{-# LANGUAGE DataKinds #-}
{-# LANGUAGE ExistentialQuantification #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE NoStarIsType #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE UndecidableInstances #-}
module Math.Tensor.Basic.Delta
(
delta
, delta'
, someDelta
) where
import Math.Tensor
import Math.Tensor.Safe
import Math.Tensor.Safe.TH
import Math.Tensor.Basic.TH
import Data.Singletons
( Sing
, SingI (sing)
, Demote
, withSomeSing
)
import Data.Singletons.Prelude
import Data.Singletons.Decide
( (:~:) (Refl)
, Decision (Proved)
, (%~)
)
import Data.Singletons.TypeLits
( Symbol
, Nat
, KnownNat
, withKnownNat
, natVal
, withKnownSymbol
)
import Data.List.NonEmpty (NonEmpty ((:|)))
delta' :: forall (id :: Symbol) (n :: Nat) (a :: Symbol) (b :: Symbol) (r :: Rank) v.
(
KnownNat n,
Num v,
'[ '( 'VSpace id n, 'ConCov (a ':| '[]) (b ':| '[])) ] ~ r,
TailR (TailR r) ~ '[],
Sane (TailR r) ~ 'True
) =>
Sing id -> Sing n -> Sing a -> Sing b ->
Tensor r v
delta' :: Sing id -> Sing n -> Sing a -> Sing b -> Tensor r v
delta' Sing id
_ Sing n
_ Sing a
_ Sing b
_ = Tensor r v
forall (id :: Symbol) (n :: Nat) (a :: Symbol) (b :: Symbol)
(r :: Rank) v.
('[ '( 'VSpace id n, 'ConCov (a ':| '[]) (b ':| '[]))] ~ r,
TailR (TailR r) ~ '[], Sane (TailR r) ~ 'True, SingI n, Num v) =>
Tensor r v
delta
delta :: forall (id :: Symbol) (n :: Nat) (a :: Symbol) (b :: Symbol) (r :: Rank) v.
(
'[ '( 'VSpace id n, 'ConCov (a ':| '[]) (b ':| '[]))] ~ r,
TailR (TailR r) ~ '[],
Sane (TailR r) ~ 'True,
SingI n,
Num v
) => Tensor r v
delta :: Tensor r v
delta = case (Sing n
forall k (a :: k). SingI a => Sing a
sing :: Sing n) of
Sing n
sn -> let x :: Int
x = Natural -> Int
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Natural -> Int) -> Natural -> Int
forall a b. (a -> b) -> a -> b
$ Sing n -> (KnownNat n => Natural) -> Natural
forall (n :: Nat) r. Sing n -> (KnownNat n => r) -> r
withKnownNat Sing n
sn ((KnownNat n => Natural) -> Natural)
-> (KnownNat n => Natural) -> Natural
forall a b. (a -> b) -> a -> b
$ SNat n -> Natural
forall (n :: Nat) (proxy :: Nat -> Type).
KnownNat n =>
proxy n -> Natural
natVal SNat n
Sing n
sn
in [(Int,
Tensor
(Case_6989586621679096763
('VSpace id n)
('ConCov (a ':| '[]) (b ':| '[]))
'[]
(Case_6989586621679096726
a
b
('VSpace id n)
('ConCov (a ':| '[]) (b ':| '[]))
'[]
(CmpSymbol a b)))
v)]
-> Tensor r v
forall (r :: Rank) (r' :: Rank) v.
(Sane r ~ 'True, TailR r ~ r') =>
[(Int, Tensor r' v)] -> Tensor r v
Tensor (Int -> [(Int, Tensor (TailR r) v)]
f Int
x)
where
f :: Int -> [(Int, Tensor (TailR r) v)]
f :: Int -> [(Int, Tensor (TailR r) v)]
f Int
x = (Int
-> (Int,
Tensor
(Case_6989586621679096763
('VSpace id n)
('ConCov (a ':| '[]) (b ':| '[]))
'[]
(Case_6989586621679096726
a
b
('VSpace id n)
('ConCov (a ':| '[]) (b ':| '[]))
'[]
(CmpSymbol a b)))
v))
-> [Int]
-> [(Int,
Tensor
(Case_6989586621679096763
('VSpace id n)
('ConCov (a ':| '[]) (b ':| '[]))
'[]
(Case_6989586621679096726
a
b
('VSpace id n)
('ConCov (a ':| '[]) (b ':| '[]))
'[]
(CmpSymbol a b)))
v)]
forall a b. (a -> b) -> [a] -> [b]
map (\Int
i -> (Int
i, [(Int, Tensor '[] v)]
-> Tensor
(Case_6989586621679096763
('VSpace id n)
('ConCov (a ':| '[]) (b ':| '[]))
'[]
(Case_6989586621679096726
a
b
('VSpace id n)
('ConCov (a ':| '[]) (b ':| '[]))
'[]
(CmpSymbol a b)))
v
forall (r :: Rank) (r' :: Rank) v.
(Sane r ~ 'True, TailR r ~ r') =>
[(Int, Tensor r' v)] -> Tensor r v
Tensor [(Int
i, v -> Tensor '[] v
forall v. v -> Tensor '[] v
Scalar v
1)])) [Int
0..Int
x Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
1]
someDelta :: Num v =>
Demote Symbol -> Demote Nat -> Demote Symbol -> Demote Symbol ->
T v
someDelta :: Demote Symbol
-> Demote Nat -> Demote Symbol -> Demote Symbol -> T v
someDelta Demote Symbol
vid Demote Nat
vdim Demote Symbol
a Demote Symbol
b =
Demote Symbol -> (forall (a :: Symbol). Sing a -> T v) -> T v
forall k r.
SingKind k =>
Demote k -> (forall (a :: k). Sing a -> r) -> r
withSomeSing Demote Symbol
vid ((forall (a :: Symbol). Sing a -> T v) -> T v)
-> (forall (a :: Symbol). Sing a -> T v) -> T v
forall a b. (a -> b) -> a -> b
$ \Sing a
svid ->
Demote Nat -> (forall (a :: Nat). Sing a -> T v) -> T v
forall k r.
SingKind k =>
Demote k -> (forall (a :: k). Sing a -> r) -> r
withSomeSing Demote Nat
vdim ((forall (a :: Nat). Sing a -> T v) -> T v)
-> (forall (a :: Nat). Sing a -> T v) -> T v
forall a b. (a -> b) -> a -> b
$ \Sing a
svdim ->
Demote Symbol -> (forall (a :: Symbol). Sing a -> T v) -> T v
forall k r.
SingKind k =>
Demote k -> (forall (a :: k). Sing a -> r) -> r
withSomeSing Demote Symbol
a ((forall (a :: Symbol). Sing a -> T v) -> T v)
-> (forall (a :: Symbol). Sing a -> T v) -> T v
forall a b. (a -> b) -> a -> b
$ \Sing a
sa ->
Demote Symbol -> (forall (a :: Symbol). Sing a -> T v) -> T v
forall k r.
SingKind k =>
Demote k -> (forall (a :: k). Sing a -> r) -> r
withSomeSing Demote Symbol
b ((forall (a :: Symbol). Sing a -> T v) -> T v)
-> (forall (a :: Symbol). Sing a -> T v) -> T v
forall a b. (a -> b) -> a -> b
$ \Sing a
sb ->
Sing a -> (KnownNat a => T v) -> T v
forall (n :: Nat) r. Sing n -> (KnownNat n => r) -> r
withKnownNat Sing a
svdim ((KnownNat a => T v) -> T v) -> (KnownNat a => T v) -> T v
forall a b. (a -> b) -> a -> b
$
Sing a -> (KnownSymbol a => T v) -> T v
forall (n :: Symbol) r. Sing n -> (KnownSymbol n => r) -> r
withKnownSymbol Sing a
svid ((KnownSymbol a => T v) -> T v) -> (KnownSymbol a => T v) -> T v
forall a b. (a -> b) -> a -> b
$
Sing a -> (KnownSymbol a => T v) -> T v
forall (n :: Symbol) r. Sing n -> (KnownSymbol n => r) -> r
withKnownSymbol Sing a
sa ((KnownSymbol a => T v) -> T v) -> (KnownSymbol a => T v) -> T v
forall a b. (a -> b) -> a -> b
$
Sing a -> (KnownSymbol a => T v) -> T v
forall (n :: Symbol) r. Sing n -> (KnownSymbol n => r) -> r
withKnownSymbol Sing a
sb ((KnownSymbol a => T v) -> T v) -> (KnownSymbol a => T v) -> T v
forall a b. (a -> b) -> a -> b
$
let sl :: Sing (Apply (Apply (Apply (Apply DeltaRankSym0 a) a) a) a)
sl = Sing a
-> Sing a
-> Sing a
-> Sing a
-> Sing (Apply (Apply (Apply (Apply DeltaRankSym0 a) a) a) a)
forall (t1 :: Symbol) (t2 :: Nat) (t3 :: Symbol) (t4 :: Symbol).
Sing t1
-> Sing t2
-> Sing t3
-> Sing t4
-> Sing (Apply (Apply (Apply (Apply DeltaRankSym0 t1) t2) t3) t4)
sDeltaRank Sing a
svid Sing a
svdim Sing a
sa Sing a
sb
in case Sing
(Case_6989586621679096763
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(Case_6989586621679096726
a
a
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(CmpSymbol a a)))
-> Sing
(Apply
TailRSym0
(Case_6989586621679096763
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(Case_6989586621679096726
a
a
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(CmpSymbol a a))))
forall s n (t :: [(VSpace s n, IList s)]).
SOrd s =>
Sing t -> Sing (Apply TailRSym0 t)
sTailR (Sing '[ '( 'VSpace a a, 'ConCov (a ':| '[]) (a ':| '[]))]
-> Sing
(Apply
TailRSym0 '[ '( 'VSpace a a, 'ConCov (a ':| '[]) (a ':| '[]))])
forall s n (t :: [(VSpace s n, IList s)]).
SOrd s =>
Sing t -> Sing (Apply TailRSym0 t)
sTailR Sing '[ '( 'VSpace a a, 'ConCov (a ':| '[]) (a ':| '[]))]
Sing (Apply (Apply (Apply (Apply DeltaRankSym0 a) a) a) a)
sl) of
Sing
(Apply
TailRSym0
(Case_6989586621679096763
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(Case_6989586621679096726
a
a
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(CmpSymbol a a))))
SNil -> case Sing
(Case_6989586621679096763
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(Case_6989586621679096726
a
a
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(CmpSymbol a a)))
-> Sing
(Apply
SaneSym0
(Case_6989586621679096763
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(Case_6989586621679096726
a
a
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(CmpSymbol a a))))
forall a b (t :: [(VSpace a b, IList a)]).
(SOrd a, SOrd b) =>
Sing t -> Sing (Apply SaneSym0 t)
sSane (Sing '[ '( 'VSpace a a, 'ConCov (a ':| '[]) (a ':| '[]))]
-> Sing
(Apply
TailRSym0 '[ '( 'VSpace a a, 'ConCov (a ':| '[]) (a ':| '[]))])
forall s n (t :: [(VSpace s n, IList s)]).
SOrd s =>
Sing t -> Sing (Apply TailRSym0 t)
sTailR Sing '[ '( 'VSpace a a, 'ConCov (a ':| '[]) (a ':| '[]))]
Sing (Apply (Apply (Apply (Apply DeltaRankSym0 a) a) a) a)
sl) Sing
(Sane
(Case_6989586621679096763
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(Case_6989586621679096726
a
a
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(CmpSymbol a a))))
-> Sing 'True
-> Decision
(Sane
(Case_6989586621679096763
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(Case_6989586621679096726
a
a
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(CmpSymbol a a)))
:~: 'True)
forall k (a :: k) (b :: k).
SDecide k =>
Sing a -> Sing b -> Decision (a :~: b)
%~ SBool 'True
Sing 'True
STrue of
Proved Sane
(Case_6989586621679096763
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(Case_6989586621679096726
a
a
('VSpace a a)
('ConCov (a ':| '[]) (a ':| '[]))
'[]
(CmpSymbol a a)))
:~: 'True
Refl -> Tensor '[ '( 'VSpace a a, 'ConCov (a ':| '[]) (a ':| '[]))] v
-> T v
forall (r :: Rank) v. SingI r => Tensor r v -> T v
T (Tensor '[ '( 'VSpace a a, 'ConCov (a ':| '[]) (a ':| '[]))] v
-> T v)
-> Tensor '[ '( 'VSpace a a, 'ConCov (a ':| '[]) (a ':| '[]))] v
-> T v
forall a b. (a -> b) -> a -> b
$ Sing a
-> Sing a
-> Sing a
-> Sing a
-> Tensor '[ '( 'VSpace a a, 'ConCov (a ':| '[]) (a ':| '[]))] v
forall (id :: Symbol) (n :: Nat) (a :: Symbol) (b :: Symbol)
(r :: Rank) v.
(KnownNat n, Num v,
'[ '( 'VSpace id n, 'ConCov (a ':| '[]) (b ':| '[]))] ~ r,
TailR (TailR r) ~ '[], Sane (TailR r) ~ 'True) =>
Sing id -> Sing n -> Sing a -> Sing b -> Tensor r v
delta' Sing a
svid Sing a
svdim Sing a
sa Sing a
sb