import CoreTidy ( tidyRules )
import PprCore ( pprRules )
import WwLib ( mkWorkerArgs )
-import DataCon ( dataConRepArity, isVanillaDataCon, dataConTyVars )
-import Type ( tyConAppArgs, tyVarsOfTypes )
+import DataCon ( dataConRepArity, isVanillaDataCon,
+ dataConUnivTyVars )
+import Type ( Type, tyConAppArgs, tyVarsOfTypes )
import Rules ( matchN )
-import Unify ( coreRefineTys )
import Id ( Id, idName, idType, isDataConWorkId_maybe,
mkUserLocal, mkSysLocal, idUnfolding, isLocalId )
import Var ( Var )
Var v -> lookupVarEnv cur_scope v `orElse` Other
other -> Other
- extend_data_con data_con
- | isVanillaDataCon data_con = extendCons env1 scrut case_bndr (CV con vanilla_args)
- | otherwise = extendCons env2 scrut case_bndr (CV con gadt_args)
- -- Note env2 for GADTs
+ extend_data_con data_con =
+ extendCons env1 scrut case_bndr (CV con vanilla_args)
where
-
vanilla_args = map Type (tyConAppArgs (idType case_bndr)) ++
- map varToCoreExpr alt_bndrs
-
- gadt_args = map (substExpr subst . varToCoreExpr) alt_bndrs
- -- This call generates some bogus warnings from substExpr,
- -- because it's inconvenient to put all the Ids in scope
- -- Will be fixed when we move to FC
-
- (alt_tvs, _) = span isTyVar alt_bndrs
- Just (tv_subst, is_local) = coreRefineTys data_con alt_tvs (idType case_bndr)
- subst = mkSubst in_scope tv_subst emptyVarEnv -- No Id substitition
- in_scope = mkInScopeSet (tyVarsOfTypes (varEnvElts tv_subst))
-
- env2 | is_local = env1
- | otherwise = env1 { cons = refineConstrEnv subst (cons env) }
-
+ varsToCoreExprs alt_bndrs
extendCons :: ScEnv -> CoreExpr -> Id -> ConValue -> ScEnv
extendCons env scrut case_bndr val
-}
instance Outputable ArgOcc where
- ppr (ScrutOcc xs) = ptext SLIT("scrut-occ") <+> ppr xs
+ ppr (ScrutOcc xs) = ptext SLIT("scrut-occ") <> parens (ppr xs)
ppr UnkOcc = ptext SLIT("unk-occ")
ppr BothOcc = ptext SLIT("both-occ")
ppr NoOcc = ptext SLIT("no-occ")
| Just pat_arg_occs <- lookupUFM fm dc
= tyvar_unks ++ pat_arg_occs
where
- tyvar_unks | isVanillaDataCon dc = [UnkOcc | tv <- dataConTyVars dc]
+ tyvar_unks | isVanillaDataCon dc = [UnkOcc | tv <- dataConUnivTyVars dc]
| otherwise = []
conArgOccs other con = repeat UnkOcc
scExpr env e@(Var v) = returnUs (varUsage env v UnkOcc, e)
scExpr env (Note n e) = scExpr env e `thenUs` \ (usg,e') ->
returnUs (usg, Note n e')
+scExpr env (Cast e co)= scExpr env e `thenUs` \ (usg,e') ->
+ returnUs (usg, Cast e' co)
scExpr env (Lam b e) = scExpr (extendBndr env b) e `thenUs` \ (usg,e') ->
returnUs (usg, Lam b e')
This code deals with analysing call-site arguments to see whether
they are constructor applications.
----------------------
-good_arg :: ConstrEnv -> IdEnv ArgOcc -> (CoreBndr, CoreArg) -> Bool
--- See Note [Good arguments] above
-good_arg con_env arg_occs (bndr, arg)
- = case is_con_app_maybe con_env arg of
- Just _ -> bndr_usg_ok arg_occs bndr arg
- other -> False
-
-bndr_usg_ok :: IdEnv ArgOcc -> Var -> CoreArg -> Bool
-bndr_usg_ok arg_occs bndr arg
- = case lookupVarEnv arg_occs bndr of
- Just ScrutOcc -> True -- Used only by case scrutiny
- Just Both -> case arg of -- Used by case and elsewhere
- App _ _ -> True -- so the arg should be an explicit con app
- other -> False
- other -> False -- Not used, or used wonkily
-
\begin{code}
-- argToPat takes an actual argument, and returns an abstracted
argToPat in_scope con_env arg@(Type ty) arg_occ
= return (False, arg)
-argToPat in_scope con_env (Var v) arg_occ -- Don't uniqify existing vars,
- = return (interesting, Var v) -- so that we can spot when we pass them twice
- where
- interesting = not (isLocalId v) || v `elemVarEnv` in_scope
+argToPat in_scope con_env (Var v) arg_occ
+ | not (isLocalId v) || v `elemVarEnv` in_scope
+ = -- The recursive call passes a variable that
+ -- is in scope at the function definition site
+ -- It's worth specialising on this if
+ -- (a) it's used in an interesting way in the body
+ -- (b) we know what its value is
+ if (case arg_occ of { UnkOcc -> False; other -> True }) -- (a)
+ && isValueUnfolding (idUnfolding v) -- (b)
+ then return (True, Var v)
+ else wildCardPat (idType v)
argToPat in_scope con_env arg arg_occ
| is_value_lam arg
= do { args' <- argsToPats in_scope con_env (args `zip` conArgOccs arg_occ dc)
; return (True, mk_con_app dc (map snd args')) }
-argToPat in_scope con_env arg arg_occ
- = do { uniq <- getUniqueUs
- ; let id = mkSysLocal FSLIT("sc") uniq (exprType arg)
- ; return (False, Var id) }
+argToPat in_scope con_env (Var v) arg_occ
+ = -- A variable bound inside the function.
+ -- Don't make a wild-card, because we may usefully share
+ -- e.g. f a = let x = ... in f (x,x)
+ -- NB: this case follows the lambda and con-app cases!!
+ return (False, Var v)
+
+-- The default case: make a wild-card
+argToPat in_scope con_env arg arg_occ = wildCardPat (exprType arg)
+
+wildCardPat :: Type -> UniqSM (Bool, CoreArg)
+wildCardPat ty = do { uniq <- getUniqueUs
+ ; let id = mkSysLocal FSLIT("sc") uniq ty
+ ; return (False, Var id) }
argsToPats :: InScopeEnv -> ConstrEnv
-> [(CoreArg, ArgOcc)]