]> Git — Sourcephile - haskell/symantic.git/blob - Language/Symantic/Lib/Data/Peano.hs
polish code, Foldable
[haskell/symantic.git] / Language / Symantic / Lib / Data / Peano.hs
1 {-# LANGUAGE DataKinds #-}
2 {-# LANGUAGE GADTs #-}
3 {-# LANGUAGE Rank2Types #-}
4 {-# LANGUAGE TypeOperators #-}
5 {-# LANGUAGE TypeFamilies #-}
6 {-# OPTIONS_GHC -fno-warn-missing-methods #-}
7 -- | Natural numbers at the type-level, and of kind @*@.
8 module Language.Symantic.Lib.Data.Peano where
9
10 import Data.Type.Equality ((:~:)(Refl))
11
12 -- * Types 'Zero' and 'Succ'
13 -- | Type-level peano numbers of kind '*'.
14 data Zero
15 data Succ p
16
17 -- ** Type synonyms for a few numbers
18 type P0 = Zero
19 type P1 = Succ P0
20 type P2 = Succ P1
21 type P3 = Succ P2
22
23 -- * Type 'SPeano'
24 -- | Singleton for 'Zero' and 'Succ'.
25 data SPeano p where
26 SZero :: SPeano Zero
27 SSucc :: SPeano p -> SPeano (Succ p)
28
29 -- * Type 'IPeano'
30 -- | Implicit construction of 'SPeano'.
31 class IPeano p where
32 ipeano :: SPeano p
33 instance IPeano Zero where
34 ipeano = SZero
35 instance IPeano p => IPeano (Succ p) where
36 ipeano = SSucc ipeano
37
38 -- * Type 'EPeano'
39 data EPeano where
40 EPeano :: SPeano p -> EPeano
41 instance Eq EPeano where
42 EPeano x == EPeano y =
43 (integral_from_peano x::Integer) ==
44 integral_from_peano y
45
46 integral_from_peano :: Integral i => SPeano p -> i
47 integral_from_peano SZero = 0
48 integral_from_peano (SSucc x) = 1 + integral_from_peano x
49
50 peano_from_integral :: Integral i => i -> (forall p. SPeano p -> ret) -> ret
51 peano_from_integral 0 k = k SZero
52 peano_from_integral i k | i > 0 =
53 peano_from_integral (i - 1) $ \p -> k (SSucc p)
54 peano_from_integral _ _ = error "peano_from_integral"
55
56 peano_eq :: forall x y. SPeano x -> SPeano y -> Maybe (x :~: y)
57 peano_eq SZero SZero = Just Refl
58 peano_eq (SSucc x) (SSucc y)
59 | Just Refl <- x `peano_eq` y
60 = Just Refl
61 peano_eq _ _ = Nothing
62
63 {-
64 -- * Type family '<='
65 type family n <= m :: Bool where
66 Zero <= m = 'True
67 n <= Zero = 'False
68 Succ n <= Succ m = n <= m
69
70 -- * Type 'VList'
71 -- | Vector list.
72 data VList :: * -> * -> * where
73 VNil :: VList Zero a
74 (:::) :: a -> VList p a -> VList (Succ p) a
75 infixr 5 :::
76 -}