{-| Copyright : (C) 2013-2016, University of Twente, 2017-2019, Myrtle Software Ltd, Google Inc. 2019, QBayLogic B.V. License : BSD2 (see the file LICENSE) Maintainer : Christiaan Baaij The Product/Signal isomorphism -} {-# LANGUAGE CPP #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE TypeFamilyDependencies #-} #if __GLASGOW_HASKELL__ < 806 {-# LANGUAGE TypeInType #-} #endif {-# LANGUAGE Trustworthy #-} --{-# OPTIONS_GHC -ddump-splices #-} {-# OPTIONS_HADDOCK show-extensions #-} module Clash.Signal.Bundle ( Bundle (..) -- ** Tools to emulate pre Clash 1.0 @Bundle ()@ instance , EmptyTuple(..) , TaggedEmptyTuple(..) -- ** Internal , vecBundle# ) where import Data.Functor.Compose import GHC.Generics import GHC.TypeLits (KnownNat) import Prelude hiding (head, map, tail) import Clash.Signal.Bundle.Internal (deriveBundleTuples) import Clash.Signal.Internal (Signal (..), Domain) import Clash.Sized.BitVector (Bit, BitVector) import Clash.Sized.Fixed (Fixed) import Clash.Sized.Index (Index) import Clash.Sized.Signed (Signed) import Clash.Sized.Unsigned (Unsigned) import Clash.Sized.Vector (Vec, traverse#, lazyV) import Clash.Sized.RTree (RTree, lazyT) -- | Isomorphism between a 'Clash.Signal.Signal' of a product type (e.g. a tuple) and a -- product type of 'Clash.Signal.Signal's. -- -- Instances of 'Bundle' must satisfy the following laws: -- -- @ -- 'bundle' . 'unbundle' = 'id' -- 'unbundle' . 'bundle' = 'id' -- @ -- -- By default, 'bundle' and 'unbundle', are defined as the identity, that is, -- writing: -- -- @ -- data D = A | B -- -- instance Bundle D -- @ -- -- is the same as: -- -- @ -- data D = A | B -- -- instance Bundle D where -- type 'Unbundled' clk D = 'Signal' clk D -- 'bundle' s = s -- 'unbundle' s = s -- @ -- -- For custom product types you'll have to write the instance manually: -- -- @ -- data Pair a b = MkPair { getA :: a, getB :: b } -- -- instance Bundle (Pair a b) where -- type Unbundled dom (Pair a b) = Pair (Signal dom a) (Signal dom b) -- -- -- bundle :: Pair (Signal dom a) (Signal dom b) -> Signal dom (Pair a b) -- bundle (MkPair as bs) = MkPair <$> as <*> bs -- -- -- unbundle :: Signal dom (Pair a b) -> Pair (Signal dom a) (Signal dom b) -- unbundle pairs = MkPair (getA <$> pairs) (getB <$> pairs) -- @ class Bundle a where type Unbundled (dom :: Domain) a = res | res -> dom a type Unbundled dom a = Signal dom a -- | Example: -- -- @ -- __bundle__ :: ('Signal' dom a, 'Signal' dom b) -> 'Signal' dom (a,b) -- @ -- -- However: -- -- @ -- __bundle__ :: 'Signal' dom 'Clash.Sized.BitVector.Bit' -> 'Signal' dom 'Clash.Sized.BitVector.Bit' -- @ bundle :: Unbundled dom a -> Signal dom a {-# INLINE bundle #-} default bundle :: (Signal dom a ~ Unbundled dom a) => Unbundled dom a -> Signal dom a bundle s = s -- | Example: -- -- @ -- __unbundle__ :: 'Signal' dom (a,b) -> ('Signal' dom a, 'Signal' dom b) -- @ -- -- However: -- -- @ -- __unbundle__ :: 'Signal' dom 'Clash.Sized.BitVector.Bit' -> 'Signal' dom 'Clash.Sized.BitVector.Bit' -- @ unbundle :: Signal dom a -> Unbundled dom a {-# INLINE unbundle #-} default unbundle :: (Unbundled dom a ~ Signal dom a) => Signal dom a -> Unbundled dom a unbundle s = s instance Bundle () instance Bundle Bool instance Bundle Integer instance Bundle Int instance Bundle Float instance Bundle Double instance Bundle (Maybe a) instance Bundle (Either a b) instance Bundle Bit instance Bundle (BitVector n) instance Bundle (Index n) instance Bundle (Fixed rep int frac) instance Bundle (Signed n) instance Bundle (Unsigned n) deriveBundleTuples ''Bundle ''Unbundled 'bundle 'unbundle instance KnownNat n => Bundle (Vec n a) where type Unbundled t (Vec n a) = Vec n (Signal t a) -- The 'Traversable' instance of 'Vec' is not synthesizable, so we must -- define 'bundle' as a primitive. bundle = vecBundle# unbundle = sequenceA . fmap lazyV {-# NOINLINE vecBundle# #-} vecBundle# :: Vec n (Signal t a) -> Signal t (Vec n a) vecBundle# = traverse# id instance KnownNat d => Bundle (RTree d a) where type Unbundled t (RTree d a) = RTree d (Signal t a) bundle = sequenceA unbundle = sequenceA . fmap lazyT instance Bundle ((f :*: g) a) where type Unbundled t ((f :*: g) a) = (Compose (Signal t) f :*: Compose (Signal t) g) a bundle (Compose l :*: Compose r) = (:*:) <$> l <*> r unbundle s = Compose (getL <$> s) :*: Compose (getR <$> s) where getL (l :*: _) = l getR (_ :*: r) = r -- | See 'TaggedEmptyTuple' data EmptyTuple = EmptyTuple -- | Helper type to emulate the "old" behavior of Bundle's unit instance. I.e., -- the instance for @Bundle ()@ used to be defined as: -- -- @ -- class Bundle () where -- bundle :: () -> Signal dom () -- unbundle :: Signal dom () -> () -- @ -- -- In order to have sensible type inference, the 'Bundle' class specifies that -- the argument type of 'bundle' should uniquely identify the result type, and -- vice versa for 'unbundle'. The type signatures in the snippet above don't -- though, as @()@ doesn't uniquely map to a specific domain. In other words, -- @domain@ should occur in both the argument and result of both functions. -- -- 'TaggedEmptyTuple' tackles this by carrying the domain in its type. The -- 'bundle' and 'unbundle' instance now looks like: -- -- @ -- class Bundle EmptyTuple where -- bundle :: TaggedEmptyTuple dom -> Signal dom EmptyTuple -- unbundle :: Signal dom EmptyTuple -> TaggedEmptyTuple dom -- @ -- -- @dom@ is now mentioned both the argument and result for both 'bundle' and -- 'unbundle'. data TaggedEmptyTuple (dom :: Domain) = TaggedEmptyTuple -- | See [commit 94b0bff5](https://github.com/clash-lang/clash-compiler/pull/539/commits/94b0bff5770aa4961e04ddce2515130df3fc7863) -- and documentation for 'TaggedEmptyTuple'. instance Bundle EmptyTuple where type Unbundled dom EmptyTuple = TaggedEmptyTuple dom bundle :: TaggedEmptyTuple dom -> Signal dom EmptyTuple bundle TaggedEmptyTuple = pure EmptyTuple unbundle :: Signal dom EmptyTuple -> TaggedEmptyTuple dom unbundle s = seq s TaggedEmptyTuple