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-rw-r--r--compiler/GHC/Core/Opt/Simplify/Utils.hs126
-rw-r--r--compiler/GHC/Core/Opt/Specialise.hs33
-rw-r--r--compiler/GHC/Core/Subst.hs12
-rw-r--r--testsuite/tests/simplCore/should_compile/T22459.hs23
-rw-r--r--testsuite/tests/simplCore/should_compile/all.T1
5 files changed, 142 insertions, 53 deletions
diff --git a/compiler/GHC/Core/Opt/Simplify/Utils.hs b/compiler/GHC/Core/Opt/Simplify/Utils.hs
index 3a8a6b4acc..25a7779274 100644
--- a/compiler/GHC/Core/Opt/Simplify/Utils.hs
+++ b/compiler/GHC/Core/Opt/Simplify/Utils.hs
@@ -2063,34 +2063,51 @@ it is guarded by the doFloatFromRhs call in simplLazyBind.
Note [Which type variables to abstract over]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Abstract only over the type variables free in the rhs wrt which the
-new binding is abstracted. Note that
-
- * The naive approach of abstracting wrt the
- tyvars free in the Id's /type/ fails. Consider:
- /\ a b -> let t :: (a,b) = (e1, e2)
- x :: a = fst t
- in ...
- Here, b isn't free in x's type, but we must nevertheless
- abstract wrt b as well, because t's type mentions b.
- Since t is floated too, we'd end up with the bogus:
- poly_t = /\ a b -> (e1, e2)
- poly_x = /\ a -> fst (poly_t a *b*)
-
- * We must do closeOverKinds. Example (#10934):
+new binding is abstracted. Several points worth noting
+
+(AB1) The naive approach of abstracting wrt the
+ tyvars free in the Id's /type/ fails. Consider:
+ /\ a b -> let t :: (a,b) = (e1, e2)
+ x :: a = fst t
+ in ...
+ Here, b isn't free in x's type, but we must nevertheless
+ abstract wrt b as well, because t's type mentions b.
+ Since t is floated too, we'd end up with the bogus:
+ poly_t = /\ a b -> (e1, e2)
+ poly_x = /\ a -> fst (poly_t a *b*)
+
+(AB2) We must do closeOverKinds. Example (#10934):
f = /\k (f:k->*) (a:k). let t = AccFailure @ (f a) in ...
- Here we want to float 't', but we must remember to abstract over
- 'k' as well, even though it is not explicitly mentioned in the RHS,
- otherwise we get
- t = /\ (f:k->*) (a:k). AccFailure @ (f a)
- which is obviously bogus.
-
- * We get the variables to abstract over by filtering down the
- the main_tvs for the original function, picking only ones
- mentioned in the abstracted body. This means:
- - they are automatically in dependency order, because main_tvs is
- - there is no issue about non-determinism
- - we don't gratuitously change order, which may help (in a tiny
- way) with CSE and/or the compiler-debugging experience
+ Here we want to float 't', but we must remember to abstract over
+ 'k' as well, even though it is not explicitly mentioned in the RHS,
+ otherwise we get
+ t = /\ (f:k->*) (a:k). AccFailure @ (f a)
+ which is obviously bogus.
+
+(AB3) We get the variables to abstract over by filtering down the
+ the main_tvs for the original function, picking only ones
+ mentioned in the abstracted body. This means:
+ - they are automatically in dependency order, because main_tvs is
+ - there is no issue about non-determinism
+ - we don't gratuitously change order, which may help (in a tiny
+ way) with CSE and/or the compiler-debugging experience
+
+(AB4) For a recursive group, it's a bit of a pain to work out the minimal
+ set of tyvars over which to abstract:
+ /\ a b c. let x = ...a... in
+ letrec { p = ...x...q...
+ q = .....p...b... } in
+ ...
+ Since 'x' is abstracted over 'a', the {p,q} group must be abstracted
+ over 'a' (because x is replaced by (poly_x a)) as well as 'b'.
+ Remember this bizarre case too:
+ x::a = x
+ Here, we must abstract 'x' over 'a'.
+
+ Why is it worth doing this? Partly tidiness; and partly #22459
+ which showed that it's harder to do polymorphic specialisation well
+ if there are dictionaries abstracted over unnecessary type variables.
+ See Note [Weird special case for SpecDict] in GHC.Core.Opt.Specialise
-}
abstractFloats :: UnfoldingOpts -> TopLevelFlag -> [OutTyVar] -> SimplFloats
@@ -2115,33 +2132,40 @@ abstractFloats uf_opts top_lvl main_tvs floats body
rhs' = GHC.Core.Subst.substExpr subst rhs
-- tvs_here: see Note [Which type variables to abstract over]
- tvs_here = filter (`elemVarSet` free_tvs) main_tvs
- free_tvs = closeOverKinds $
- exprSomeFreeVars isTyVar rhs'
+ tvs_here = choose_tvs (exprSomeFreeVars isTyVar rhs')
abstract subst (Rec prs)
- = do { (poly_ids, poly_apps) <- mapAndUnzipM (mk_poly1 tvs_here) ids
- ; let subst' = GHC.Core.Subst.extendSubstList subst (ids `zip` poly_apps)
- poly_pairs = [ mk_poly2 poly_id tvs_here rhs'
- | (poly_id, rhs) <- poly_ids `zip` rhss
- , let rhs' = GHC.Core.Subst.substExpr subst' rhs ]
- ; return (subst', Rec poly_pairs) }
+ = do { (poly_ids, poly_apps) <- mapAndUnzipM (mk_poly1 tvs_here) ids
+ ; let subst' = GHC.Core.Subst.extendSubstList subst (ids `zip` poly_apps)
+ poly_pairs = [ mk_poly2 poly_id tvs_here rhs'
+ | (poly_id, rhs) <- poly_ids `zip` rhss
+ , let rhs' = GHC.Core.Subst.substExpr subst' rhs ]
+ ; return (subst', Rec poly_pairs) }
+ where
+ (ids,rhss) = unzip prs
+
+
+ -- tvs_here: see Note [Which type variables to abstract over]
+ tvs_here = choose_tvs (mapUnionVarSet get_bind_fvs prs)
+
+ -- See wrinkle (AB4) in Note [Which type variables to abstract over]
+ get_bind_fvs (id,rhs) = tyCoVarsOfType (idType id) `unionVarSet` get_rec_rhs_tvs rhs
+ get_rec_rhs_tvs rhs = nonDetStrictFoldVarSet get_tvs emptyVarSet (exprFreeVars rhs)
+
+ get_tvs :: Var -> VarSet -> VarSet
+ get_tvs var free_tvs
+ | isTyVar var -- CoVars have been substituted away
+ = extendVarSet free_tvs var
+ | Just poly_app <- GHC.Core.Subst.lookupIdSubst_maybe subst var
+ = -- 'var' is like 'x' in (AB4)
+ exprSomeFreeVars isTyVar poly_app `unionVarSet` free_tvs
+ | otherwise
+ = free_tvs
+
+ choose_tvs free_tvs
+ = filter (`elemVarSet` all_free_tvs) main_tvs -- (AB3)
where
- (ids,rhss) = unzip prs
- -- For a recursive group, it's a bit of a pain to work out the minimal
- -- set of tyvars over which to abstract:
- -- /\ a b c. let x = ...a... in
- -- letrec { p = ...x...q...
- -- q = .....p...b... } in
- -- ...
- -- Since 'x' is abstracted over 'a', the {p,q} group must be abstracted
- -- over 'a' (because x is replaced by (poly_x a)) as well as 'b'.
- -- Since it's a pain, we just use the whole set, which is always safe
- --
- -- If you ever want to be more selective, remember this bizarre case too:
- -- x::a = x
- -- Here, we must abstract 'x' over 'a'.
- tvs_here = scopedSort main_tvs
+ all_free_tvs = closeOverKinds free_tvs -- (AB2)
mk_poly1 :: [TyVar] -> Id -> SimplM (Id, CoreExpr)
mk_poly1 tvs_here var
diff --git a/compiler/GHC/Core/Opt/Specialise.hs b/compiler/GHC/Core/Opt/Specialise.hs
index ac4934edbf..dda10da34e 100644
--- a/compiler/GHC/Core/Opt/Specialise.hs
+++ b/compiler/GHC/Core/Opt/Specialise.hs
@@ -2516,6 +2516,8 @@ specHeader env (bndr : bndrs) (UnspecType : args)
-- the nitty-gritty), as a LHS rule and unfolding details.
specHeader env (bndr : bndrs) (SpecDict d : args)
| not (isDeadBinder bndr)
+ , allVarSet (`elemInScopeSet` in_scope) (exprFreeVars d)
+ -- See Note [Weird special case for SpecDict]
= do { (env1, bndr') <- newDictBndr env bndr -- See Note [Zap occ info in rule binders]
; let (env2, dx_bind, spec_dict) = bindAuxiliaryDict env1 bndr bndr' d
; (_, env3, leftover_bndrs, rule_bs, rule_es, bs', dx, spec_args)
@@ -2531,6 +2533,8 @@ specHeader env (bndr : bndrs) (SpecDict d : args)
, spec_dict : spec_args
)
}
+ where
+ in_scope = Core.getSubstInScope (se_subst env)
-- Finally, we don't want to specialise on this argument 'i':
-- - It's an UnSpecArg, or
@@ -2752,6 +2756,8 @@ monomorpic, and specialised in one go.
Wrinkles.
+* See Note [Weird special case for SpecDict]
+
* With -XOverlappingInstances you might worry about this:
class C a where ...
instance C (Maybe Int) where ... -- $df1 :: C (Maybe Int)
@@ -2777,6 +2783,33 @@ Wrinkles.
it's a hard test to make.)
But see Note [Specialisation and overlapping instances].
+
+Note [Weird special case for SpecDict]
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+Suppose we are trying to specialise for this this call:
+ $wsplit @T (mkD @k @(a::k) :: C T)
+where
+ mkD :: forall k (a::k). C T
+is a top-level dictionary-former. This actually happened in #22459,
+because of (MP1) of Note [Specialising polymorphic dictionaries].
+
+How can we speicalise $wsplit? We might try
+
+ RULE "SPEC" forall (d :: C T). $wsplit @T d = $s$wsplit
+
+but then in the body of $s$wsplit what will we use for the dictionary
+evidence? We can't use (mkD @k @(a::k)) because k and a aren't in scope.
+We could zap `k` to (Any @Type) and `a` to (Any @(Any @Type)), but that
+is a lot of hard work for a very strange case.
+
+So we simply refrain from specialising in this case; hence the guard
+ allVarSet (`elemInScopeSet` in_scope) (exprFreeVars d)
+in the SpecDict cased of specHeader.
+
+How did this strange polymorphic mkD arise in the first place?
+From GHC.Core.Opt.Utils.abstractFloats, which was abstracting
+over too many type variables. But that too is now fixed;
+see Note [Which type variables to abstract over] in that module.
-}
instance Outputable DictBind where
diff --git a/compiler/GHC/Core/Subst.hs b/compiler/GHC/Core/Subst.hs
index 3d52c655f6..f0ad737fb6 100644
--- a/compiler/GHC/Core/Subst.hs
+++ b/compiler/GHC/Core/Subst.hs
@@ -15,7 +15,7 @@ module GHC.Core.Subst (
deShadowBinds, substRuleInfo, substRulesForImportedIds,
substTyUnchecked, substCo, substExpr, substExprSC, substBind, substBindSC,
substUnfolding, substUnfoldingSC,
- lookupIdSubst, substIdType, substIdOcc,
+ lookupIdSubst, lookupIdSubst_maybe, substIdType, substIdOcc,
substTickish, substDVarSet, substIdInfo,
-- ** Operations on substitutions
@@ -184,9 +184,11 @@ extendSubstList subst [] = subst
extendSubstList subst ((var,rhs):prs) = extendSubstList (extendSubst subst var rhs) prs
-- | Find the substitution for an 'Id' in the 'Subst'
+-- The Id should not be a CoVar
lookupIdSubst :: HasDebugCallStack => Subst -> Id -> CoreExpr
lookupIdSubst (Subst in_scope ids _ _) v
- | not (isLocalId v) = Var v
+ | assertPpr (isId v && not (isCoVar v)) (ppr v)
+ not (isLocalId v) = Var v
| Just e <- lookupVarEnv ids v = e
| Just v' <- lookupInScope in_scope v = Var v'
-- Vital! See Note [Extending the IdSubstEnv]
@@ -194,6 +196,12 @@ lookupIdSubst (Subst in_scope ids _ _) v
-- it's a bad bug and we really want to know
| otherwise = pprPanic "lookupIdSubst" (ppr v $$ ppr in_scope)
+lookupIdSubst_maybe :: HasDebugCallStack => Subst -> Id -> Maybe CoreExpr
+-- Just look up in the substitution; do not check the in-scope set
+lookupIdSubst_maybe (Subst _ ids _ _) v
+ = assertPpr (isId v && not (isCoVar v)) (ppr v) $
+ lookupVarEnv ids v
+
delBndr :: Subst -> Var -> Subst
delBndr (Subst in_scope ids tvs cvs) v
| isCoVar v = Subst in_scope ids tvs (delVarEnv cvs v)
diff --git a/testsuite/tests/simplCore/should_compile/T22459.hs b/testsuite/tests/simplCore/should_compile/T22459.hs
new file mode 100644
index 0000000000..be28c5e2c0
--- /dev/null
+++ b/testsuite/tests/simplCore/should_compile/T22459.hs
@@ -0,0 +1,23 @@
+{-# LANGUAGE UndecidableInstances #-}
+
+{-# OPTIONS_GHC -O #-}
+
+module Lib (foo) where
+
+import qualified Data.Map as M
+
+newtype Fix f = Fix (f (Fix f))
+
+instance Eq (f (Fix f)) => Eq (Fix f) where
+ Fix a == Fix b = a == b
+
+instance Ord (f (Fix f)) => Ord (Fix f) where
+ Fix a `compare` Fix b = a `compare` b
+
+data Foo i r = Foo i r
+ deriving (Eq, Ord)
+
+newtype Bar a = Bar (M.Map Char (M.Map (Fix (Foo ())) Word))
+
+foo :: Bar a -> Bar a -> Bar a
+foo (Bar a) (Bar b) = Bar (M.unionWith M.union a b)
diff --git a/testsuite/tests/simplCore/should_compile/all.T b/testsuite/tests/simplCore/should_compile/all.T
index 5209c0c7cb..df60aa1c4f 100644
--- a/testsuite/tests/simplCore/should_compile/all.T
+++ b/testsuite/tests/simplCore/should_compile/all.T
@@ -458,3 +458,4 @@ test('T22494', [grep_errmsg(r'case') ], compile, ['-O -ddump-simpl -dsuppress-un
test('T22491', normal, compile, ['-O2'])
test('T21476', normal, compile, [''])
test('T22272', normal, multimod_compile, ['T22272', '-O -fexpose-all-unfoldings -fno-omit-interface-pragmas -fno-ignore-interface-pragmas'])
+test('T22459', normal, compile, [''])