diff options
| author | Tom Smeding <tom@tomsmeding.com> | 2024-10-29 23:08:42 +0100 |
|---|---|---|
| committer | Tom Smeding <tom@tomsmeding.com> | 2024-10-29 23:08:42 +0100 |
| commit | 4e41364e73a2fbb902e41281c59991b6c789723f (patch) | |
| tree | 77b3b779986ff7139143e29dfa34200b100dfd4b /src/Simplify.hs | |
| parent | b0b3c461701647d084f6f68160fe7afab406b12d (diff) | |
simplifyFix
Diffstat (limited to 'src/Simplify.hs')
| -rw-r--r-- | src/Simplify.hs | 87 |
1 files changed, 50 insertions, 37 deletions
diff --git a/src/Simplify.hs b/src/Simplify.hs index 5829a8b..cfbdbb9 100644 --- a/src/Simplify.hs +++ b/src/Simplify.hs @@ -9,6 +9,9 @@ {-# LANGUAGE TypeOperators #-} module Simplify where +import Data.Function (fix) +import Data.Monoid (Any(..)) + import AST import AST.Count import Data @@ -19,23 +22,30 @@ simplifyN 0 = id simplifyN n = simplifyN (n - 1) . simplify simplify :: forall env t. KnownEnv env => Ex env t -> Ex env t -simplify = let ?accumInScope = checkAccumInScope @env knownEnv in simplify' +simplify = let ?accumInScope = checkAccumInScope @env knownEnv in snd . simplify' + +simplifyFix :: forall env t. KnownEnv env => Ex env t -> Ex env t +simplifyFix = + let ?accumInScope = checkAccumInScope @env knownEnv + in fix $ \loop e -> + let (Any act, e') = simplify' e + in if act then loop e' else e' -simplify' :: (?accumInScope :: Bool) => Ex env t -> Ex env t +simplify' :: (?accumInScope :: Bool) => Ex env t -> (Any, Ex env t) simplify' = \case -- inlining ELet _ rhs body | cheapExpr rhs - -> simplify' (subst1 rhs body) + -> acted $ simplify' (subst1 rhs body) | Occ lexOcc runOcc <- occCount IZ body , ((not ?accumInScope || not (hasAdds rhs)) && lexOcc <= One && runOcc <= One) -- without effects, normal rules apply || (lexOcc == One && runOcc == One) -- with effects, linear inlining is still allowed, but weakening is not - -> simplify' (subst1 rhs body) + -> acted $ simplify' (subst1 rhs body) -- let splitting ELet _ (EPair _ a b) body -> - simplify' $ + acted $ simplify' $ ELet ext a $ ELet ext (weakenExpr WSink b) $ subst (\_ t -> \case IZ -> EPair ext (EVar ext (typeOf a) (IS IZ)) (EVar ext (typeOf b) IZ) @@ -44,10 +54,10 @@ simplify' = \case -- let rotation ELet _ (ELet _ rhs a) b -> - simplify' $ + acted $ simplify' $ ELet ext rhs $ ELet ext a $ - weakenExpr (WCopy WSink) (simplify' b) + weakenExpr (WCopy WSink) (snd (simplify' b)) -- beta rules for products EFst _ (EPair _ e _) -> simplify' e @@ -72,36 +82,39 @@ simplify' = \case -- TODO: accum of zero, plus of zero - EVar _ t i -> EVar ext t i - ELet _ a b -> ELet ext (simplify' a) (simplify' b) - EPair _ a b -> EPair ext (simplify' a) (simplify' b) - EFst _ e -> EFst ext (simplify' e) - ESnd _ e -> ESnd ext (simplify' e) - ENil _ -> ENil ext - EInl _ t e -> EInl ext t (simplify' e) - EInr _ t e -> EInr ext t (simplify' e) - ECase _ e a b -> ECase ext (simplify' e) (simplify' a) (simplify' b) - ENothing _ t -> ENothing ext t - EJust _ e -> EJust ext (simplify' e) - EMaybe _ a b e -> EMaybe ext (simplify' a) (simplify' b) (simplify' e) - EConstArr _ n t v -> EConstArr ext n t v - EBuild1 _ a b -> EBuild1 ext (simplify' a) (simplify' b) - EBuild _ n a b -> EBuild ext n (simplify' a) (simplify' b) - EFold1Inner _ a b c -> EFold1Inner ext (simplify' a) (simplify' b) (simplify' c) - ESum1Inner _ e -> ESum1Inner ext (simplify' e) - EUnit _ e -> EUnit ext (simplify' e) - EReplicate1Inner _ a b -> EReplicate1Inner ext (simplify' a) (simplify' b) - EConst _ t v -> EConst ext t v - EIdx0 _ e -> EIdx0 ext (simplify' e) - EIdx1 _ a b -> EIdx1 ext (simplify' a) (simplify' b) - EIdx _ a b -> EIdx ext (simplify' a) (simplify' b) - EShape _ e -> EShape ext (simplify' e) - EOp _ op e -> EOp ext op (simplify' e) - EWith e1 e2 -> EWith (simplify' e1) (let ?accumInScope = True in simplify' e2) - EAccum i e1 e2 e3 -> EAccum i (simplify' e1) (simplify' e2) (simplify' e3) - EZero t -> EZero t - EPlus t a b -> EPlus t (simplify' a) (simplify' b) - EError t s -> EError t s + EVar _ t i -> pure $ EVar ext t i + ELet _ a b -> ELet ext <$> simplify' a <*> simplify' b + EPair _ a b -> EPair ext <$> simplify' a <*> simplify' b + EFst _ e -> EFst ext <$> simplify' e + ESnd _ e -> ESnd ext <$> simplify' e + ENil _ -> pure $ ENil ext + EInl _ t e -> EInl ext t <$> simplify' e + EInr _ t e -> EInr ext t <$> simplify' e + ECase _ e a b -> ECase ext <$> simplify' e <*> simplify' a <*> simplify' b + ENothing _ t -> pure $ ENothing ext t + EJust _ e -> EJust ext <$> simplify' e + EMaybe _ a b e -> EMaybe ext <$> simplify' a <*> simplify' b <*> simplify' e + EConstArr _ n t v -> pure $ EConstArr ext n t v + EBuild1 _ a b -> EBuild1 ext <$> simplify' a <*> simplify' b + EBuild _ n a b -> EBuild ext n <$> simplify' a <*> simplify' b + EFold1Inner _ a b c -> EFold1Inner ext <$> simplify' a <*> simplify' b <*> simplify' c + ESum1Inner _ e -> ESum1Inner ext <$> simplify' e + EUnit _ e -> EUnit ext <$> simplify' e + EReplicate1Inner _ a b -> EReplicate1Inner ext <$> simplify' a <*> simplify' b + EConst _ t v -> pure $ EConst ext t v + EIdx0 _ e -> EIdx0 ext <$> simplify' e + EIdx1 _ a b -> EIdx1 ext <$> simplify' a <*> simplify' b + EIdx _ a b -> EIdx ext <$> simplify' a <*> simplify' b + EShape _ e -> EShape ext <$> simplify' e + EOp _ op e -> EOp ext op <$> simplify' e + EWith e1 e2 -> EWith <$> simplify' e1 <*> (let ?accumInScope = True in simplify' e2) + EAccum i e1 e2 e3 -> EAccum i <$> simplify' e1 <*> simplify' e2 <*> simplify' e3 + EZero t -> pure $ EZero t + EPlus t a b -> EPlus t <$> simplify' a <*> simplify' b + EError t s -> pure $ EError t s + +acted :: (Any, a) -> (Any, a) +acted (_, x) = (Any True, x) cheapExpr :: Expr x env t -> Bool cheapExpr = \case |