bishbosh-0.1.1.0: src-test/BishBosh/Test/QuickCheck/Cartesian/Vector.hs
{-# OPTIONS_GHC -fno-warn-orphans #-}
{-
Copyright (C) 2018 Dr. Alistair Ward
This file is part of BishBosh.
BishBosh is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
BishBosh is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with BishBosh. If not, see <http://www.gnu.org/licenses/>.
-}
{- |
[@AUTHOR@] Dr. Alistair Ward
[@DESCRIPTION@] Implements 'Test.QuickCheck.Arbitrary' & defines /QuickCheck/-properties.
-}
module BishBosh.Test.QuickCheck.Cartesian.Vector(
-- * Constants
results
) where
import Control.Arrow((&&&), (***))
import qualified BishBosh.Cartesian.Abscissa as Cartesian.Abscissa
import qualified BishBosh.Cartesian.Coordinates as Cartesian.Coordinates
import qualified BishBosh.Cartesian.Ordinate as Cartesian.Ordinate
import qualified BishBosh.Cartesian.Vector as Cartesian.Vector
import qualified BishBosh.Property.Opposable as Property.Opposable
import qualified BishBosh.Property.Orientated as Property.Orientated
import qualified BishBosh.Test.QuickCheck.Cartesian.Coordinates as Test.QuickCheck.Cartesian.Coordinates
import qualified BishBosh.Type.Length as Type.Length
import qualified Test.QuickCheck
import Test.QuickCheck((==>))
instance (Num distance, Ord distance) => Test.QuickCheck.Arbitrary (Cartesian.Vector.Vector distance) where
-- {-# SPECIALISE instance Test.QuickCheck.Arbitrary Cartesian.Vector.VectorInt #-}
arbitrary = do
source <- Test.QuickCheck.arbitrary :: Test.QuickCheck.Gen Test.QuickCheck.Cartesian.Coordinates.Coordinates
destination <- Test.QuickCheck.suchThat Test.QuickCheck.arbitrary (/= source)
return {-to Gen-monad-} $ Cartesian.Vector.measureDistance source destination
-- | The constant test-results for this data-type.
results :: IO [Test.QuickCheck.Result]
results = sequence [
let
f :: Cartesian.Vector.VectorInt -> Test.QuickCheck.Property
f = Test.QuickCheck.label "Vector.prop_getOpposite" . uncurry (==) . (Property.Opposable.getOpposite . Property.Opposable.getOpposite &&& id)
in Test.QuickCheck.quickCheckWithResult Test.QuickCheck.stdArgs { Test.QuickCheck.maxSuccess = 64 } f,
let
f :: Cartesian.Vector.VectorInt -> Test.QuickCheck.Property
f = Test.QuickCheck.label "Vector.prop_orthogonal" . not . uncurry (&&) . (Property.Orientated.isDiagonal &&& Property.Orientated.isParallel)
in Test.QuickCheck.quickCheckWithResult Test.QuickCheck.stdArgs { Test.QuickCheck.maxSuccess = 256 } f,
let
f :: Cartesian.Vector.VectorInt -> Test.QuickCheck.Property
f vector = not (Property.Orientated.isStraight vector) ==> Test.QuickCheck.label "Vector.prop_straight" . not . uncurry (||) $ (Property.Orientated.isDiagonal &&& Property.Orientated.isParallel) vector
in Test.QuickCheck.quickCheckWithResult Test.QuickCheck.stdArgs { Test.QuickCheck.maxSuccess = 64 } f,
let
f :: (Type.Length.Distance, Type.Length.Distance) -> Test.QuickCheck.Cartesian.Coordinates.Coordinates -> Test.QuickCheck.Property
f (distanceX, distanceY) coordinates = Test.QuickCheck.label "Vector.prop_maybeTranslate" $ Cartesian.Coordinates.maybeTranslate (deltaX *** deltaY) coordinates == (
Cartesian.Coordinates.maybeTranslateX deltaX coordinates >>= Cartesian.Coordinates.maybeTranslateY deltaY
) where
deltaX :: Type.Length.X -> Type.Length.X
deltaX = (
+ fromIntegral (
(distanceX `mod` Cartesian.Abscissa.xLength) - (Cartesian.Abscissa.xLength `div` 2)
)
)
deltaY :: Type.Length.Y -> Type.Length.Y
deltaY = (
+ fromIntegral (
(distanceY `mod` Cartesian.Ordinate.yLength) - (Cartesian.Ordinate.yLength `div` 2)
)
)
in Test.QuickCheck.quickCheckWithResult Test.QuickCheck.stdArgs { Test.QuickCheck.maxSuccess = 256 } f,
let
f :: Test.QuickCheck.Cartesian.Coordinates.Coordinates -> Test.QuickCheck.Cartesian.Coordinates.Coordinates -> Test.QuickCheck.Property
f source destination = Test.QuickCheck.label "Vector.prop_measureDistance => translate" $ Cartesian.Vector.translate source (
Cartesian.Vector.measureDistance source destination :: Cartesian.Vector.VectorInt
) == destination
in Test.QuickCheck.quickCheckWithResult Test.QuickCheck.stdArgs { Test.QuickCheck.maxSuccess = 64 } f,
let
f :: Test.QuickCheck.Cartesian.Coordinates.Coordinates -> Test.QuickCheck.Cartesian.Coordinates.Coordinates -> Test.QuickCheck.Property
f source destination = Test.QuickCheck.label "Vector.prop_translate" $ Cartesian.Vector.measureDistance source destination == Property.Opposable.getOpposite (
Cartesian.Vector.measureDistance destination source :: Cartesian.Vector.VectorInt
)
in Test.QuickCheck.quickCheckWithResult Test.QuickCheck.stdArgs { Test.QuickCheck.maxSuccess = 64 } f
]