connections-0.3.0: test/Test/Data/Connection/Ratio.hs
{-# LANGUAGE TemplateHaskell #-}
{-# LANGUAGE TypeApplications #-}
module Test.Data.Connection.Ratio where
import qualified Data.Connection.Property as Prop
import Data.Connection.Ratio
import Data.Fixed
import Data.Int
import Data.Order.Extended
import Data.Word
import GHC.Real hiding (Fractional (..), div, (^), (^^))
import Hedgehog
import qualified Hedgehog.Gen as G
import qualified Hedgehog.Range as R
import Numeric.Natural
import Test.Data.Connection
fxx :: Gen (Extended (Fixed k))
fxx = gen_extended $ MkFixed <$> G.integral ri'
prop_connection_ratf06 :: Property
prop_connection_ratf06 = withTests 1000 . property $ do
x <- forAll rat
x' <- forAll rat
y <- forAll fxx
y' <- forAll fxx
assert $ Prop.adjoint (ratfix @E6) x y
assert $ Prop.closed (ratfix @E6) x
assert $ Prop.kernel (ratfix @E6) y
assert $ Prop.monotonic (ratfix @E6) x x' y y'
assert $ Prop.idempotent (ratfix @E6) x y
prop_connection_ratf09 :: Property
prop_connection_ratf09 = withTests 1000 . property $ do
x <- forAll rat
x' <- forAll rat
y <- forAll fxx
y' <- forAll fxx
assert $ Prop.adjoint (ratfix @E9) x y
assert $ Prop.closed (ratfix @E9) x
assert $ Prop.kernel (ratfix @E9) y
assert $ Prop.monotonic (ratfix @E9) x x' y y'
assert $ Prop.idempotent (ratfix @E9) x y
prop_connection_ratf12 :: Property
prop_connection_ratf12 = withTests 1000 . property $ do
x <- forAll rat
x' <- forAll rat
y <- forAll fxx
y' <- forAll fxx
assert $ Prop.adjoint (ratfix @E12) x y
assert $ Prop.closed (ratfix @E12) x
assert $ Prop.kernel (ratfix @E12) y
assert $ Prop.monotonic (ratfix @E12) x x' y y'
assert $ Prop.idempotent (ratfix @E12) x y
prop_connection_ratf32 :: Property
prop_connection_ratf32 = withTests 1000 . property $ do
x <- forAll rat'
x' <- forAll rat'
y <- forAll f32
y' <- forAll f32
assert $ Prop.adjoint (ratf32) x y
assert $ Prop.closed (ratf32) x
assert $ Prop.kernel (ratf32) y
assert $ Prop.monotonic (ratf32) x x' y y'
assert $ Prop.idempotent (ratf32) x y
prop_connection_ratf64 :: Property
prop_connection_ratf64 = withTests 1000 . property $ do
x <- forAll rat'
x' <- forAll rat'
y <- forAll f64
y' <- forAll f64
assert $ Prop.adjoint (ratf64) x y
assert $ Prop.closed (ratf64) x
assert $ Prop.kernel (ratf64) y
assert $ Prop.monotonic (ratf64) x x' y y'
assert $ Prop.idempotent (ratf64) x y
prop_connection_rati08 :: Property
prop_connection_rati08 = withTests 1000 . property $ do
x <- forAll rat'
x' <- forAll rat'
y <- forAll $ gen_extended $ G.integral (ri @Int8)
y' <- forAll $ gen_extended $ G.integral (ri @Int8)
assert $ Prop.adjoint (rati08) x y
assert $ Prop.closed (rati08) x
assert $ Prop.kernel (rati08) y
assert $ Prop.monotonic (rati08) x x' y y'
assert $ Prop.idempotent (rati08) x y
prop_connection_rati16 :: Property
prop_connection_rati16 = withTests 1000 . property $ do
x <- forAll rat'
x' <- forAll rat'
y <- forAll $ gen_extended $ G.integral (ri @Int16)
y' <- forAll $ gen_extended $ G.integral (ri @Int16)
assert $ Prop.adjoint (rati16) x y
assert $ Prop.closed (rati16) x
assert $ Prop.kernel (rati16) y
assert $ Prop.monotonic (rati16) x x' y y'
assert $ Prop.idempotent (rati16) x y
prop_connection_rati32 :: Property
prop_connection_rati32 = withTests 1000 . property $ do
x <- forAll rat'
x' <- forAll rat'
y <- forAll $ gen_extended $ G.integral (ri @Int32)
y' <- forAll $ gen_extended $ G.integral (ri @Int32)
assert $ Prop.adjoint (rati32) x y
assert $ Prop.closed (rati32) x
assert $ Prop.kernel (rati32) y
assert $ Prop.monotonic (rati32) x x' y y'
assert $ Prop.idempotent (rati32) x y
prop_connection_rati64 :: Property
prop_connection_rati64 = withTests 1000 . property $ do
x <- forAll rat'
x' <- forAll rat'
y <- forAll $ gen_extended $ G.integral (ri @Int64)
y' <- forAll $ gen_extended $ G.integral (ri @Int64)
assert $ Prop.adjoint (rati64) x y
assert $ Prop.closed (rati64) x
assert $ Prop.kernel (rati64) y
assert $ Prop.monotonic (rati64) x x' y y'
assert $ Prop.idempotent (rati64) x y
prop_connection_ratint :: Property
prop_connection_ratint = withTests 1000 . property $ do
x <- forAll rat'
x' <- forAll rat'
y <- forAll $ gen_extended $ G.integral ri'
y' <- forAll $ gen_extended $ G.integral ri'
assert $ Prop.adjoint (ratint) x y
assert $ Prop.closed (ratint) x
assert $ Prop.kernel (ratint) y
assert $ Prop.monotonic (ratint) x x' y y'
assert $ Prop.idempotent (ratint) x y
prop_connection_posw08 :: Property
prop_connection_posw08 = withTests 1000 . property $ do
x <- forAll pos
x' <- forAll pos
y <- forAll $ gen_lowered $ G.integral (ri @Word8)
y' <- forAll $ gen_lowered $ G.integral (ri @Word8)
assert $ Prop.adjoint (posw08) x y
assert $ Prop.closed (posw08) x
assert $ Prop.kernel (posw08) y
assert $ Prop.monotonic (posw08) x x' y y'
assert $ Prop.idempotent (posw08) x y
prop_connection_posw16 :: Property
prop_connection_posw16 = withTests 1000 . property $ do
x <- forAll pos
x' <- forAll pos
y <- forAll $ gen_lowered $ G.integral (ri @Word16)
y' <- forAll $ gen_lowered $ G.integral (ri @Word16)
assert $ Prop.adjoint (posw16) x y
assert $ Prop.closed (posw16) x
assert $ Prop.kernel (posw16) y
assert $ Prop.monotonic (posw16) x x' y y'
assert $ Prop.idempotent (posw16) x y
prop_connection_posw32 :: Property
prop_connection_posw32 = withTests 1000 . property $ do
x <- forAll pos
x' <- forAll pos
y <- forAll $ gen_lowered $ G.integral (ri @Word32)
y' <- forAll $ gen_lowered $ G.integral (ri @Word32)
assert $ Prop.adjoint (posw32) x y
assert $ Prop.closed (posw32) x
assert $ Prop.kernel (posw32) y
assert $ Prop.monotonic (posw32) x x' y y'
assert $ Prop.idempotent (posw32) x y
prop_connection_posw64 :: Property
prop_connection_posw64 = withTests 1000 . property $ do
x <- forAll pos
x' <- forAll pos
y <- forAll $ gen_lowered $ G.integral (ri @Word64)
y' <- forAll $ gen_lowered $ G.integral (ri @Word64)
assert $ Prop.adjoint (posw64) x y
assert $ Prop.closed (posw64) x
assert $ Prop.kernel (posw64) y
assert $ Prop.monotonic (posw64) x x' y y'
assert $ Prop.idempotent (posw64) x y
prop_connection_posnat :: Property
prop_connection_posnat = withTests 1000 . property $ do
x <- forAll pos
x' <- forAll pos
y <- forAll $ gen_lowered $ G.integral rn
y' <- forAll $ gen_lowered $ G.integral rn
assert $ Prop.adjoint (posnat) x y
assert $ Prop.closed (posnat) x
assert $ Prop.kernel (posnat) y
assert $ Prop.monotonic (posnat) x x' y y'
assert $ Prop.idempotent (posnat) x y
tests :: IO Bool
tests = checkParallel $$(discover)