diff options
author | Alec Theriault <alec.theriault@gmail.com> | 2019-02-03 22:58:58 -0800 |
---|---|---|
committer | GitHub <noreply@github.com> | 2019-02-03 22:58:58 -0800 |
commit | aa9644fc4179de044557438f2bd3003642750a97 (patch) | |
tree | d2c0767d85a6be4c71f7c64c232c44ad4db0e15b /haddock-api | |
parent | a0973d09a5b4f6a08b35c0b3de371c895d7d847a (diff) |
Miscellaneous improvements to `Convert` (#1020)
Now that Haddock is moving towards working entirely over `.hi` and `.hie` files,
all declarations and types are going to be synthesized via the `Convert` module.
In preparation for this change, here are a bunch of fixes to this module:
* Add kind annotations to type variables in `forall`'s whose kind is not `Type`,
unless the kind can be inferred from some later use of the variable. See
`implicitForAll` and `noKindTyVars` in particular if you wish to dive into this.
* Properly detect `HsQualTy` in `synifyType`. This is done by following suit with
what GHC's `toIfaceTypeX` does and checking the first argument of
`FunTy{} :: Type` to see if it classified as a given/wanted in the typechecker
(see `isPredTy`).
* Beef up the logic around figuring out when an explicit `forall` is needed. This
includes: observing if any of the type variables will need kind signatures, if the
inferred type variable order _without_ a forall will still match the one GHC
claims, and some other small things.
* Add some (not yet used) functionality for default levity polymorphic type
signatures. This functionality similar to `fprint-explicit-runtime-reps`.
Couple other smaller fixes only worth mentioning:
* Show the family result signature only when it isn't `Type`
* Fix rendering of implicit parameters in the LaTeX and Hoogle backends
* Better handling of the return kind of polykinded H98 data declarations
* Class decls produced by `tyThingToLHsDecl` now contain associated type
defaults and default method signatures when appropriate
* Filter out more `forall`'s in pattern synonyms
Diffstat (limited to 'haddock-api')
-rw-r--r-- | haddock-api/src/Haddock/Backends/Hoogle.hs | 9 | ||||
-rw-r--r-- | haddock-api/src/Haddock/Backends/LaTeX.hs | 10 | ||||
-rw-r--r-- | haddock-api/src/Haddock/Convert.hs | 465 | ||||
-rw-r--r-- | haddock-api/src/Haddock/GhcUtils.hs | 110 | ||||
-rw-r--r-- | haddock-api/src/Haddock/Interface/Create.hs | 2 |
5 files changed, 444 insertions, 152 deletions
diff --git a/haddock-api/src/Haddock/Backends/Hoogle.hs b/haddock-api/src/Haddock/Backends/Hoogle.hs index 16ec582e..9e3186e5 100644 --- a/haddock-api/src/Haddock/Backends/Hoogle.hs +++ b/haddock-api/src/Haddock/Backends/Hoogle.hs @@ -263,8 +263,13 @@ ppCtor dflags dat subdocs con@ConDeclH98 {} -- docs for con_names on why it is a list to begin with. name = commaSeparate dflags . map unL $ getConNames con - resType = apps $ map (reL . HsTyVar NoExt NotPromoted . reL) $ - (tcdName dat) : [hsTyVarName v | L _ v@(UserTyVar _ _) <- hsQTvExplicit $ tyClDeclTyVars dat] + tyVarArg (UserTyVar _ n) = HsTyVar NoExt NotPromoted n + tyVarArg (KindedTyVar _ n lty) = HsKindSig NoExt (reL (HsTyVar NoExt NotPromoted n)) lty + tyVarArg _ = panic "ppCtor" + + resType = apps $ map reL $ + (HsTyVar NoExt NotPromoted (reL (tcdName dat))) : + map (tyVarArg . unLoc) (hsQTvExplicit $ tyClDeclTyVars dat) ppCtor dflags _dat subdocs con@(ConDeclGADT { }) = concatMap (lookupCon dflags subdocs) (getConNames con) ++ f diff --git a/haddock-api/src/Haddock/Backends/LaTeX.hs b/haddock-api/src/Haddock/Backends/LaTeX.hs index 12256a00..d0752506 100644 --- a/haddock-api/src/Haddock/Backends/LaTeX.hs +++ b/haddock-api/src/Haddock/Backends/LaTeX.hs @@ -960,7 +960,7 @@ ppContext cxt unicode = ppContextNoLocs (map unLoc cxt) unicode pp_hs_context :: [HsType DocNameI] -> Bool -> LaTeX pp_hs_context [] _ = empty -pp_hs_context [p] unicode = ppType unicode p +pp_hs_context [p] unicode = ppCtxType unicode p pp_hs_context cxt unicode = parenList (map (ppType unicode) cxt) @@ -995,11 +995,11 @@ ppLType unicode y = ppType unicode (unLoc y) ppLParendType unicode y = ppParendType unicode (unLoc y) ppLFunLhType unicode y = ppFunLhType unicode (unLoc y) - -ppType, ppParendType, ppFunLhType :: Bool -> HsType DocNameI -> LaTeX +ppType, ppParendType, ppFunLhType, ppCtxType :: Bool -> HsType DocNameI -> LaTeX ppType unicode ty = ppr_mono_ty (reparenTypePrec PREC_TOP ty) unicode ppParendType unicode ty = ppr_mono_ty (reparenTypePrec PREC_TOP ty) unicode ppFunLhType unicode ty = ppr_mono_ty (reparenTypePrec PREC_FUN ty) unicode +ppCtxType unicode ty = ppr_mono_ty (reparenTypePrec PREC_CTX ty) unicode ppLHsTypeArg :: Bool -> LHsTypeArg DocNameI -> LaTeX ppLHsTypeArg unicode (HsValArg ty) = ppLParendType unicode ty @@ -1045,7 +1045,7 @@ ppr_mono_ty (HsTupleTy _ con tys) u = tupleParens con (map (ppLType u) tys) ppr_mono_ty (HsSumTy _ tys) u = sumParens (map (ppLType u) tys) ppr_mono_ty (HsKindSig _ ty kind) u = parens (ppr_mono_lty ty u <+> dcolon u <+> ppLKind u kind) ppr_mono_ty (HsListTy _ ty) u = brackets (ppr_mono_lty ty u) -ppr_mono_ty (HsIParamTy _ (L _ n) ty) u = brackets (ppIPName n <+> dcolon u <+> ppr_mono_lty ty u) +ppr_mono_ty (HsIParamTy _ (L _ n) ty) u = ppIPName n <+> dcolon u <+> ppr_mono_lty ty u ppr_mono_ty (HsSpliceTy {}) _ = error "ppr_mono_ty HsSpliceTy" ppr_mono_ty (HsRecTy {}) _ = text "{..}" ppr_mono_ty (XHsType (NHsCoreTy {})) _ = error "ppr_mono_ty HsCoreTy" @@ -1110,7 +1110,7 @@ ppVerbOccName :: OccName -> LaTeX ppVerbOccName = text . latexFilter . occNameString ppIPName :: HsIPName -> LaTeX -ppIPName ip = text $ unpackFS $ hsIPNameFS ip +ppIPName = text . ('?':) . unpackFS . hsIPNameFS ppOccName :: OccName -> LaTeX ppOccName = text . occNameString diff --git a/haddock-api/src/Haddock/Convert.hs b/haddock-api/src/Haddock/Convert.hs index 5312bfc7..3d2e37b9 100644 --- a/haddock-api/src/Haddock/Convert.hs +++ b/haddock-api/src/Haddock/Convert.hs @@ -12,13 +12,16 @@ -- Conversion between TyThing and HsDecl. This functionality may be moved into -- GHC at some point. ----------------------------------------------------------------------------- -module Haddock.Convert where --- Some other functions turned out to be useful for converting --- instance heads, which aren't TyThings, so just export everything. +module Haddock.Convert ( + tyThingToLHsDecl, + synifyInstHead, + synifyFamInst, + PrintRuntimeReps(..), +) where import Bag ( emptyBag ) import BasicTypes ( TupleSort(..), SourceText(..), LexicalFixity(..) - , PromotionFlag(..) ) + , PromotionFlag(..), DefMethSpec(..) ) import Class import CoAxiom import ConLike @@ -49,12 +52,22 @@ import VarSet import Haddock.Types import Haddock.Interface.Specialize +import Haddock.GhcUtils ( orderedFVs, defaultRuntimeRepVars ) +import Data.Maybe ( catMaybes, maybeToList ) +-- | Whether or not to default 'RuntimeRep' variables to 'LiftedRep'. Check +-- out Note [Defaulting RuntimeRep variables] in IfaceType.hs for the +-- motivation. +data PrintRuntimeReps = ShowRuntimeRep | HideRuntimeRep deriving Show + -- the main function here! yay! -tyThingToLHsDecl :: TyThing -> Either ErrMsg ([ErrMsg], (HsDecl GhcRn)) -tyThingToLHsDecl t = case t of +tyThingToLHsDecl + :: PrintRuntimeReps + -> TyThing + -> Either ErrMsg ([ErrMsg], (HsDecl GhcRn)) +tyThingToLHsDecl prr t = case t of -- ids (functions and zero-argument a.k.a. CAFs) get a type signature. -- Including built-in functions like seq. -- foreign-imported functions could be represented with ForD @@ -63,40 +76,60 @@ tyThingToLHsDecl t = case t of -- in a future code version we could turn idVarDetails = foreign-call -- into a ForD instead of a SigD if we wanted. Haddock doesn't -- need to care. - AnId i -> allOK $ SigD noExt (synifyIdSig ImplicitizeForAll i) + AnId i -> allOK $ SigD noExt (synifyIdSig prr ImplicitizeForAll [] i) -- type-constructors (e.g. Maybe) are complicated, put the definition -- later in the file (also it's used for class associated-types too.) ATyCon tc | Just cl <- tyConClass_maybe tc -- classes are just a little tedious - -> let extractFamilyDecl :: TyClDecl a -> Either ErrMsg (LFamilyDecl a) - extractFamilyDecl (FamDecl _ d) = return $ noLoc d + -> let extractFamilyDecl :: TyClDecl a -> Either ErrMsg (FamilyDecl a) + extractFamilyDecl (FamDecl _ d) = return d extractFamilyDecl _ = Left "tyThingToLHsDecl: impossible associated tycon" - atTyClDecls = [synifyTyCon Nothing at_tc | ATI at_tc _ <- classATItems cl] - atFamDecls = map extractFamilyDecl (rights atTyClDecls) - tyClErrors = lefts atTyClDecls - famDeclErrors = lefts atFamDecls - in withErrs (tyClErrors ++ famDeclErrors) . TyClD noExt $ ClassDecl + extractFamDefDecl :: FamilyDecl GhcRn -> Type -> TyFamDefltEqn GhcRn + extractFamDefDecl fd rhs = FamEqn + { feqn_ext = noExt + , feqn_tycon = fdLName fd + , feqn_bndrs = Nothing + -- TODO: this must change eventually + , feqn_pats = fdTyVars fd + , feqn_fixity = fdFixity fd + , feqn_rhs = synifyType WithinType [] rhs } + + extractAtItem + :: ClassATItem + -> Either ErrMsg (LFamilyDecl GhcRn, Maybe (LTyFamDefltEqn GhcRn)) + extractAtItem (ATI at_tc def) = do + tyDecl <- synifyTyCon prr Nothing at_tc + famDecl <- extractFamilyDecl tyDecl + let defEqnTy = fmap (noLoc . extractFamDefDecl famDecl . fst) def + pure (noLoc famDecl, defEqnTy) + + atTyClDecls = map extractAtItem (classATItems cl) + (atFamDecls, atDefFamDecls) = unzip (rights atTyClDecls) + vs = tyConVisibleTyVars (classTyCon cl) + + in withErrs (lefts atTyClDecls) . TyClD noExt $ ClassDecl { tcdCtxt = synifyCtx (classSCTheta cl) , tcdLName = synifyName cl - , tcdTyVars = synifyTyVars (tyConVisibleTyVars (classTyCon cl)) - , tcdFixity = Prefix + , tcdTyVars = synifyTyVars vs + , tcdFixity = synifyFixity cl , tcdFDs = map (\ (l,r) -> noLoc (map (noLoc . getName) l, map (noLoc . getName) r) ) $ snd $ classTvsFds cl , tcdSigs = noLoc (MinimalSig noExt NoSourceText . noLoc . fmap noLoc $ classMinimalDef cl) : - map (noLoc . synifyTcIdSig DeleteTopLevelQuantification) - (classMethods cl) + [ noLoc tcdSig + | clsOp <- classOpItems cl + , tcdSig <- synifyTcIdSig vs clsOp ] , tcdMeths = emptyBag --ignore default method definitions, they don't affect signature -- class associated-types are a subset of TyCon: - , tcdATs = rights atFamDecls - , tcdATDefs = [] --ignore associated type defaults + , tcdATs = atFamDecls + , tcdATDefs = catMaybes atDefFamDecls , tcdDocs = [] --we don't have any docs at this point , tcdCExt = placeHolderNamesTc } | otherwise - -> synifyTyCon Nothing tc >>= allOK . TyClD noExt + -> synifyTyCon prr Nothing tc >>= allOK . TyClD noExt -- type-constructors (e.g. Maybe) are complicated, put the definition -- later in the file (also it's used for class associated-types too.) @@ -104,7 +137,7 @@ tyThingToLHsDecl t = case t of -- a data-constructor alone just gets rendered as a function: AConLike (RealDataCon dc) -> allOK $ SigD noExt (TypeSig noExt [synifyName dc] - (synifySigWcType ImplicitizeForAll (dataConUserType dc))) + (synifySigWcType ImplicitizeForAll [] (dataConUserType dc))) AConLike (PatSynCon ps) -> allOK . SigD noExt $ PatSynSig noExt [synifyName ps] (synifyPatSynSigType ps) @@ -116,17 +149,17 @@ synifyAxBranch :: TyCon -> CoAxBranch -> TyFamInstEqn GhcRn synifyAxBranch tc (CoAxBranch { cab_tvs = tkvs, cab_lhs = args, cab_rhs = rhs }) = let name = synifyName tc args_types_only = filterOutInvisibleTypes tc args - typats = map (synifyType WithinType) args_types_only + typats = map (synifyType WithinType []) args_types_only annot_typats = zipWith3 annotHsType (mkIsPolyTvs fam_tvs) args_types_only typats - hs_rhs = synifyType WithinType rhs + hs_rhs = synifyType WithinType [] rhs in HsIB { hsib_ext = map tyVarName tkvs , hsib_body = FamEqn { feqn_ext = noExt , feqn_tycon = name , feqn_bndrs = Nothing - -- this must change eventually + -- TODO: this must change eventually , feqn_pats = map HsValArg annot_typats - , feqn_fixity = Prefix + , feqn_fixity = synifyFixity name , feqn_rhs = hs_rhs } } where fam_tvs = tyConVisibleTyVars tc @@ -141,42 +174,51 @@ synifyAxiom ax@(CoAxiom { co_ax_tc = tc }) | Just ax' <- isClosedSynFamilyTyConWithAxiom_maybe tc , getUnique ax' == getUnique ax -- without the getUniques, type error - = synifyTyCon (Just ax) tc >>= return . TyClD noExt + = synifyTyCon ShowRuntimeRep (Just ax) tc >>= return . TyClD noExt | otherwise = Left "synifyAxiom: closed/open family confusion" --- | Turn type constructors into type class declarations -synifyTyCon :: Maybe (CoAxiom br) -> TyCon -> Either ErrMsg (TyClDecl GhcRn) -synifyTyCon _coax tc +-- | Turn type constructors into data declarations, type families, or type synonyms +synifyTyCon + :: PrintRuntimeReps + -> Maybe (CoAxiom br) -- ^ RHS of type synonym + -> TyCon -- ^ type constructor to convert + -> Either ErrMsg (TyClDecl GhcRn) +synifyTyCon prr _coax tc | isFunTyCon tc || isPrimTyCon tc = return $ DataDecl { tcdLName = synifyName tc - , tcdTyVars = -- tyConTyVars doesn't work on fun/prim, but we can make them up: - let mk_hs_tv realKind fakeTyVar - = noLoc $ KindedTyVar noExt (noLoc (getName fakeTyVar)) - (synifyKindSig realKind) - in HsQTvs { hsq_ext = + , tcdTyVars = HsQTvs { hsq_ext = HsQTvsRn { hsq_implicit = [] -- No kind polymorphism , hsq_dependent = emptyNameSet } - , hsq_explicit = zipWith mk_hs_tv (fst (splitFunTys (tyConKind tc))) - alphaTyVars --a, b, c... which are unfortunately all kind * + , hsq_explicit = zipWith mk_hs_tv + tyVarKinds + alphaTyVars --a, b, c... which are unfortunately all kind * } - , tcdFixity = Prefix + , tcdFixity = synifyFixity tc , tcdDataDefn = HsDataDefn { dd_ext = noExt , dd_ND = DataType -- arbitrary lie, they are neither -- algebraic data nor newtype: , dd_ctxt = noLoc [] , dd_cType = Nothing - , dd_kindSig = Just (synifyKindSig (tyConKind tc)) + , dd_kindSig = synifyDataTyConReturnKind tc -- we have their kind accurately: , dd_cons = [] -- No constructors , dd_derivs = noLoc [] } , tcdDExt = DataDeclRn False placeHolderNamesTc } + where + -- tyConTyVars doesn't work on fun/prim, but we can make them up: + mk_hs_tv realKind fakeTyVar + | isLiftedTypeKind realKind = noLoc $ UserTyVar noExt (noLoc (getName fakeTyVar)) + | otherwise = noLoc $ KindedTyVar noExt (noLoc (getName fakeTyVar)) (synifyKindSig realKind) + + conKind = defaultType prr (tyConKind tc) + tyVarKinds = fst . splitFunTys . snd . splitPiTysInvisible $ conKind -synifyTyCon _coax tc +synifyTyCon _prr _coax tc | Just flav <- famTyConFlav_maybe tc = case flav of -- Type families @@ -200,7 +242,7 @@ synifyTyCon _coax tc , fdInfo = i , fdLName = synifyName tc , fdTyVars = synifyTyVars (tyConVisibleTyVars tc) - , fdFixity = Prefix + , fdFixity = synifyFixity tc , fdResultSig = synifyFamilyResultSig resultVar (tyConResKind tc) , fdInjectivityAnn = @@ -208,13 +250,13 @@ synifyTyCon _coax tc (tyConInjectivityInfo tc) } -synifyTyCon coax tc +synifyTyCon _prr coax tc | Just ty <- synTyConRhs_maybe tc = return $ SynDecl { tcdSExt = emptyNameSet , tcdLName = synifyName tc , tcdTyVars = synifyTyVars (tyConVisibleTyVars tc) - , tcdFixity = Prefix - , tcdRhs = synifyType WithinType ty } + , tcdFixity = synifyFixity tc + , tcdRhs = synifyType WithinType [] ty } | otherwise = -- (closed) newtype and data let @@ -242,7 +284,7 @@ synifyTyCon coax tc -- That seems like an acceptable compromise (they'll just be documented -- in prefix position), since, otherwise, the logic (at best) gets much more -- complicated. (would use dataConIsInfix.) - use_gadt_syntax = any (not . isVanillaDataCon) (tyConDataCons tc) + use_gadt_syntax = isGadtSyntaxTyCon tc consRaw = map (synifyDataCon use_gadt_syntax) (tyConDataCons tc) cons = rights consRaw -- "deriving" doesn't affect the signature, no need to specify any. @@ -256,31 +298,31 @@ synifyTyCon coax tc , dd_derivs = alg_deriv } in case lefts consRaw of [] -> return $ - DataDecl { tcdLName = name, tcdTyVars = tyvars, tcdFixity = Prefix + DataDecl { tcdLName = name, tcdTyVars = tyvars + , tcdFixity = synifyFixity name , tcdDataDefn = defn , tcdDExt = DataDeclRn False placeHolderNamesTc } dataConErrs -> Left $ unlines dataConErrs --- In this module, every TyCon being considered has come from an interface +-- | In this module, every TyCon being considered has come from an interface -- file. This means that when considering a data type constructor such as: -- --- data Foo (w :: *) (m :: * -> *) (a :: *) +-- > data Foo (w :: *) (m :: * -> *) (a :: *) -- -- Then its tyConKind will be (* -> (* -> *) -> * -> *). But beware! We are -- also rendering the type variables of Foo, so if we synify the tyConKind of -- Foo in full, we will end up displaying this in Haddock: -- --- data Foo (w :: *) (m :: * -> *) (a :: *) --- :: * -> (* -> *) -> * -> * +-- > data Foo (w :: *) (m :: * -> *) (a :: *) +-- > :: * -> (* -> *) -> * -> * -- --- Which is entirely wrong (#548). We only want to display the *return* kind, +-- Which is entirely wrong (#548). We only want to display the /return/ kind, -- which this function obtains. synifyDataTyConReturnKind :: TyCon -> Maybe (LHsKind GhcRn) synifyDataTyConReturnKind tc - = case splitFunTys (tyConKind tc) of - (_, ret_kind) - | isLiftedTypeKind ret_kind -> Nothing -- Don't bother displaying :: * - | otherwise -> Just (synifyKindSig ret_kind) + | isLiftedTypeKind ret_kind = Nothing -- Don't bother displaying :: * + | otherwise = Just (synifyKindSig ret_kind) + where ret_kind = tyConResKind tc synifyInjectivityAnn :: Maybe Name -> [TyVar] -> Injectivity -> Maybe (LInjectivityAnn GhcRn) @@ -291,8 +333,9 @@ synifyInjectivityAnn (Just lhs) tvs (Injective inj) = in Just $ noLoc $ InjectivityAnn (noLoc lhs) rhs synifyFamilyResultSig :: Maybe Name -> Kind -> LFamilyResultSig GhcRn -synifyFamilyResultSig Nothing kind = - noLoc $ KindSig noExt (synifyKindSig kind) +synifyFamilyResultSig Nothing kind + | isLiftedTypeKind kind = noLoc $ NoSig noExt + | otherwise = noLoc $ KindSig noExt (synifyKindSig kind) synifyFamilyResultSig (Just name) kind = noLoc $ TyVarSig noExt (noLoc $ KindedTyVar noExt (noLoc name) (synifyKindSig kind)) @@ -313,11 +356,12 @@ synifyDataCon use_gadt_syntax dc = (univ_tvs, ex_tvs, _eq_spec, theta, arg_tys, res_ty) = dataConFullSig dc -- skip any EqTheta, use 'orig'inal syntax - ctx = synifyCtx theta + ctx | null theta = Nothing + | otherwise = Just $ synifyCtx theta linear_tys = zipWith (\ty bang -> - let tySyn = synifyType WithinType ty + let tySyn = synifyType WithinType [] ty in case bang of (HsSrcBang _ NoSrcUnpack NoSrcStrict) -> tySyn bang' -> noLoc $ HsBangTy noExt bang' tySyn) @@ -341,33 +385,55 @@ synifyDataCon use_gadt_syntax dc = then return $ noLoc $ ConDeclGADT { con_g_ext = noExt , con_names = [name] - , con_forall = noLoc True + , con_forall = noLoc False , con_qvars = synifyTyVars (univ_tvs ++ ex_tvs) - , con_mb_cxt = Just ctx - , con_args = hat - , con_res_ty = synifyType WithinType res_ty - , con_doc = Nothing } + , con_mb_cxt = ctx + , con_args = hat + , con_res_ty = synifyType WithinType [] res_ty + , con_doc = Nothing } else return $ noLoc $ ConDeclH98 { con_ext = noExt , con_name = name - , con_forall = noLoc True + , con_forall = noLoc False , con_ex_tvs = map synifyTyVar ex_tvs - , con_mb_cxt = Just ctx + , con_mb_cxt = ctx , con_args = hat , con_doc = Nothing } synifyName :: NamedThing n => n -> Located Name synifyName n = L (srcLocSpan (getSrcLoc n)) (getName n) - -synifyIdSig :: SynifyTypeState -> Id -> Sig GhcRn -synifyIdSig s i = TypeSig noExt [synifyName i] (synifySigWcType s (varType i)) - -synifyTcIdSig :: SynifyTypeState -> Id -> Sig GhcRn -synifyTcIdSig s i = ClassOpSig noExt False [synifyName i] (synifySigType s (varType i)) +-- | Guess the fixity of a something with a name. This isn't quite right, since +-- a user can always declare an infix name in prefix form or a prefix name in +-- infix form. Unfortunately, that is not something we can usually reconstruct. +synifyFixity :: NamedThing n => n -> LexicalFixity +synifyFixity n | isSymOcc (getOccName n) = Infix + | otherwise = Prefix + +synifyIdSig + :: PrintRuntimeReps -- ^ are we printing tyvars of kind 'RuntimeRep'? + -> SynifyTypeState -- ^ what to do with a 'forall' + -> [TyVar] -- ^ free variables in the type to convert + -> Id -- ^ the 'Id' from which to get the type signature + -> Sig GhcRn +synifyIdSig prr s vs i = TypeSig noExt [synifyName i] (synifySigWcType s vs t) + where + t = defaultType prr (varType i) + +-- | Turn a 'ClassOpItem' into a list of signatures. The list returned is going +-- to contain the synified 'ClassOpSig' as well (when appropriate) a default +-- 'ClassOpSig'. +synifyTcIdSig :: [TyVar] -> ClassOpItem -> [Sig GhcRn] +synifyTcIdSig vs (i, dm) = + [ ClassOpSig noExt False [synifyName i] (mainSig (varType i)) ] ++ + [ ClassOpSig noExt True [noLoc dn] (defSig dt) + | Just (dn, GenericDM dt) <- [dm] ] + where + mainSig t = synifySigType DeleteTopLevelQuantification vs t + defSig t = synifySigType ImplicitizeForAll vs t synifyCtx :: [PredType] -> LHsContext GhcRn -synifyCtx = noLoc . map (synifyType WithinType) +synifyCtx = noLoc . map (synifyType WithinType []) synifyTyVars :: [TyVar] -> LHsQTyVars GhcRn @@ -376,13 +442,20 @@ synifyTyVars ktvs = HsQTvs { hsq_ext = HsQTvsRn { hsq_implicit = [] , hsq_explicit = map synifyTyVar ktvs } synifyTyVar :: TyVar -> LHsTyVarBndr GhcRn -synifyTyVar tv - | isLiftedTypeKind kind = noLoc (UserTyVar noExt (noLoc name)) - | otherwise = noLoc (KindedTyVar noExt (noLoc name) (synifyKindSig kind)) +synifyTyVar = synifyTyVar' emptyVarSet + +-- | Like 'synifyTyVar', but accepts a set of variables for which to omit kind +-- signatures (even if they don't have the lifted type kind). +synifyTyVar' :: VarSet -> TyVar -> LHsTyVarBndr GhcRn +synifyTyVar' no_kinds tv + | isLiftedTypeKind kind || tv `elemVarSet` no_kinds + = noLoc (UserTyVar noExt (noLoc name)) + | otherwise = noLoc (KindedTyVar noExt (noLoc name) (synifyKindSig kind)) where kind = tyVarKind tv name = getName tv + -- | Annotate (with HsKingSig) a type if the first parameter is True -- and if the type contains a free variable. -- This is used to synify type patterns for poly-kinded tyvars in @@ -394,7 +467,7 @@ annotHsType _ _ hs_ty@(L _ (HsKindSig {})) = hs_ty annotHsType True ty hs_ty | not $ isEmptyVarSet $ filterVarSet isTyVar $ tyCoVarsOfType ty = let ki = typeKind ty - hs_ki = synifyType WithinType ki + hs_ki = synifyType WithinType [] ki in noLoc (HsKindSig noExt hs_ty hs_ki) annotHsType _ _ hs_ty = hs_ty @@ -417,7 +490,8 @@ data SynifyTypeState -- quite understand what's going on. | ImplicitizeForAll -- ^ beginning of a function definition, in which, to make it look - -- less ugly, those rank-1 foralls are made implicit. + -- less ugly, those rank-1 foralls (without kind annotations) are made + -- implicit. | DeleteTopLevelQuantification -- ^ because in class methods the context is added to the type -- (e.g. adding @forall a. Num a =>@ to @(+) :: a -> a -> a@) @@ -426,22 +500,33 @@ data SynifyTypeState -- the defining class gets to quantify all its functions for free! -synifySigType :: SynifyTypeState -> Type -> LHsSigType GhcRn +synifySigType :: SynifyTypeState -> [TyVar] -> Type -> LHsSigType GhcRn -- The empty binders is a bit suspicious; -- what if the type has free variables? -synifySigType s ty = mkEmptyImplicitBndrs (synifyType s ty) +synifySigType s vs ty = mkEmptyImplicitBndrs (synifyType s vs ty) -synifySigWcType :: SynifyTypeState -> Type -> LHsSigWcType GhcRn +synifySigWcType :: SynifyTypeState -> [TyVar] -> Type -> LHsSigWcType GhcRn -- Ditto (see synifySigType) -synifySigWcType s ty = mkEmptyWildCardBndrs (mkEmptyImplicitBndrs (synifyType s ty)) +synifySigWcType s vs ty = mkEmptyWildCardBndrs (mkEmptyImplicitBndrs (synifyType s vs ty)) synifyPatSynSigType :: PatSyn -> LHsSigType GhcRn -- Ditto (see synifySigType) synifyPatSynSigType ps = mkEmptyImplicitBndrs (synifyPatSynType ps) -synifyType :: SynifyTypeState -> Type -> LHsType GhcRn -synifyType _ (TyVarTy tv) = noLoc $ HsTyVar noExt NotPromoted $ noLoc (getName tv) -synifyType _ (TyConApp tc tys) +-- | Depending on the first argument, try to default all type variables of kind +-- 'RuntimeRep' to 'LiftedType'. +defaultType :: PrintRuntimeReps -> Type -> Type +defaultType ShowRuntimeRep = id +defaultType HideRuntimeRep = defaultRuntimeRepVars + +-- | Convert a core type into an 'HsType'. +synifyType + :: SynifyTypeState -- ^ what to do with a 'forall' + -> [TyVar] -- ^ free variables in the type to convert + -> Type -- ^ the type to convert + -> LHsType GhcRn +synifyType _ _ (TyVarTy tv) = noLoc $ HsTyVar noExt NotPromoted $ noLoc (getName tv) +synifyType _ vs (TyConApp tc tys) = maybe_sig res_ty where res_ty :: LHsType GhcRn @@ -459,21 +544,21 @@ synifyType _ (TyConApp tc tys) BoxedTuple -> HsBoxedTuple ConstraintTuple -> HsConstraintTuple UnboxedTuple -> HsUnboxedTuple) - (map (synifyType WithinType) vis_tys) - | isUnboxedSumTyCon tc = noLoc $ HsSumTy noExt (map (synifyType WithinType) vis_tys) + (map (synifyType WithinType vs) vis_tys) + | isUnboxedSumTyCon tc = noLoc $ HsSumTy noExt (map (synifyType WithinType vs) vis_tys) | Just dc <- isPromotedDataCon_maybe tc , isTupleDataCon dc , dataConSourceArity dc == length vis_tys - = noLoc $ HsExplicitTupleTy noExt (map (synifyType WithinType) vis_tys) + = noLoc $ HsExplicitTupleTy noExt (map (synifyType WithinType vs) vis_tys) -- ditto for lists | getName tc == listTyConName, [ty] <- vis_tys = - noLoc $ HsListTy noExt (synifyType WithinType ty) + noLoc $ HsListTy noExt (synifyType WithinType vs ty) | tc == promotedNilDataCon, [] <- vis_tys = noLoc $ HsExplicitListTy noExt IsPromoted [] | tc == promotedConsDataCon , [ty1, ty2] <- vis_tys - = let hTy = synifyType WithinType ty1 - in case synifyType WithinType ty2 of + = let hTy = synifyType WithinType vs ty1 + in case synifyType WithinType vs ty2 of tTy | L _ (HsExplicitListTy _ IsPromoted tTy') <- stripKindSig tTy -> noLoc $ HsExplicitListTy noExt IsPromoted (hTy : tTy') | otherwise @@ -482,21 +567,21 @@ synifyType _ (TyConApp tc tys) | tc `hasKey` ipClassKey , [name, ty] <- tys , Just x <- isStrLitTy name - = noLoc $ HsIParamTy noExt (noLoc $ HsIPName x) (synifyType WithinType ty) + = noLoc $ HsIParamTy noExt (noLoc $ HsIPName x) (synifyType WithinType vs ty) -- and equalities | tc `hasKey` eqTyConKey , [ty1, ty2] <- tys = noLoc $ HsOpTy noExt - (synifyType WithinType ty1) + (synifyType WithinType vs ty1) (noLoc eqTyConName) - (synifyType WithinType ty2) + (synifyType WithinType vs ty2) -- and infix type operators | isSymOcc (nameOccName (getName tc)) , ty1:ty2:tys_rest <- vis_tys = mk_app_tys (HsOpTy noExt - (synifyType WithinType ty1) + (synifyType WithinType vs ty1) (noLoc $ getName tc) - (synifyType WithinType ty2)) + (synifyType WithinType vs ty2)) tys_rest -- Most TyCons: | otherwise @@ -507,7 +592,7 @@ synifyType _ (TyConApp tc tys) mk_app_tys ty_app ty_args = foldl (\t1 t2 -> noLoc $ HsAppTy noExt t1 t2) (noLoc ty_app) - (map (synifyType WithinType) $ + (map (synifyType WithinType vs) $ filterOut isCoercionTy ty_args) vis_tys = filterOutInvisibleTypes tc tys @@ -518,7 +603,7 @@ synifyType _ (TyConApp tc tys) maybe_sig ty' | needs_kind_sig = let full_kind = typeKind (mkTyConApp tc tys) - full_kind' = synifyType WithinType full_kind + full_kind' = synifyType WithinType vs full_kind in noLoc $ HsKindSig noExt ty' full_kind' | otherwise = ty' @@ -536,80 +621,174 @@ synifyType _ (TyConApp tc tys) in not (subVarSet result_vars dropped_vars) -synifyType s (AppTy t1 (CoercionTy {})) = synifyType s t1 -synifyType _ (AppTy t1 t2) = let - s1 = synifyType WithinType t1 - s2 = synifyType WithinType t2 +synifyType s vs (AppTy t1 (CoercionTy {})) = synifyType s vs t1 +synifyType _ vs (AppTy t1 t2) = let + s1 = synifyType WithinType vs t1 + s2 = synifyType WithinType vs t2 in noLoc $ HsAppTy noExt s1 s2 -synifyType _ (FunTy t1 t2) = let - s1 = synifyType WithinType t1 - s2 = synifyType WithinType t2 - in noLoc $ HsFunTy noExt s1 s2 -synifyType s forallty@(ForAllTy _tv _ty) = - let (tvs, ctx, tau) = tcSplitSigmaTyPreserveSynonyms forallty +synifyType s vs funty@(FunTy t1 t2) + | isPredTy t1 = synifyForAllType s vs funty + | otherwise = let s1 = synifyType WithinType vs t1 + s2 = synifyType WithinType vs t2 + in noLoc $ HsFunTy noExt s1 s2 +synifyType s vs forallty@(ForAllTy _tv _ty) = synifyForAllType s vs forallty + +synifyType _ _ (LitTy t) = noLoc $ HsTyLit noExt $ synifyTyLit t +synifyType s vs (CastTy t _) = synifyType s vs t +synifyType _ _ (CoercionTy {}) = error "synifyType:Coercion" + +-- | Process a 'Type' which starts with a forall or a constraint into +-- an 'HsType' +synifyForAllType + :: SynifyTypeState -- ^ what to do with the 'forall' + -> [TyVar] -- ^ free variables in the type to convert + -> Type -- ^ the forall type to convert + -> LHsType GhcRn +synifyForAllType s vs ty = + let (tvs, ctx, tau) = tcSplitSigmaTyPreserveSynonyms ty sPhi = HsQualTy { hst_ctxt = synifyCtx ctx - , hst_xqual = noExt - , hst_body = synifyType WithinType tau } + , hst_xqual = noExt + , hst_body = synifyType WithinType (tvs' ++ vs) tau } + + sTy = HsForAllTy { hst_bndrs = sTvs + , hst_xforall = noExt + , hst_body = noLoc sPhi } + + sTvs = map synifyTyVar tvs + + -- Figure out what the type variable order would be inferred in the + -- absence of an explicit forall + tvs' = orderedFVs (mkVarSet vs) (ctx ++ [tau]) + in case s of - DeleteTopLevelQuantification -> synifyType ImplicitizeForAll tau - WithinType -> noLoc $ HsForAllTy { hst_bndrs = map synifyTyVar tvs - , hst_xforall = noExt - , hst_body = noLoc sPhi } - ImplicitizeForAll -> noLoc sPhi + DeleteTopLevelQuantification -> synifyType ImplicitizeForAll (tvs' ++ vs) tau + + -- Put a forall in if there are any type variables + WithinType + | not (null tvs) -> noLoc sTy + | otherwise -> noLoc sPhi + + ImplicitizeForAll -> implicitForAll [] vs tvs ctx (synifyType WithinType) tau + + +-- | Put a forall in if there are any type variables which require +-- explicit kind annotations or if the inferred type variable order +-- would be different. +implicitForAll + :: [TyCon] -- ^ type constructors that determine their args kinds + -> [TyVar] -- ^ free variables in the type to convert + -> [TyVar] -- ^ type variable binders in the forall + -> ThetaType -- ^ constraints right after the forall + -> ([TyVar] -> Type -> LHsType GhcRn) -- ^ how to convert the inner type + -> Type -- ^ inner type + -> LHsType GhcRn +implicitForAll tycons vs tvs ctx synInner tau + | any (isHsKindedTyVar . unLoc) sTvs = noLoc sTy + | tvs' /= tvs = noLoc sTy + | otherwise = noLoc sPhi + where + sRho = synInner (tvs' ++ vs) tau + sPhi | null ctx = unLoc sRho + | otherwise + = HsQualTy { hst_ctxt = synifyCtx ctx + , hst_xqual = noExt + , hst_body = synInner (tvs' ++ vs) tau } + sTy = HsForAllTy { hst_bndrs = sTvs + , hst_xforall = noExt + , hst_body = noLoc sPhi } + + no_kinds_needed = noKindTyVars tycons tau + sTvs = map (synifyTyVar' no_kinds_needed) tvs + + -- Figure out what the type variable order would be inferred in the + -- absence of an explicit forall + tvs' = orderedFVs (mkVarSet vs) (ctx ++ [tau]) -synifyType _ (LitTy t) = noLoc $ HsTyLit noExt $ synifyTyLit t -synifyType s (CastTy t _) = synifyType s t -synifyType _ (CoercionTy {}) = error "synifyType:Coercion" + + +-- | Find the set of type variables whose kind signatures can be properly +-- inferred just from their uses in the type signature. This means the type +-- variable to has at least one fully applied use @f x1 x2 ... xn@ where: +-- +-- * @f@ has a function kind where the arguments have the same kinds +-- as @x1 x2 ... xn@. +-- +-- * @f@ has a function kind whose final return has lifted type kind +-- +noKindTyVars + :: [TyCon] -- ^ type constructors that determine their args kinds + -> Type -- ^ type to inspect + -> VarSet -- ^ set of variables whose kinds can be inferred from uses in the type +noKindTyVars _ (TyVarTy var) + | isLiftedTypeKind (tyVarKind var) = unitVarSet var +noKindTyVars ts ty + | (f, xs) <- splitAppTys ty + , not (null xs) + = let args = map (noKindTyVars ts) xs + func = case f of + TyVarTy var | (xsKinds, outKind) <- splitFunTys (tyVarKind var) + , xsKinds `eqTypes` map typeKind xs + , isLiftedTypeKind outKind + -> unitVarSet var + TyConApp t ks | t `elem` ts + , all noFreeVarsOfType ks + -> mkVarSet [ v | TyVarTy v <- xs ] + _ -> noKindTyVars ts f + in unionVarSets (func : args) +noKindTyVars ts (ForAllTy _ t) = noKindTyVars ts t +noKindTyVars ts (FunTy t1 t2) = noKindTyVars ts t1 `unionVarSet` noKindTyVars ts t2 +noKindTyVars ts (CastTy t _) = noKindTyVars ts t +noKindTyVars _ _ = emptyVarSet synifyPatSynType :: PatSyn -> LHsType GhcRn -synifyPatSynType ps = let - (univ_tvs, req_theta, ex_tvs, prov_theta, arg_tys, res_ty) = patSynSig ps - req_theta' | null req_theta && not (null prov_theta && null ex_tvs) = [unitTy] - -- HACK: a HsQualTy with theta = [unitTy] will be printed as "() =>", - -- i.e., an explicit empty context, which is what we need. This is not - -- possible by taking theta = [], as that will print no context at all - | otherwise = req_theta - sForAll [] s = s - sForAll tvs s = HsForAllTy { hst_bndrs = map synifyTyVar tvs - , hst_xforall = noExt - , hst_body = noLoc s } - sQual theta s = HsQualTy { hst_ctxt = synifyCtx theta - , hst_xqual = noExt - , hst_body = noLoc s } - sTau = unLoc $ synifyType WithinType $ mkFunTys arg_tys res_ty - in noLoc $ sForAll univ_tvs $ sQual req_theta' $ sForAll ex_tvs $ sQual prov_theta sTau +synifyPatSynType ps = + let (univ_tvs, req_theta, ex_tvs, prov_theta, arg_tys, res_ty) = patSynSig ps + ts = maybeToList (tyConAppTyCon_maybe res_ty) + + -- HACK: a HsQualTy with theta = [unitTy] will be printed as "() =>", + -- i.e., an explicit empty context, which is what we need. This is not + -- possible by taking theta = [], as that will print no context at all + req_theta' | null req_theta + , not (null prov_theta && null ex_tvs) + = [unitTy] + | otherwise = req_theta + + in implicitForAll ts [] (univ_tvs ++ ex_tvs) req_theta' + (\vs -> implicitForAll ts vs [] prov_theta (synifyType WithinType)) + (mkFunTys arg_tys res_ty) synifyTyLit :: TyLit -> HsTyLit synifyTyLit (NumTyLit n) = HsNumTy NoSourceText n synifyTyLit (StrTyLit s) = HsStrTy NoSourceText s synifyKindSig :: Kind -> LHsKind GhcRn -synifyKindSig k = synifyType WithinType k +synifyKindSig k = synifyType WithinType [] k stripKindSig :: LHsType GhcRn -> LHsType GhcRn stripKindSig (L _ (HsKindSig _ t _)) = t stripKindSig t = t synifyInstHead :: ([TyVar], [PredType], Class, [Type]) -> InstHead GhcRn -synifyInstHead (_, preds, cls, types) = specializeInstHead $ InstHead +synifyInstHead (vs, preds, cls, types) = specializeInstHead $ InstHead { ihdClsName = getName cls , ihdTypes = map unLoc annot_ts , ihdInstType = ClassInst - { clsiCtx = map (unLoc . synifyType WithinType) preds + { clsiCtx = map (unLoc . synifyType WithinType []) preds , clsiTyVars = synifyTyVars (tyConVisibleTyVars cls_tycon) , clsiSigs = map synifyClsIdSig $ classMethods cls , clsiAssocTys = do - (Right (FamDecl _ fam)) <- map (synifyTyCon Nothing) $ classATs cls + (Right (FamDecl _ fam)) <- map (synifyTyCon HideRuntimeRep Nothing) + (classATs cls) pure $ mkPseudoFamilyDecl fam } } where cls_tycon = classTyCon cls ts = filterOutInvisibleTypes cls_tycon types - ts' = map (synifyType WithinType) ts + ts' = map (synifyType WithinType vs) ts annot_ts = zipWith3 annotHsType is_poly_tvs ts ts' is_poly_tvs = mkIsPolyTvs (tyConVisibleTyVars cls_tycon) - synifyClsIdSig = synifyIdSig DeleteTopLevelQuantification + synifyClsIdSig = synifyIdSig ShowRuntimeRep DeleteTopLevelQuantification vs -- Convert a family instance, this could be a type family or data family synifyFamInst :: FamInst -> Bool -> Either ErrMsg (InstHead GhcRn) @@ -623,9 +802,9 @@ synifyFamInst fi opaque = do where ityp SynFamilyInst | opaque = return $ TypeInst Nothing ityp SynFamilyInst = - return . TypeInst . Just . unLoc $ synifyType WithinType fam_rhs + return . TypeInst . Just . unLoc $ synifyType WithinType [] fam_rhs ityp (DataFamilyInst c) = - DataInst <$> synifyTyCon (Just $ famInstAxiom fi) c + DataInst <$> synifyTyCon HideRuntimeRep (Just $ famInstAxiom fi) c fam_tc = famInstTyCon fi fam_flavor = fi_flavor fi fam_lhs = fi_tys fi @@ -645,7 +824,7 @@ synifyFamInst fi opaque = do = fam_lhs ts = filterOutInvisibleTypes fam_tc eta_expanded_lhs - synifyTypes = map (synifyType WithinType) + synifyTypes = map (synifyType WithinType []) ts' = synifyTypes ts annot_ts = zipWith3 annotHsType is_poly_tvs ts ts' is_poly_tvs = mkIsPolyTvs (tyConVisibleTyVars fam_tc) diff --git a/haddock-api/src/Haddock/GhcUtils.hs b/haddock-api/src/Haddock/GhcUtils.hs index a342de00..58cdd860 100644 --- a/haddock-api/src/Haddock/GhcUtils.hs +++ b/haddock-api/src/Haddock/GhcUtils.hs @@ -1,4 +1,4 @@ -{-# LANGUAGE BangPatterns, FlexibleInstances, ViewPatterns #-} +{-# LANGUAGE BangPatterns, StandaloneDeriving, FlexibleInstances, ViewPatterns #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE FlexibleContexts #-} {-# OPTIONS_GHC -fno-warn-orphans #-} @@ -24,6 +24,7 @@ import Data.Char ( isSpace ) import Haddock.Types( DocNameI ) import Exception +import FV import Outputable ( Outputable, panic, showPpr ) import Name import NameSet @@ -33,6 +34,12 @@ import GHC import Class import DynFlags import SrcLoc ( advanceSrcLoc ) +import Var ( VarBndr(..), TyVarBinder, tyVarKind, updateTyVarKind, + isInvisibleArgFlag ) +import VarSet ( VarSet, emptyVarSet ) +import VarEnv ( TyVarEnv, extendVarEnv, elemVarEnv, emptyVarEnv ) +import TyCoRep ( Type(..), isRuntimeRepVar ) +import TysWiredIn( liftedRepDataConTyCon ) import StringBuffer ( StringBuffer ) import qualified StringBuffer as S @@ -549,3 +556,104 @@ tryCppLine !loc !buf = spanSpace (S.prevChar buf '\n' == '\n') loc buf (c , b') -> spanCppLine (advanceSrcLoc l c) b' +------------------------------------------------------------------------------- +-- * Free variables of a 'Type' +------------------------------------------------------------------------------- + +-- | Get free type variables in a 'Type' in their order of appearance. +-- See [Ordering of implicit variables]. +orderedFVs + :: VarSet -- ^ free variables to ignore + -> [Type] -- ^ types to traverse (in order) looking for free variables + -> [TyVar] -- ^ free type variables, in the order they appear in +orderedFVs vs tys = + reverse . fst $ tyCoFVsOfTypes' tys (const True) vs ([], emptyVarSet) + + +-- See the "Free variables of types and coercions" section in 'TyCoRep', or +-- check out Note [Free variables of types]. The functions in this section +-- don't output type variables in the order they first appear in in the 'Type'. +-- +-- For example, 'tyCoVarsOfTypeList' reports an incorrect order for the type +-- of 'const :: a -> b -> a': +-- +-- >>> import Name +-- >>> import TyCoRep +-- >>> import TysPrim +-- >>> import Var +-- >>> a = TyVarTy alphaTyVar +-- >>> b = TyVarTy betaTyVar +-- >>> constTy = mkFunTys [a, b] a +-- >>> map (getOccString . tyVarName) (tyCoVarsOfTypeList constTy) +-- ["b","a"] +-- +-- However, we want to reuse the very optimized traversal machinery there, so +-- so we make our own `tyCoFVsOfType'`, `tyCoFVsBndr'`, and `tyCoVarsOfTypes'`. +-- All these do differently is traverse in a different order and ignore +-- coercion variables. + +-- | Just like 'tyCoFVsOfType', but traverses type variables in reverse order +-- of appearance. +tyCoFVsOfType' :: Type -> FV +tyCoFVsOfType' (TyVarTy v) a b c = (FV.unitFV v `unionFV` tyCoFVsOfType' (tyVarKind v)) a b c +tyCoFVsOfType' (TyConApp _ tys) a b c = tyCoFVsOfTypes' tys a b c +tyCoFVsOfType' (LitTy {}) a b c = emptyFV a b c +tyCoFVsOfType' (AppTy fun arg) a b c = (tyCoFVsOfType' arg `unionFV` tyCoFVsOfType' fun) a b c +tyCoFVsOfType' (FunTy arg res) a b c = (tyCoFVsOfType' res `unionFV` tyCoFVsOfType' arg) a b c +tyCoFVsOfType' (ForAllTy bndr ty) a b c = tyCoFVsBndr' bndr (tyCoFVsOfType' ty) a b c +tyCoFVsOfType' (CastTy ty _) a b c = (tyCoFVsOfType' ty) a b c +tyCoFVsOfType' (CoercionTy _ ) a b c = emptyFV a b c + +-- | Just like 'tyCoFVsOfTypes', but traverses type variables in reverse order +-- of appearance. +tyCoFVsOfTypes' :: [Type] -> FV +tyCoFVsOfTypes' (ty:tys) fv_cand in_scope acc = (tyCoFVsOfTypes' tys `unionFV` tyCoFVsOfType' ty) fv_cand in_scope acc +tyCoFVsOfTypes' [] fv_cand in_scope acc = emptyFV fv_cand in_scope acc + +-- | Just like 'tyCoFVsBndr', but traverses type variables in reverse order of +-- appearance. +tyCoFVsBndr' :: TyVarBinder -> FV -> FV +tyCoFVsBndr' (Bndr tv _) fvs = FV.delFV tv fvs `unionFV` tyCoFVsOfType' (tyVarKind tv) + + +------------------------------------------------------------------------------- +-- * Defaulting RuntimeRep variables +------------------------------------------------------------------------------- + +-- | Traverses the type, defaulting type variables of kind 'RuntimeRep' to +-- 'LiftedType'. See 'defaultRuntimeRepVars' in IfaceType.hs the original such +-- function working over `IfaceType`'s. +defaultRuntimeRepVars :: Type -> Type +defaultRuntimeRepVars = go emptyVarEnv + where + go :: TyVarEnv () -> Type -> Type + go subs (ForAllTy (Bndr var flg) ty) + | isRuntimeRepVar var + , isInvisibleArgFlag flg + = let subs' = extendVarEnv subs var () + in go subs' ty + | otherwise + = ForAllTy (Bndr (updateTyVarKind (go subs) var) flg) + (go subs ty) + + go subs (TyVarTy tv) + | tv `elemVarEnv` subs + = TyConApp liftedRepDataConTyCon [] + | otherwise + = TyVarTy (updateTyVarKind (go subs) tv) + + go subs (TyConApp tc tc_args) + = TyConApp tc (map (go subs) tc_args) + + go subs (FunTy arg res) + = FunTy (go subs arg) (go subs res) + + go subs (AppTy t u) + = AppTy (go subs t) (go subs u) + + go subs (CastTy x co) + = CastTy (go subs x) co + + go _ ty@(LitTy {}) = ty + go _ ty@(CoercionTy {}) = ty + diff --git a/haddock-api/src/Haddock/Interface/Create.hs b/haddock-api/src/Haddock/Interface/Create.hs index 36cfeaca..95245cb2 100644 --- a/haddock-api/src/Haddock/Interface/Create.hs +++ b/haddock-api/src/Haddock/Interface/Create.hs @@ -891,7 +891,7 @@ hiDecl dflags t = do Nothing -> do liftErrMsg $ tell ["Warning: Not found in environment: " ++ pretty dflags t] return Nothing - Just x -> case tyThingToLHsDecl x of + Just x -> case tyThingToLHsDecl ShowRuntimeRep x of Left m -> liftErrMsg (tell [bugWarn m]) >> return Nothing Right (m, t') -> liftErrMsg (tell $ map bugWarn m) >> return (Just $ noLoc t') |