import qualified Type
import qualified Name
import qualified Maybe
+import qualified Control.Arrow as Arrow
import qualified DataCon
import qualified CoreUtils
import qualified Data.Traversable as Traversable
-- | Marks a signal as the given SigUse, if its id is in the list of id's
-- given.
-markSignal :: SigUse -> [UnnamedSignal] -> (UnnamedSignal, SignalInfo) -> (UnnamedSignal, SignalInfo)
-markSignal use ids (id, info) =
+markSignals :: SigUse -> [UnnamedSignal] -> (UnnamedSignal, SignalInfo) -> (UnnamedSignal, SignalInfo)
+markSignals use ids (id, info) =
(id, info')
where
info' = if id `elem` ids then info { sigUse = use} else info
+markSignal :: SigUse -> UnnamedSignal -> (UnnamedSignal, SignalInfo) -> (UnnamedSignal, SignalInfo)
+markSignal use id = markSignals use [id]
+
-- | Flatten a haskell function
flattenFunction ::
HsFunction -- ^ The function to flatten
flattenFunction _ (Rec _) = error "Recursive binders not supported"
flattenFunction hsfunc bind@(NonRec var expr) =
- FlatFunction args res apps conds sigs'
+ FlatFunction args res apps conds sigs''''
where
init_state = ([], [], [], 0)
(fres, end_state) = State.runState (flattenExpr [] expr) init_state
- (args, res) = fres
- portlist = concat (map Foldable.toList (res:args))
(apps, conds, sigs, _) = end_state
- sigs' = fmap (markSignal SigPort portlist) sigs
+ (args, res) = fres
+ arg_ports = concat (map Foldable.toList args)
+ res_ports = Foldable.toList res
+ -- Mark args and result signals as input and output ports resp.
+ sigs' = fmap (markSignals SigPortIn arg_ports) sigs
+ sigs'' = fmap (markSignals SigPortOut res_ports) sigs'
+ -- Mark args and result states as old and new state resp.
+ args_states = concat $ zipWith stateList (hsFuncArgs hsfunc) args
+ sigs''' = foldl (\s (num, id) -> map (markSignal (SigStateOld num) id) s) sigs'' args_states
+ res_states = stateList (hsFuncRes hsfunc) res
+ sigs'''' = foldl (\s (num, id) -> map (markSignal (SigStateNew num) id) s) sigs''' res_states
flattenExpr ::
BindMap
hsargs = map (useAsPort . mkHsValueMap . CoreUtils.exprType) args
hsres = useAsPort (mkHsValueMap ty)
--- | Translates signal id's to SignalInfo for any signals used as state.
-findState ::
- [(UnnamedSignal, SignalInfo)] -- | A map of id to info
- -> UnnamedSignal -- | The signal id to look at
- -> HsValueUse -- | How is this signal used?
- -> Maybe (Int, SignalInfo) -- | The state num and SignalInfo, if appropriate
-
-findState sigs id (State num) =
- Just (num, Maybe.fromJust $ lookup id sigs)
-findState _ _ _ = Nothing
-
-
+-- | Filters non-state signals and returns the state number and signal id for
+-- state values.
+filterState ::
+ UnnamedSignal -- | The signal id to look at
+ -> HsValueUse -- | How is this signal used?
+ -> Maybe (Int, UnnamedSignal ) -- | The state num and signal id, if this
+ -- signal was used as state
+
+filterState id (State num) =
+ Just (num, id)
+filterState _ _ = Nothing
+
+-- | Returns a list of the state number and signal id of all used-as-state
+-- signals in the given maps.
+stateList ::
+ HsUseMap
+ -> (SignalMap UnnamedSignal)
+ -> [(Int, UnnamedSignal)]
+
+stateList uses signals =
+ Maybe.catMaybes $ Foldable.toList $ zipValueMapsWith filterState signals uses
+
-- | Returns pairs of signals that should be mapped to state in this function.
getOwnStates ::
HsFunction -- | The function to look at
, old_num == new_num]
where
sigs = flat_sigs flatfunc
- -- Translate args and res to lists of (statenum, SignalInfo)
- args = zipWith (zipValueMapsWith $ findState sigs) (flat_args flatfunc) (hsFuncArgs hsfunc)
- args_states = Maybe.catMaybes $ concat $ map Foldable.toList $ args
- res = zipValueMapsWith (findState sigs) (flat_res flatfunc) (hsFuncRes hsfunc)
- res_states = Maybe.catMaybes $ Foldable.toList res
+ -- Translate args and res to lists of (statenum, sigid)
+ args = concat $ zipWith stateList (hsFuncArgs hsfunc) (flat_args flatfunc)
+ res = stateList (hsFuncRes hsfunc) (flat_res flatfunc)
+ -- Replace the second tuple element with the corresponding SignalInfo
+ args_states = map (Arrow.second $ signalInfo sigs) args
+ res_states = map (Arrow.second $ signalInfo sigs) res
-- vim: set ts=8 sw=2 sts=2 expandtab:
module FlattenTypes where
+import qualified Maybe
import Data.Traversable
import qualified Data.Foldable as Foldable
import qualified Control.Monad.State as State
-- | How is a given signal used in the resulting VHDL?
data SigUse =
- SigPort -- | Use as a port
- | SigInternal -- | Use as an internal signal
- | SigState -- | Use as an internal state
- | SigSubState -- | Do not use, state variable is used in a subcircuit
+ 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
-- | Information on a signal definition
data SignalInfo = SignalInfo {
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
projects / matthijs / master-project / cλash.git / commitdiff