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author | Simon Peyton Jones <simonpj@microsoft.com> | 2020-02-02 18:23:11 +0000 |
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committer | Ben Gamari <ben@smart-cactus.org> | 2020-06-05 09:27:50 -0400 |
commit | 2b792facab46f7cdd09d12e79499f4e0dcd4293f (patch) | |
tree | f3bf2dffdd3c46744d3c1b0638948a1dfbd1b8f6 /compiler/GHC/Tc/Gen/Splice.hs | |
parent | af5e3a885ddd09dd5f550552c535af3661ff3dbf (diff) | |
download | haskell-2b792facab46f7cdd09d12e79499f4e0dcd4293f.tar.gz |
Simple subsumptionwip/T17775
This patch simplifies GHC to use simple subsumption.
Ticket #17775
Implements GHC proposal #287
https://github.com/ghc-proposals/ghc-proposals/blob/master/
proposals/0287-simplify-subsumption.rst
All the motivation is described there; I will not repeat it here.
The implementation payload:
* tcSubType and friends become noticably simpler, because it no
longer uses eta-expansion when checking subsumption.
* No deeplyInstantiate or deeplySkolemise
That in turn means that some tests fail, by design; they can all
be fixed by eta expansion. There is a list of such changes below.
Implementing the patch led me into a variety of sticky corners, so
the patch includes several othe changes, some quite significant:
* I made String wired-in, so that
"foo" :: String rather than
"foo" :: [Char]
This improves error messages, and fixes #15679
* The pattern match checker relies on knowing about in-scope equality
constraints, andd adds them to the desugarer's environment using
addTyCsDs. But the co_fn in a FunBind was missed, and for some reason
simple-subsumption ends up with dictionaries there. So I added a
call to addTyCsDs. This is really part of #18049.
* I moved the ic_telescope field out of Implication and into
ForAllSkol instead. This is a nice win; just expresses the code
much better.
* There was a bug in GHC.Tc.TyCl.Instance.tcDataFamInstHeader.
We called checkDataKindSig inside tc_kind_sig, /before/
solveEqualities and zonking. Obviously wrong, easily fixed.
* solveLocalEqualitiesX: there was a whole mess in here, around
failing fast enough. I discovered a bad latent bug where we
could successfully kind-check a type signature, and use it,
but have unsolved constraints that could fill in coercion
holes in that signature -- aargh.
It's all explained in Note [Failure in local type signatures]
in GHC.Tc.Solver. Much better now.
* I fixed a serious bug in anonymous type holes. IN
f :: Int -> (forall a. a -> _) -> Int
that "_" should be a unification variable at the /outer/
level; it cannot be instantiated to 'a'. This was plain
wrong. New fields mode_lvl and mode_holes in TcTyMode,
and auxiliary data type GHC.Tc.Gen.HsType.HoleMode.
This fixes #16292, but makes no progress towards the more
ambitious #16082
* I got sucked into an enormous refactoring of the reporting of
equality errors in GHC.Tc.Errors, especially in
mkEqErr1
mkTyVarEqErr
misMatchMsg
misMatchMsgOrCND
In particular, the very tricky mkExpectedActualMsg function
is gone.
It took me a full day. But the result is far easier to understand.
(Still not easy!) This led to various minor improvements in error
output, and an enormous number of test-case error wibbles.
One particular point: for occurs-check errors I now just say
Can't match 'a' against '[a]'
rather than using the intimidating language of "occurs check".
* Pretty-printing AbsBinds
Tests review
* Eta expansions
T11305: one eta expansion
T12082: one eta expansion (undefined)
T13585a: one eta expansion
T3102: one eta expansion
T3692: two eta expansions (tricky)
T2239: two eta expansions
T16473: one eta
determ004: two eta expansions (undefined)
annfail06: two eta (undefined)
T17923: four eta expansions (a strange program indeed!)
tcrun035: one eta expansion
* Ambiguity check at higher rank. Now that we have simple
subsumption, a type like
f :: (forall a. Eq a => Int) -> Int
is no longer ambiguous, because we could write
g :: (forall a. Eq a => Int) -> Int
g = f
and it'd typecheck just fine. But f's type is a bit
suspicious, and we might want to consider making the
ambiguity check do a check on each sub-term. Meanwhile,
these tests are accepted, whereas they were previously
rejected as ambiguous:
T7220a
T15438
T10503
T9222
* Some more interesting error message wibbles
T13381: Fine: one error (Int ~ Exp Int)
rather than two (Int ~ Exp Int, Exp Int ~ Int)
T9834: Small change in error (improvement)
T10619: Improved
T2414: Small change, due to order of unification, fine
T2534: A very simple case in which a change of unification order
means we get tow unsolved constraints instead of one
tc211: bizarre impredicative tests; just accept this for now
Updates Cabal and haddock submodules.
Metric Increase:
T12150
T12234
T5837
haddock.base
Metric Decrease:
haddock.compiler
haddock.Cabal
haddock.base
Merge note: This appears to break the
`UnliftedNewtypesDifficultUnification` test. It has been marked as
broken in the interest of merging.
(cherry picked from commit 66b7b195cb3dce93ed5078b80bf568efae904cc5)
Diffstat (limited to 'compiler/GHC/Tc/Gen/Splice.hs')
-rw-r--r-- | compiler/GHC/Tc/Gen/Splice.hs | 12 |
1 files changed, 6 insertions, 6 deletions
diff --git a/compiler/GHC/Tc/Gen/Splice.hs b/compiler/GHC/Tc/Gen/Splice.hs index 8a7b1b0c7f..f1233c55ed 100644 --- a/compiler/GHC/Tc/Gen/Splice.hs +++ b/compiler/GHC/Tc/Gen/Splice.hs @@ -288,7 +288,7 @@ tcPendingSplice m_var (PendingRnSplice flavour splice_name expr) = do { meta_ty <- tcMetaTy meta_ty_name -- Expected type of splice, e.g. m Exp ; let expected_type = mkAppTy m_var meta_ty - ; expr' <- tcCheckExpr expr expected_type + ; expr' <- tcCheckPolyExpr expr expected_type ; return (PendingTcSplice splice_name expr') } where meta_ty_name = case flavour of @@ -618,7 +618,7 @@ tcNestedSplice pop_stage (TcPending ps_var lie_var q@(QuoteWrapper _ m_var)) spl ; meta_exp_ty <- tcTExpTy m_var res_ty ; expr' <- setStage pop_stage $ setConstraintVar lie_var $ - tcLExpr expr (mkCheckExpType meta_exp_ty) + tcCheckMonoExpr expr meta_exp_ty ; untypeq <- tcLookupId unTypeQName ; let expr'' = mkHsApp (mkLHsWrap (applyQuoteWrapper q) @@ -647,7 +647,7 @@ tcTopSplice expr res_ty -- Top level splices must still be of type Q (TExp a) ; meta_exp_ty <- tcTExpTy q_type res_ty ; q_expr <- tcTopSpliceExpr Typed $ - tcLExpr expr (mkCheckExpType meta_exp_ty) + tcCheckMonoExpr expr meta_exp_ty ; lcl_env <- getLclEnv ; let delayed_splice = DelayedSplice lcl_env expr res_ty q_expr @@ -684,7 +684,7 @@ runTopSplice (DelayedSplice lcl_env orig_expr res_ty q_expr) captureConstraints $ addErrCtxt (spliceResultDoc zonked_q_expr) $ do { (exp3, _fvs) <- rnLExpr expr2 - ; tcLExpr exp3 (mkCheckExpType zonked_ty)} + ; tcCheckMonoExpr exp3 zonked_ty } ; ev <- simplifyTop wcs ; return $ unLoc (mkHsDictLet (EvBinds ev) res) } @@ -717,7 +717,7 @@ tcTopSpliceExpr :: SpliceType -> TcM (LHsExpr GhcTc) -> TcM (LHsExpr GhcTc) -- Note that set the level to Splice, regardless of the original level, -- before typechecking the expression. For example: -- f x = $( ...$(g 3) ... ) --- The recursive call to tcCheckExpr will simply expand the +-- The recursive call to tcCheckPolyExpr will simply expand the -- inner escape before dealing with the outer one tcTopSpliceExpr isTypedSplice tc_action @@ -1438,7 +1438,7 @@ reifyInstances th_nm th_tys <- pushTcLevelM_ $ solveEqualities $ -- Avoid error cascade if there are unsolved bindImplicitTKBndrs_Skol tv_names $ - fst <$> tcLHsType rn_ty + tcInferLHsType rn_ty ; ty <- zonkTcTypeToType ty -- Substitute out the meta type variables -- In particular, the type might have kind |