X-Git-Url: https://git.stderr.nl/gitweb?a=blobdiff_plain;f=FlattenTypes.hs;h=9f080f70666eec1755c8df1897b4c5ff507222f8;hb=c9878e08917311385ce7edbb93f548788cf9df14;hp=81088bae598b75a503b407cb29bfe6e81dcc3e87;hpb=41e6a89a1d9347431e80b895cb74ab5ecc03e9b7;p=matthijs%2Fmaster-project%2Fc%CE%BBash.git diff --git a/FlattenTypes.hs b/FlattenTypes.hs index 81088ba..9f080f7 100644 --- a/FlattenTypes.hs +++ b/FlattenTypes.hs @@ -1,37 +1,20 @@ module FlattenTypes where +import qualified Maybe import Data.Traversable +import qualified Data.Foldable as Foldable import qualified Control.Monad.State as State import CoreSyn +import qualified Type import HsValueMap -- | A signal identifier -type SignalId = Int +type UnnamedSignal = Int --- | A use of a signal -data SignalUse = SignalUse { - sigUseId :: SignalId -} deriving (Show, Eq) - --- | A def of a signal -data SignalDef = SignalDef { - sigDefId :: SignalId -} deriving (Show, Eq) - --- | A map of a Haskell value to signal uses -type SignalUseMap = HsValueMap SignalUse --- | A map of a Haskell value to signal defs -type SignalDefMap = HsValueMap SignalDef - --- | Translate a SignalUseMap to an equivalent SignalDefMap -useMapToDefMap :: SignalUseMap -> SignalDefMap -useMapToDefMap = fmap (\(SignalUse u) -> SignalDef u) - --- | Translate a SignalDefMap to an equivalent SignalUseMap -defMapToUseMap :: SignalDefMap -> SignalUseMap -defMapToUseMap = fmap (\(SignalDef u) -> SignalUse u) +-- | A map of a Haskell value to signal ids +type SignalMap sigid = HsValueMap sigid -- | How is a given (single) value in a function's type (ie, argument or -- return value) used? @@ -47,6 +30,11 @@ data HsValueUse = } deriving (Show, Eq, Ord) +-- | Is this HsValueUse a state use? +isStateUse :: HsValueUse -> Bool +isStateUse (State _) = True +isStateUse _ = False + -- | A map from a Haskell value to the use of each single value type HsUseMap = HsValueMap HsValueUse @@ -79,60 +67,108 @@ data HsFunction = HsFunction { hsFuncRes :: HsUseMap } deriving (Show, Eq, Ord) +hasState :: HsFunction -> Bool +hasState hsfunc = + any (Foldable.any isStateUse) (hsFuncArgs hsfunc) + || Foldable.any isStateUse (hsFuncRes hsfunc) + -- | A flattened function application -data FApp = FApp { +data FApp sigid = FApp { appFunc :: HsFunction, - appArgs :: [SignalUseMap], - appRes :: SignalDefMap + appArgs :: [SignalMap sigid], + appRes :: SignalMap sigid } deriving (Show, Eq) -- | A conditional signal definition -data CondDef = CondDef { - cond :: SignalUse, - high :: SignalUse, - low :: SignalUse, - condRes :: SignalDef +data CondDef sigid = CondDef { + cond :: sigid, + high :: sigid, + low :: sigid, + condRes :: sigid } deriving (Show, Eq) +-- | How is a given signal used in the resulting VHDL? +data SigUse = + SigPortIn -- | Use as an input port + | SigPortOut -- | Use as an input port + | SigInternal -- | Use as an internal signal + | SigStateOld Int -- | Use as the current internal state + | SigStateNew Int -- | Use as the new internal state + | SigSubState -- | Do not use, state variable is used in a subcircuit + +-- | Is this a port signal use? +isPortSigUse :: SigUse -> Bool +isPortSigUse SigPortIn = True +isPortSigUse SigPortOut = True +isPortSigUse _ = False + +-- | Is this a state signal use? Returns false for substate. +isStateSigUse :: SigUse -> Bool +isStateSigUse (SigStateOld _) = True +isStateSigUse (SigStateNew _) = True +isStateSigUse _ = False + +-- | Is this an internal signal use? +isInternalSigUse :: SigUse -> Bool +isInternalSigUse SigInternal = True +isInternalSigUse _ = False + +-- | Information on a signal definition +data SignalInfo = SignalInfo { + sigName :: Maybe String, + sigUse :: SigUse, + sigTy :: Type.Type +} + -- | A flattened function -data FlatFunction = FlatFunction { - args :: [SignalDefMap], - res :: SignalUseMap, - --sigs :: [SignalDef], - apps :: [FApp], - conds :: [CondDef] -} deriving (Show, Eq) +data FlatFunction' sigid = FlatFunction { + flat_args :: [SignalMap sigid], + flat_res :: SignalMap sigid, + flat_apps :: [FApp sigid], + flat_conds :: [CondDef sigid], + flat_sigs :: [(sigid, SignalInfo)] +} + +-- | Lookup a given signal id in a signal map, and return the associated +-- SignalInfo. Errors out if the signal was not found. +signalInfo :: Eq sigid => [(sigid, SignalInfo)] -> sigid -> SignalInfo +signalInfo sigs id = Maybe.fromJust $ lookup id sigs + +-- | A flat function that does not have its signals named +type FlatFunction = FlatFunction' UnnamedSignal -- | A list of binds in effect at a particular point of evaluation type BindMap = [( CoreBndr, -- ^ The bind name Either -- ^ The bind value which is either - SignalUseMap -- ^ a signal + (SignalMap UnnamedSignal) + -- ^ a signal ( HsValueUse, -- ^ or a HighOrder function - [SignalUse] -- ^ With these signals already applied to it + [UnnamedSignal] -- ^ With these signals already applied to it ) )] -- | The state during the flattening of a single function -type FlattenState = State.State ([FApp], [CondDef], SignalId) +type FlattenState = State.State ([FApp UnnamedSignal], [CondDef UnnamedSignal], [(UnnamedSignal, SignalInfo)], UnnamedSignal) -- | Add an application to the current FlattenState -addApp :: FApp -> FlattenState () +addApp :: (FApp UnnamedSignal) -> FlattenState () addApp a = do - (apps, conds, n) <- State.get - State.put (a:apps, conds, n) + (apps, conds, sigs, n) <- State.get + State.put (a:apps, conds, sigs, n) -- | Add a conditional definition to the current FlattenState -addCondDef :: CondDef -> FlattenState () +addCondDef :: (CondDef UnnamedSignal) -> FlattenState () addCondDef c = do - (apps, conds, n) <- State.get - State.put (apps, c:conds, n) + (apps, conds, sigs, n) <- State.get + State.put (apps, c:conds, sigs, n) -- | Generates a new signal id, which is unique within the current flattening. -genSignalId :: FlattenState SignalId -genSignalId = do - (apps, conds, n) <- State.get - State.put (apps, conds, n+1) +genSignalId :: SigUse -> Type.Type -> FlattenState UnnamedSignal +genSignalId use ty = do + (apps, conds, sigs, n) <- State.get + -- Generate a new numbered but unnamed signal + let s = (n, SignalInfo Nothing use ty) + State.put (apps, conds, s:sigs, n+1) return n -