\begin{code}
tcSimplifyInfer doc tau_tvs wanted
- = do { tau_tvs' <- zonkTcTyVarsAndFV (varSetElems tau_tvs)
- ; wanted' <- mappM zonkInst wanted -- Zonk before deciding quantified tyvars
+ = do { tau_tvs1 <- zonkTcTyVarsAndFV (varSetElems tau_tvs)
+ ; wanted' <- mappM zonkInst wanted -- Zonk before deciding quantified tyvars
; gbl_tvs <- tcGetGlobalTyVars
- ; let preds = fdPredsOfInsts wanted'
- qtvs = grow preds tau_tvs' `minusVarSet` oclose preds gbl_tvs
+ ; let preds1 = fdPredsOfInsts wanted'
+ gbl_tvs1 = oclose preds1 gbl_tvs
+ qtvs = grow preds1 tau_tvs1 `minusVarSet` gbl_tvs1
-- See Note [Choosing which variables to quantify]
-- To maximise sharing, remove from consideration any
-- constraints that don't mention qtvs at all
- ; let (free1, bound) = partition (isFreeWhenInferring qtvs) wanted'
- ; extendLIEs free1
+ ; let (free, bound) = partition (isFreeWhenInferring qtvs) wanted'
+ ; extendLIEs free
-- To make types simple, reduce as much as possible
- ; traceTc (text "infer" <+> (ppr preds $$ ppr (grow preds tau_tvs') $$ ppr gbl_tvs $$
- ppr (oclose preds gbl_tvs) $$ ppr free1 $$ ppr bound))
+ ; traceTc (text "infer" <+> (ppr preds1 $$ ppr (grow preds1 tau_tvs1) $$ ppr gbl_tvs $$
+ ppr gbl_tvs1 $$ ppr free $$ ppr bound))
; (irreds1, binds1) <- tryHardCheckLoop doc bound
-- Note [Inference and implication constraints]
; let want_dict d = tyVarsOfInst d `intersectsVarSet` qtvs
; (irreds2, binds2) <- approximateImplications doc want_dict irreds1
- -- By now improvment may have taken place, and we must *not*
- -- quantify over any variable free in the environment
- -- tc137 (function h inside g) is an example
- ; gbl_tvs <- tcGetGlobalTyVars
- ; qtvs1 <- zonkTcTyVarsAndFV (varSetElems qtvs)
- ; qtvs2 <- zonkQuantifiedTyVars (varSetElems (qtvs1 `minusVarSet` gbl_tvs))
-
- -- Do not quantify over constraints that *now* do not
- -- mention quantified type variables, because they are
- -- simply ambiguous (or might be bound further out). Example:
- -- f :: Eq b => a -> (a, b)
- -- g x = fst (f x)
- -- From the RHS of g we get the MethodInst f77 :: alpha -> (alpha, beta)
- -- We decide to quantify over 'alpha' alone, but free1 does not include f77
- -- because f77 mentions 'alpha'. Then reducing leaves only the (ambiguous)
- -- constraint (Eq beta), which we dump back into the free set
- -- See test tcfail181
- ; let (free3, irreds3) = partition (isFreeWhenInferring (mkVarSet qtvs2)) irreds2
- ; extendLIEs free3
-
+ -- Now work out all over again which type variables to quantify,
+ -- exactly in the same way as before, but starting from irreds2. Why?
+ -- a) By now improvment may have taken place, and we must *not*
+ -- quantify over any variable free in the environment
+ -- tc137 (function h inside g) is an example
+ --
+ -- b) Do not quantify over constraints that *now* do not
+ -- mention quantified type variables, because they are
+ -- simply ambiguous (or might be bound further out). Example:
+ -- f :: Eq b => a -> (a, b)
+ -- g x = fst (f x)
+ -- From the RHS of g we get the MethodInst f77 :: alpha -> (alpha, beta)
+ -- We decide to quantify over 'alpha' alone, but free1 does not include f77
+ -- because f77 mentions 'alpha'. Then reducing leaves only the (ambiguous)
+ -- constraint (Eq beta), which we dump back into the free set
+ -- See test tcfail181
+ --
+ -- c) irreds may contain type variables not previously mentioned,
+ -- e.g. instance D a x => Foo [a]
+ -- wanteds = Foo [a]
+ -- Then after simplifying we'll get (D a x), and x is fresh
+ -- We must quantify over x else it'll be totally unbound
+ ; tau_tvs2 <- zonkTcTyVarsAndFV (varSetElems tau_tvs1)
+ ; gbl_tvs2 <- zonkTcTyVarsAndFV (varSetElems gbl_tvs1)
+ -- Note that we start from gbl_tvs1
+ -- We use tcGetGlobalTyVars, then oclose wrt preds2, because
+ -- we've already put some of the original preds1 into frees
+ -- E.g. wanteds = C a b (where a->b)
+ -- gbl_tvs = {a}
+ -- tau_tvs = {b}
+ -- Then b is fixed by gbl_tvs, so (C a b) will be in free, and
+ -- irreds2 will be empty. But we don't want to generalise over b!
+ ; let preds2 = fdPredsOfInsts irreds2 -- irreds2 is zonked
+ qtvs = grow preds2 tau_tvs2 `minusVarSet` oclose preds2 gbl_tvs2
+ ; let (free, irreds3) = partition (isFreeWhenInferring qtvs) irreds2
+ ; extendLIEs free
+
+ -- Turn the quantified meta-type variables into real type variables
+ ; qtvs2 <- zonkQuantifiedTyVars (varSetElems qtvs)
+
-- We can't abstract over any remaining unsolved
-- implications so instead just float them outwards. Ugh.
; let (q_dicts, implics) = partition isDict irreds3
parens (vcat [ptext SLIT("The choice depends on the instantiation of") <+>
quotes (pprWithCommas ppr (varSetElems (tyVarsOfInst dict))),
ptext SLIT("To pick the first instance above, use -fallow-incoherent-instances"),
- ptext SLIT("when compiling the other instances")])]
+ ptext SLIT("when compiling the other instance declarations")])]
where
ispecs = [ispec | (ispec, _) <- matches]