Copyright | (C) 2013-2016 University of Twente 2017 Google Inc. 2019 Myrtle Software Ltd |
---|---|

License | BSD2 (see the file LICENSE) |

Maintainer | Christiaan Baaij <christiaan.baaij@gmail.com> |

Safe Haskell | Safe |

Language | Haskell2010 |

## Synopsis

- data DSignal (dom :: Domain) (delay :: Nat) a
- delayed :: (KnownNat d, HiddenClockResetEnable dom, NFDataX a) => Vec d a -> DSignal dom n a -> DSignal dom (n + d) a
- delayedI :: (KnownNat d, NFDataX a, HiddenClockResetEnable dom) => a -> DSignal dom n a -> DSignal dom (n + d) a
- delayN :: forall dom a d n. (HiddenClock dom, HiddenEnable dom, NFDataX a) => SNat d -> a -> DSignal dom n a -> DSignal dom (n + d) a
- delayI :: forall d n a dom. (HiddenClockResetEnable dom, NFDataX a, KnownNat d) => a -> DSignal dom n a -> DSignal dom (n + d) a
- delayedFold :: forall dom n delay k a. (HiddenClock dom, HiddenEnable dom, NFDataX a, KnownNat delay, KnownNat k) => SNat delay -> a -> (a -> a -> a) -> Vec (2 ^ k) (DSignal dom n a) -> DSignal dom (n + (delay * k)) a
- feedback :: (DSignal dom n a -> (DSignal dom n a, DSignal dom ((n + m) + 1) a)) -> DSignal dom n a
- fromSignal :: Signal dom a -> DSignal dom 0 a
- toSignal :: DSignal dom delay a -> Signal dom a
- dfromList :: NFDataX a => [a] -> DSignal dom 0 a
- dfromList_lazy :: [a] -> DSignal dom 0 a
- unsafeFromSignal :: Signal dom a -> DSignal dom n a
- antiDelay :: SNat d -> DSignal dom (n + d) a -> DSignal dom n a

# Delay-annotated synchronous signals

data DSignal (dom :: Domain) (delay :: Nat) a Source #

A synchronized signal with samples of type `a`

, synchronized to clock
`clk`

, that has accumulated `delay`

amount of samples delay along its path.

## Instances

Functor (DSignal dom delay) Source # | |

Applicative (DSignal dom delay) Source # | |

Defined in Clash.Signal.Delayed.Internal pure :: a -> DSignal dom delay a # (<*>) :: DSignal dom delay (a -> b) -> DSignal dom delay a -> DSignal dom delay b # liftA2 :: (a -> b -> c) -> DSignal dom delay a -> DSignal dom delay b -> DSignal dom delay c # (*>) :: DSignal dom delay a -> DSignal dom delay b -> DSignal dom delay b # (<*) :: DSignal dom delay a -> DSignal dom delay b -> DSignal dom delay a # | |

Foldable (DSignal dom delay) Source # | |

Defined in Clash.Signal.Delayed.Internal fold :: Monoid m => DSignal dom delay m -> m # foldMap :: Monoid m => (a -> m) -> DSignal dom delay a -> m # foldr :: (a -> b -> b) -> b -> DSignal dom delay a -> b # foldr' :: (a -> b -> b) -> b -> DSignal dom delay a -> b # foldl :: (b -> a -> b) -> b -> DSignal dom delay a -> b # foldl' :: (b -> a -> b) -> b -> DSignal dom delay a -> b # foldr1 :: (a -> a -> a) -> DSignal dom delay a -> a # foldl1 :: (a -> a -> a) -> DSignal dom delay a -> a # toList :: DSignal dom delay a -> [a] # null :: DSignal dom delay a -> Bool # length :: DSignal dom delay a -> Int # elem :: Eq a => a -> DSignal dom delay a -> Bool # maximum :: Ord a => DSignal dom delay a -> a # minimum :: Ord a => DSignal dom delay a -> a # | |

Traversable (DSignal dom delay) Source # | |

Defined in Clash.Signal.Delayed.Internal traverse :: Applicative f => (a -> f b) -> DSignal dom delay a -> f (DSignal dom delay b) # sequenceA :: Applicative f => DSignal dom delay (f a) -> f (DSignal dom delay a) # mapM :: Monad m => (a -> m b) -> DSignal dom delay a -> m (DSignal dom delay b) # sequence :: Monad m => DSignal dom delay (m a) -> m (DSignal dom delay a) # | |

Fractional a => Fractional (DSignal dom delay a) Source # | |

Num a => Num (DSignal dom delay a) Source # | |

Defined in Clash.Signal.Delayed.Internal (+) :: DSignal dom delay a -> DSignal dom delay a -> DSignal dom delay a # (-) :: DSignal dom delay a -> DSignal dom delay a -> DSignal dom delay a # (*) :: DSignal dom delay a -> DSignal dom delay a -> DSignal dom delay a # negate :: DSignal dom delay a -> DSignal dom delay a # abs :: DSignal dom delay a -> DSignal dom delay a # signum :: DSignal dom delay a -> DSignal dom delay a # fromInteger :: Integer -> DSignal dom delay a # | |

Show a => Show (DSignal dom delay a) Source # | |

Lift a => Lift (DSignal dom delay a) Source # | |

Arbitrary a => Arbitrary (DSignal dom delay a) Source # | |

CoArbitrary a => CoArbitrary (DSignal dom delay a) Source # | |

Defined in Clash.Signal.Delayed.Internal coarbitrary :: DSignal dom delay a -> Gen b -> Gen b # | |

Default a => Default (DSignal dom delay a) Source # | |

Defined in Clash.Signal.Delayed.Internal | |

type HasDomain dom1 (DSignal dom2 delay a) Source # | |

Defined in Clash.Class.HasDomain.HasSpecificDomain | |

type TryDomain t (DSignal dom delay a) Source # | |

Defined in Clash.Class.HasDomain.HasSingleDomain |

delayed :: (KnownNat d, HiddenClockResetEnable dom, NFDataX a) => Vec d a -> DSignal dom n a -> DSignal dom (n + d) a Source #

:: (KnownNat d, NFDataX a, HiddenClockResetEnable dom) | |

=> a | Initial value |

-> DSignal dom n a | |

-> DSignal dom (n + d) a |

Delay a `DSignal`

for `d`

periods, where `d`

is derived from the context.

delay2 :: HiddenClockResetEnable dom => Int ->`DSignal`

dom n Int ->`DSignal`

dom (n + 2) Int delay2 =`delayedI`

`>>>`

[-1,-1,-1,1,2,3,4]`sampleN @System 7 (toSignal (delay2 (-1) (dfromList [0..])))`

Or `d`

can be specified using type application:

`>>>`

delayedI @3 :: (... ... ... ...) => a -> DSignal dom n a -> DSignal dom (n + 3) a`:t delayedI @3`

:: (HiddenClock dom, HiddenEnable dom, NFDataX a) | |

=> SNat d | |

-> a | Initial value |

-> DSignal dom n a | |

-> DSignal dom (n + d) a |

:: (HiddenClockResetEnable dom, NFDataX a, KnownNat d) | |

=> a | Initial value |

-> DSignal dom n a | |

-> DSignal dom (n + d) a |

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 :: HiddenClockResetEnable dom => Int ->`DSignal`

dom n Int ->`DSignal`

dom (n + 2) Int delayI2 =`delayI`

`>>>`

[-1,-1,1,2,3,4]`sampleN @System 6 (toSignal (delayI2 (-1) (dfromList [1..])))`

You can also use type application to do the same:
>>> sampleN `System 6 (toSignal (delayI `

2 (-1) (dfromList [1..])))
[-1,-1,1,2,3,4]

:: (HiddenClock dom, HiddenEnable dom, NFDataX a, KnownNat delay, KnownNat k) | |

=> SNat delay | Delay applied after each step |

-> a | Initial value |

-> (a -> a -> a) | Fold operation to apply |

-> 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) |

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..])

`>>>`

[-1,-2,0,4,8,12]`printX $ sampleN @System 6 (toSignal (delayedFold d1 (-1) (+) countingSignals))`

`>>>`

[-1,-1,1,1,0,1,16,81]`printX $ sampleN @System 8 (toSignal (delayedFold d2 (-1) (*) countingSignals))`

feedback :: (DSignal dom n a -> (DSignal dom n a, DSignal dom ((n + m) + 1) a)) -> DSignal dom n a Source #

Feed the delayed result of a function back to its input:

mac :: Clock dom -> Reset dom -> Enable dom ->`DSignal`

dom 0 Int ->`DSignal`

dom 0 Int ->`DSignal`

dom 0 Int mac clk rst en x y =`feedback`

(mac' x y) where mac' ::`DSignal`

dom 0 Int ->`DSignal`

dom 0 Int ->`DSignal`

dom 0 Int -> (`DSignal`

dom 0 Int,`DSignal`

dom 1 Int) mac' a b acc = let acc' = a * b + acc in (acc,`delay`

clk rst en (`singleton`

0) acc')

`>>>`

[0,0,1,5,14,30,55]`sampleN 7 (mac systemClockGen systemResetGen enableGen (dfromList [0..]) (dfromList [0..]))`

# Signal <-> DSignal conversion

fromSignal :: Signal dom a -> DSignal dom 0 a Source #

`Signal`

s are not delayed

sample s == dsample (fromSignal s)

# List <-> DSignal conversion (not synthesizable)

dfromList :: NFDataX a => [a] -> DSignal dom 0 a Source #

Create a `DSignal`

from a list

Every element in the list will correspond to a value of the signal for one clock cycle.

`>>>`

[1,2]`sampleN 2 (dfromList [1,2,3,4,5])`

**NB**: This function is not synthesizable

## lazy versions

dfromList_lazy :: [a] -> DSignal dom 0 a Source #

Create a `DSignal`

from a list

Every element in the list will correspond to a value of the signal for one clock cycle.

`>>>`

[1,2]`sampleN 2 (dfromList [1,2,3,4,5])`

**NB**: This function is not synthesizable

# Experimental

unsafeFromSignal :: Signal dom a -> DSignal dom n a Source #