diff options
Diffstat (limited to 'src/AST/UnMonoid.hs')
| -rw-r--r-- | src/AST/UnMonoid.hs | 111 |
1 files changed, 107 insertions, 4 deletions
diff --git a/src/AST/UnMonoid.hs b/src/AST/UnMonoid.hs index 389dd5a..d498aaa 100644 --- a/src/AST/UnMonoid.hs +++ b/src/AST/UnMonoid.hs @@ -1,18 +1,22 @@ {-# LANGUAGE DataKinds #-} {-# LANGUAGE GADTs #-} {-# LANGUAGE LambdaCase #-} +{-# LANGUAGE RankNTypes #-} {-# LANGUAGE TypeOperators #-} -module AST.UnMonoid (unMonoid, zero, plus) where +module AST.UnMonoid (unMonoid, zero, plus, acPrjCompose) where import AST +import AST.Sparse.Types import Data --- | Remove 'EZero', 'EPlus' and 'EOneHot' from the program by expanding them --- into their concrete implementations. +-- | Remove 'EZero', 'EDeepZero', 'EPlus' and 'EOneHot' from the program by +-- expanding them into their concrete implementations. Also ensure that +-- 'EAccum' has a dense sparsity. unMonoid :: Ex env t -> Ex env t unMonoid = \case EZero _ t e -> zero t e + EDeepZero _ t e -> deepZero t e EPlus _ t a b -> plus t (unMonoid a) (unMonoid b) EOneHot _ t p a b -> onehot t p (unMonoid a) (unMonoid b) @@ -49,7 +53,10 @@ unMonoid = \case ECustom _ t1 t2 t3 a b c e1 e2 -> ECustom ext t1 t2 t3 (unMonoid a) (unMonoid b) (unMonoid c) (unMonoid e1) (unMonoid e2) ERecompute _ e -> ERecompute ext (unMonoid e) EWith _ t a b -> EWith ext t (unMonoid a) (unMonoid b) - EAccum _ t p a b e -> EAccum ext t p (unMonoid a) (unMonoid b) (unMonoid e) + EAccum _ t p eidx sp eval eacc -> + accumulateSparse (acPrjTy p t) sp eval $ \w prj2 idx2 val2 -> + acPrjCompose SAID p (weakenExpr w eidx) prj2 idx2 $ \prj' idx' -> + EAccum ext t prj' (unMonoid idx') (spDense (acPrjTy prj' t)) (unMonoid val2) (weakenExpr w (unMonoid eacc)) EError _ t s -> EError ext t s zero :: SMTy t -> Ex env (ZeroInfo t) -> Ex env t @@ -66,6 +73,27 @@ zero (SMTScal t) _ = case t of STF32 -> EConst ext STF32 0.0 STF64 -> EConst ext STF64 0.0 +deepZero :: SMTy t -> Ex env (DeepZeroInfo t) -> Ex env t +deepZero SMTNil _ = ENil ext +deepZero (SMTPair t1 t2) e = + ELet ext e $ EPair ext (deepZero t1 (EFst ext (EVar ext (typeOf e) IZ))) + (deepZero t2 (ESnd ext (EVar ext (typeOf e) IZ))) +deepZero (SMTLEither t1 t2) e = + elcase e + (ELNil ext (fromSMTy t1) (fromSMTy t2)) + (ELInl ext (fromSMTy t2) (deepZero t1 (evar IZ))) + (ELInr ext (fromSMTy t1) (deepZero t2 (evar IZ))) +deepZero (SMTMaybe t) e = + emaybe e + (ENothing ext (fromSMTy t)) + (EJust ext (deepZero t (evar IZ))) +deepZero (SMTArr _ t) e = emap (deepZero t (evar IZ)) e +deepZero (SMTScal t) _ = case t of + STI32 -> EConst ext STI32 0 + STI64 -> EConst ext STI64 0 + STF32 -> EConst ext STF32 0.0 + STF64 -> EConst ext STF64 0.0 + plus :: SMTy t -> Ex env t -> Ex env t -> Ex env t plus SMTNil _ _ = ENil ext plus (SMTPair t1 t2) a b = @@ -143,3 +171,78 @@ onehot typ topprj idx arg = case (typ, topprj) of (onehot t1 prj (ESnd ext (EVar ext (typeOf idx) (IS IZ))) (weakenExpr (WSink .> WSink) arg)) (ELet ext (EIdx ext (ESnd ext (EFst ext (EVar ext (typeOf idx) (IS IZ)))) (EVar ext tidx IZ)) $ zero t1 (EVar ext (tZeroInfo t1) IZ)) + +accumulateSparse + :: SMTy t -> Sparse t t' -> Ex env t' + -> (forall p b env'. env :> env' -> SAcPrj p t b -> Ex env' (AcIdxD p t) -> Ex env' b -> Ex env' TNil) + -> Ex env TNil +accumulateSparse topty topsp arg accum = case (topty, topsp) of + (_, s) | Just Refl <- isDense topty s -> + accum WId SAPHere (ENil ext) arg + (SMTScal _, SpScal) -> + accum WId SAPHere (ENil ext) arg -- should be handled by isDense already, but meh + (_, SpSparse s) -> + emaybe arg + (ENil ext) + (accumulateSparse topty s (evar IZ) (\w -> accum (WPop w))) + (_, SpAbsent) -> + ENil ext + (SMTPair t1 t2, SpPair s1 s2) -> + eunPair arg $ \w1 e1 e2 -> + elet (accumulateSparse t1 s1 e1 (\w prj -> accum (w .> w1) (SAPFst prj))) $ + accumulateSparse t2 s2 (weakenExpr WSink e2) (\w prj -> accum (w .> WSink .> w1) (SAPSnd prj)) + (SMTLEither t1 t2, SpLEither s1 s2) -> + elcase arg + (ENil ext) + (accumulateSparse t1 s1 (evar IZ) (\w prj -> accum (WPop w) (SAPLeft prj))) + (accumulateSparse t2 s2 (evar IZ) (\w prj -> accum (WPop w) (SAPRight prj))) + (SMTMaybe t, SpMaybe s) -> + emaybe arg + (ENil ext) + (accumulateSparse t s (evar IZ) (\w prj -> accum (WPop w) (SAPJust prj))) + (SMTArr n t, SpArr s) -> + let tn = tTup (sreplicate n tIx) in + elet arg $ + elet (EBuild ext n (EShape ext (evar IZ)) $ + accumulateSparse t s + (EIdx ext (evar (IS IZ)) (EVar ext tn IZ)) + (\w prj idx val -> accum (WPop (WPop w)) (SAPArrIdx prj) (EPair ext (EVar ext tn (w @> IZ)) idx) val)) $ + ENil ext + +acPrjCompose + :: SAIDense dense + -> SAcPrj p1 a b -> Ex env (AcIdx dense p1 a) + -> SAcPrj p2 b c -> Ex env (AcIdx dense p2 b) + -> (forall p'. SAcPrj p' a c -> Ex env (AcIdx dense p' a) -> r) -> r +acPrjCompose _ SAPHere _ p2 idx2 k = k p2 idx2 +acPrjCompose SAID (SAPFst p1) idx1 p2 idx2 k = + acPrjCompose SAID p1 idx1 p2 idx2 $ \p' idx' -> + k (SAPFst p') idx' +acPrjCompose SAID (SAPSnd p1) idx1 p2 idx2 k = + acPrjCompose SAID p1 idx1 p2 idx2 $ \p' idx' -> + k (SAPSnd p') idx' +acPrjCompose SAIS (SAPFst p1) idx1 p2 idx2 k + | Dict <- styKnown (typeOf idx1) = + acPrjCompose SAIS p1 (efst (evar IZ)) p2 (weakenExpr WSink idx2) $ \p' idx' -> + k (SAPFst p') (elet idx1 $ EPair ext idx' (esnd (evar IZ))) +acPrjCompose SAIS (SAPSnd p1) idx1 p2 idx2 k + | Dict <- styKnown (typeOf idx1) = + acPrjCompose SAIS p1 (esnd (evar IZ)) p2 (weakenExpr WSink idx2) $ \p' idx' -> + k (SAPSnd p') (elet idx1 $ EPair ext (efst (evar IZ)) idx') +acPrjCompose d (SAPLeft p1) idx1 p2 idx2 k = + acPrjCompose d p1 idx1 p2 idx2 $ \p' idx' -> + k (SAPLeft p') idx' +acPrjCompose d (SAPRight p1) idx1 p2 idx2 k = + acPrjCompose d p1 idx1 p2 idx2 $ \p' idx' -> + k (SAPRight p') idx' +acPrjCompose d (SAPJust p1) idx1 p2 idx2 k = + acPrjCompose d p1 idx1 p2 idx2 $ \p' idx' -> + k (SAPJust p') idx' +acPrjCompose SAID (SAPArrIdx p1) idx1 p2 idx2 k + | Dict <- styKnown (typeOf idx1) = + acPrjCompose SAID p1 (esnd (evar IZ)) p2 (weakenExpr WSink idx2) $ \p' idx' -> + k (SAPArrIdx p') (elet idx1 $ EPair ext (EFst ext (EVar ext (typeOf idx1) IZ)) idx') +acPrjCompose SAIS (SAPArrIdx p1) idx1 p2 idx2 k + | Dict <- styKnown (typeOf idx1) = + acPrjCompose SAIS p1 (esnd (evar IZ)) p2 (weakenExpr WSink idx2) $ \p' idx' -> + k (SAPArrIdx p') (elet idx1 $ EPair ext (EFst ext (EVar ext (typeOf idx1) IZ)) idx') |