X-Git-Url: https://git.stderr.nl/gitweb?a=blobdiff_plain;f=c%CE%BBash%2FCLasH%2FNormalize.hs;h=984d739f830e0f11c2e45fb60d822a6d21a6a12c;hb=26ad8ba14c7c63978fc51fc81b92888e8e3963ef;hp=07ded20bbb8d387c38372f749c9c79789d38cdbf;hpb=78793ddabc41998c386589564d6c47411279b29f;p=matthijs%2Fmaster-project%2Fc%CE%BBash.git diff --git "a/c\316\273ash/CLasH/Normalize.hs" "b/c\316\273ash/CLasH/Normalize.hs" index 07ded20..984d739 100644 --- "a/c\316\273ash/CLasH/Normalize.hs" +++ "b/c\316\273ash/CLasH/Normalize.hs" @@ -123,15 +123,12 @@ letderec expr@(Let (Rec binds) res) = case liftable of -- Nothing is liftable, just return [] -> return expr -- Something can be lifted, generate a new let expression - _ -> change $ MkCore.mkCoreLets newbinds res + _ -> change $ mkNonRecLets liftable (Let (Rec nonliftable) res) where -- Make a list of all the binders bound in this recursive let bndrs = map fst binds -- See which bindings are liftable (liftable, nonliftable) = List.partition canlift binds - -- Create nonrec bindings for each liftable binding and a single recursive - -- binding for all others - newbinds = (map (uncurry NonRec) liftable) ++ [Rec nonliftable] -- Any expression that does not use any of the binders in this recursive let -- can be lifted into a nonrec let. It can't use its own binder either, -- since that would mean the binding is self-recursive and should be in a @@ -146,6 +143,9 @@ letderectop = everywhere ("letderec", letderec) -- let simplification -------------------------------- letsimpl, letsimpltop :: Transform +-- Don't simplify a let that evaluates to another let, since this is already +-- normal form (and would cause infinite loops with letflat below). +letsimpl expr@(Let _ (Let _ _)) = return expr -- Put the "in ..." value of a let in its own binding, but not when the -- expression is already a local variable, or not representable (to prevent loops with inlinenonrep). letsimpl expr@(Let binds res) = do @@ -182,23 +182,35 @@ letflat expr = return expr -- Perform this transform everywhere letflattop = everywhere ("letflat", letflat) +-------------------------------- +-- empty let removal +-------------------------------- +-- Remove empty (recursive) lets +letremove, letremovetop :: Transform +letremove (Let (Rec []) res) = change $ res +-- Leave all other expressions unchanged +letremove expr = return expr +-- Perform this transform everywhere +letremovetop = everywhere ("letremove", letremove) + -------------------------------- -- Simple let binding removal -------------------------------- -- Remove a = b bindings from let expressions everywhere -letremovetop :: Transform -letremovetop = everywhere ("letremove", inlinebind (\(b, e) -> Trans.lift $ is_local_var e)) +letremovesimpletop :: Transform +letremovesimpletop = everywhere ("letremovesimple", inlinebind (\(b, e) -> Trans.lift $ is_local_var e)) -------------------------------- -- Unused let binding removal -------------------------------- letremoveunused, letremoveunusedtop :: Transform -letremoveunused expr@(Let (Rec binds) res) = do +letremoveunused expr@(Let _ _) = do -- Filter out all unused binds. let binds' = filter dobind binds -- Only set the changed flag if binds got removed - changeif (length binds' /= length binds) (Let (Rec binds') res) + changeif (length binds' /= length binds) (mkNonRecLets binds' res) where + (binds, res) = flattenLets expr bound_exprs = map snd binds -- For each bind check if the bind is used by res or any of the bound -- expressions @@ -214,9 +226,10 @@ letremoveunusedtop = everywhere ("letremoveunused", letremoveunused) -- TODO: We would very much like to use GHC's CSE module for this, but that -- doesn't track if something changed or not, so we can't use it properly. letmerge, letmergetop :: Transform -letmerge expr@(Let (Rec binds) res) = do +letmerge expr@(Let _ _) = do + let (binds, res) = flattenLets expr binds' <- domerge binds - return (Let (Rec binds') res) + return $ mkNonRecLets binds' res where domerge :: [(CoreBndr, CoreExpr)] -> TransformMonad [(CoreBndr, CoreExpr)] domerge [] = return [] @@ -296,7 +309,7 @@ casesimpl expr@(Case scrut b ty alts) = do (bindingss, alts') <- (Monad.liftM unzip) $ mapM doalt alts let bindings = concat bindingss -- Replace the case with a let with bindings and a case - let newlet = (Let (Rec bindings) (Case scrut b ty alts')) + let newlet = mkNonRecLets bindings (Case scrut b ty alts') -- If there are no non-wild binders, or this case is already a simple -- selector (i.e., a single alt with exactly one binding), already a simple -- selector altan no bindings (i.e., no wild binders in the original case), @@ -553,7 +566,7 @@ funextracttop = everywhere ("funextract", funextract) -- What transforms to run? -transforms = [argproptop, funextracttop, etatop, betatop, castproptop, letremovetop, letderectop, letsimpltop, letflattop, scrutsimpltop, casesimpltop, caseremovetop, inlinenonreptop, appsimpltop, letmergetop, letremoveunusedtop, castsimpltop] +transforms = [argproptop, funextracttop, etatop, betatop, castproptop, letremovesimpletop, letderectop, letremovetop, letsimpltop, letflattop, scrutsimpltop, casesimpltop, caseremovetop, inlinenonreptop, appsimpltop, letmergetop, letremoveunusedtop, castsimpltop] -- | Returns the normalized version of the given function. getNormalized :: @@ -606,18 +619,3 @@ splitNormalized expr = (args, binds, res) res = case resexpr of (Var x) -> x _ -> error $ "Normalize.splitNormalized: Not in normal form: " ++ pprString expr ++ "\n" - --- | Flattens nested lets into a single list of bindings. The expression --- passed does not have to be a let expression, if it isn't an empty list of --- bindings is returned. -flattenLets :: - CoreExpr -- ^ The expression to flatten. - -> ([Binding], CoreExpr) -- ^ The bindings and resulting expression. -flattenLets (Let binds expr) = - (bindings ++ bindings', expr') - where - -- Recursively flatten the contained expression - (bindings', expr') =flattenLets expr - -- Flatten our own bindings to remove the Rec / NonRec constructors - bindings = CoreSyn.flattenBinds [binds] -flattenLets expr = ([], expr)