Add a hardware module for a generalized Alu.

[matthijs/master-project/cλash.git] / Normalize.hs

diff --git a/Normalize.hs b/Normalize.hs
index 9aedb4b856a17f8292241262df1f9622527efb9a..9ee919ab524be8a211b99fe4b22bd7a03478079a 100644 (file)
--- a/Normalize.hs
+++ b/Normalize.hs
@@ -49,7 +49,7 @@ eta expr | is_fun expr && not (is_lam expr) = do
   change (Lam id (App expr (Var id)))
 -- Leave all other expressions unchanged
 eta e = return e
-etatop = notapplied ("eta", eta)
+etatop = notappargs ("eta", eta)
 
 --------------------------------
 -- β-reduction
@@ -69,6 +69,20 @@ beta expr = return expr
 -- Perform this transform everywhere
 betatop = everywhere ("beta", beta)
 
+--------------------------------
+-- Cast propagation
+--------------------------------
+-- Try to move casts as much downward as possible.
+castprop, castproptop :: Transform
+castprop (Cast (Let binds expr) ty) = change $ Let binds (Cast expr ty)
+castprop expr@(Cast (Case scrut b _ alts) ty) = change (Case scrut b ty alts')
+  where
+    alts' = map (\(con, bndrs, expr) -> (con, bndrs, (Cast expr ty))) alts
+-- Leave all other expressions unchanged
+castprop expr = return expr
+-- Perform this transform everywhere
+castproptop = everywhere ("castprop", castprop)
+
 --------------------------------
 -- let recursification
 --------------------------------
@@ -126,7 +140,7 @@ letflattop = everywhere ("letflat", letflat)
 --------------------------------
 -- Remove a = b bindings from let expressions everywhere
 letremovetop :: Transform
-letremovetop = everywhere ("letremove", inlinebind (\(b, e) -> case e of (Var v) -> True; otherwise -> False))
+letremovetop = everywhere ("letremove", inlinebind (\(b, e) -> case e of (Var v) | not $ Id.isDataConWorkId v -> True; otherwise -> False))
 
 --------------------------------
 -- Function inlining
@@ -274,8 +288,9 @@ caseremovetop = everywhere ("caseremove", caseremove)
 --------------------------------
 -- Make sure that all arguments in an application are simple variables.
 appsimpl, appsimpltop :: Transform
--- Don't simplify arguments that are already simple
-appsimpl expr@(App f (Var _)) = return expr
+-- Don't simplify arguments that are already simple. Do simplify datacons,
+-- however, since we can't portmap literals.
+appsimpl expr@(App f (Var v)) | not $ Id.isDataConWorkId v = return expr
 -- Simplify all non-applicable (to prevent loops with inlinefun) arguments,
 -- except for type arguments (since a let can't bind type vars, only a lambda
 -- can). Do this by introducing a new Let that binds the argument and passing
@@ -407,7 +422,7 @@ funproptop = everywhere ("funprop", funprop)
 
 
 -- What transforms to run?
-transforms = [typeproptop, funproptop, etatop, betatop, letremovetop, letrectop, letsimpltop, letflattop, casewildtop, scrutsimpltop, casevalsimpltop, caseremovetop, inlinefuntop, appsimpltop]
+transforms = [typeproptop, funproptop, etatop, betatop, castproptop, letremovetop, letrectop, letsimpltop, letflattop, casewildtop, scrutsimpltop, casevalsimpltop, caseremovetop, inlinefuntop, appsimpltop]
 
 -- Turns the given bind into VHDL
 normalizeModule ::