{-# OPTIONS_GHC -O -fplugin Test.Inspection.Plugin #-} {-# OPTIONS_GHC -dsuppress-all #-} {-# LANGUAGE AllowAmbiguousTypes #-} {-# LANGUAGE CPP #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE DuplicateRecordFields #-} {-# LANGUAGE ExistentialQuantification #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TypeApplications #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE OverloadedLabels #-} module Main where import GHC.Generics import Data.Generics.Product import Data.Generics.Sum import Test.Inspection import Test.HUnit import Util import System.Exit import Data.Generics.Internal.VL.Lens import Data.Generics.Internal.VL.Prism import Data.Generics.Internal.VL.Traversal import Control.Lens (_1, (+~)) import Data.Function ((&)) import Data.Generics.Labels () -- This is sufficient at we only want to test that they typecheck import Test24 () import Test25 () import CustomChildren (customTypesTest) main :: IO () main = do res <- runTestTT tests case errors res + failures res of 0 -> exitSuccess _ -> exitFailure data Record = MkRecord { fieldA :: Int , fieldB :: Bool } deriving Generic data Record2 = MkRecord2 { fieldA :: Int } deriving Generic data Record3 a = MkRecord3 { fieldA :: a , fieldB :: Bool } deriving (Generic, Show) data Record4 a = MkRecord4 { fieldA :: a , fieldB :: a } deriving (Generic1) data Record5 = MkRecord5 { fieldA :: Int , fieldB :: Int , fieldC :: String , fieldD :: Int , fieldE :: Char , fieldF :: Int } deriving Generic typeChangingManual :: Lens (Record3 a) (Record3 b) a b typeChangingManual f (MkRecord3 a b) = (\a' -> MkRecord3 a' b) <$> f a typeChangingManualCompose :: Lens (Record3 (Record3 a)) (Record3 (Record3 b)) a b typeChangingManualCompose = typeChangingManual . typeChangingManual newtype L s a = L (Lens' s a) intTraversalManual :: Traversal' Record5 Int intTraversalManual f (MkRecord5 a b c d e f') = pure (\a1 a2 a3 a4 -> MkRecord5 a1 a2 c a3 e a4) <*> f a <*> f b <*> f d <*> f f' intTraversalDerived :: Traversal' Record5 Int intTraversalDerived = types fieldALensManual :: Lens' Record Int fieldALensManual f (MkRecord a b) = (\a' -> MkRecord a' b) <$> f a subtypeLensManual :: Lens' Record Record2 subtypeLensManual f record = fmap (\ds -> case record of MkRecord _ b -> MkRecord (case ds of {MkRecord2 g1 -> g1}) b ) (f (MkRecord2 (case record of {MkRecord a _ -> a}))) data Sum1 = A Char | B Int | C () | D () deriving (Generic, Show) data Sum2 = A2 Char | B2 Int deriving (Generic, Show) data Sum3 a b c = A3 a a | B3 String b a a b | C3 c a Int deriving Generic sum3Param0Derived :: Traversal (Sum3 a b xxx) (Sum3 a b yyy) xxx yyy sum3Param0Derived = param @0 sum3Param0Manual :: Traversal (Sum3 a b xxx) (Sum3 a b yyy) xxx yyy sum3Param0Manual _ (A3 a1 a2) = pure (A3 a1 a2) sum3Param0Manual _ (B3 s b1 a1 a2 b2) = pure (B3 s b1 a1 a2 b2) sum3Param0Manual f (C3 c a i) = pure (\c' -> C3 c' a i) <*> f c sum3Param1Derived :: Traversal (Sum3 a xxx c) (Sum3 a yyy c) xxx yyy sum3Param1Derived = param @1 sum3Param1Manual :: Traversal (Sum3 a xxx c) (Sum3 a yyy c) xxx yyy sum3Param1Manual _ (A3 a1 a2) = pure (A3 a1 a2) sum3Param1Manual f (B3 s b1 a1 a2 b2) = pure (\b1' b2' -> B3 s b1' a1 a2 b2') <*> f b1 <*> f b2 sum3Param1Manual _ (C3 c a i) = pure (C3 c a i) sum3Param2Derived :: Traversal (Sum3 xxx b c) (Sum3 yyy b c) xxx yyy sum3Param2Derived = param @2 sum3Param2Manual :: Traversal (Sum3 xxx b c) (Sum3 yyy b c) xxx yyy sum3Param2Manual f (A3 a1 a2) = pure (\a1' a2' -> A3 a1' a2') <*> f a1 <*> f a2 sum3Param2Manual f (B3 s b1 a1 a2 b2) = pure (\a1' a2' -> B3 s b1 a1' a2' b2) <*> f a1 <*> f a2 sum3Param2Manual f (C3 c a i) = pure (\a' -> C3 c a' i) <*> f a sum1PrismManual :: Prism Sum1 Sum1 Int Int sum1PrismManual eta = prism g f eta where f s1 = case s1 of B i -> Right i s -> Left s g = B sum1PrismManualChar :: Prism Sum1 Sum1 Char Char sum1PrismManualChar eta = prism g f eta where f s1 = case s1 of A i -> Right i B _ -> Left s1 C _ -> Left s1 D _ -> Left s1 g = A sum2PrismManual :: Prism Sum2 Sum2 Int Int sum2PrismManual eta = prism g f eta where f s1 = case s1 of B2 i -> Right i s -> Left s g = B2 sum2PrismManualChar :: Prism Sum2 Sum2 Char Char sum2PrismManualChar eta = prism g f eta where f s1 = case s1 of A2 i -> Right i s -> Left s g = A2 -- Note we don't have a catch-all case because of #14684 subtypePrismManual :: Prism Sum1 Sum1 Sum2 Sum2 subtypePrismManual eta = prism g f eta where f s1 = case s1 of A c -> Right (A2 c) B i -> Right (B2 i) C _ -> Left s1 D _ -> Left s1 g (A2 c) = A c g (B2 i) = B i -------------------------------------------------------------------------------- -- * Tests -- The inspection-testing plugin checks that the following equalities hold, by -- checking that the LHSs and the RHSs are CSEd. This also means that the -- runtime characteristics of the derived lenses is the same as the manually -- written ones above. fieldALensName :: Lens' Record Int fieldALensName = field @"fieldA" fieldALensName_ :: Lens' Record Int fieldALensName_ = field_ @"fieldA" fieldALensType :: Lens' Record Int fieldALensType = typed @Int fieldALensPos :: Lens' Record Int fieldALensPos = position @1 fieldALensPos_ :: Lens' Record Int fieldALensPos_ = position_ @1 subtypeLensGeneric :: Lens' Record Record2 subtypeLensGeneric = super typeChangingGeneric :: Lens (Record3 a) (Record3 b) a b typeChangingGeneric = #fieldA typeChangingGenericPos :: Lens (Record3 a) (Record3 b) a b typeChangingGenericPos = position @1 typeChangingGenericCompose :: Lens (Record3 (Record3 a)) (Record3 (Record3 b)) a b typeChangingGenericCompose = #fieldA . #fieldA typeChangingGenericCompose_ :: Lens (Record3 (Record3 a)) (Record3 (Record3 b)) a b typeChangingGenericCompose_ = field_ @"fieldA" . field_ @"fieldA" sum1PrismB :: Prism Sum1 Sum1 Int Int sum1PrismB = _Ctor @"B" subtypePrismGeneric :: Prism Sum1 Sum1 Sum2 Sum2 subtypePrismGeneric = _Sub sum1TypePrism :: Prism Sum1 Sum1 Int Int sum1TypePrism = _Typed @Int sum1TypePrismChar :: Prism Sum1 Sum1 Char Char sum1TypePrismChar = _Typed @Char sum2TypePrism :: Prism Sum2 Sum2 Int Int sum2TypePrism = _Typed @Int sum2TypePrismChar :: Prism Sum2 Sum2 Char Char sum2TypePrismChar = _Typed @Char data SumOfProducts = RecA { _foo :: Int, valA :: String } | RecB { _foo :: Int, valB :: Bool } | RecC { _foo :: Int } deriving (Show, Eq, Generic) tests :: Test tests = TestList $ map mkHUnitTest [ $(inspectTest $ 'fieldALensManual === 'fieldALensName) , $(inspectTest $ 'fieldALensManual === 'fieldALensName_) , $(inspectTest $ 'fieldALensManual === 'fieldALensType) , $(inspectTest $ 'fieldALensManual === 'fieldALensPos) , $(inspectTest $ 'fieldALensManual === 'fieldALensPos_) , $(inspectTest $ 'subtypeLensManual === 'subtypeLensGeneric) , $(inspectTest $ 'typeChangingManual === 'typeChangingGeneric) , $(inspectTest $ 'typeChangingManual === 'typeChangingGenericPos) , $(inspectTest $ 'typeChangingManualCompose === 'typeChangingGenericCompose) , $(inspectTest $ 'typeChangingManualCompose === 'typeChangingGenericCompose_) , $(inspectTest $ 'sum1PrismManual === 'sum1PrismB) , $(inspectTest $ 'subtypePrismManual === 'subtypePrismGeneric) , $(inspectTest $ 'sum2PrismManualChar === 'sum2TypePrismChar) , $(inspectTest $ 'sum2PrismManual === 'sum2TypePrism) , $(inspectTest $ 'sum1PrismManualChar === 'sum1TypePrismChar) , $(inspectTest $ 'sum2PrismManualChar === 'sum2TypePrismChar) , $(inspectTest $ 'sum1PrismManual === 'sum1TypePrism) --, $(inspectTest $ 'intTraversalManual === 'intTraversalDerived) --, $(inspectTest $ 'sum3Param0Manual === 'sum3Param0Derived) -- TODO [1.0.0.0]: these tests pass with the new implementation -- , $(inspectTest $ 'sum3Param1Manual === 'sum3Param1Derived) -- , $(inspectTest $ 'sum3Param2Manual === 'sum3Param2Derived) ] ++ -- Tests for overloaded labels [ (valLabel ^. #_foo ) ~=? 3 , (valLabel & #_foo +~ 10 ) ~=? RecB 13 True #if __GLASGOW_HASKELL__ >= 802 , (valLabel ^? #_RecB ) ~=? Just (3, True) , (valLabel ^? #_RecB . _1 ) ~=? Just 3 , (valLabel ^? #_RecC ) ~=? Nothing #endif , customTypesTest ] where valLabel = RecB 3 True -- TODO: add test for traversals over multiple types