Copyright	(C) 2012-2016 University of Twente 2016-2017 Myrtle Software Ltd 2017-2018 Google Inc.
License	BSD2 (see the file LICENSE)
Maintainer	Christiaan Baaij <christiaan.baaij@gmail.com>
Safe Haskell	None
Language	Haskell2010

Clash.Netlist

Description

Create Netlists out of normalized CoreHW Terms

Synopsis

genNetlist :: Bool -> ClashOpts -> CustomReprs -> BindingMap -> [TopEntityT] -> CompiledPrimMap -> TyConMap -> (CustomReprs -> TyConMap -> Type -> State HWMap (Maybe (Either String FilteredHWType))) -> Int -> (IdType -> Identifier -> Identifier) -> (IdType -> Identifier -> Identifier -> Identifier) -> Bool -> SomeBackend -> HashMap Identifier Word -> FilePath -> ComponentPrefix -> Id -> IO (VarEnv ([Bool], SrcSpan, HashMap Identifier Word, Component), HashMap Identifier Word)
runNetlistMonad :: Bool -> ClashOpts -> CustomReprs -> BindingMap -> VarEnv TopEntityT -> CompiledPrimMap -> TyConMap -> (CustomReprs -> TyConMap -> Type -> State HWMap (Maybe (Either String FilteredHWType))) -> Int -> (IdType -> Identifier -> Identifier) -> (IdType -> Identifier -> Identifier -> Identifier) -> Bool -> SomeBackend -> HashMap Identifier Word -> FilePath -> ComponentPrefix -> NetlistMonad a -> IO (a, NetlistState)
genNames :: Bool -> (IdType -> Identifier -> Identifier) -> ComponentPrefix -> HashMap Identifier Word -> VarEnv Identifier -> BindingMap -> (HashMap Identifier Word, VarEnv Identifier)
genComponent :: HasCallStack => Id -> NetlistMonad ([Bool], SrcSpan, HashMap Identifier Word, Component)
genComponentT :: HasCallStack => Id -> Term -> NetlistMonad ([Bool], SrcSpan, HashMap Identifier Word, Component)
mkNetDecl :: (Id, Term) -> NetlistMonad (Maybe Declaration)
mkDeclarations :: HasCallStack => Id -> Term -> NetlistMonad [Declaration]
mkDeclarations' :: HasCallStack => DeclarationType -> Id -> Term -> NetlistMonad [Declaration]
mkSelection :: DeclarationType -> NetlistId -> Term -> Type -> [Alt] -> [Declaration] -> NetlistMonad [Declaration]
reorderDefault :: [(Pat, Term)] -> [(Pat, Term)]
reorderCustom :: TyConMap -> CustomReprs -> Type -> [(Pat, Term)] -> [(Pat, Term)]
patPos :: CustomReprs -> Pat -> Int
mkFunApp :: HasCallStack => Identifier -> Id -> [Term] -> [Declaration] -> NetlistMonad [Declaration]
toSimpleVar :: Identifier -> (Expr, Type) -> NetlistMonad (Expr, [Declaration])
mkExpr :: HasCallStack => Bool -> DeclarationType -> NetlistId -> Term -> NetlistMonad (Expr, [Declaration])
mkProjection :: Bool -> NetlistId -> Term -> Type -> Alt -> NetlistMonad (Expr, [Declaration])
mkDcApplication :: HasCallStack => [HWType] -> NetlistId -> DataCon -> [Term] -> NetlistMonad (Expr, [Declaration])

Documentation

genNetlist Source #

Arguments

:: Bool	Whether this we're compiling a testbench (suppresses certain warnings)
-> ClashOpts	Options Clash was called with
-> CustomReprs	Custom bit representations for certain types
-> BindingMap	Global binders
-> [TopEntityT]	All the TopEntities
-> CompiledPrimMap	Primitive definitions
-> TyConMap	TyCon cache
-> (CustomReprs -> TyConMap -> Type -> State HWMap (Maybe (Either String FilteredHWType)))	Hardcoded Type -> HWType translator
-> Int	IntWordInteger bit-width
-> (IdType -> Identifier -> Identifier)	valid identifiers
-> (IdType -> Identifier -> Identifier -> Identifier)	extend valid identifiers
-> Bool	Whether the backend supports ifThenElse expressions
-> SomeBackend	The current HDL backend
-> HashMap Identifier Word	Seen components
-> FilePath	HDL dir
-> ComponentPrefix	Component name prefix
-> Id	Name of the `topEntity`
-> IO (VarEnv ([Bool], SrcSpan, HashMap Identifier Word, Component), HashMap Identifier Word)

Generate a hierarchical netlist out of a set of global binders with topEntity at the top.

runNetlistMonad Source #

Arguments

:: Bool	Whether this we're compiling a testbench (suppresses certain warnings)
-> ClashOpts	Options Clash was called with
-> CustomReprs	Custom bit representations for certain types
-> BindingMap	Global binders
-> VarEnv TopEntityT	TopEntity annotations
-> CompiledPrimMap	Primitive Definitions
-> TyConMap	TyCon cache
-> (CustomReprs -> TyConMap -> Type -> State HWMap (Maybe (Either String FilteredHWType)))	Hardcode Type -> HWType translator
-> Int	IntWordInteger bit-width
-> (IdType -> Identifier -> Identifier)	valid identifiers
-> (IdType -> Identifier -> Identifier -> Identifier)	extend valid identifiers
-> Bool	Whether the backend supports ifThenElse expressions
-> SomeBackend	The current HDL backend
-> HashMap Identifier Word	Seen components
-> FilePath	HDL dir
-> ComponentPrefix	Component name prefix
-> NetlistMonad a	Action to run
-> IO (a, NetlistState)

Run a NetlistMonad action in a given environment

genNames :: Bool -> (IdType -> Identifier -> Identifier) -> ComponentPrefix -> HashMap Identifier Word -> VarEnv Identifier -> BindingMap -> (HashMap Identifier Word, VarEnv Identifier) Source #

genComponent Source #

Arguments

:: HasCallStack
=> Id	Name of the function
-> NetlistMonad ([Bool], SrcSpan, HashMap Identifier Word, Component)

Generate a component for a given function (caching)

genComponentT Source #

Arguments

:: HasCallStack
=> Id	Name of the function
-> Term	Corresponding term
-> NetlistMonad ([Bool], SrcSpan, HashMap Identifier Word, Component)

Generate a component for a given function

mkNetDecl :: (Id, Term) -> NetlistMonad (Maybe Declaration) Source #

mkDeclarations Source #

Arguments

:: HasCallStack
=> Id	LHS of the let-binder
-> Term	RHS of the let-binder
-> NetlistMonad [Declaration]

Generate a list of concurrent Declarations for a let-binder, return an empty list if the bound expression is represented by 0 bits

mkDeclarations' Source #

Arguments

:: HasCallStack
=> DeclarationType	Concurrent of sequential declaration
-> Id	LHS of the let-binder
-> Term	RHS of the let-binder
-> NetlistMonad [Declaration]

Generate a list of Declarations for a let-binder, return an empty list if the bound expression is represented by 0 bits

mkSelection :: DeclarationType -> NetlistId -> Term -> Type -> [Alt] -> [Declaration] -> NetlistMonad [Declaration] Source #

Generate a declaration that selects an alternative based on the value of the scrutinee

reorderDefault :: [(Pat, Term)] -> [(Pat, Term)] Source #

reorderCustom :: TyConMap -> CustomReprs -> Type -> [(Pat, Term)] -> [(Pat, Term)] Source #

patPos :: CustomReprs -> Pat -> Int Source #

mkFunApp Source #

Arguments

:: HasCallStack
=> Identifier	LHS of the let-binder
-> Id	Name of the applied function
-> [Term]	Function arguments
-> [Declaration]	Tick declarations
-> NetlistMonad [Declaration]

Generate a list of Declarations for a let-binder where the RHS is a function application

toSimpleVar :: Identifier -> (Expr, Type) -> NetlistMonad (Expr, [Declaration]) Source #

mkExpr Source #

Arguments

:: HasCallStack
=> Bool	Treat BlackBox expression as declaration
-> DeclarationType	Should the returned declarations be concurrent or sequential?
-> NetlistId	Id to assign the result to
-> Term	Term to convert to an expression
-> NetlistMonad (Expr, [Declaration])	Returned expression and a list of generate BlackBox declarations

Generate an expression for a term occurring on the RHS of a let-binder

mkProjection Source #

Arguments

:: Bool	Projection must bind to a simple variable
-> NetlistId	The signal to which the projection is (potentially) assigned
-> Term	The subject/scrutinee of the projection
-> Type	The type of the result
-> Alt	The field to be projected
-> NetlistMonad (Expr, [Declaration])

Generate an expression that projects a field out of a data-constructor.

Works for both product types, as sum-of-product types.

mkDcApplication Source #

Arguments

:: HasCallStack
=> [HWType]	HWType of the LHS of the let-binder, can multiple types when we're creating a "split" product type (e.g. a tuple of a Clock and Reset)
-> NetlistId	Id to assign the result to
-> DataCon	Applied DataCon
-> [Term]	DataCon Arguments
-> NetlistMonad (Expr, [Declaration])	Returned expression and a list of generate BlackBox declarations

Generate an expression for a DataCon application occurring on the RHS of a let-binder