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Add some Eq and Show instances.
[haskell/symantic.git] / symantic / Language / Symantic / Compiling / Grammar.hs
1 {-# LANGUAGE ConstraintKinds #-}
2 {-# LANGUAGE DeriveFunctor #-}
3 {-# LANGUAGE ExistentialQuantification #-}
4 {-# LANGUAGE GeneralizedNewtypeDeriving #-}
5 {-# LANGUAGE PolyKinds #-}
6 {-# LANGUAGE UndecidableInstances #-}
7 module Language.Symantic.Compiling.Grammar where
8
9 import Control.Arrow (left)
10 import Control.Monad (void)
11 import Data.Proxy (Proxy(..))
12 import Data.Semigroup (Semigroup(..))
13 import Prelude hiding (mod, not, any)
14 import qualified Data.Char as Char
15 import qualified Data.Function as Fun
16 import qualified Data.Map.Strict as Map
17 import qualified Data.Text as Text
18
19 import Language.Symantic.Grammar
20 import Language.Symantic.Typing
21 import Language.Symantic.Compiling.Module
22
23 -- * Class 'Gram_Name'
24 class
25 ( Gram_Terminal g
26 , Gram_Rule g
27 , Gram_Alt g
28 , Gram_Try g
29 , Gram_App g
30 , Gram_AltApp g
31 , Gram_RegL g
32 , Gram_CF g
33 , Gram_Comment g
34 , Gram_Op g
35 ) => Gram_Name g where
36 g_mod_path :: CF g PathMod
37 g_mod_path = rule "mod_path" $
38 infixrG
39 (pure <$> g_mod_name)
40 (op <$ char '.')
41 where op = (<>)
42 g_mod_name :: CF g NameMod
43 g_mod_name = rule "mod_name" $
44 (NameMod . Text.pack <$>) $
45 (identG `minus`) $
46 Fun.const
47 <$> g_term_keywords
48 <*. (any `but` g_term_idname_tail)
49 where
50 identG = (:) <$> headG <*> many (cf_of_Terminal g_term_idname_tail)
51 headG = unicat $ Unicat Char.UppercaseLetter
52
53 g_term_mod_name :: CF g (Mod NameTe)
54 g_term_mod_name = rule "term_mod_name" $
55 lexeme $
56 g_term_mod_idname <+>
57 parens g_term_mod_opname
58 g_term_name :: CF g NameTe
59 g_term_name = rule "term_name" $
60 lexeme $
61 g_term_idname <+>
62 parens g_term_opname
63
64 g_term_mod_idname :: CF g (Mod NameTe)
65 g_term_mod_idname = rule "term_mod_idname" $
66 Mod
67 <$> option [] (try $ g_mod_path <* char '.')
68 <*> g_term_idname
69 g_term_idname :: CF g NameTe
70 g_term_idname = rule "term_idname" $
71 (NameTe . Text.pack <$>) $
72 (identG `minus`) $
73 Fun.const
74 <$> g_term_keywords
75 <*. (any `but` g_term_idname_tail)
76 where
77 identG = (:) <$> headG <*> many (cf_of_Terminal g_term_idname_tail)
78 headG = unicat $ Unicat_Letter
79 g_term_idname_tail :: Terminal g Char
80 g_term_idname_tail = rule "term_idname_tail" $
81 unicat Unicat_Letter <+>
82 unicat Unicat_Number
83 g_term_keywords :: Reg rl g String
84 g_term_keywords = rule "term_keywords" $
85 choice $ string <$> ["in", "let"]
86
87 g_term_mod_opname :: CF g (Mod NameTe)
88 g_term_mod_opname = rule "term_mod_opname" $
89 Mod
90 <$> option [] (try $ g_mod_path <* char '.')
91 <*> g_term_opname
92 g_term_opname :: CF g NameTe
93 g_term_opname = rule "term_opname" $
94 (NameTe . Text.pack <$>) $
95 (symG `minus`) $
96 Fun.const
97 <$> g_term_keysyms
98 <*. (any `but` g_term_opname_ok)
99 where
100 symG = some $ cf_of_Terminal g_term_opname_ok
101 g_term_opname_ok :: Terminal g Char
102 g_term_opname_ok = rule "term_opname_ok" $
103 choice (unicat <$>
104 [ Unicat_Symbol
105 , Unicat_Punctuation
106 , Unicat_Mark
107 ]) `but` koG
108 where
109 koG = choice (char <$> ['(', ')', '`', '\'', ',', '[', ']'])
110 g_term_keysyms :: Reg rl g String
111 g_term_keysyms = rule "term_keysyms" $
112 choice $ string <$> ["\\", "->", "=", "@"]
113
114 deriving instance Gram_Name g => Gram_Name (CF g)
115 instance Gram_Name EBNF
116 instance Gram_Name RuleEBNF
117
118 -- * Class 'Gram_Term_Type'
119 class
120 ( Gram_Terminal g
121 , Gram_Rule g
122 , Gram_Alt g
123 , Gram_AltApp g
124 , Gram_App g
125 , Gram_CF g
126 , Gram_Comment g
127 , Gram_Name g
128 , Gram_Type src g
129 ) => Gram_Term_Type src g where
130 g_term_abst_decl :: CF g (NameTe, AST_Type src)
131 g_term_abst_decl = rule "term_abst_decl" $
132 parens $ (,)
133 <$> g_term_name
134 <* (symbol "::" <+> symbol ":")
135 -- NOTE: "::" is Haskell compatibility and ":" is another common notation.
136 <*> g_type
137
138 deriving instance Gram_Term_Type src g => Gram_Term_Type src (CF g)
139 instance Gram_Source src EBNF => Gram_Term_Type src EBNF
140 instance Gram_Source src RuleEBNF => Gram_Term_Type src RuleEBNF
141
142 -- ** Type 'Error_Term_Gram'
143 data Error_Term_Gram
144 = Error_Term_Gram_Fixity Error_Fixity
145 | Error_Term_Gram_Term_incomplete
146 | Error_Term_Gram_Type_applied_to_nothing
147 | Error_Term_Gram_not_applicable
148 | Error_Term_Gram_application
149 | Error_Term_Gram_application_mismatch
150 | Error_Term_Gram_Module Error_Module
151 deriving (Eq, Show)
152
153 -- * Class 'Gram_Term'
154 class
155 ( Gram_Source src g
156 , Gram_Error Error_Term_Gram g
157 , Gram_Terminal g
158 , Gram_Rule g
159 , Gram_Alt g
160 , Gram_App g
161 , Gram_AltApp g
162 , Gram_CF g
163 , Gram_Comment g
164 , Gram_Type src g
165 , Gram_Name g
166 , Gram_Term_Type src g
167 , Gram_Term_Atoms src ss g
168 , Gram_State (Imports, Modules src ss) g
169 ) => Gram_Term src ss g where
170 g_term :: CF g (AST_Term src ss)
171 g_term = rule "term" $
172 choice
173 [ try g_term_abst
174 , g_term_operators
175 , g_term_let
176 ]
177 g_term_operators :: CF g (AST_Term src ss)
178 g_term_operators = rule "term_operators" $
179 g_catch $
180 left Error_Term_Gram_Fixity <$>
181 g_ops
182 where
183 g_ops :: CF g (Either Error_Fixity (AST_Term src ss))
184 g_ops = operators g_term_atom g_prefix g_infix g_postfix
185 g_prefix :: CF g (Unifix, AST_Term src ss -> AST_Term src ss)
186 g_infix :: CF g (Infix, AST_Term src ss -> AST_Term src ss -> AST_Term src ss)
187 g_postfix :: CF g (Unifix, AST_Term src ss -> AST_Term src ss)
188 g_prefix = g_catch $ g_source $ g_get_after $ op_prefix <$> g_prefix_op
189 g_infix = g_catch $ g_source $ g_get_after $ op_infix <$> g_infix_op
190 g_postfix = g_catch $ g_source $ g_get_after $ op_postfix <$> g_postfix_op
191 op_infix
192 :: Mod NameTe
193 -> (Imports, Modules src ss)
194 -> src
195 -> Either Error_Term_Gram
196 (Infix, AST_Term src ss -> AST_Term src ss -> AST_Term src ss)
197 op_infix name (imps, mods) src = do
198 t <- Error_Term_Gram_Module `left`
199 lookupDefTerm FixitySing_Infix imps name mods
200 Right $ (token_fixity t,) $ \a b ->
201 (BinTree0 (token_term t src) `BinTree2` a) `BinTree2` b
202 op_prefix, op_postfix
203 :: Mod NameTe
204 -> (Imports, Modules src ss)
205 -> src
206 -> Either Error_Term_Gram
207 ( Unifix
208 , AST_Term src ss -> AST_Term src ss )
209 op_prefix name (imps, mods) src = do
210 t <- Error_Term_Gram_Module `left`
211 lookupDefTerm FixitySing_Prefix imps name mods
212 Right $ (token_fixity t,) $ \a ->
213 BinTree0 (token_term t src) `BinTree2` a
214 op_postfix name (imps, mods) src = do
215 t <- Error_Term_Gram_Module `left`
216 lookupDefTerm FixitySing_Postfix imps name mods
217 Right $ (token_fixity t,) $ \a ->
218 BinTree0 (token_term t src) `BinTree2` a
219 g_postfix_op :: CF g (Mod NameTe)
220 g_postfix_op = rule "term_op_postfix" $
221 lexeme $
222 g_backquote *> g_term_mod_idname <+> -- <* (cf_of_Terminal $ Gram.Term (pure ' ') `but` g_backquote)
223 g_term_mod_opname
224 g_infix_op :: CF g (Mod NameTe)
225 g_infix_op = rule "term_op_infix" $
226 lexeme $
227 between g_backquote g_backquote g_term_mod_idname <+>
228 try (Fun.const <$> g_term_mod_opname <*> (string " " <+> string "\n")) <+>
229 pure (Mod [] " ")
230 g_prefix_op :: CF g (Mod NameTe)
231 g_prefix_op = rule "term_op_prefix" $
232 lexeme $
233 g_term_mod_idname <* g_backquote <+>
234 g_term_mod_opname
235 g_backquote :: Gram_Terminal g' => g' Char
236 g_backquote = char '`'
237
238 g_term_atom :: CF g (AST_Term src ss)
239 g_term_atom = rule "term_atom" $
240 choice $
241 {-(try (
242 g_source $
243 (\typ src -> BinTree0 $ inj_EToken src $ Token_Term_Type typ)
244 <$ char '@' <*> g_type) :) $
245 -}
246 (try <$> g_term_atomsR (Proxy @ss)) <>
247 [ try $
248 g_catch $ g_source $ g_get_after $
249 (\m (imps, mods) src ->
250 case lookupDefTerm FixitySing_Infix imps m mods of
251 Right t -> Right $ BinTree0 $ token_term t src
252 Left err ->
253 case m of
254 [] `Mod` n -> Right $ BinTree0 $ Token_Term_Var src n
255 _ -> Left $ Error_Term_Gram_Module err
256 ) <$> g_term_mod_name
257 , g_term_group
258 ]
259 g_term_group :: CF g (AST_Term src ss)
260 g_term_group = rule "term_group" $ parens g_term
261 g_term_abst :: CF g (AST_Term src ss)
262 g_term_abst = rule "term_abst" $
263 g_source $
264 ((\(xs, te) src ->
265 foldr (\(x, ty_x) ->
266 BinTree0 . Token_Term_Abst src x ty_x) te xs) <$>) $
267 g_term_abst_args_body
268 (symbol "\\" *> some g_term_abst_decl <* symbol "->")
269 g_term
270 g_term_abst_args_body
271 :: CF g [(NameTe, AST_Type src)]
272 -> CF g (AST_Term src ss)
273 -> CF g ([(NameTe, AST_Type src)], AST_Term src ss)
274 -- g_term_abst_args_body args body = (,) <$> args <*> body
275 g_term_abst_args_body cf_args cf_body =
276 g_state_before $
277 (\a b (imps::Imports, mods::Modules src ss) -> ((imps, mods), (a, b)))
278 <$> (g_state_after $ (<$> cf_args) $ \args (imps::Imports, Modules mods) ->
279 ((imps, Modules $ Map.alter (setArgs args) [] mods), args))
280 <*> cf_body
281 where
282 setArgs args = \case
283 Nothing -> Just $ moduleEmpty {module_infix = insArg mempty args}
284 Just mod -> Just $ mod
285 { module_prefix = delArg (module_prefix mod) args
286 , module_infix = insArg (module_infix mod) args
287 , module_postfix = delArg (module_postfix mod) args
288 }
289 delArg :: ModuleFixy src ss Unifix -> [(NameTe, _a)] -> ModuleFixy src ss Unifix
290 delArg = foldr $ \(n, _) -> Map.delete n
291 insArg :: ModuleFixy src ss Infix -> [(NameTe, _a)] -> ModuleFixy src ss Infix
292 insArg = foldr $ \(n, _) ->
293 Map.insert n Tokenizer
294 { token_term = \src -> Token_Term_Var src n
295 , token_fixity = infixN5
296 }
297 g_term_let :: CF g (AST_Term src ss)
298 g_term_let = rule "term_let" $
299 g_source $
300 (\name args bound body src ->
301 BinTree0 $
302 Token_Term_Let src name
303 (foldr (\(x, ty_x) ->
304 BinTree0 . Token_Term_Abst src x ty_x) bound args) body)
305 <$ symbol "let"
306 <*> g_term_name
307 <*> many g_term_abst_decl
308 <* symbol "="
309 <*> g_term
310 <* symbol "in"
311 <*> g_term
312
313 deriving instance
314 ( Gram_Term src ss g
315 , Gram_Term_Atoms src ss (CF g)
316 ) => Gram_Term src ss (CF g)
317 instance
318 ( Gram_Term_Atoms src ss EBNF
319 , Gram_Source src EBNF
320 ) => Gram_Term src ss EBNF
321 instance
322 ( Gram_Term_Atoms src ss RuleEBNF
323 , Gram_Source src RuleEBNF
324 ) => Gram_Term src ss RuleEBNF
325
326 -- ** Class 'Gram_Term_Atoms'
327 type Gram_Term_Atoms src ss g = Gram_Term_AtomsR src ss ss g
328
329 -- *** Class 'Gram_Term_AtomsR'
330 class Gram_Term_AtomsR src (ss::[*]) (rs::[*]) g where
331 g_term_atomsR :: Proxy rs -> [CF g (AST_Term src ss)]
332 instance Gram_Term_AtomsR src ss '[] g where
333 g_term_atomsR _rs = []
334 instance
335 ( Gram_Term_AtomsFor src ss g t
336 , Gram_Term_AtomsR src ss rs g
337 ) => Gram_Term_AtomsR src ss (Proxy t ': rs) g where
338 g_term_atomsR _ =
339 g_term_atomsFor (Proxy @t) <>
340 g_term_atomsR (Proxy @rs)
341
342 -- *** Class 'Gram_Term_AtomsFor'
343 class Gram_Term_AtomsFor src ss g t where
344 g_term_atomsFor :: Proxy t -> [CF g (AST_Term src ss)]
345 g_term_atomsFor _t = []
346
347 gram_term
348 :: forall g.
349 ( Gram_Term () '[Proxy (->), Proxy Integer] g
350 ) => [CF g ()]
351 gram_term =
352 [ voiD g_term
353 , voiD g_term_operators
354 , voiD g_term_atom
355 , voiD g_term_group
356 , voiD g_term_abst
357 , void (g_term_abst_decl::CF g (NameTe, AST_Type ()))
358 , voiD g_term_let
359 , void g_term_mod_name
360 , void g_term_name
361 , void g_term_idname
362 , void $ cf_of_Terminal g_term_idname_tail
363 , void $ cf_of_Reg g_term_keywords
364 , void g_term_mod_opname
365 , void g_term_opname
366 , void $ cf_of_Terminal g_term_opname_ok
367 , void $ cf_of_Reg g_term_keysyms
368 ] where
369 voiD :: CF g (AST_Term () '[Proxy (->), Proxy Integer]) -> CF g ()
370 voiD = (() <$)