{-| Copyright : (C) 2013-2016, University of Twente, 2017 , Google Inc. 2019 , Myrtle Software Ltd 2021 , LUMI GUIDE FIETSDETECTIE B.V. License : BSD2 (see the file LICENSE) Maintainer : Christiaan Baaij <christiaan.baaij@gmail.com> -} {-# LANGUAGE CPP #-} {-# LANGUAGE GADTs #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE NoImplicitPrelude #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE UndecidableInstances #-} {-# LANGUAGE Trustworthy #-} {-# OPTIONS_GHC -fplugin GHC.TypeLits.Normalise #-} {-# OPTIONS_HADDOCK show-extensions #-} module Clash.Explicit.Signal.Delayed ( DSignal -- * Delay-annotated synchronous signals , delayed , delayedI , delayN , delayI , delayedFold , feedback -- * Signal \<-\> DSignal conversion , fromSignal , toSignal -- * List \<-\> DSignal conversion (not synthesizable) , dfromList -- ** lazy versions , dfromList_lazy -- * Experimental , unsafeFromSignal , antiDelay , forward ) where import Prelude ((.), (<$>), (<*>), id, Num(..)) import Data.Coerce (coerce) import Data.Kind (Type) import Data.Proxy (Proxy (..)) import Data.Singletons (Apply, TyFun, type (@@)) import GHC.TypeLits (KnownNat, Nat, type (+), type (^), type (*)) import Clash.Sized.Vector import Clash.Signal.Delayed.Internal (DSignal(..), dfromList, dfromList_lazy, fromSignal, toSignal, unsafeFromSignal, antiDelay, feedback, forward) import Clash.Explicit.Signal (KnownDomain, Clock, Domain, Reset, Signal, Enable, register, delay, bundle, unbundle) import Clash.Promoted.Nat (SNat (..), snatToInteger) import Clash.XException (NFDataX) {- $setup >>> :set -XDataKinds >>> :set -XTypeOperators >>> import Clash.Explicit.Prelude >>> let delay3 clk rst en = delayed clk rst en (-1 :> -1 :> -1 :> Nil) >>> let delay2 clk rst en = (delayedI clk rst en :: Int -> DSignal System n Int -> DSignal System (n + 2) Int) >>> let delayN2 = delayN d2 >>> let delayI2 = delayI :: KnownDomain dom => Int -> Enable dom -> Clock dom -> DSignal dom n Int -> DSignal dom (n + 2) Int >>> let countingSignals = Clash.Prelude.repeat (dfromList [0..]) :: Vec 4 (DSignal dom 0 Int) >>> :{ let mac :: Clock System -> Reset System -> Enable System -> DSignal System 0 Int -> DSignal System 0 Int -> DSignal System 0 Int mac clk rst en x y = feedback (mac' x y) where mac' :: DSignal System 0 Int -> DSignal System 0 Int -> DSignal System 0 Int -> (DSignal System 0 Int, DSignal System 1 Int) mac' a b acc = let acc' = a * b + acc in (acc, delayed clk rst en (singleton 0) acc') :} -} -- TODO: Reimplement with dtfold -- | Delay a 'DSignal' for @d@ periods. -- -- @ -- delay3 -- :: KnownDomain dom -- => Clock dom -- -> Reset dom -- -> Enable dom -- -> 'DSignal' dom n Int -- -> 'DSignal' dom (n + 3) Int -- delay3 clk rst en = 'delayed' clk rst en (-1 ':>' -1 ':>' -1 ':>' 'Nil') -- @ -- -- >>> sampleN 7 (delay3 systemClockGen resetGen enableGen (dfromList [0..])) -- [-1,-1,-1,-1,1,2,3] delayed :: forall dom a n d . ( KnownDomain dom , KnownNat d , NFDataX a ) => Clock dom -> Reset dom -> Enable dom -> Vec d a -- ^ Initial values -> DSignal dom n a -> DSignal dom (n + d) a delayed clk rst en m ds = coerce (delaySignal (coerce ds)) where delaySignal :: Signal dom a -> Signal dom a delaySignal s = case length m of 0 -> s _ -> let (r',o) = shiftInAt0 (unbundle r) (singleton s) r = register clk rst en m (bundle r') in head o -- | Delay a 'DSignal' for @d@ periods, where @d@ is derived from the -- context. -- -- @ -- delay2 -- :: KnownDomain dom -- => Clock dom -- -> Reset dom -- -> Enable dom -- -> Int -- -> 'DSignal' dom n Int -- -> 'DSignal' dom (n + 2) Int -- delay2 = 'delayedI' -- @ -- -- >>> sampleN 7 (delay2 systemClockGen resetGen enableGen (-1) (dfromList ([0..]))) -- [-1,-1,-1,1,2,3,4] -- -- @d@ can also be specified using type application: -- -- >>> :t delayedI @3 -- delayedI @3 -- :: ... => -- Clock dom -- -> Reset dom -- -> Enable dom -- -> a -- -> DSignal dom n a -- -> DSignal dom (n + 3) a delayedI :: ( KnownNat d , KnownDomain dom , NFDataX a ) => Clock dom -> Reset dom -> Enable dom -> a -- ^ Initial value -> DSignal dom n a -> DSignal dom (n + d) a delayedI clk rst en dflt = delayed clk rst en (repeat dflt) -- | Delay a 'DSignal' for @d@ cycles, the value at time 0..d-1 is /a/. -- -- @ -- delayN2 -- :: 'KnownDomain' dom -- => Int -- -> 'Enable' dom -- -> 'Clock' dom -- -> 'DSignal' dom n Int -- -> 'DSignal' dom (n + 2) Int -- delayN2 = 'delayN' d2 -- @ -- -- >>> printX $ sampleN 6 (delayN2 (-1) enableGen systemClockGen (dfromList [1..])) -- [-1,-1,1,2,3,4] delayN :: forall dom a d n . ( KnownDomain dom , NFDataX a ) => SNat d -> a -- ^ Initial value -> Enable dom -> Clock dom -> DSignal dom n a -> DSignal dom (n+d) a delayN d dflt ena clk = coerce . go (snatToInteger d) . coerce @_ @(Signal dom a) where go 0 = id go i = delay clk ena dflt . go (i-1) -- | Delay a 'DSignal' for @d@ cycles, where @d@ is derived from the context. -- The value at time 0..d-1 is a default value. -- -- @ -- delayI2 -- :: 'KnownDomain' dom -- => Int -- -> 'Enable' dom -- -> 'Clock' dom -- -> 'DSignal' dom n Int -- -> 'DSignal' dom (n + 2) Int -- delayI2 = 'delayI' -- @ -- -- >>> sampleN 6 (delayI2 (-1) enableGen systemClockGen (dfromList [1..])) -- [-1,-1,1,2,3,4] -- -- You can also use type application to do the same: -- -- >>> sampleN 6 (delayI @2 (-1) enableGen systemClockGen (dfromList [1..])) -- [-1,-1,1,2,3,4] delayI :: forall d n a dom . ( NFDataX a , KnownDomain dom , KnownNat d ) => a -- ^ Initial value -> Enable dom -> Clock dom -> DSignal dom n a -> DSignal dom (n+d) a delayI dflt = delayN (SNat :: SNat d) dflt data DelayedFold (dom :: Domain) (n :: Nat) (delay :: Nat) (a :: Type) (f :: TyFun Nat Type) :: Type type instance Apply (DelayedFold dom n delay a) k = DSignal dom (n + (delay*k)) a -- | Tree fold over a 'Vec' of 'DSignal's with a combinatorial function, -- and delaying @delay@ cycles after each application. -- Values at times 0..(delay*k)-1 are set to a default. -- -- @ -- countingSignals :: Vec 4 (DSignal dom 0 Int) -- countingSignals = repeat (dfromList [0..]) -- @ -- -- >>> printX $ sampleN 6 (delayedFold d1 (-1) (+) enableGen systemClockGen countingSignals) -- [-1,-2,0,4,8,12] -- -- >>> printX $ sampleN 8 (delayedFold d2 (-1) (*) enableGen systemClockGen countingSignals) -- [-1,-1,1,1,0,1,16,81] delayedFold :: forall dom n delay k a . ( NFDataX a , KnownDomain dom , KnownNat delay , KnownNat k ) => SNat delay -- ^ Delay applied after each step -> a -- ^ Initial value -> (a -> a -> a) -- ^ Fold operation to apply -> Enable dom -> Clock dom -> Vec (2^k) (DSignal dom n a) -- ^ Vector input of size 2^k -> DSignal dom (n + (delay * k)) a -- ^ Output Signal delayed by (delay * k) delayedFold _ dflt op ena clk = dtfold (Proxy :: Proxy (DelayedFold dom n delay a)) id go where go :: SNat l -> DelayedFold dom n delay a @@ l -> DelayedFold dom n delay a @@ l -> DelayedFold dom n delay a @@ (l+1) go SNat x y = delayI dflt ena clk (op <$> x <*> y)