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{-# LANGUAGE ApplicativeDo #-}
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module Xanthous.Data.EntityMapSpec where
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import Test.Prelude
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import qualified Data.Aeson as JSON
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import Xanthous.Data.EntityMap
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main :: IO ()
main = defaultMain test
test :: TestTree
test = localOption (QuickCheckTests 20)
$ testGroup "Xanthous.Data.EntityMap"
[ testBatch $ monoid @(EntityMap Int) mempty
, testGroup "Deduplicate"
[ testGroup "Semigroup laws"
[ testProperty "associative" $ \(a :: Deduplicate (EntityMap Int)) b c ->
a <> (b <> c) === (a <> b) <> c
]
]
, testGroup "Eq laws"
[ testProperty "reflexivity" $ \(em :: EntityMap Int) ->
em == em
, testProperty "symmetric" $ \(em₁ :: EntityMap Int) em₂ ->
(em₁ == em₂) == (em₂ == em₁)
, testProperty "transitive" $ \(em₁ :: EntityMap Int) em₂ em₃ ->
if (em₁ == em₂ && em₂ == em₃)
then (em₁ == em₃)
else True
]
, testGroup "JSON encoding/decoding"
[ testProperty "round-trips" $ \(em :: EntityMap Int) ->
let em' = JSON.decode (JSON.encode em)
in counterexample (show (em' ^? _Just . lastID, em ^. lastID
, em' ^? _Just . byID == em ^. byID . re _Just
, em' ^? _Just . byPosition == em ^. byPosition . re _Just
, em' ^? _Just . _EntityMap == em ^. _EntityMap . re _Just
))
$ em' === Just em
, testProperty "Preserves IDs" $ \(em :: EntityMap Int) ->
let Just em' = JSON.decode $ JSON.encode em
in toEIDsAndPositioned em' === toEIDsAndPositioned em
]
]
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