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[haskell/symantic.git] / symantic-lib / test / HUnit / Typing.hs
1 module HUnit.Typing where
2
3 import Test.Tasty
4 import Test.Tasty.HUnit
5
6 import Control.Applicative (Applicative(..))
7 import Control.Arrow (left)
8 import Data.Functor.Identity (Identity(..))
9 import Data.List.NonEmpty (NonEmpty)
10 import Data.Map.Strict (Map)
11 import Data.Maybe (isJust)
12 import Data.NonNull (NonNull)
13 import Data.Proxy
14 import Data.Ratio (Ratio)
15 import Data.Text (Text)
16 import Data.Void (Void)
17 import GHC.Exts (Constraint)
18 import Prelude hiding (exp)
19 import qualified Control.Monad.Classes.Run as MC
20 import qualified Control.Monad.Trans.State.Strict as S
21 import qualified Data.Function as Fun
22 import qualified Data.Map.Strict as Map
23 import qualified Data.MonoTraversable as MT
24 import qualified Data.Sequences as Seqs
25 import qualified System.IO as IO
26 import qualified Text.Megaparsec as P
27
28 import Language.Symantic.Grammar
29 import Language.Symantic
30 import Language.Symantic.Lib hiding ((<$>), (<*))
31
32 import Testing.Megaparsec ()
33 import Testing.Typing
34
35 type SS =
36 [ Proxy (->)
37 , Proxy Bool
38 , Proxy []
39 , Proxy ()
40 , Proxy (,)
41 , Proxy Char
42 , Proxy Either
43 , Proxy Int
44 , Proxy Integer
45 , Proxy IO
46 , Proxy IO.Handle
47 , Proxy IO.IOMode
48 , Proxy Ordering
49 , Proxy Map
50 , Proxy Maybe
51 , Proxy NonNull
52 , Proxy Ratio
53 , Proxy Text
54 , Proxy Applicative
55 , Proxy Bounded
56 , Proxy Enum
57 , Proxy Eq
58 , Proxy Foldable
59 , Proxy Functor
60 , Proxy Integral
61 , Proxy Monad
62 , Proxy Monoid
63 , Proxy MT.MonoFoldable
64 , Proxy MT.MonoFunctor
65 , Proxy Num
66 , Proxy Ord
67 , Proxy Real
68 , Proxy Seqs.IsSequence
69 , Proxy Seqs.SemiSequence
70 , Proxy Show
71 , Proxy Traversable
72 ]
73 type SRC = SrcTe (NonEmpty P.SourcePos) SS
74
75 impsTy :: Imports NameTy
76 impsTy = importTypes @SS []
77
78 modsTy :: Source src => ModulesTy src
79 modsTy =
80 Map.insert ([] `Mod` "String")
81 (TypeTLen $ \len -> TypeT $
82 tyConstLen @(K []) @[] len `tyApp`
83 tyConstLen @(K Char) @Char len) $
84 modulesTyInj @SS
85
86 parseTy ::
87 forall src g err inp.
88 g ~ P.ParsecT err inp (S.StateT (Imports NameTy, ModulesTy src) Identity) =>
89 P.MonadParsec err inp (P.ParsecT err inp g) =>
90 Gram_Type src g =>
91 P.Token inp ~ Char =>
92 inp -> Either (P.ParseError Char err) (AST_Type src)
93 parseTy inp =
94 runIdentity $
95 MC.evalStateStrict (impsTy, modsTy @src) $
96 P.runParserT g "" inp
97 where g = unCF $ g_type <* eoi
98
99 hunits :: TestTree
100 hunits = testGroup "Typing" $
101 [ testGroup "readType" $
102 let run inp (TypeT exp :: TypeT SRC '[]) =
103 testCase inp $ got @?= Right (Right $ TypeVT exp)
104 where
105 got :: Either (P.ParseError Char Void)
106 (Either (Error_Type SRC) (TypeVT SRC))
107 got = readType <$> parseTy inp
108 in
109 let (==>) = run; infixr 0 ==> in
110 [ "Bool" ==> TypeT $ tyBool
111 , "(->) Bool" ==> TypeT $ tyFun `tyApp` tyBool
112 , "[]" ==> TypeT $ tyConst @(K []) @[]
113 , "[Char]" ==> TypeT $ tyList tyChar
114 , "[Char -> [Char]]" ==> TypeT $ tyList (tyChar ~> tyList tyChar)
115 , "([])" ==> TypeT $ tyConst @(K []) @[]
116 , "[()]" ==> TypeT $ tyList tyUnit
117 , "()" ==> TypeT $ tyUnit
118 , "(())" ==> TypeT $ tyUnit
119 , "(,)" ==> TypeT $ tyConst @(K (,)) @(,)
120 , "((,))" ==> TypeT $ tyConst @(K (,)) @(,)
121 , "(,) Int" ==> TypeT $ tyConst @(K (,)) @(,) `tyApp` tyInt
122 , "(Bool)" ==> TypeT $ tyBool
123 , "((Bool))" ==> TypeT $ tyBool
124 , "(Bool, Int)" ==> TypeT $ tyBool `tyTuple2` tyInt
125 , "((Bool, Int))" ==> TypeT $ tyBool `tyTuple2` tyInt
126 , "((Bool, Int), Char)" ==> TypeT $ (tyBool `tyTuple2` tyInt) `tyTuple2` tyChar
127 , "(Bool, Int) -> Char" ==> TypeT $ (tyBool `tyTuple2` tyInt) ~> tyChar
128 , "(Bool -> Int)" ==> TypeT $ tyBool ~> tyInt
129 , "String" ==> TypeT $ tyList tyChar
130 , "[Char] -> String" ==> TypeT $ tyList tyChar ~> tyList tyChar
131 , "String -> [Char]" ==> TypeT $ tyList tyChar ~> tyList tyChar
132 , "Maybe Bool" ==> TypeT $ tyMaybe tyBool
133 , "Either Bool Int" ==> TypeT $ tyEither tyBool tyInt
134 , "Bool -> Int" ==> TypeT $ tyBool ~> tyInt
135 , "(Bool -> Int) -> Char" ==> TypeT $ (tyBool ~> tyInt) ~> tyChar
136 , "Bool -> (Int -> Char)" ==> TypeT $ tyBool ~> (tyInt ~> tyChar)
137 , "Bool -> Int -> Char" ==> TypeT $ tyBool ~> tyInt ~> tyChar
138 , "Bool -> (Int -> Char) -> ()" ==> TypeT $ tyBool ~> (tyInt ~> tyChar) ~> tyUnit
139 , "IO" ==> TypeT $ tyConst @(K IO) @IO
140 , "Traversable IO" ==> TypeT $ tyTraversable (tyConst @(K IO) @IO)
141 , "Monad IO" ==> TypeT $ tyMonad (tyConst @(K IO) @IO)
142 , "(->) (IO Bool)" ==> TypeT $ tyConst @(K (->)) @(->) `tyApp` (tyIO tyBool)
143 , "Monad IO" ==> TypeT $ tyMonad (tyConst @(K IO) @IO)
144 , "Eq" ==> TypeT $ tyConst @(K Eq) @Eq
145 , "Eq Bool" ==> TypeT $ tyEq tyBool
146 ]
147 , testGroup "Parsing errors" $
148 let run inp = testCase inp $ got @?= Left ()
149 where
150 got :: Either () (AST_Type SRC)
151 got = left (\(_::P.ParseError (P.Token String) Void) -> ()) $ parseTy inp in
152 run <$>
153 [ "Bool, Int"
154 , "(Bool -> Int) Char"
155 , "NonExistingType"
156 ]
157 , testGroup "Compiling errors" $
158 let run inp = testCase inp $ got @?= Right (Left ())
159 where
160 got :: Either (P.ParseError Char Void) (Either () (TypeVT SRC))
161 got = left (Fun.const ()) . readType <$> parseTy inp in
162 run <$>
163 [ "Bool Int"
164 , "[IO]"
165 , "(->) IO"
166 , "(->) Bool Int Char"
167 , "Monad Eq"
168 ]
169 , testGroup "proveConstraint" $
170 let (==>) (typ::Type SRC SS (t::Constraint)) expected =
171 let imps = importTypes @SS [] in
172 let conf = config_Doc_Type{config_Doc_Type_imports = imps} in
173 testCase (showType conf typ) $
174 isJust (proveConstraint typ) @?= expected in
175 [ tyEq tyBool ==> True
176 , tyOrd tyBool ==> True
177 , tyFunctor (tyConst @(K Maybe) @Maybe) ==> True
178 , tyFunctor (tyConst @(K IO) @IO) ==> True
179 , tyMonad (tyConst @(K IO) @IO) ==> True
180 , tyTraversable (tyConst @(K IO) @IO) ==> False
181 ]
182 ]