{-| Copyright : (C) 2013-2016, University of Twente, 2017-2019, Myrtle Software Ltd 2017 , Google Inc., 2021-2023, QBayLogic B.V. License : BSD2 (see the file LICENSE) Maintainer : QBayLogic B.V. <devops@qbaylogic.com> Clash is a functional hardware description language that borrows both its syntax and semantics from the functional programming language Haskell. The merits of using a functional language to describe hardware comes from the fact that combinational circuits can be directly modeled as mathematical functions and that functional languages lend themselves very well at describing and (de-)composing mathematical functions. This package provides: * Prelude library containing datatypes and functions for circuit design To use the library: * Import "Clash.Prelude"; by default clock and reset lines are implicitly routed for all the components found in "Clash.Prelude". You can read more about implicit clock and reset lines in "Clash.Signal#implicitclockandreset" * Alternatively, if you want to explicitly route clock and reset ports, for more straightforward multi-clock designs, you can import the "Clash.Explicit.Prelude" module. Note that you should not import "Clash.Prelude" and "Clash.Explicit.Prelude" at the same time as they have overlapping definitions. For now, "Clash.Prelude" is also the best starting point for exploring the library. A preliminary version of a tutorial can be found in "Clash.Tutorial". Some circuit examples can be found in "Clash.Examples". -} {-# LANGUAGE CPP #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE MonoLocalBinds #-} {-# LANGUAGE NoImplicitPrelude #-} {-# LANGUAGE Unsafe #-} {-# OPTIONS_HADDOCK show-extensions, not-home #-} module Clash.Prelude ( -- * Creating synchronous sequential circuits mealy , mealyS , mealyB , mealySB , (<^>) , moore , mooreB , registerB -- * ROMs , asyncRom , asyncRomPow2 , rom , romPow2 -- ** ROMs defined by a 'MemBlob' , asyncRomBlob , asyncRomBlobPow2 , romBlob , romBlobPow2 -- ** ROMs defined by a data file , asyncRomFile , asyncRomFilePow2 , romFile , romFilePow2 -- * RAM primitives with a combinational read port , asyncRam , asyncRamPow2 -- * Block RAM primitives , blockRam , blockRamPow2 , blockRamU , blockRam1 , E.ResetStrategy(..) -- ** Block RAM primitives initialized with a 'MemBlob' , blockRamBlob , blockRamBlobPow2 -- *** Creating and inspecting 'MemBlob' , MemBlob , createMemBlob , memBlobTH , unpackMemBlob -- ** Block RAM primitives initialized with a data file , blockRamFile , blockRamFilePow2 -- ** Block RAM read/write conflict resolution , readNew -- ** True dual-port block RAM , trueDualPortBlockRam , RamOp(..) -- * Utility functions , window , windowD , isRising , isFalling , riseEvery , oscillate -- * Tracing -- ** Simple , traceSignal1 , traceVecSignal1 -- ** Tracing in a multi-clock environment , traceSignal , traceVecSignal -- ** VCD dump functions , dumpVCD -- * Exported modules -- ** Synchronous signals , module Clash.Signal , module Clash.Signal.Delayed -- ** Datatypes -- *** Bit vectors , module Clash.Sized.BitVector -- *** Arbitrary-width numbers , module Clash.Sized.Signed , module Clash.Sized.Unsigned , module Clash.Sized.Index -- *** Fixed point numbers , module Clash.Sized.Fixed -- *** Fixed size vectors , module Clash.Sized.Vector -- *** Perfect depth trees , module Clash.Sized.RTree -- ** Annotations , module Clash.Annotations.TopEntity -- ** Generics type-classes , Generic , Generic1 -- ** Type-level natural numbers , module GHC.TypeLits , module GHC.TypeLits.Extra , module Clash.Promoted.Nat , module Clash.Promoted.Nat.Literals , module Clash.Promoted.Nat.TH -- ** Type-level strings , module Clash.Promoted.Symbol -- ** Template Haskell , Lift (..) -- ** Type classes -- *** Clash , AutoReg, autoReg, deriveAutoReg , module Clash.Class.BitPack , module Clash.Class.Exp , module Clash.Class.Num , module Clash.Class.Parity , module Clash.Class.Resize -- *** Other , module Control.Applicative , module Data.Bits , module Data.Default.Class , module Data.Kind -- ** Exceptions , module Clash.XException -- ** Named types , module Clash.NamedTypes -- ** Hidden arguments , module Clash.Hidden -- ** Magic , module Clash.Magic -- ** Haskell Prelude -- $hiding , module Clash.HaskellPrelude ) where import Control.Applicative import Data.Bits import Data.Default.Class import Data.Kind (Type, Constraint) import GHC.Stack (HasCallStack) import GHC.TypeLits #if MIN_VERSION_base(4,18,0) hiding (SNat, SSymbol, fromSNat) #endif import GHC.TypeLits.Extra import Language.Haskell.TH.Syntax (Lift(..)) import Clash.HaskellPrelude import Clash.Annotations.TopEntity import Clash.Class.AutoReg (AutoReg, deriveAutoReg) import Clash.Class.BitPack import Clash.Class.Exp import Clash.Class.Num import Clash.Class.Parity import Clash.Class.Resize import qualified Clash.Explicit.Prelude as E import Clash.Hidden import Clash.Magic import Clash.NamedTypes import Clash.Prelude.BlockRam import Clash.Prelude.BlockRam.Blob import Clash.Prelude.BlockRam.File import Clash.Prelude.ROM.Blob import Clash.Prelude.ROM.File import Clash.Prelude.Safe import Clash.Promoted.Nat import Clash.Promoted.Nat.TH import Clash.Promoted.Nat.Literals import Clash.Promoted.Symbol import Clash.Sized.BitVector import Clash.Sized.Fixed import Clash.Sized.Index import Clash.Sized.RTree import Clash.Sized.Signed import Clash.Sized.Unsigned import Clash.Sized.Vector hiding (fromList, unsafeFromList) import Clash.Signal hiding (HiddenClockName, HiddenResetName, HiddenEnableName) import Clash.Signal.Delayed import Clash.Signal.Trace import Clash.XException {- $setup >>> :set -XDataKinds -XFlexibleContexts -XTypeApplications >>> let window4 = window :: HiddenClockResetEnable dom => Signal dom Int -> Vec 4 (Signal dom Int) >>> let windowD3 = windowD :: HiddenClockResetEnable dom => Signal dom Int -> Vec 3 (Signal dom Int) -} {- $hiding "Clash.Prelude" re-exports most of the Haskell "Prelude" with the exception of those functions that the Clash API defines to work on 'Vec' from "Clash.Sized.Vector" instead of on lists as the Haskell Prelude does. In addition, for the 'Clash.Class.Parity.odd' and 'Clash.Class.Parity.even' functions a type class called 'Clash.Class.Parity.Parity' is available at "Clash.Class.Parity". -} -- | Give a window over a 'Signal' -- -- > window4 :: HiddenClockResetEnable dom -- > => Signal dom Int -> Vec 4 (Signal dom Int) -- > window4 = window -- -- >>> simulateB @System window4 [1::Int,2,3,4,5] :: [Vec 4 Int] -- [1 :> 0 :> 0 :> 0 :> Nil,2 :> 1 :> 0 :> 0 :> Nil,3 :> 2 :> 1 :> 0 :> Nil,4 :> 3 :> 2 :> 1 :> Nil,5 :> 4 :> 3 :> 2 :> Nil,... -- ... window :: ( HiddenClockResetEnable dom , KnownNat n , Default a , NFDataX a ) => Signal dom a -- ^ Signal to create a window over -> Vec (n + 1) (Signal dom a) -- ^ Window of at least size 1 window = hideClockResetEnable E.window {-# INLINE window #-} -- | Give a delayed window over a 'Signal' -- -- > windowD3 -- > :: HiddenClockResetEnable dom -- > => Signal dom Int -- > -> Vec 3 (Signal dom Int) -- > windowD3 = windowD -- -- >>> simulateB @System windowD3 [1::Int,2,3,4] :: [Vec 3 Int] -- [0 :> 0 :> 0 :> Nil,1 :> 0 :> 0 :> Nil,2 :> 1 :> 0 :> Nil,3 :> 2 :> 1 :> Nil,4 :> 3 :> 2 :> Nil,... -- ... windowD :: ( HiddenClockResetEnable dom , KnownNat n , Default a , NFDataX a ) => Signal dom a -- ^ Signal to create a window over -> Vec (n + 1) (Signal dom a) -- ^ Window of at least size 1 windowD = hideClockResetEnable E.windowD {-# INLINE windowD #-} -- | Implicit version of 'Clash.Class.AutoReg.autoReg' autoReg :: (HasCallStack, HiddenClockResetEnable dom, AutoReg a) => a -> Signal dom a -> Signal dom a autoReg = hideClockResetEnable E.autoReg