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fix Num requiring Integer
[haskell/symantic.git] / Language / Symantic / Expr / Error.hs
1 {-# LANGUAGE ConstraintKinds #-}
2 {-# LANGUAGE FlexibleContexts #-}
3 {-# LANGUAGE FlexibleInstances #-}
4 {-# LANGUAGE MultiParamTypeClasses #-}
5 {-# LANGUAGE ScopedTypeVariables #-}
6 {-# LANGUAGE TypeFamilies #-}
7 {-# LANGUAGE UndecidableInstances #-}
8 module Language.Symantic.Expr.Error where
9
10 import Data.Proxy (Proxy(..))
11 import Data.Text (Text)
12 import qualified Data.Text as Text
13
14 import Language.Symantic.Lib.Data.Bool
15 import Language.Symantic.Type
16 import Language.Symantic.Expr.Root
17 import Language.Symantic.Expr.Alt
18
19 -- * Type family 'Error_of_Expr'
20 -- | The error(s) of an expression.
21 type family Error_of_Expr (ast:: *) (ex:: *) :: *
22 type instance Error_of_Expr ast (Expr_Root ex)
23 = Error_Expr_Alt (Error_Expr (Error_of_Type ast (Type_Root_of_Expr (ex (Expr_Root ex))))
24 (Type_Root_of_Expr (ex (Expr_Root ex)))
25 ast)
26 (Error_of_Expr ast (ex (Expr_Root ex)))
27 type instance Error_of_Expr ast (Expr_Alt curr next root)
28 = Error_of_Expr_Alt ast (Error_of_Expr ast (curr root))
29 (Error_of_Expr ast (next root))
30
31 -- ** Type family 'Error_of_Expr_Alt'
32 -- | Remove 'No_Error_Expr' type when building the error of an expression.
33 type family Error_of_Expr_Alt ast curr next where
34 Error_of_Expr_Alt ast No_Error_Expr next = next
35 Error_of_Expr_Alt ast curr No_Error_Expr = curr
36 Error_of_Expr_Alt ast curr next = Error_Expr_Alt curr next
37
38 -- * Type 'Error_Expr_Alt'
39 -- | Error expression making an alternative between two error expressions.
40 data Error_Expr_Alt curr next
41 = Error_Expr_Alt_Curr curr
42 | Error_Expr_Alt_Next next
43 deriving (Eq, Show)
44
45 -- ** Type 'Error_Expr_Lift'
46 -- | Apply 'Peano_of_Error_Expr' on 'Error_Expr_LiftP'.
47 type Error_Expr_Lift err errs
48 = Error_Expr_LiftP (Peano_of_Error_Expr err errs) err errs
49
50 -- | Convenient wrapper around 'error_expr_liftP',
51 -- passing it the 'Peano' number from 'Peano_of_Error_Expr'.
52 error_expr_lift
53 :: forall err errs.
54 Error_Expr_Lift err errs => err -> errs
55 error_expr_lift = error_expr_liftP (Proxy::Proxy (Peano_of_Error_Expr err errs))
56
57 -- *** Type family 'Peano_of_Error_Expr'
58 -- | Return a 'Peano' number derived from the location
59 -- of a given error expression within a given error expression stack,
60 -- which is used to avoid @OverlappingInstances@.
61 type family Peano_of_Error_Expr (err:: *) (errs:: *) :: * where
62 Peano_of_Error_Expr err err = Zero
63 Peano_of_Error_Expr err (Error_Expr_Alt err next) = Zero
64 Peano_of_Error_Expr other (Error_Expr_Alt curr next) = Succ (Peano_of_Error_Expr other next)
65
66 -- *** Class 'Error_Expr_LiftP'
67 -- | Lift a given expression to the top of a given expression stack including it,
68 -- by constructing the appropriate sequence of 'Error_Expr_Alt_Curr' and 'Error_Expr_Alt_Next'.
69 class Error_Expr_LiftP (p:: *) err errs where
70 error_expr_liftP :: Proxy p -> err -> errs
71 instance Error_Expr_LiftP Zero curr curr where
72 error_expr_liftP _ = id
73 instance Error_Expr_LiftP Zero curr (Error_Expr_Alt curr next) where
74 error_expr_liftP _ = Error_Expr_Alt_Curr
75 instance
76 Error_Expr_LiftP p other next =>
77 Error_Expr_LiftP (Succ p) other (Error_Expr_Alt curr next) where
78 error_expr_liftP _ = Error_Expr_Alt_Next . error_expr_liftP (Proxy::Proxy p)
79
80 -- ** Type 'Error_Expr_Unlift'
81 -- | Apply 'Peano_of_Error_Expr' on 'Error_Expr_UnliftP'.
82 type Error_Expr_Unlift ex exs
83 = Error_Expr_UnliftP (Peano_of_Error_Expr ex exs) ex exs
84
85 -- | Convenient wrapper around 'error_expr_unliftP',
86 -- passing it the 'Peano' number from 'Peano_of_Error_Expr'.
87 error_expr_unlift
88 :: forall ex exs.
89 Error_Expr_Unlift ex exs => exs -> Maybe ex
90 error_expr_unlift = error_expr_unliftP (Proxy::Proxy (Peano_of_Error_Expr ex exs))
91
92 -- *** Class 'Error_Expr_UnliftP'
93 -- | Try to unlift a given expression error out of a given expression error stack including it,
94 -- by deconstructing the appropriate sequence of 'Error_Expr_Alt_Curr' and 'Error_Expr_Alt_Next'.
95 class Error_Expr_UnliftP (p:: *) ex exs where
96 error_expr_unliftP :: Proxy p -> exs -> Maybe ex
97 instance Error_Expr_UnliftP Zero curr curr where
98 error_expr_unliftP _ = Just
99 instance Error_Expr_UnliftP Zero curr (Error_Expr_Alt curr next) where
100 error_expr_unliftP _ (Error_Expr_Alt_Curr x) = Just x
101 error_expr_unliftP _ (Error_Expr_Alt_Next _) = Nothing
102 instance
103 Error_Expr_UnliftP p other next =>
104 Error_Expr_UnliftP (Succ p) other (Error_Expr_Alt curr next) where
105 error_expr_unliftP _ (Error_Expr_Alt_Next x) = error_expr_unliftP (Proxy::Proxy p) x
106 error_expr_unliftP _ (Error_Expr_Alt_Curr _) = Nothing
107
108 -- * Type 'Error_Expr_Read'
109 -- | Common expression errors.
110 data Error_Expr err_ty ty ast
111 = Error_Expr_Wrong_number_of_arguments ast Int
112 -- ^ Wrong number of arguments applied to a term,
113 -- the integer is the number of arguments expected.
114 | Error_Expr_Type_mismatch ast (Exists_Type0 ty) (Exists_Type0 ty)
115 -- ^ Mismatch between respectively expected and actual type.
116 | Error_Expr_Constraint_missing ast {-Exists_Dict-} (Exists_Type0 ty)
117 -- ^ A 'Constraint' is missing.
118 | Error_Expr_Read Error_Read ast
119 -- ^ Error when reading a literal.
120 | Error_Expr_Type err_ty ast
121 -- ^ Error when parsing a type.
122 | Error_Expr_Unsupported ast
123 -- ^ Given syntax is supported by none
124 -- of the expression parser components
125 -- of the expression stack.
126 | Error_Expr_Unsupported_here ast
127 -- ^ Given syntax not supported by
128 -- the current expression parser component.
129 deriving (Eq, Show)
130
131 -- | Convenient type alias.
132 type Error_Expr_of_Root ast root
133 = Error_Expr (Error_of_Type ast (Type_Root_of_Expr root))
134 (Type_Root_of_Expr root)
135 ast
136
137 -- | Convenient wrapper around 'error_expr_lift',
138 -- passing the type family boilerplate.
139 error_expr
140 :: forall ast ex ty.
141 (ty ~ Type_Root_of_Expr ex)
142 => Error_Expr_Lift
143 (Error_Expr (Error_of_Type ast ty) ty ast)
144 (Error_of_Expr ast (Root_of_Expr ex))
145 => Proxy ex
146 -> Error_Expr (Error_of_Type ast ty) ty ast
147 -> Error_of_Expr ast (Root_of_Expr ex)
148 error_expr _ = error_expr_lift
149
150 -- | Parsing utility to return 'Error_Expr_Unsupported'
151 -- or 'Error_Expr_Unsupported_here'
152 -- according to the given expression.
153 error_expr_unsupported
154 :: forall ast ex ty root.
155 ( root ~ Root_of_Expr ex
156 , ty ~ Type_Root_of_Expr ex
157 , IBool (Is_Last_Expr ex root)
158 , Error_Expr_Lift (Error_Expr (Error_of_Type ast ty) ty ast)
159 (Error_of_Expr ast root)
160 ) => Proxy ex -> ast
161 -> Error_of_Expr ast (Root_of_Expr ex)
162 error_expr_unsupported ex ast =
163 case iBool :: SBool (Is_Last_Expr ex root) of
164 STrue -> error_expr ex $ Error_Expr_Unsupported ast
165 SFalse -> error_expr ex $ Error_Expr_Unsupported_here ast
166
167 -- ** Type 'No_Error_Expr'
168 -- | A discarded error.
169 data No_Error_Expr
170 = No_Error_Expr
171 deriving (Eq, Show)
172
173 -- * Type 'Error_Read'
174 -- | Error parsing a host-term.
175 data Error_Read
176 = Error_Read Text
177 deriving (Eq, Show)
178
179 -- | Parse a host-term.
180 read_safe :: Read h => Text -> Either Error_Read h
181 read_safe t =
182 case reads $ Text.unpack t of
183 [(x, "")] -> Right x
184 _ -> Left $ Error_Read t