X-Git-Url: https://git.stderr.nl/gitweb?p=matthijs%2Fmaster-project%2Fc%CE%BBash.git;a=blobdiff_plain;f=Flatten.hs;h=d25ef73aceabb2feec43007b1a469b267a72ce09;hp=8d2d5b62b50053c96afb4b384b0ebd6ce3b66341;hb=HEAD;hpb=cba9bc73cb53261fd0a60dc90b3b470e541de608 diff --git a/Flatten.hs b/Flatten.hs index 8d2d5b6..d25ef73 100644 --- a/Flatten.hs +++ b/Flatten.hs @@ -21,6 +21,7 @@ import qualified Control.Monad.Trans.State as State import HsValueMap import TranslatorTypes import FlattenTypes +import CoreTools -- Extract the arguments from a data constructor application (that is, the -- normal args, leaving out the type args). @@ -53,11 +54,10 @@ markSignal use id = markSignals use [id] -- | Flatten a haskell function flattenFunction :: HsFunction -- ^ The function to flatten - -> CoreBind -- ^ The function value + -> (CoreBndr, CoreExpr) -- ^ The function value -> FlatFunction -- ^ The resulting flat function -flattenFunction _ (Rec _) = error "Recursive binders not supported" -flattenFunction hsfunc bind@(NonRec var expr) = +flattenFunction hsfunc (var, expr) = FlatFunction args res defs sigs where init_state = ([], [], 0) @@ -168,7 +168,7 @@ flattenExpr binds var@(Var id) = sig_id <- genSignalId SigInternal ty -- Add a name hint to the signal addNameHint (Name.getOccString id) sig_id - addDef (UncondDef (Right $ Literal lit) sig_id) + addDef (UncondDef (Right $ Literal lit Nothing) sig_id) return ([], Single sig_id) IdInfo.VanillaGlobal -> -- Treat references to globals as an application with zero elements @@ -207,6 +207,23 @@ flattenExpr binds app@(App _ _) = do ([], b) <- flattenExpr binds (last args) res <- mkEqComparisons a b return ([], res) + else if fname == "fromInteger" then do + let [to_ty, to_dict, val] = args + -- We assume this is an application of the GHC.Integer.smallInteger + -- function to a literal + let App smallint (Lit lit) = val + let (Literal.MachInt int) = lit + let ty = CoreUtils.exprType app + sig_id <- genSignalId SigInternal ty + -- TODO: fromInteger is defined for more types than just SizedWord + let len = sized_word_len ty + -- Use a to_unsigned to translate the number (a natural) to an unsiged + -- (array of bits) + let lit_str = "to_unsigned(" ++ (show int) ++ ", " ++ (show len) ++ ")" + -- Set the signal to our literal unconditionally, but add the type so + -- the literal will be typecast to the proper type. + addDef $ UncondDef (Right $ Literal lit_str (Just ty)) sig_id + return ([], Single sig_id) else flattenApplicationExpr binds (CoreUtils.exprType app) f args where @@ -250,11 +267,12 @@ flattenExpr binds expr@(Case scrut b _ alts) = do -- TODO: Special casing for higher order functions -- Flatten the scrutinee (_, res) <- flattenExpr binds scrut + -- Put the scrutinee in the BindMap + let binds' = (b, Left res) : binds case alts of - -- TODO include b in the binds list - [alt] -> flattenSingleAltCaseExpr binds res b alt + [alt] -> flattenSingleAltCaseExpr binds' res b alt -- Reverse the alternatives, so the __DEFAULT alternative ends up last - otherwise -> flattenMultipleAltCaseExpr binds res b (reverse alts) + otherwise -> flattenMultipleAltCaseExpr binds' res b (reverse alts) where flattenSingleAltCaseExpr :: BindMap