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1 {-# LANGUAGE ConstraintKinds #-}
2 {-# LANGUAGE FlexibleContexts #-}
3 {-# LANGUAGE OverloadedStrings #-}
4 {-# LANGUAGE Rank2Types #-}
5 {-# LANGUAGE ScopedTypeVariables #-}
6 {-# LANGUAGE TypeOperators #-}
7
8 module Repr.Host.Test where
9
10 -- import Data.Function (($))
11 -- import Data.Functor.Identity (Identity)
12 import Test.Tasty
13 import Test.Tasty.HUnit
14
15 import Data.Functor.Identity
16 import Data.Text (Text)
17 import qualified Data.Text as Text
18 import Prelude hiding (and, not, or, Monad(..))
19
20 import Language.Symantic.Repr
21 import Language.Symantic.Expr
22 import qualified Expr.Lambda.Test as Lambda.Test
23 import qualified Expr.Bool.Test as Bool.Test
24 import qualified Expr.Maybe.Test as Maybe.Test
25 import qualified Expr.If.Test as If.Test
26 import qualified Expr.List.Test as List.Test
27 import qualified Expr.Functor.Test as Functor.Test
28 import qualified Expr.Applicative.Test as Applicative.Test
29
30 tests :: TestTree
31 tests = testGroup "Host" $
32 [ testGroup "Bool" $
33 let (==>) (expr::forall repr. Sym_of_Expr (Expr_Root ( Expr_Lambda_App Identity
34 .|. Expr_Lambda_Val Identity
35 .|. Expr_Bool
36 )) repr => repr h) expected =
37 testCase (Text.unpack $ (text_from_expr :: Repr_Text Identity _h -> Text) $ expr) $
38 -- (>>= (@?= expected)) $
39 (\(Identity a) -> (a @?= expected)) $
40 host_from_expr expr in
41 [ Bool.Test.e1 ==> False
42 , Bool.Test.e2 ==> True
43 , Bool.Test.e3 ==> True
44 , Bool.Test.e4 ==> True
45 ]
46 , testGroup "Lambda" $
47 let (==>) (expr::forall repr. Sym_of_Expr (Expr_Root ( Expr_Lambda_App Identity
48 .|. Expr_Lambda_Val Identity
49 .|. Expr_Bool
50 )) repr => repr h) expected =
51 testCase (Text.unpack $ (text_from_expr :: Repr_Text Identity _h -> Text) $ expr) $
52 (\(Identity a) -> (a @?= expected)) $
53 host_from_expr expr in
54 [ (Lambda.Test.e1 `app` bool True `app` bool True) ==> False
55 , (Lambda.Test.e1 `app` bool True `app` bool False) ==> True
56 , (Lambda.Test.e1 `app` bool False `app` bool True) ==> True
57 , (Lambda.Test.e1 `app` bool False `app` bool False) ==> False
58
59 , (Lambda.Test.e2 `app` bool True `app` bool True) ==> False
60 , (Lambda.Test.e2 `app` bool True `app` bool False) ==> True
61 , (Lambda.Test.e2 `app` bool False `app` bool True) ==> True
62 , (Lambda.Test.e2 `app` bool False `app` bool False) ==> False
63
64 , Lambda.Test.e3 ==> True
65 , Lambda.Test.e4 ==> True
66
67 , (Lambda.Test.e5 `app` bool True `app` bool True) ==> True
68 , (Lambda.Test.e5 `app` bool True `app` bool False) ==> False
69 , (Lambda.Test.e5 `app` bool False `app` bool True) ==> False
70 , (Lambda.Test.e5 `app` bool False `app` bool False) ==> False
71
72 , Lambda.Test.e6 ==> False
73 , (Lambda.Test.e7 `app` val id) ==> True
74 , (Lambda.Test.e7 `app` val not) ==> False
75 ]
76 , testGroup "Maybe" $
77 let (==>) (expr::forall repr. Sym_of_Expr (Expr_Root ( Expr_Lambda_App Identity
78 .|. Expr_Lambda_Val Identity
79 .|. Expr_Maybe Identity
80 .|. Expr_Bool )) repr => repr h) expected =
81 testCase (Text.unpack $ (text_from_expr :: Repr_Text Identity _h -> Text) $ expr) $
82 (\(Identity a) -> (a @?= expected)) $
83 host_from_expr expr in
84 [ Maybe.Test.e1 ==> False
85 ]
86 , testGroup "If" $
87 let (==>) (expr::forall repr. Sym_of_Expr (Expr_Root ( Expr_Lambda_App Identity
88 .|. Expr_Lambda_Val Identity
89 .|. Expr_If
90 .|. Expr_Bool )) repr => repr h) expected =
91 testCase (Text.unpack $ (text_from_expr :: Repr_Text Identity _h -> Text) $ expr) $
92 (\(Identity a) -> (a @?= expected)) $
93 host_from_expr expr in
94 [ If.Test.e1 ==> False
95 ]
96 , testGroup "List" $
97 let (==>) (expr::forall repr. Sym_of_Expr (Expr_Root ( Expr_Lambda_App Identity
98 .|. Expr_Lambda_Val Identity
99 .|. Expr_List Identity
100 .|. Expr_Bool
101 .|. Expr_Int
102 .|. Expr_If
103 .|. Expr_Eq )) repr => repr h) expected =
104 testCase (Text.unpack $ (text_from_expr :: Repr_Text Identity _h -> Text) $ expr) $
105 (\(Identity a) -> (a @?= expected)) $
106 host_from_expr expr in
107 [ List.Test.e1 ==> [2::Int,4]
108 ]
109 , testGroup "Functor" $
110 let (==>) (expr::forall repr. Sym_of_Expr (Expr_Root ( Expr_Lambda_App Identity
111 .|. Expr_Lambda_Val Identity
112 .|. Expr_List Identity
113 .|. Expr_Functor Identity
114 .|. Expr_Bool
115 .|. Expr_Int
116 .|. Expr_If
117 .|. Expr_Eq )) repr => repr h) expected =
118 testCase (Text.unpack $ (text_from_expr :: Repr_Text Identity _h -> Text) $ expr) $
119 (\(Identity a) -> (a @?= expected)) $
120 host_from_expr expr in
121 [ Functor.Test.e1 ==> [2::Int,3,4]
122 ]
123 , testGroup "Applicative" $
124 let (==>) (expr::forall repr. Sym_of_Expr (Expr_Root ( Expr_Lambda_App Identity
125 .|. Expr_Lambda_Val Identity
126 .|. Expr_List Identity
127 .|. Expr_Functor Identity
128 .|. Expr_Applicative Identity
129 .|. Expr_Maybe Identity
130 .|. Expr_Bool
131 .|. Expr_Int
132 .|. Expr_If
133 .|. Expr_Eq )) repr => repr h) expected =
134 testCase (Text.unpack $ (text_from_expr :: Repr_Text Identity _h -> Text) $ expr) $
135 (\(Identity a) -> (a @?= expected)) $
136 host_from_expr expr in
137 [ Applicative.Test.e1 ==> Just (3::Int)
138 ]
139 ]