1 {-# LANGUAGE UndecidableInstances #-}
2 {-# OPTIONS_GHC -fno-warn-orphans #-}
3 {-# OPTIONS_GHC -fconstraint-solver-iterations=9 #-}
4 -- | Symantic for 'NonNull'.
5 module Language.Symantic.Lib.NonNull where
7 import Control.Monad (liftM, liftM2)
8 import Data.MonoTraversable (MonoFoldable)
9 import qualified Data.MonoTraversable as MT
10 import Data.NonNull (NonNull)
11 import qualified Data.NonNull as NonNull
13 import Data.Sequences (IsSequence, SemiSequence)
14 import Data.Type.Equality ((:~:)(Refl))
15 import Prelude hiding (head, init, last, tail)
17 import Language.Symantic.Parsing
18 import Language.Symantic.Parsing.Grammar
19 import Language.Symantic.Typing
20 import Language.Symantic.Compiling
21 import Language.Symantic.Interpreting
22 import Language.Symantic.Transforming.Trans
23 import Language.Symantic.Lib.MonoFunctor
25 -- * Class 'Sym_NonNull'
26 class Sym_NonNull term where
27 fromNullable :: MonoFoldable o => term o -> term (Maybe (NonNull o))
28 toNullable :: MonoFoldable o => term (NonNull o) -> term o
29 ncons :: SemiSequence s => term (MT.Element s) -> term s -> term (NonNull s)
30 nuncons :: IsSequence s => term (NonNull s) -> term (MT.Element s, Maybe (NonNull s))
31 head :: MonoFoldable o => term (NonNull o) -> term (MT.Element o)
32 last :: MonoFoldable o => term (NonNull o) -> term (MT.Element o)
33 tail :: IsSequence s => term (NonNull s) -> term s
34 init :: IsSequence s => term (NonNull s) -> term s
35 nfilter :: IsSequence s => term (MT.Element s -> Bool) -> term (NonNull s) -> term s
36 default fromNullable :: (Trans t term, MonoFoldable o) => t term o -> t term (Maybe (NonNull o))
37 default toNullable :: (Trans t term, MonoFoldable o) => t term (NonNull o) -> t term o
38 default ncons :: (Trans t term, SemiSequence s) => t term (MT.Element s) -> t term s -> t term (NonNull s)
39 default nuncons :: (Trans t term, IsSequence s) => t term (NonNull s) -> t term (MT.Element s, Maybe (NonNull s))
40 default head :: (Trans t term, MonoFoldable o) => t term (NonNull o) -> t term (MT.Element o)
41 default last :: (Trans t term, MonoFoldable o) => t term (NonNull o) -> t term (MT.Element o)
42 default tail :: (Trans t term, IsSequence s) => t term (NonNull s) -> t term s
43 default init :: (Trans t term, IsSequence s) => t term (NonNull s) -> t term s
44 default nfilter :: (Trans t term, IsSequence s) => t term (MT.Element s -> Bool) -> t term (NonNull s) -> t term s
45 fromNullable = trans_map1 fromNullable
46 toNullable = trans_map1 toNullable
47 ncons = trans_map2 ncons
48 nuncons = trans_map1 nuncons
49 head = trans_map1 head
50 last = trans_map1 last
51 tail = trans_map1 tail
52 init = trans_map1 init
53 nfilter = trans_map2 nfilter
55 type instance Sym_of_Iface (Proxy NonNull) = Sym_NonNull
56 type instance Consts_of_Iface (Proxy NonNull) = Proxy NonNull ': Consts_imported_by NonNull
57 type instance Consts_imported_by NonNull =
63 , Proxy MT.MonoFoldable
64 , Proxy MT.MonoFunctor
70 instance Sym_NonNull HostI where
71 fromNullable = liftM NonNull.fromNullable
72 toNullable = liftM NonNull.toNullable
73 ncons = liftM2 NonNull.ncons
74 nuncons = liftM NonNull.nuncons
75 head = liftM NonNull.head
76 last = liftM NonNull.last
77 tail = liftM NonNull.tail
78 init = liftM NonNull.init
79 nfilter = liftM2 NonNull.nfilter
80 instance Sym_NonNull TextI where
81 fromNullable = textI1 "fromNullable"
82 toNullable = textI1 "toNullable"
83 ncons = textI2 "ncons"
84 nuncons = textI1 "nuncons"
89 nfilter = textI2 "nfilter"
90 instance (Sym_NonNull r1, Sym_NonNull r2) => Sym_NonNull (DupI r1 r2) where
91 fromNullable = dupI1 (Proxy @Sym_NonNull) fromNullable
92 toNullable = dupI1 (Proxy @Sym_NonNull) toNullable
93 ncons = dupI2 (Proxy @Sym_NonNull) ncons
94 nuncons = dupI1 (Proxy @Sym_NonNull) nuncons
95 head = dupI1 (Proxy @Sym_NonNull) head
96 last = dupI1 (Proxy @Sym_NonNull) last
97 tail = dupI1 (Proxy @Sym_NonNull) tail
98 init = dupI1 (Proxy @Sym_NonNull) init
99 nfilter = dupI2 (Proxy @Sym_NonNull) nfilter
102 ( Read_TypeNameR Type_Name cs rs
103 , Inj_Const cs NonNull
104 ) => Read_TypeNameR Type_Name cs (Proxy NonNull ': rs) where
105 read_typenameR _cs (Type_Name "NonNull") k = k (ty @NonNull)
106 read_typenameR _rs raw k = read_typenameR (Proxy @rs) raw k
107 instance Show_Const cs => Show_Const (Proxy NonNull ': cs) where
108 show_const ConstZ{} = "NonNull"
109 show_const (ConstS c) = show_const c
111 instance -- Fam_MonoElement
112 ( Proj_Const cs NonNull
113 , Proj_Fam cs Fam_MonoElement
114 ) => Proj_FamC cs Fam_MonoElement NonNull where
115 proj_famC _c _fam ((TyConst c :$ ty_o) `TypesS` TypesZ)
116 | Just Refl <- eq_skind (kind_of_const c) (SKiType `SKiArrow` SKiType)
117 , Just Refl <- proj_const c (Proxy @NonNull)
118 = proj_fam Fam_MonoElement (ty_o `TypesS` TypesZ)
119 proj_famC _c _fam _ty = Nothing
120 instance -- Proj_ConC
121 ( Proj_Const cs NonNull
122 , Proj_Consts cs (Consts_imported_by NonNull)
124 ) => Proj_ConC cs (Proxy NonNull) where
125 proj_conC _ (t@(TyConst q) :$ (TyConst c :$ o))
126 | Just Refl <- eq_skind (kind_of_const c) (SKiType `SKiArrow` SKiType)
127 , Just Refl <- proj_const c (Proxy @NonNull)
129 _ | Just Refl <- proj_const q (Proxy @Eq)
130 , Just Con <- proj_con (t :$ o) -> Just Con
131 | Just Refl <- proj_const q (Proxy @MT.MonoFoldable)
132 , Just Con <- proj_con (t :$ o) -> Just Con
133 | Just Refl <- proj_const q (Proxy @MT.MonoFunctor)
134 , Just Con <- proj_con (t :$ o) -> Just Con
135 | Just Refl <- proj_const q (Proxy @Ord)
136 , Just Con <- proj_con (t :$ o) -> Just Con
137 | Just Refl <- proj_const q (Proxy @SemiSequence)
138 , Just Con <- proj_con (t :$ o) -> Just Con
139 | Just Refl <- proj_const q (Proxy @Show)
140 , Just Con <- proj_con (t :$ o) -> Just Con
142 proj_conC _c _q = Nothing
143 data instance TokenT meta (ts::[*]) (Proxy NonNull)
144 = Token_Term_NonNull_fromNullable (EToken meta ts)
145 | Token_Term_NonNull_toNullable (EToken meta ts)
146 | Token_Term_NonNull_ncons (EToken meta ts) (EToken meta ts)
147 | Token_Term_NonNull_nuncons (EToken meta ts)
148 | Token_Term_NonNull_head (EToken meta ts)
149 | Token_Term_NonNull_last (EToken meta ts)
150 | Token_Term_NonNull_tail (EToken meta ts)
151 | Token_Term_NonNull_init (EToken meta ts)
152 | Token_Term_NonNull_nfilter (EToken meta ts) (EToken meta ts)
153 deriving instance Eq_Token meta ts => Eq (TokenT meta ts (Proxy NonNull))
154 deriving instance Show_Token meta ts => Show (TokenT meta ts (Proxy NonNull))
156 ( Inj_Const (Consts_of_Ifaces is) NonNull
157 , Inj_Const (Consts_of_Ifaces is) (->)
158 , Inj_Const (Consts_of_Ifaces is) (,)
159 , Inj_Const (Consts_of_Ifaces is) Bool
160 , Inj_Const (Consts_of_Ifaces is) Maybe
161 , Inj_Const (Consts_of_Ifaces is) MonoFoldable
162 , Inj_Const (Consts_of_Ifaces is) IsSequence
163 , Inj_Const (Consts_of_Ifaces is) SemiSequence
164 , Proj_Con (Consts_of_Ifaces is)
165 , Proj_Fam (Consts_of_Ifaces is) Fam_MonoElement
167 ) => CompileI is (Proxy NonNull) where
169 :: forall meta ctx ret ls rs.
170 TokenT meta is (Proxy NonNull)
171 -> CompileT meta ctx ret is ls (Proxy NonNull ': rs)
174 Token_Term_NonNull_fromNullable tok_o ->
175 -- fromNullable :: MonoFoldable o => o -> Maybe (NonNull o)
176 compileO tok_o ctx $ \ty_o (TermO o) ->
177 check_con (At (Just tok_o) (ty @MonoFoldable :$ ty_o)) $ \Con ->
178 k (ty @Maybe :$ (ty @NonNull :$ ty_o)) $ TermO $
179 \c -> fromNullable (o c)
180 Token_Term_NonNull_toNullable tok_n ->
181 -- toNullable :: MonoFoldable o => NonNull o -> o
182 compileO tok_n ctx $ \ty_n (TermO n) ->
183 check_type1 (ty @NonNull) (At (Just tok_n) ty_n) $ \Refl ty_o ->
184 check_con (At (Just tok_n) (ty @MonoFoldable :$ ty_o)) $ \Con ->
186 \c -> toNullable (n c)
187 Token_Term_NonNull_ncons tok_e tok_s ->
188 -- ncons :: SemiSequence s => MT.Element s -> s -> NonNull s
189 compileO tok_e ctx $ \ty_e (TermO e) ->
190 compileO tok_s ctx $ \ty_s (TermO s) ->
191 check_con (At (Just tok_s) (ty @SemiSequence :$ ty_s)) $ \Con ->
192 check_fam (At (Just tok_s) Fam_MonoElement) (ty_s `TypesS` TypesZ) $ \ty_s_e ->
193 check_type (At Nothing ty_s_e) (At (Just tok_e) ty_e) $ \Refl ->
194 k (ty @NonNull :$ ty_s) $ TermO $
195 \c -> ncons (e c) (s c)
196 Token_Term_NonNull_nuncons tok_n ->
197 -- nuncons :: IsSequence s => NonNull s -> (MT.Element s, Maybe (NonNull s))
198 compileO tok_n ctx $ \ty_n (TermO n) ->
199 check_type1 (ty @NonNull) (At (Just tok_n) ty_n) $ \Refl ty_s ->
200 check_con (At (Just tok_n) (ty @IsSequence :$ ty_s)) $ \Con ->
201 check_fam (At (Just tok_n) Fam_MonoElement) (ty_s `TypesS` TypesZ) $ \ty_s_e ->
204 (At (Just tok_n) ty_s_e) $ \Refl ->
205 k (ty @(,) :$ ty_s_e :$ (ty @Maybe :$ (ty @NonNull :$ ty_s))) $ TermO $
207 Token_Term_NonNull_head tok_n -> n2e_from tok_n head
208 Token_Term_NonNull_last tok_n -> n2e_from tok_n last
209 Token_Term_NonNull_tail tok_n -> n2s_from tok_n tail
210 Token_Term_NonNull_init tok_n -> n2s_from tok_n init
211 Token_Term_NonNull_nfilter tok_e2Bool tok_n ->
212 -- filter :: IsSequence s => (MT.Element s -> Bool) -> NonNull s -> s
213 compileO tok_e2Bool ctx $ \ty_e2Bool (TermO e2Bool) ->
214 compileO tok_n ctx $ \ty_n (TermO s) ->
215 check_type2 (ty @(->)) (At (Just tok_e2Bool) ty_e2Bool) $ \Refl ty_e2Bool_e ty_e2Bool_Bool ->
217 (At Nothing (ty @Bool))
218 (At (Just tok_e2Bool) ty_e2Bool_Bool) $ \Refl ->
219 check_type1 (ty @NonNull) (At (Just tok_n) ty_n) $ \Refl ty_s ->
220 check_con (At (Just tok_n) (ty @IsSequence :$ ty_s)) $ \Con ->
221 check_fam (At (Just tok_n) Fam_MonoElement) (ty_s `TypesS` TypesZ) $ \ty_s_e ->
224 (At (Just tok_e2Bool) ty_e2Bool_e) $ \Refl ->
226 \c -> nfilter (e2Bool c) (s c)
230 (Sym_NonNull term, MonoFoldable o)
231 => term (NonNull o) -> term (MT.Element o)) =
232 -- head :: MonoFoldable o => NonNull o -> MT.Element o
233 -- last :: MonoFoldable o => NonNull o -> MT.Element o
234 compileO tok_n ctx $ \ty_n (TermO n) ->
235 check_type1 (ty @NonNull) (At (Just tok_n) ty_n) $ \Refl ty_o ->
236 check_con (At (Just tok_n) (ty @MonoFoldable :$ ty_o)) $ \Con ->
237 check_fam (At (Just tok_n) Fam_MonoElement) (ty_o `TypesS` TypesZ) $ \ty_o_e ->
242 (Sym_NonNull term, IsSequence s)
243 => term (NonNull s) -> term s) =
244 -- tail :: IsSequence s => NonNull s -> s
245 -- init :: IsSequence s => NonNull s -> s
246 compileO tok_n ctx $ \ty_n (TermO n) ->
247 check_type1 (ty @NonNull) (At (Just tok_n) ty_n) $ \Refl ty_s ->
248 check_con (At (Just tok_n) (ty @IsSequence :$ ty_s)) $ \Con ->
251 instance -- TokenizeT
252 Inj_Token meta ts NonNull =>
253 TokenizeT meta ts (Proxy NonNull) where
254 tokenizeT _t = mempty
255 { tokenizers_infix = tokenizeTMod []
256 [ tokenize1 "fromNullable" infixN5 Token_Term_NonNull_fromNullable
257 , tokenize1 "toNullable" infixN5 Token_Term_NonNull_toNullable
258 , tokenize2 "ncons" infixN5 Token_Term_NonNull_ncons
259 , tokenize1 "nuncons" infixN5 Token_Term_NonNull_nuncons
260 , tokenize1 "head" infixN5 Token_Term_NonNull_head
261 , tokenize1 "last" infixN5 Token_Term_NonNull_last
262 , tokenize1 "tail" infixN5 Token_Term_NonNull_tail
263 , tokenize1 "init" infixN5 Token_Term_NonNull_init
264 , tokenize2 "nfilter" infixN5 Token_Term_NonNull_nfilter
267 instance Gram_Term_AtomsT meta ts (Proxy NonNull) g