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[haskell/symantic.git] / Language / Symantic / Expr / Num.hs
1 {-# LANGUAGE DefaultSignatures #-}
2 {-# LANGUAGE FlexibleContexts #-}
3 {-# LANGUAGE OverloadedStrings #-}
4 {-# LANGUAGE ScopedTypeVariables #-}
5 {-# LANGUAGE TypeFamilies #-}
6 {-# LANGUAGE TypeOperators #-}
7 -- | Expression for 'Num'.
8 module Language.Symantic.Expr.Num where
9
10 import Control.Monad
11 import Prelude hiding (Num(..))
12 import Prelude (Num)
13 import qualified Prelude
14 import Data.Proxy (Proxy(..))
15 import Data.Type.Equality ((:~:)(Refl))
16
17 import Language.Symantic.Type
18 import Language.Symantic.Repr
19 import Language.Symantic.Expr.Root
20 import Language.Symantic.Expr.Error
21 import Language.Symantic.Expr.From
22 import Language.Symantic.Trans.Common
23
24 -- * Class 'Sym_Num'
25 -- | Symantic.
26 class Sym_Num repr where
27 abs :: Num n => repr n -> repr n
28 negate :: Num n => repr n -> repr n
29 signum :: Num n => repr n -> repr n
30 (+) :: Num n => repr n -> repr n -> repr n
31 (-) :: Num n => repr n -> repr n -> repr n
32 (*) :: Num n => repr n -> repr n -> repr n
33 fromInteger :: Num n => repr Integer -> repr n
34
35 default abs :: (Trans t repr, Num n) => t repr n -> t repr n
36 default negate :: (Trans t repr, Num n) => t repr n -> t repr n
37 default signum :: (Trans t repr, Num n) => t repr n -> t repr n
38 default (+) :: (Trans t repr, Num n) => t repr n -> t repr n -> t repr n
39 default (-) :: (Trans t repr, Num n) => t repr n -> t repr n -> t repr n
40 default (*) :: (Trans t repr, Num n) => t repr n -> t repr n -> t repr n
41 default fromInteger :: (Trans t repr, Num n) => t repr Integer -> t repr n
42
43 abs = trans_map1 abs
44 negate = trans_map1 negate
45 signum = trans_map1 signum
46 (+) = trans_map2 (+)
47 (-) = trans_map2 (-)
48 (*) = trans_map2 (*)
49 fromInteger = trans_map1 fromInteger
50
51 infixl 6 +
52 infixl 6 -
53 infixl 7 *
54
55 instance Sym_Num Repr_Host where
56 abs = liftM Prelude.abs
57 negate = liftM Prelude.negate
58 signum = liftM Prelude.signum
59 (+) = liftM2 (Prelude.+)
60 (-) = liftM2 (Prelude.-)
61 (*) = liftM2 (Prelude.*)
62 fromInteger = liftM Prelude.fromInteger
63 instance Sym_Num Repr_Text where
64 abs = repr_text_app1 "abs"
65 negate = repr_text_app1 "negate"
66 signum = repr_text_app1 "signum"
67 (+) = repr_text_infix "+" (Precedence 6)
68 (-) = repr_text_infix "-" (Precedence 6)
69 (*) = repr_text_infix "-" (Precedence 7)
70 fromInteger = repr_text_app1 "fromInteger"
71 instance (Sym_Num r1, Sym_Num r2) => Sym_Num (Repr_Dup r1 r2) where
72 abs = repr_dup1 sym_Num abs
73 negate = repr_dup1 sym_Num negate
74 signum = repr_dup1 sym_Num signum
75 (+) = repr_dup2 sym_Num (+)
76 (-) = repr_dup2 sym_Num (-)
77 (*) = repr_dup2 sym_Num (*)
78 fromInteger = repr_dup1 sym_Num fromInteger
79
80 sym_Num :: Proxy Sym_Num
81 sym_Num = Proxy
82
83 -- * Type 'Expr_Num'
84 -- | Expression.
85 data Expr_Num (root:: *)
86 type instance Root_of_Expr (Expr_Num root) = root
87 type instance Type_of_Expr (Expr_Num root) = No_Type
88 type instance Sym_of_Expr (Expr_Num root) repr = Sym_Num repr
89 type instance Error_of_Expr ast (Expr_Num root) = No_Error_Expr
90
91 -- | Parse 'fst'.
92 fromInteger_from
93 :: forall root ty ast hs ret.
94 ( ty ~ Type_Root_of_Expr (Expr_Num root)
95 , Type0_Eq ty
96 , Expr_From ast root
97 , Type0_Lift Type_Integer (Type_of_Expr root)
98 , Type0_Unlift Type_Integer (Type_of_Expr root)
99 , Type0_Constraint Num ty
100 , Error_Expr_Lift (Error_Expr (Error_of_Type ast ty) ty ast)
101 (Error_of_Expr ast root)
102 , Root_of_Expr root ~ root
103 ) => ast
104 -> ExprFrom ast (Expr_Num root) hs ret
105 fromInteger_from ast_i ex ast ctx k =
106 -- fromInteger :: Num a => Integer -> a
107 expr_from (Proxy::Proxy root) ast_i ctx $
108 \(ty_i::ty h_i) (Forall_Repr_with_Context i) ->
109 check_type0_eq ex ast type_integer ty_i $ \Refl ->
110 k ty_i $ Forall_Repr_with_Context $
111 \c -> fromInteger (i c)