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[haskell/symantic.git] / Language / Symantic / Repr / Text.hs
1 {-# LANGUAGE FlexibleContexts #-}
2 {-# LANGUAGE FlexibleInstances #-}
3 {-# LANGUAGE GeneralizedNewtypeDeriving #-}
4 {-# LANGUAGE MultiParamTypeClasses #-}
5 {-# LANGUAGE OverloadedStrings #-}
6 {-# LANGUAGE TypeFamilies #-}
7 {-# LANGUAGE UndecidableInstances #-}
8 -- | Interpreter to serialize an expression into a 'Text'.
9 module Language.Symantic.Repr.Text where
10
11 import Data.Monoid ((<>))
12 import Data.String (IsString(..))
13 import Data.Text (Text)
14 import qualified Data.Text as Text
15 import Prelude hiding (Integral(..))
16
17 -- * Type 'Repr_Text'
18
19 -- | Interpreter's data.
20 newtype Repr_Text h
21 = Repr_Text
22 { unRepr_Text
23 -- Inherited attributes:
24 :: Precedence
25 -> Repr_Text_Lambda_Depth
26 -- Synthetised attributes:
27 -> Text
28 }
29 type Repr_Text_Lambda_Depth = Int
30 instance Show (Repr_Text h) where
31 show = Text.unpack . text_from_expr
32
33 -- | Interpreter.
34 text_from_expr :: Repr_Text h -> Text
35 text_from_expr r = unRepr_Text r precedence_Toplevel 0
36
37 -- * Helpers
38
39 -- ** Helpers for lambda applications
40 repr_text_app1
41 :: Text
42 -> Repr_Text a1
43 -> Repr_Text h
44 repr_text_app1 name (Repr_Text a1) =
45 Repr_Text $ \p v ->
46 let p' = precedence_App in
47 paren p p' $ name
48 <> " " <> a1 p' v
49 repr_text_app2
50 :: Text
51 -> Repr_Text a1
52 -> Repr_Text a2
53 -> Repr_Text h
54 repr_text_app2 name (Repr_Text a1) (Repr_Text a2) =
55 Repr_Text $ \p v ->
56 let p' = precedence_App in
57 paren p p' $ name
58 <> " " <> a1 p' v
59 <> " " <> a2 p' v
60 repr_text_app3
61 :: Text
62 -> Repr_Text a1
63 -> Repr_Text a2
64 -> Repr_Text a3
65 -> Repr_Text h
66 repr_text_app3 name (Repr_Text a1) (Repr_Text a2) (Repr_Text a3) =
67 Repr_Text $ \p v ->
68 let p' = precedence_App in
69 paren p p' $ name
70 <> " " <> a1 p' v
71 <> " " <> a2 p' v
72 <> " " <> a3 p' v
73 repr_text_infix
74 :: Text
75 -> Precedence
76 -> Repr_Text a1
77 -> Repr_Text a2
78 -> Repr_Text h
79 repr_text_infix name p' (Repr_Text a1) (Repr_Text a2) =
80 Repr_Text $ \p v ->
81 paren p p' $ a1 p' v <> " " <> name <> " " <> a2 p' v
82
83 -- ** Type 'Precedence'
84
85 newtype Precedence = Precedence Int
86 deriving (Eq, Ord, Show)
87 precedence_pred :: Precedence -> Precedence
88 precedence_pred (Precedence p) = Precedence (pred p)
89 precedence_succ :: Precedence -> Precedence
90 precedence_succ (Precedence p) = Precedence (succ p)
91 paren :: (Monoid s, IsString s) => Precedence -> Precedence -> s -> s
92 paren prec prec' x =
93 if prec >= prec'
94 then fromString "(" <> x <> fromString ")"
95 else x
96
97 precedence_Toplevel :: Precedence
98 precedence_Toplevel = Precedence 0
99 precedence_App :: Precedence
100 precedence_App = Precedence 10
101 precedence_Atomic :: Precedence
102 precedence_Atomic = Precedence maxBound