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Simplify hcompta-lib.
[comptalang.git] / cli / Hcompta / Repr / Text / Write.hs
1 {-# LANGUAGE DataKinds #-}
2 {-# LANGUAGE FlexibleContexts #-}
3 {-# LANGUAGE FlexibleInstances #-}
4 {-# LANGUAGE InstanceSigs #-}
5 -- {-# LANGUAGE GeneralizedNewtypeDeriving #-}
6 {-# LANGUAGE MultiParamTypeClasses #-}
7 {-# LANGUAGE NamedFieldPuns #-}
8 {-# LANGUAGE NoIncoherentInstances #-}
9 {-# LANGUAGE NoMonomorphismRestriction #-}
10 {-# LANGUAGE OverloadedLists #-}
11 {-# LANGUAGE OverloadedStrings #-}
12 {-# LANGUAGE ScopedTypeVariables #-}
13 {-# LANGUAGE TupleSections #-}
14 {-# LANGUAGE TypeFamilies #-}
15 {-# LANGUAGE NoUndecidableInstances #-}
16 {-# OPTIONS_GHC -fno-warn-tabs #-}
17
18 module Hcompta.Repr.Text.Write where
19
20 import Data.Eq (Eq(..))
21 import Data.Function (($), (.))
22 import Data.Int (Int)
23 import Data.Monoid ((<>))
24 import Data.Ord (Ord(..))
25 import Data.Text.Buildable (Buildable(..))
26 import qualified Data.Text.Lazy as TL
27 import qualified Data.Text.Lazy.Builder as TL
28 import Prelude (pred, succ)
29 import Text.Show (Show(..))
30
31 import Hcompta.Expr
32
33 -- * Type 'Repr_Text_Write'
34
35 -- | /Tagless-final interpreter/
36 -- to evaluate an expression to a 'TL.Builder'.
37 newtype Repr_Text_Write h
38 = Repr_Text_Write
39 { unRepr_Text_Write
40 :: Precedence -> Var_Depth -- inherited attributes
41 -> TL.Builder -- synthetised attributes
42 }
43 {-
44 data Write_Inh
45 = Write_Inh
46 { Write_Precedence :: Precedence
47 , Write_Var_Depth :: Var_Depth
48 }
49 data Write_Syn
50 = Write_Syn
51 { Write_Syn_Text :: TL.Builder
52 }
53 -}
54 type Var_Depth = Int
55
56 repr_text_write :: Repr_Text_Write a -> TL.Builder
57 repr_text_write x = unRepr_Text_Write x precedence_Toplevel 0
58 instance Show (Repr_Text_Write a) where
59 show = TL.unpack . TL.toLazyText . repr_text_write
60
61 instance Expr_Lit Repr_Text_Write where
62 lit a = Repr_Text_Write $ \_p _v -> build a
63 instance Expr_Bool Repr_Text_Write where
64 and (Repr_Text_Write x) (Repr_Text_Write y) =
65 Repr_Text_Write $ \p v ->
66 let p' = precedence_And in
67 paren p p' $ x p' v <> " & " <> y p' v
68 or (Repr_Text_Write x) (Repr_Text_Write y) =
69 Repr_Text_Write $ \p v ->
70 let p' = precedence_Or in
71 paren p p' $ x p' v <> " | " <> y p' v
72 neg (Repr_Text_Write x) =
73 Repr_Text_Write $ \p v ->
74 let p' = precedence_Neg in
75 paren p p' $ "!" <> x (precedence_succ p') v
76 instance Expr_Fun Repr_Text_Write where
77 app (Repr_Text_Write f) (Repr_Text_Write x) = Repr_Text_Write $ \p v ->
78 let p' = precedence_App in
79 paren p p' $
80 f p' v <> " " <> x p' v
81 lazy = repr_text_write_fun "~"
82 val = repr_text_write_fun ""
83 inline = repr_text_write_fun "!"
84 let_lazy = repr_text_write_let "~"
85 let_val = repr_text_write_let ""
86 let_inline = repr_text_write_let "!"
87
88 -- ** Instance 'Fun' helpers
89 repr_text_write_fun :: TL.Builder -> (Repr_Text_Write a2 -> Repr_Text_Write a1) -> Repr_Text_Write a
90 repr_text_write_fun mode e =
91 Repr_Text_Write $ \p v ->
92 let p' = precedence_Fun in
93 let x = "x" <> build v in
94 paren p p' $
95 "\\" <> mode <> x <> " -> " <>
96 unRepr_Text_Write (e (Repr_Text_Write $ \_p _v -> x)) p' (succ v)
97 repr_text_write_let
98 :: TL.Builder
99 -> Repr_Text_Write a1
100 -> (Repr_Text_Write a3 -> Repr_Text_Write a2)
101 -> Repr_Text_Write a
102 repr_text_write_let mode e in_ =
103 Repr_Text_Write $ \p v ->
104 let p' = precedence_Let in
105 let x = "x" <> build v in
106 paren p p' $
107 "let" <> mode <> " " <> x <> " = " <> unRepr_Text_Write e p (succ v) <> " in " <>
108 unRepr_Text_Write (in_ (Repr_Text_Write $ \_p _v -> x)) p (succ v)
109
110 instance Expr_If Repr_Text_Write where
111 if_
112 (Repr_Text_Write cond)
113 (Repr_Text_Write ok)
114 (Repr_Text_Write ko) =
115 Repr_Text_Write $ \p v ->
116 let p' = precedence_If in
117 paren p p' $
118 "if " <> cond p' v <>
119 " then " <> ok p' v <>
120 " else " <> ko p' v
121 when_ (Repr_Text_Write cond) (Repr_Text_Write ok) =
122 Repr_Text_Write $ \p v ->
123 let p' = precedence_If in
124 paren p p' $
125 "when " <> cond p' v <>
126 " " <> ok p' v
127
128 -- ** Type 'Precedence'
129
130 -- TODO: use an Enum?
131 newtype Precedence = Precedence Int
132 deriving (Eq, Ord, Show)
133 precedence_pred :: Precedence -> Precedence
134 precedence_pred (Precedence p) = Precedence (pred p)
135 precedence_succ :: Precedence -> Precedence
136 precedence_succ (Precedence p) = Precedence (succ p)
137 paren :: Precedence -> Precedence -> TL.Builder -> TL.Builder
138 paren prec prec' x =
139 if prec >= prec'
140 then "(" <> x <> ")"
141 else x
142
143 precedence_Toplevel :: Precedence
144 precedence_Toplevel = Precedence 0
145 precedence_Fun :: Precedence
146 precedence_Fun = Precedence 1
147 precedence_Let :: Precedence
148 precedence_Let = Precedence 2
149 precedence_If :: Precedence
150 precedence_If = Precedence 3
151 precedence_Or :: Precedence
152 precedence_Or = Precedence 4
153 precedence_And :: Precedence
154 precedence_And = Precedence 5
155 precedence_App :: Precedence
156 precedence_App = Precedence 6
157 precedence_Neg :: Precedence
158 precedence_Neg = Precedence 7
159 precedence_Atomic :: Precedence
160 precedence_Atomic = Precedence 8