1 {-# LANGUAGE FlexibleContexts #-}
3 {-# LANGUAGE NoMonomorphismRestriction #-}
4 {-# LANGUAGE Rank2Types #-}
5 {-# LANGUAGE ScopedTypeVariables #-}
6 {-# LANGUAGE TypeOperators #-}
7 {-# OPTIONS_GHC -fno-warn-missing-signatures #-}
8 module Expr.Int.Test where
11 import Test.Tasty.HUnit
13 import qualified Control.Arrow as Arrow
14 import qualified Control.Monad as Monad
15 -- import Control.Monad.IO.Class (MonadIO(..))
16 import Data.Proxy (Proxy(..))
17 import Data.Text (Text)
18 import Data.Type.Equality ((:~:)(Refl))
19 import Prelude hiding ((&&), not, (||), (+), negate)
21 import Language.Symantic.Repr
22 import Language.Symantic.Expr
23 import Language.Symantic.Type
24 -- import Language.Symantic.Trans
28 -- * Class 'Sym_Int_Vars'
30 -- | A few boolean variables.
31 class Sym_Int_Vars repr where
35 instance Sym_Int_Vars Repr_Text where
36 x = Repr_Text $ \_p _v -> "x"
37 y = Repr_Text $ \_p _v -> "y"
38 z = Repr_Text $ \_p _v -> "z"
42 e2 = (int 1 + int 0) + negate (int 1 + int 1)
43 e3 = (int 1 + negate (int 0)) + (int 1 + negate (int 1))
44 e4 = int 0 + negate (int 1)
55 ex_from = root_expr_from (Proxy::Proxy Ex)
60 Left err -> Left err @?= snd `Arrow.left` expected
61 Right (Exists_Type_and_Repr ty (Forall_Repr r)) ->
63 Left (_, err) -> Right ("…"::String) @?= Left err
64 Right (ty_expected::Type_Root_of_Expr Ex h, _::h, _::Text) ->
65 (Monad.>>= (@?= (\(_::Proxy h, err) -> err) `Arrow.left` expected)) $
66 case ty `eq_type` ty_expected of
67 Nothing -> Monad.return $ Left $
68 error_expr (Proxy::Proxy Ex) $
69 Error_Expr_Type_mismatch ast
71 (Exists_Type ty_expected)
73 let h = host_from_expr r
79 -- , (text_from_expr :: Repr_Text h -> Text) r
83 tests = testGroup "Int" $
84 [ AST "int" [AST "1" []] ==> Right
88 , AST "bool" [AST "True" []] ==> Left (Proxy::Proxy Bool,
90 Error_Expr_Unsupported $ AST "bool" [AST "True" []])
92 [ AST "int" [AST "1" []]
93 , AST "int" [AST "1" []]
99 [ AST "int" [AST "1" []]
100 , AST "int" [AST "1" []]
101 ] in ast ==> Left (Proxy::Proxy Int,
102 Error_Expr_Alt_Curr $
103 Error_Expr_Type_mismatch ast
104 (Exists_Type (type_var0 SZero `type_fun` type_var0 (SSucc SZero)
105 ::Type_Root (Type_Var0 :|: Type_Var1 :|: Type_Fun :|: Type_Int)
107 (Exists_Type type_int))
112 , AST "var" [AST "x" []]
114 , AST "int" [AST "1" []]
124 [ AST "var" [AST "x" []]
125 , AST "int" [AST "1" []]
128 , AST "int" [AST "1" []]
132 , "(\\x0 -> x0 + 1) 1" )
135 , AST "int" [AST "1" []]
137 [ AST "var" [AST "x" []]
138 , AST "int" [AST "1" []]
143 , "let x0 = 1 in x0 + 1" )