{-# LANGUAGE OverloadedStrings #-} module Generators ( source , integerScientific , rationalScientific , floatingScientific , classifyScientific ) where import Data.Ratio ((%)) import Data.Scientific (Scientific) import qualified Data.Scientific as Scientific import Hedgehog import qualified Hedgehog.Gen as Gen import qualified Source.Source source :: MonadGen m => Hedgehog.Range Int -> m Source.Source.Source source r = Gen.frequency [ (1, empty), (20, nonEmpty) ] where empty = pure mempty nonEmpty = Source.Source.fromUTF8 <$> Gen.utf8 r (Gen.frequency [ (1, pure '\r'), (1, pure '\n'), (20, Gen.unicode) ]) integerScientific :: MonadGen m => Hedgehog.Range Integer -> m Scientific integerScientific = fmap fromIntegral . Gen.integral rationalScientific :: MonadGen m => Hedgehog.Range Integer -> Hedgehog.Range Integer -> m Scientific rationalScientific nrange drange = do num <- Gen.integral nrange den <- Gen.integral drange let goodDen = if den == 0 then 1 else den let digitLimit = Just 25 case Scientific.fromRationalRepetend digitLimit (num % goodDen) of Left (sci, _) -> pure sci Right (sci, _) -> pure sci floatingScientific :: MonadGen m => Hedgehog.Range Double -> m Scientific floatingScientific = fmap Scientific.fromFloatDigits . Gen.double classifyScientific :: MonadTest m => Scientific -> m () classifyScientific sci = do classify "negative" $ sci < 0 classify "small" $ (sci > 0 && sci <= 1) classify "medium" $ (sci > 1 && sci <= 10000) classify "large" $ sci > 10000