{-# OPTIONS_GHC -fno-warn-redundant-constraints #-} {-# OPTIONS_GHC -fno-warn-orphans #-} module Hasura.Prelude ( module M , alphabet , alphaNumerics , onNothing , onJust , onLeft , whenMaybe , choice , afold , bsToTxt , txtToBs , base64Decode , spanMaybeM , liftEitherM , hoistMaybe , tshow -- * Efficient coercions , coerce , findWithIndex , mapFromL , oMapFromL -- * Measuring and working with moments and durations , withElapsedTime , startTimer , module Data.Time.Clock.Units ) where import Control.Applicative as M (Alternative (..), liftA2) import Control.Arrow as M (first, second, (&&&), (***), (<<<), (>>>)) import Control.DeepSeq as M (NFData, deepseq, force) import Control.Lens as M (ix, (%~)) import Control.Monad.Base as M import Control.Monad.Except as M import Control.Monad.Identity as M import Control.Monad.Reader as M import Control.Monad.State.Strict as M import Control.Monad.Trans.Maybe as M (MaybeT (..)) import Control.Monad.Writer.Strict as M (MonadWriter (..), WriterT (..), execWriterT, runWriterT) import Data.Align as M (Semialign (align, alignWith)) import Data.Bool as M (bool) import Data.Data as M (Data (..)) import Data.Either as M (lefts, partitionEithers, rights) import Data.Foldable as M (asum, fold, foldrM, for_, toList, traverse_) import Data.Function as M (on, (&)) import Data.Functor as M (($>), (<&>)) import Data.Hashable as M (Hashable) import Data.HashMap.Strict as M (HashMap) import Data.HashMap.Strict.InsOrd as M (InsOrdHashMap) import Data.HashSet as M (HashSet) import Data.List as M (find, findIndex, foldl', group, intercalate, intersect, lookup, sort, sortBy, sortOn, union, unionBy, (\\)) import Data.List.NonEmpty as M (NonEmpty (..), nonEmpty) import Data.Maybe as M (catMaybes, fromMaybe, isJust, isNothing, listToMaybe, mapMaybe, maybeToList) import Data.Monoid as M (getAlt) import Data.Ord as M (comparing) import Data.Semigroup as M (Semigroup (..)) import Data.Sequence as M (Seq) import Data.Sequence.NonEmpty as M (NESeq) import Data.String as M (IsString) import Data.Text as M (Text) import Data.These as M (These (..), fromThese, mergeThese, mergeTheseWith, partitionThese, these) import Data.Time.Clock.Units import Data.Traversable as M (for) import Data.Void as M (Void, absurd) import Data.Word as M (Word64) import GHC.Generics as M (Generic) import Prelude as M hiding (fail, init, lookup) import Test.QuickCheck.Arbitrary.Generic as M import Text.Read as M (readEither, readMaybe) import qualified Data.ByteString as B import qualified Data.ByteString.Base64.Lazy as Base64 import qualified Data.ByteString.Lazy as BL import Data.Coerce import qualified Data.HashMap.Strict as Map import qualified Data.HashMap.Strict.InsOrd as OMap import qualified Data.Text as T import qualified Data.Text.Encoding as TE import qualified Data.Text.Encoding.Error as TE import qualified GHC.Clock as Clock import qualified Test.QuickCheck as QC alphabet :: String alphabet = ['a'..'z'] ++ ['A'..'Z'] alphaNumerics :: String alphaNumerics = alphabet ++ "0123456789" instance Arbitrary Text where arbitrary = T.pack <$> QC.listOf (QC.elements alphaNumerics) onNothing :: Applicative m => Maybe a -> m a -> m a onNothing m act = maybe act pure m onJust :: Applicative m => Maybe a -> (a -> m ()) -> m () onJust m action = maybe (pure ()) action m onLeft :: Applicative m => Either e a -> (e -> m a) -> m a onLeft e f = either f pure e whenMaybe :: Applicative m => Bool -> m a -> m (Maybe a) whenMaybe True = fmap Just whenMaybe False = const $ pure Nothing choice :: Alternative f => [f a] -> f a choice = asum afold :: (Foldable t, Alternative f) => t a -> f a afold = getAlt . foldMap pure bsToTxt :: B.ByteString -> Text bsToTxt = TE.decodeUtf8With TE.lenientDecode txtToBs :: Text -> B.ByteString txtToBs = TE.encodeUtf8 base64Decode :: Text -> BL.ByteString base64Decode = Base64.decodeLenient . BL.fromStrict . txtToBs -- Like `liftEither`, but accepts a monadic action liftEitherM :: MonadError e m => m (Either e a) -> m a liftEitherM action = action >>= liftEither -- Like 'span', but monadic and with a function that produces 'Maybe' instead of 'Bool' spanMaybeM :: (Foldable f, Monad m) => (a -> m (Maybe b)) -> f a -> m ([b], [a]) spanMaybeM f = go . toList where go [] = pure ([], []) go l@(x:xs) = f x >>= \case Just y -> first (y:) <$> go xs Nothing -> pure ([], l) findWithIndex :: (a -> Bool) -> [a] -> Maybe (a, Int) findWithIndex p l = do v <- find p l i <- findIndex p l pure (v, i) -- TODO (from master): Move to Data.HashMap.Strict.Extended; rename to fromListWith? mapFromL :: (Eq k, Hashable k) => (a -> k) -> [a] -> Map.HashMap k a mapFromL f = Map.fromList . map (\v -> (f v, v)) oMapFromL :: (Eq k, Hashable k) => (a -> k) -> [a] -> InsOrdHashMap k a oMapFromL f = OMap.fromList . map (\v -> (f v, v)) -- | Time an IO action, returning the time with microsecond precision. The -- result of the input action will be evaluated to WHNF. -- -- The result 'DiffTime' is guarenteed to be >= 0. withElapsedTime :: MonadIO m => m a -> m (DiffTime, a) withElapsedTime ma = do bef <- liftIO Clock.getMonotonicTimeNSec !a <- ma aft <- liftIO Clock.getMonotonicTimeNSec let !dur = nanoseconds $ fromIntegral (aft - bef) return (dur, a) -- | Start timing and return an action to return the elapsed time since 'startTimer' was called. -- -- @ -- timer <- startTimer -- someStuffToTime -- elapsed <- timer -- moreStuff -- elapsedBoth <- timer -- @ startTimer :: (MonadIO m, MonadIO n) => m (n DiffTime) startTimer = do !bef <- liftIO Clock.getMonotonicTimeNSec return $ do aft <- liftIO Clock.getMonotonicTimeNSec return $ nanoseconds $ fromIntegral (aft - bef) -- copied from http://hackage.haskell.org/package/errors-2.3.0/docs/src/Control.Error.Util.html#hoistMaybe hoistMaybe :: (Monad m) => Maybe b -> MaybeT m b hoistMaybe = MaybeT . return tshow :: Show a => a -> Text tshow = T.pack . show