{-# LANGUAGE DataKinds #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE QuantifiedConstraints #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE StandaloneDeriving #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
module CHAD where
import Data.Functor.Const
import AST
type Ex = Expr (Const ())
data Bindings f env env' where
BTop :: Bindings f env env
BPush :: Bindings f env env' -> f env' t -> Bindings f env (t : env')
deriving instance (forall e t. Show (f e t)) => Show (Bindings f env env')
weakenBindings :: (forall e1 e2 t. e1 :> e2 -> f e1 t -> f e2 t)
-> env1 :> env2 -> Bindings f env1 env'
-> (forall env2'. Bindings f env2 env2' -> env' :> env2' -> r) -> r
weakenBindings _ w BTop k = k BTop w
weakenBindings wf w (BPush b x) k =
weakenBindings wf w b $ \b' w' -> k (BPush b' (wf w' x)) (WCopy w')
sinkWithBindings :: Bindings f env env' -> env :> env'
sinkWithBindings BTop = WId
sinkWithBindings (BPush b _) = WSink .> sinkWithBindings b
bconcat :: Bindings f env1 env2 -> Bindings f env2 env3 -> Bindings f env1 env3
bconcat b1 BTop = b1
bconcat b1 (BPush b2 x) = BPush (bconcat b1 b2) x
bconcat' :: (forall e1 e2 t. e1 :> e2 -> f e1 t -> f e2 t)
-> Bindings f env env1 -> Bindings f env env2 -> (forall env12. Bindings env env12 -> r) -> r
bconcat' wf b1 b2 = weakenBindings
-- bconcat :: (forall e1 e2 t. e1 :> e2 -> f e1 t -> f e2 t)
-- -> Bindings f env env1 -> Bindings f env env2 -> env :> env'
-- -> (forall env'12. Bindings f env' env'12 -> r) -> r
-- bconcat wf BTop b w k = weakenBindings wf w b $ \b' _ -> k b'
-- bconcat wf (BPush b x) b2 w k =
-- bconcat wf
type family D1 t where
D1 TNil = TNil
D1 (TPair a b) = TPair (D1 a) (D1 b)
D1 (TArr n t) = TArr n (D1 t)
D1 (TScal t) = TScal t
type family D2 t where
D2 TNil = TNil
D2 (TPair a b) = TPair (D2 a) (D2 b)
-- D2 (TArr n t) = _
D2 (TScal t) = D2s t
type family D2s t where
D2s TI32 = TNil
D2s TI64 = TNil
D2s TF32 = TScal TF32
D2s TF64 = TScal TF64
D2s TBool = TNil
type family D1E env where
D1E '[] = '[]
D1E (t : env) = D1 t : D1E env
type family D2E env where
D2E '[] = '[]
D2E (t : env) = D2 t : D2E env
data Ret env t =
forall env'.
Ret (Bindings Ex (D1E env) env')
(Ex env' (D1 t))
(Ex (D2 t : env') (TEVM (D2E env) TNil))
deriving instance Show (Ret env t)
d1 :: STy t -> STy (D1 t)
d1 STNil = STNil
d1 (STPair a b) = STPair (d1 a) (d1 b)
d1 (STArr n t) = STArr n (d1 t)
d1 (STScal t) = STScal t
d1 STEVM{} = error "EVM not allowed in input program"
d2 :: STy t -> STy (D2 t)
d2 STNil = STNil
d2 (STPair a b) = STPair (d2 a) (d2 b)
d2 STArr{} = error "TODO arrays"
d2 (STScal t) = case t of
STI32 -> STNil
STI64 -> STNil
STF32 -> STScal STF32
STF64 -> STScal STF64
STBool -> STNil
d2 STEVM{} = error "EVM not allowed in input program"
conv1Idx :: Idx env t -> Idx (D1E env) (D1 t)
conv1Idx IZ = IZ
conv1Idx (IS i) = IS (conv1Idx i)
conv2Idx :: Idx env t -> Idx (D2E env) (D2 t)
conv2Idx IZ = IZ
conv2Idx (IS i) = IS (conv2Idx i)
drev :: Ex env t -> Ret env t
drev = \case
EVar _ t i ->
Ret BTop
(EVar ext (d1 t) (conv1Idx i))
(EMOne (conv2Idx i) (EVar ext (d2 t) IZ))
ELet _ rhs body ->
Ret _
_
_
where
ext = Const ()