X-Git-Url: https://git.stderr.nl/gitweb?a=blobdiff_plain;f=NormalizeTools.hs;h=85fae47e8f66a19865f281ee25e642d9dca1f16f;hb=7eb34cb0e082185b256b7231ee84cb04e006f51c;hp=8e57ba8f2ec2446301ebcf22ec83e03f577470b7;hpb=33a876fcac2c8d455feb5f35131e873e3311800d;p=matthijs%2Fmaster-project%2Fc%CE%BBash.git diff --git a/NormalizeTools.hs b/NormalizeTools.hs index 8e57ba8..85fae47 100644 --- a/NormalizeTools.hs +++ b/NormalizeTools.hs @@ -7,6 +7,7 @@ module NormalizeTools where import Debug.Trace import qualified List import qualified Data.Monoid as Monoid +import qualified Data.Either as Either import qualified Control.Arrow as Arrow import qualified Control.Monad as Monad import qualified Control.Monad.Trans.State as State @@ -14,6 +15,7 @@ import qualified Control.Monad.Trans.Writer as Writer import qualified "transformers" Control.Monad.Trans as Trans import qualified Data.Map as Map import Data.Accessor +import Data.Accessor.MonadState as MonadState -- GHC API import CoreSyn @@ -32,6 +34,8 @@ import Outputable ( showSDoc, ppr, nest ) -- Local imports import NormalizeTypes +import Pretty +import qualified VHDLTools -- Create a new internal var with the given name and type. A Unique is -- appended to the given name, to ensure uniqueness (not strictly neccesary, @@ -119,6 +123,11 @@ subeverywhere trans (App a b) = do b' <- trans b return $ App a' b' +subeverywhere trans (Let (NonRec b bexpr) expr) = do + bexpr' <- trans bexpr + expr' <- trans expr + return $ Let (NonRec b bexpr') expr' + subeverywhere trans (Let (Rec binds) expr) = do expr' <- trans expr binds' <- mapM transbind binds @@ -151,7 +160,7 @@ subeverywhere trans (Cast expr ty) = do expr' <- trans expr return $ Cast expr' ty -subeverywhere trans expr = error $ "NormalizeTools.subeverywhere Unsupported expression: " ++ show expr +subeverywhere trans expr = error $ "\nNormalizeTools.subeverywhere: Unsupported expression: " ++ show expr -- Apply the given transformation to all expressions, except for direct -- arguments of an application @@ -177,14 +186,23 @@ dotransforms transs expr = do if Monoid.getAny changed then dotransforms transs expr' else return expr' -- Inline all let bindings that satisfy the given condition -inlinebind :: ((CoreBndr, CoreExpr) -> Bool) -> Transform -inlinebind condition (Let (Rec binds) expr) | not $ null replace = - change newexpr +inlinebind :: ((CoreBndr, CoreExpr) -> TransformMonad Bool) -> Transform +inlinebind condition expr@(Let (Rec binds) res) = do + -- Find all bindings that adhere to the condition + res_eithers <- mapM docond binds + case Either.partitionEithers res_eithers of + -- No replaces? No change + ([], _) -> return expr + (replace, others) -> do + -- Substitute the to be replaced binders with their expression + let newexpr = substitute replace (Let (Rec others) res) + change newexpr where - -- Find all simple bindings - (replace, others) = List.partition condition binds - -- Substitute the to be replaced binders with their expression - newexpr = substitute replace (Let (Rec others) expr) + docond :: (CoreBndr, CoreExpr) -> TransformMonad (Either (CoreBndr, CoreExpr) (CoreBndr, CoreExpr)) + docond b = do + res <- condition b + return $ case res of True -> Left b; False -> Right b + -- Leave all other expressions unchanged inlinebind _ expr = return expr @@ -229,5 +247,9 @@ substitute ((b, e):subss) expr = substitute subss' expr' -- Run a given TransformSession. Used mostly to setup the right calls and -- an initial state. runTransformSession :: UniqSupply.UniqSupply -> TransformSession a -> a -runTransformSession uniqSupply session = State.evalState session initState - where initState = TransformState uniqSupply Map.empty VarSet.emptyVarSet +runTransformSession uniqSupply session = State.evalState session (emptyTransformState uniqSupply) + +-- Is the given expression representable at runtime, based on the type? +isRepr :: CoreSyn.CoreExpr -> TransformMonad Bool +isRepr (Type ty) = return False +isRepr expr = Trans.lift $ MonadState.lift tsType $ VHDLTools.isReprType (CoreUtils.exprType expr)