+--    Ghc844 -> "8.4.4"
+--    Ghc865 -> "8.6.5"
+--    Ghc881 -> "8.8.1"
+--
+-- parseGhcVer :: 'Text' -> 'Maybe' GhcVer
+-- parseGhcVer = 'inverseFunction' showGhcVer
+--
+-- Taken from relude’s @Relude.Extra.Enum@.
+inverseFunction ::
+  forall a k.
+  (Bounded a, Enum a, Ord k) =>
+  (a -> k) ->
+  (k -> Maybe a)
+inverseFunction f k = Map.lookup k $ inverseMap f
+
+-- | Like `inverseFunction`, but instead of returning the function
+-- it returns a mapping from all possible outputs to their possible inputs.
+--
+-- This has the same restrictions of 'inverseFunction'.
+inverseMap ::
+  forall a k.
+  (Bounded a, Enum a, Ord k) =>
+  (a -> k) ->
+  Map k a
+inverseMap f =
+  universe
+    <&> (\a -> (f a, a))
+    & Map.fromList
+  where
+    universe :: (Bounded a, Enum a) => [a]
+    universe = [minBound .. maxBound]