{-# LANGUAGE DeriveDataTypeable, DeriveFunctor, DeriveFoldable,
DeriveTraversable #-}
{-# LANGUAGE StandaloneDeriving #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE UndecidableInstances #-}
{-# LANGUAGE ConstraintKinds #-}
{-# LANGUAGE FlexibleInstances #-}
module HsDecls (
HsDecl(..), LHsDecl, HsDataDefn(..), HsDeriving,
HsDerivingClause(..), LHsDerivingClause,
TyClDecl(..), LTyClDecl,
TyClGroup(..), mkTyClGroup, emptyTyClGroup,
tyClGroupTyClDecls, tyClGroupInstDecls, tyClGroupRoleDecls,
isClassDecl, isDataDecl, isSynDecl, tcdName,
isFamilyDecl, isTypeFamilyDecl, isDataFamilyDecl,
isOpenTypeFamilyInfo, isClosedTypeFamilyInfo,
tyFamInstDeclName, tyFamInstDeclLName,
countTyClDecls, pprTyClDeclFlavour,
tyClDeclLName, tyClDeclTyVars,
hsDeclHasCusk, famDeclHasCusk,
FamilyDecl(..), LFamilyDecl,
InstDecl(..), LInstDecl, NewOrData(..), FamilyInfo(..),
TyFamInstDecl(..), LTyFamInstDecl, instDeclDataFamInsts,
DataFamInstDecl(..), LDataFamInstDecl, pprDataFamInstFlavour,
TyFamEqn(..), TyFamInstEqn, LTyFamInstEqn, TyFamDefltEqn, LTyFamDefltEqn,
HsTyPats,
LClsInstDecl, ClsInstDecl(..),
DerivDecl(..), LDerivDecl,
LRuleDecls,RuleDecls(..),RuleDecl(..), LRuleDecl, RuleBndr(..),LRuleBndr,
collectRuleBndrSigTys,
flattenRuleDecls, pprFullRuleName,
VectDecl(..), LVectDecl,
lvectDeclName, lvectInstDecl,
DefaultDecl(..), LDefaultDecl,
SpliceExplicitFlag(..),
SpliceDecl(..), LSpliceDecl,
ForeignDecl(..), LForeignDecl, ForeignImport(..), ForeignExport(..),
noForeignImportCoercionYet, noForeignExportCoercionYet,
CImportSpec(..),
ConDecl(..), LConDecl,
HsConDeclDetails, hsConDeclArgTys,
getConNames,
getConDetails,
gadtDeclDetails,
DocDecl(..), LDocDecl, docDeclDoc,
WarnDecl(..), LWarnDecl,
WarnDecls(..), LWarnDecls,
AnnDecl(..), LAnnDecl,
AnnProvenance(..), annProvenanceName_maybe,
RoleAnnotDecl(..), LRoleAnnotDecl, roleAnnotDeclName,
FamilyResultSig(..), LFamilyResultSig, InjectivityAnn(..), LInjectivityAnn,
resultVariableName,
HsGroup(..), emptyRdrGroup, emptyRnGroup, appendGroups, hsGroupInstDecls
) where
import {-# SOURCE #-} HsExpr( LHsExpr, HsExpr, HsSplice, pprExpr,
pprSpliceDecl )
import HsBinds
import HsTypes
import HsDoc
import TyCon
import Name
import BasicTypes
import Coercion
import ForeignCall
import PlaceHolder ( PostTc,PostRn,PlaceHolder(..),DataId, OutputableBndrId )
import NameSet
import InstEnv
import Class
import Outputable
import Util
import SrcLoc
import Bag
import Maybes
import Data.Data hiding (TyCon,Fixity, Infix)
type LHsDecl id = Located (HsDecl id)
data HsDecl id
= TyClD (TyClDecl id)
| InstD (InstDecl id)
| DerivD (DerivDecl id)
| ValD (HsBind id)
| SigD (Sig id)
| DefD (DefaultDecl id)
| ForD (ForeignDecl id)
| WarningD (WarnDecls id)
| AnnD (AnnDecl id)
| RuleD (RuleDecls id)
| VectD (VectDecl id)
| SpliceD (SpliceDecl id)
| DocD (DocDecl)
| RoleAnnotD (RoleAnnotDecl id)
deriving instance (DataId id) => Data (HsDecl id)
data HsGroup id
= HsGroup {
hs_valds :: HsValBinds id,
hs_splcds :: [LSpliceDecl id],
hs_tyclds :: [TyClGroup id],
hs_derivds :: [LDerivDecl id],
hs_fixds :: [LFixitySig id],
hs_defds :: [LDefaultDecl id],
hs_fords :: [LForeignDecl id],
hs_warnds :: [LWarnDecls id],
hs_annds :: [LAnnDecl id],
hs_ruleds :: [LRuleDecls id],
hs_vects :: [LVectDecl id],
hs_docs :: [LDocDecl]
}
deriving instance (DataId id) => Data (HsGroup id)
emptyGroup, emptyRdrGroup, emptyRnGroup :: HsGroup a
emptyRdrGroup = emptyGroup { hs_valds = emptyValBindsIn }
emptyRnGroup = emptyGroup { hs_valds = emptyValBindsOut }
hsGroupInstDecls :: HsGroup id -> [LInstDecl id]
hsGroupInstDecls = (=<<) group_instds . hs_tyclds
emptyGroup = HsGroup { hs_tyclds = [],
hs_derivds = [],
hs_fixds = [], hs_defds = [], hs_annds = [],
hs_fords = [], hs_warnds = [], hs_ruleds = [], hs_vects = [],
hs_valds = error "emptyGroup hs_valds: Can't happen",
hs_splcds = [],
hs_docs = [] }
appendGroups :: HsGroup a -> HsGroup a -> HsGroup a
appendGroups
HsGroup {
hs_valds = val_groups1,
hs_splcds = spliceds1,
hs_tyclds = tyclds1,
hs_derivds = derivds1,
hs_fixds = fixds1,
hs_defds = defds1,
hs_annds = annds1,
hs_fords = fords1,
hs_warnds = warnds1,
hs_ruleds = rulds1,
hs_vects = vects1,
hs_docs = docs1 }
HsGroup {
hs_valds = val_groups2,
hs_splcds = spliceds2,
hs_tyclds = tyclds2,
hs_derivds = derivds2,
hs_fixds = fixds2,
hs_defds = defds2,
hs_annds = annds2,
hs_fords = fords2,
hs_warnds = warnds2,
hs_ruleds = rulds2,
hs_vects = vects2,
hs_docs = docs2 }
=
HsGroup {
hs_valds = val_groups1 `plusHsValBinds` val_groups2,
hs_splcds = spliceds1 ++ spliceds2,
hs_tyclds = tyclds1 ++ tyclds2,
hs_derivds = derivds1 ++ derivds2,
hs_fixds = fixds1 ++ fixds2,
hs_annds = annds1 ++ annds2,
hs_defds = defds1 ++ defds2,
hs_fords = fords1 ++ fords2,
hs_warnds = warnds1 ++ warnds2,
hs_ruleds = rulds1 ++ rulds2,
hs_vects = vects1 ++ vects2,
hs_docs = docs1 ++ docs2 }
instance (OutputableBndrId name) => Outputable (HsDecl name) where
ppr (TyClD dcl) = ppr dcl
ppr (ValD binds) = ppr binds
ppr (DefD def) = ppr def
ppr (InstD inst) = ppr inst
ppr (DerivD deriv) = ppr deriv
ppr (ForD fd) = ppr fd
ppr (SigD sd) = ppr sd
ppr (RuleD rd) = ppr rd
ppr (VectD vect) = ppr vect
ppr (WarningD wd) = ppr wd
ppr (AnnD ad) = ppr ad
ppr (SpliceD dd) = ppr dd
ppr (DocD doc) = ppr doc
ppr (RoleAnnotD ra) = ppr ra
instance (OutputableBndrId name) => Outputable (HsGroup name) where
ppr (HsGroup { hs_valds = val_decls,
hs_tyclds = tycl_decls,
hs_derivds = deriv_decls,
hs_fixds = fix_decls,
hs_warnds = deprec_decls,
hs_annds = ann_decls,
hs_fords = foreign_decls,
hs_defds = default_decls,
hs_ruleds = rule_decls,
hs_vects = vect_decls })
= vcat_mb empty
[ppr_ds fix_decls, ppr_ds default_decls,
ppr_ds deprec_decls, ppr_ds ann_decls,
ppr_ds rule_decls,
ppr_ds vect_decls,
if isEmptyValBinds val_decls
then Nothing
else Just (ppr val_decls),
ppr_ds (tyClGroupTyClDecls tycl_decls),
ppr_ds (tyClGroupInstDecls tycl_decls),
ppr_ds deriv_decls,
ppr_ds foreign_decls]
where
ppr_ds :: Outputable a => [a] -> Maybe SDoc
ppr_ds [] = Nothing
ppr_ds ds = Just (vcat (map ppr ds))
vcat_mb :: SDoc -> [Maybe SDoc] -> SDoc
vcat_mb _ [] = empty
vcat_mb gap (Nothing : ds) = vcat_mb gap ds
vcat_mb gap (Just d : ds) = gap $$ d $$ vcat_mb blankLine ds
type LSpliceDecl name = Located (SpliceDecl name)
data SpliceDecl id
= SpliceDecl
(Located (HsSplice id))
SpliceExplicitFlag
deriving instance (DataId id) => Data (SpliceDecl id)
instance (OutputableBndrId name) => Outputable (SpliceDecl name) where
ppr (SpliceDecl (L _ e) f) = pprSpliceDecl e f
type LTyClDecl name = Located (TyClDecl name)
data TyClDecl name
=
FamDecl { tcdFam :: FamilyDecl name }
|
SynDecl { tcdLName :: Located name
, tcdTyVars :: LHsQTyVars name
, tcdFixity :: LexicalFixity
, tcdRhs :: LHsType name
, tcdFVs :: PostRn name NameSet }
|
DataDecl { tcdLName :: Located name
, tcdTyVars :: LHsQTyVars name
, tcdFixity :: LexicalFixity
, tcdDataDefn :: HsDataDefn name
, tcdDataCusk :: PostRn name Bool
, tcdFVs :: PostRn name NameSet }
| ClassDecl { tcdCtxt :: LHsContext name,
tcdLName :: Located name,
tcdTyVars :: LHsQTyVars name,
tcdFixity :: LexicalFixity,
tcdFDs :: [Located (FunDep (Located name))],
tcdSigs :: [LSig name],
tcdMeths :: LHsBinds name,
tcdATs :: [LFamilyDecl name],
tcdATDefs :: [LTyFamDefltEqn name],
tcdDocs :: [LDocDecl],
tcdFVs :: PostRn name NameSet
}
deriving instance (DataId id) => Data (TyClDecl id)
isDataDecl :: TyClDecl name -> Bool
isDataDecl (DataDecl {}) = True
isDataDecl _other = False
isSynDecl :: TyClDecl name -> Bool
isSynDecl (SynDecl {}) = True
isSynDecl _other = False
isClassDecl :: TyClDecl name -> Bool
isClassDecl (ClassDecl {}) = True
isClassDecl _ = False
isFamilyDecl :: TyClDecl name -> Bool
isFamilyDecl (FamDecl {}) = True
isFamilyDecl _other = False
isTypeFamilyDecl :: TyClDecl name -> Bool
isTypeFamilyDecl (FamDecl (FamilyDecl { fdInfo = info })) = case info of
OpenTypeFamily -> True
ClosedTypeFamily {} -> True
_ -> False
isTypeFamilyDecl _ = False
isOpenTypeFamilyInfo :: FamilyInfo name -> Bool
isOpenTypeFamilyInfo OpenTypeFamily = True
isOpenTypeFamilyInfo _ = False
isClosedTypeFamilyInfo :: FamilyInfo name -> Bool
isClosedTypeFamilyInfo (ClosedTypeFamily {}) = True
isClosedTypeFamilyInfo _ = False
isDataFamilyDecl :: TyClDecl name -> Bool
isDataFamilyDecl (FamDecl (FamilyDecl { fdInfo = DataFamily })) = True
isDataFamilyDecl _other = False
tyFamInstDeclName :: TyFamInstDecl name -> name
tyFamInstDeclName = unLoc . tyFamInstDeclLName
tyFamInstDeclLName :: TyFamInstDecl name -> Located name
tyFamInstDeclLName (TyFamInstDecl { tfid_eqn =
(L _ (TyFamEqn { tfe_tycon = ln })) })
= ln
tyClDeclLName :: TyClDecl name -> Located name
tyClDeclLName (FamDecl { tcdFam = FamilyDecl { fdLName = ln } }) = ln
tyClDeclLName decl = tcdLName decl
tcdName :: TyClDecl name -> name
tcdName = unLoc . tyClDeclLName
tyClDeclTyVars :: TyClDecl name -> LHsQTyVars name
tyClDeclTyVars (FamDecl { tcdFam = FamilyDecl { fdTyVars = tvs } }) = tvs
tyClDeclTyVars d = tcdTyVars d
countTyClDecls :: [TyClDecl name] -> (Int, Int, Int, Int, Int)
countTyClDecls decls
= (count isClassDecl decls,
count isSynDecl decls,
count isDataTy decls,
count isNewTy decls,
count isFamilyDecl decls)
where
isDataTy DataDecl{ tcdDataDefn = HsDataDefn { dd_ND = DataType } } = True
isDataTy _ = False
isNewTy DataDecl{ tcdDataDefn = HsDataDefn { dd_ND = NewType } } = True
isNewTy _ = False
hsDeclHasCusk :: TyClDecl Name -> Bool
hsDeclHasCusk (FamDecl { tcdFam = fam_decl }) = famDeclHasCusk Nothing fam_decl
hsDeclHasCusk (SynDecl { tcdTyVars = tyvars, tcdRhs = rhs })
= hsTvbAllKinded tyvars && rhs_annotated rhs
where
rhs_annotated (L _ ty) = case ty of
HsParTy lty -> rhs_annotated lty
HsKindSig {} -> True
_ -> False
hsDeclHasCusk (DataDecl { tcdDataCusk = cusk }) = cusk
hsDeclHasCusk (ClassDecl { tcdTyVars = tyvars }) = hsTvbAllKinded tyvars
instance (OutputableBndrId name) => Outputable (TyClDecl name) where
ppr (FamDecl { tcdFam = decl }) = ppr decl
ppr (SynDecl { tcdLName = ltycon, tcdTyVars = tyvars, tcdFixity = fixity
, tcdRhs = rhs })
= hang (text "type" <+>
pp_vanilla_decl_head ltycon tyvars fixity [] <+> equals)
4 (ppr rhs)
ppr (DataDecl { tcdLName = ltycon, tcdTyVars = tyvars, tcdFixity = fixity
, tcdDataDefn = defn })
= pp_data_defn (pp_vanilla_decl_head ltycon tyvars fixity) defn
ppr (ClassDecl {tcdCtxt = context, tcdLName = lclas, tcdTyVars = tyvars,
tcdFixity = fixity,
tcdFDs = fds,
tcdSigs = sigs, tcdMeths = methods,
tcdATs = ats, tcdATDefs = at_defs})
| null sigs && isEmptyBag methods && null ats && null at_defs
= top_matter
| otherwise
= vcat [ top_matter <+> text "where"
, nest 2 $ pprDeclList (map (pprFamilyDecl NotTopLevel . unLoc) ats ++
map ppr_fam_deflt_eqn at_defs ++
pprLHsBindsForUser methods sigs) ]
where
top_matter = text "class"
<+> pp_vanilla_decl_head lclas tyvars fixity (unLoc context)
<+> pprFundeps (map unLoc fds)
instance (OutputableBndrId name) => Outputable (TyClGroup name) where
ppr (TyClGroup { group_tyclds = tyclds
, group_roles = roles
, group_instds = instds
}
)
= ppr tyclds $$
ppr roles $$
ppr instds
pp_vanilla_decl_head :: (OutputableBndrId name) => Located name
-> LHsQTyVars name
-> LexicalFixity
-> HsContext name
-> SDoc
pp_vanilla_decl_head thing (HsQTvs { hsq_explicit = tyvars }) fixity context
= hsep [pprHsContext context, pp_tyvars tyvars]
where
pp_tyvars (varl:varsr)
| fixity == Infix
= hsep [ppr (unLoc varl), pprInfixOcc (unLoc thing)
, hsep (map (ppr.unLoc) varsr)]
| otherwise = hsep [ pprPrefixOcc (unLoc thing)
, hsep (map (ppr.unLoc) (varl:varsr))]
pp_tyvars [] = ppr thing
pprTyClDeclFlavour :: TyClDecl a -> SDoc
pprTyClDeclFlavour (ClassDecl {}) = text "class"
pprTyClDeclFlavour (SynDecl {}) = text "type"
pprTyClDeclFlavour (FamDecl { tcdFam = FamilyDecl { fdInfo = info }})
= pprFlavour info <+> text "family"
pprTyClDeclFlavour (DataDecl { tcdDataDefn = HsDataDefn { dd_ND = nd } })
= ppr nd
data TyClGroup name
= TyClGroup { group_tyclds :: [LTyClDecl name]
, group_roles :: [LRoleAnnotDecl name]
, group_instds :: [LInstDecl name] }
deriving instance (DataId id) => Data (TyClGroup id)
emptyTyClGroup :: TyClGroup name
emptyTyClGroup = TyClGroup [] [] []
tyClGroupTyClDecls :: [TyClGroup name] -> [LTyClDecl name]
tyClGroupTyClDecls = concatMap group_tyclds
tyClGroupInstDecls :: [TyClGroup name] -> [LInstDecl name]
tyClGroupInstDecls = concatMap group_instds
tyClGroupRoleDecls :: [TyClGroup name] -> [LRoleAnnotDecl name]
tyClGroupRoleDecls = concatMap group_roles
mkTyClGroup :: [LTyClDecl name] -> [LInstDecl name] -> TyClGroup name
mkTyClGroup decls instds = TyClGroup
{ group_tyclds = decls
, group_roles = []
, group_instds = instds
}
type LFamilyResultSig name = Located (FamilyResultSig name)
data FamilyResultSig name =
NoSig
| KindSig (LHsKind name)
| TyVarSig (LHsTyVarBndr name)
deriving instance (DataId name) => Data (FamilyResultSig name)
type LFamilyDecl name = Located (FamilyDecl name)
data FamilyDecl name = FamilyDecl
{ fdInfo :: FamilyInfo name
, fdLName :: Located name
, fdTyVars :: LHsQTyVars name
, fdFixity :: LexicalFixity
, fdResultSig :: LFamilyResultSig name
, fdInjectivityAnn :: Maybe (LInjectivityAnn name)
}
deriving instance (DataId id) => Data (FamilyDecl id)
type LInjectivityAnn name = Located (InjectivityAnn name)
data InjectivityAnn name
= InjectivityAnn (Located name) [Located name]
deriving Data
data FamilyInfo name
= DataFamily
| OpenTypeFamily
| ClosedTypeFamily (Maybe [LTyFamInstEqn name])
deriving instance (DataId name) => Data (FamilyInfo name)
famDeclHasCusk :: Maybe Bool
-> FamilyDecl name -> Bool
famDeclHasCusk _ (FamilyDecl { fdInfo = ClosedTypeFamily _
, fdTyVars = tyvars
, fdResultSig = L _ resultSig })
= hsTvbAllKinded tyvars && hasReturnKindSignature resultSig
famDeclHasCusk mb_class_cusk _ = mb_class_cusk `orElse` True
hasReturnKindSignature :: FamilyResultSig a -> Bool
hasReturnKindSignature NoSig = False
hasReturnKindSignature (TyVarSig (L _ (UserTyVar _))) = False
hasReturnKindSignature _ = True
resultVariableName :: FamilyResultSig a -> Maybe a
resultVariableName (TyVarSig sig) = Just $ hsLTyVarName sig
resultVariableName _ = Nothing
instance (OutputableBndrId name) => Outputable (FamilyDecl name) where
ppr = pprFamilyDecl TopLevel
pprFamilyDecl :: (OutputableBndrId name)
=> TopLevelFlag -> FamilyDecl name -> SDoc
pprFamilyDecl top_level (FamilyDecl { fdInfo = info, fdLName = ltycon
, fdTyVars = tyvars
, fdFixity = fixity
, fdResultSig = L _ result
, fdInjectivityAnn = mb_inj })
= vcat [ pprFlavour info <+> pp_top_level <+>
pp_vanilla_decl_head ltycon tyvars fixity [] <+>
pp_kind <+> pp_inj <+> pp_where
, nest 2 $ pp_eqns ]
where
pp_top_level = case top_level of
TopLevel -> text "family"
NotTopLevel -> empty
pp_kind = case result of
NoSig -> empty
KindSig kind -> dcolon <+> ppr kind
TyVarSig tv_bndr -> text "=" <+> ppr tv_bndr
pp_inj = case mb_inj of
Just (L _ (InjectivityAnn lhs rhs)) ->
hsep [ vbar, ppr lhs, text "->", hsep (map ppr rhs) ]
Nothing -> empty
(pp_where, pp_eqns) = case info of
ClosedTypeFamily mb_eqns ->
( text "where"
, case mb_eqns of
Nothing -> text ".."
Just eqns -> vcat $ map ppr_fam_inst_eqn eqns )
_ -> (empty, empty)
pprFlavour :: FamilyInfo name -> SDoc
pprFlavour DataFamily = text "data"
pprFlavour OpenTypeFamily = text "type"
pprFlavour (ClosedTypeFamily {}) = text "type"
instance Outputable (FamilyInfo name) where
ppr info = pprFlavour info <+> text "family"
data HsDataDefn name
=
HsDataDefn { dd_ND :: NewOrData,
dd_ctxt :: LHsContext name,
dd_cType :: Maybe (Located CType),
dd_kindSig:: Maybe (LHsKind name),
dd_cons :: [LConDecl name],
dd_derivs :: HsDeriving name
}
deriving instance (DataId id) => Data (HsDataDefn id)
type HsDeriving name = Located [LHsDerivingClause name]
type LHsDerivingClause name = Located (HsDerivingClause name)
data HsDerivingClause name
= HsDerivingClause
{ deriv_clause_strategy :: Maybe (Located DerivStrategy)
, deriv_clause_tys :: Located [LHsSigType name]
}
deriving instance (DataId id) => Data (HsDerivingClause id)
instance (OutputableBndrId name)
=> Outputable (HsDerivingClause name) where
ppr (HsDerivingClause { deriv_clause_strategy = dcs
, deriv_clause_tys = L _ dct })
= hsep [ text "deriving"
, ppDerivStrategy dcs
, pp_dct dct ]
where
pp_dct [a@(HsIB { hsib_body = L _ HsAppsTy{} })] = parens (ppr a)
pp_dct [a] = ppr a
pp_dct _ = parens (interpp'SP dct)
data NewOrData
= NewType
| DataType
deriving( Eq, Data )
type LConDecl name = Located (ConDecl name)
data ConDecl name
= ConDeclGADT
{ con_names :: [Located name]
, con_type :: LHsSigType name
, con_doc :: Maybe LHsDocString
}
| ConDeclH98
{ con_name :: Located name
, con_qvars :: Maybe (LHsQTyVars name)
, con_cxt :: Maybe (LHsContext name)
, con_details :: HsConDeclDetails name
, con_doc :: Maybe LHsDocString
}
deriving instance (DataId name) => Data (ConDecl name)
type HsConDeclDetails name
= HsConDetails (LBangType name) (Located [LConDeclField name])
getConNames :: ConDecl name -> [Located name]
getConNames ConDeclH98 {con_name = name} = [name]
getConNames ConDeclGADT {con_names = names} = names
getConDetails :: ConDecl name -> HsConDeclDetails name
getConDetails ConDeclH98 {con_details = details} = details
getConDetails ConDeclGADT {con_type = ty } = details
where
(details,_,_,_) = gadtDeclDetails ty
gadtDeclDetails :: LHsSigType name
-> ( HsConDeclDetails name
, LHsType name
, LHsContext name
, [LHsTyVarBndr name] )
gadtDeclDetails HsIB {hsib_body = lbody_ty} = (details,res_ty,cxt,tvs)
where
(tvs, cxt, tau) = splitLHsSigmaTy lbody_ty
(details, res_ty)
= case tau of
L _ (HsFunTy (L l (HsRecTy flds)) res_ty')
-> (RecCon (L l flds), res_ty')
_other -> (PrefixCon [], tau)
hsConDeclArgTys :: HsConDeclDetails name -> [LBangType name]
hsConDeclArgTys (PrefixCon tys) = tys
hsConDeclArgTys (InfixCon ty1 ty2) = [ty1,ty2]
hsConDeclArgTys (RecCon flds) = map (cd_fld_type . unLoc) (unLoc flds)
pp_data_defn :: (OutputableBndrId name)
=> (HsContext name -> SDoc)
-> HsDataDefn name
-> SDoc
pp_data_defn pp_hdr (HsDataDefn { dd_ND = new_or_data, dd_ctxt = L _ context
, dd_cType = mb_ct
, dd_kindSig = mb_sig
, dd_cons = condecls, dd_derivs = derivings })
| null condecls
= ppr new_or_data <+> pp_ct <+> pp_hdr context <+> pp_sig
<+> pp_derivings derivings
| otherwise
= hang (ppr new_or_data <+> pp_ct <+> pp_hdr context <+> pp_sig)
2 (pp_condecls condecls $$ pp_derivings derivings)
where
pp_ct = case mb_ct of
Nothing -> empty
Just ct -> ppr ct
pp_sig = case mb_sig of
Nothing -> empty
Just kind -> dcolon <+> ppr kind
pp_derivings (L _ ds) = vcat (map ppr ds)
instance (OutputableBndrId name) => Outputable (HsDataDefn name) where
ppr d = pp_data_defn (\_ -> text "Naked HsDataDefn") d
instance Outputable NewOrData where
ppr NewType = text "newtype"
ppr DataType = text "data"
pp_condecls :: (OutputableBndrId name) => [LConDecl name] -> SDoc
pp_condecls cs@(L _ ConDeclGADT{} : _)
= hang (text "where") 2 (vcat (map ppr cs))
pp_condecls cs
= equals <+> sep (punctuate (text " |") (map ppr cs))
instance (OutputableBndrId name) => Outputable (ConDecl name) where
ppr = pprConDecl
pprConDecl :: (OutputableBndrId name) => ConDecl name -> SDoc
pprConDecl (ConDeclH98 { con_name = L _ con
, con_qvars = mtvs
, con_cxt = mcxt
, con_details = details
, con_doc = doc })
= sep [ppr_mbDoc doc, pprHsForAll tvs cxt, ppr_details details]
where
ppr_details (InfixCon t1 t2) = hsep [ppr t1, pprInfixOcc con, ppr t2]
ppr_details (PrefixCon tys) = hsep (pprPrefixOcc con
: map (pprParendHsType . unLoc) tys)
ppr_details (RecCon fields) = pprPrefixOcc con
<+> pprConDeclFields (unLoc fields)
tvs = case mtvs of
Nothing -> []
Just (HsQTvs { hsq_explicit = tvs }) -> tvs
cxt = fromMaybe (noLoc []) mcxt
pprConDecl (ConDeclGADT { con_names = cons, con_type = res_ty, con_doc = doc })
= sep [ppr_mbDoc doc <+> ppr_con_names cons <+> dcolon
<+> ppr res_ty]
ppr_con_names :: (OutputableBndr name) => [Located name] -> SDoc
ppr_con_names = pprWithCommas (pprPrefixOcc . unLoc)
type LTyFamInstEqn name = Located (TyFamInstEqn name)
type LTyFamDefltEqn name = Located (TyFamDefltEqn name)
type HsTyPats name = HsImplicitBndrs name [LHsType name]
type TyFamInstEqn name = TyFamEqn name (HsTyPats name)
type TyFamDefltEqn name = TyFamEqn name (LHsQTyVars name)
data TyFamEqn name pats
= TyFamEqn
{ tfe_tycon :: Located name
, tfe_pats :: pats
, tfe_fixity :: LexicalFixity
, tfe_rhs :: LHsType name }
deriving instance (DataId name, Data pats) => Data (TyFamEqn name pats)
type LTyFamInstDecl name = Located (TyFamInstDecl name)
data TyFamInstDecl name
= TyFamInstDecl
{ tfid_eqn :: LTyFamInstEqn name
, tfid_fvs :: PostRn name NameSet }
deriving instance (DataId name) => Data (TyFamInstDecl name)
type LDataFamInstDecl name = Located (DataFamInstDecl name)
data DataFamInstDecl name
= DataFamInstDecl
{ dfid_tycon :: Located name
, dfid_pats :: HsTyPats name
, dfid_fixity :: LexicalFixity
, dfid_defn :: HsDataDefn name
, dfid_fvs :: PostRn name NameSet }
deriving instance (DataId name) => Data (DataFamInstDecl name)
type LClsInstDecl name = Located (ClsInstDecl name)
data ClsInstDecl name
= ClsInstDecl
{ cid_poly_ty :: LHsSigType name
, cid_binds :: LHsBinds name
, cid_sigs :: [LSig name]
, cid_tyfam_insts :: [LTyFamInstDecl name]
, cid_datafam_insts :: [LDataFamInstDecl name]
, cid_overlap_mode :: Maybe (Located OverlapMode)
}
deriving instance (DataId id) => Data (ClsInstDecl id)
type LInstDecl name = Located (InstDecl name)
data InstDecl name
= ClsInstD
{ cid_inst :: ClsInstDecl name }
| DataFamInstD
{ dfid_inst :: DataFamInstDecl name }
| TyFamInstD
{ tfid_inst :: TyFamInstDecl name }
deriving instance (DataId id) => Data (InstDecl id)
instance (OutputableBndrId name) => Outputable (TyFamInstDecl name) where
ppr = pprTyFamInstDecl TopLevel
pprTyFamInstDecl :: (OutputableBndrId name)
=> TopLevelFlag -> TyFamInstDecl name -> SDoc
pprTyFamInstDecl top_lvl (TyFamInstDecl { tfid_eqn = eqn })
= text "type" <+> ppr_instance_keyword top_lvl <+> ppr_fam_inst_eqn eqn
ppr_instance_keyword :: TopLevelFlag -> SDoc
ppr_instance_keyword TopLevel = text "instance"
ppr_instance_keyword NotTopLevel = empty
ppr_fam_inst_eqn :: (OutputableBndrId name) => LTyFamInstEqn name -> SDoc
ppr_fam_inst_eqn (L _ (TyFamEqn { tfe_tycon = tycon
, tfe_pats = pats
, tfe_fixity = fixity
, tfe_rhs = rhs }))
= pp_fam_inst_lhs tycon pats fixity [] <+> equals <+> ppr rhs
ppr_fam_deflt_eqn :: (OutputableBndrId name) => LTyFamDefltEqn name -> SDoc
ppr_fam_deflt_eqn (L _ (TyFamEqn { tfe_tycon = tycon
, tfe_pats = tvs
, tfe_fixity = fixity
, tfe_rhs = rhs }))
= text "type" <+> pp_vanilla_decl_head tycon tvs fixity []
<+> equals <+> ppr rhs
instance (OutputableBndrId name) => Outputable (DataFamInstDecl name) where
ppr = pprDataFamInstDecl TopLevel
pprDataFamInstDecl :: (OutputableBndrId name)
=> TopLevelFlag -> DataFamInstDecl name -> SDoc
pprDataFamInstDecl top_lvl (DataFamInstDecl { dfid_tycon = tycon
, dfid_pats = pats
, dfid_fixity = fixity
, dfid_defn = defn })
= pp_data_defn pp_hdr defn
where
pp_hdr ctxt = ppr_instance_keyword top_lvl
<+> pp_fam_inst_lhs tycon pats fixity ctxt
pprDataFamInstFlavour :: DataFamInstDecl name -> SDoc
pprDataFamInstFlavour (DataFamInstDecl { dfid_defn = (HsDataDefn { dd_ND = nd }) })
= ppr nd
pp_fam_inst_lhs :: (OutputableBndrId name) => Located name
-> HsTyPats name
-> LexicalFixity
-> HsContext name
-> SDoc
pp_fam_inst_lhs thing (HsIB { hsib_body = typats }) fixity context
= hsep [ pprHsContext context, pp_pats typats]
where
pp_pats (patl:patsr)
| fixity == Infix
= hsep [pprParendHsType (unLoc patl), pprInfixOcc (unLoc thing)
, hsep (map (pprParendHsType.unLoc) patsr)]
| otherwise = hsep [ pprPrefixOcc (unLoc thing)
, hsep (map (pprParendHsType.unLoc) (patl:patsr))]
pp_pats [] = empty
instance (OutputableBndrId name) => Outputable (ClsInstDecl name) where
ppr (ClsInstDecl { cid_poly_ty = inst_ty, cid_binds = binds
, cid_sigs = sigs, cid_tyfam_insts = ats
, cid_overlap_mode = mbOverlap
, cid_datafam_insts = adts })
| null sigs, null ats, null adts, isEmptyBag binds
= top_matter
| otherwise
= vcat [ top_matter <+> text "where"
, nest 2 $ pprDeclList $
map (pprTyFamInstDecl NotTopLevel . unLoc) ats ++
map (pprDataFamInstDecl NotTopLevel . unLoc) adts ++
pprLHsBindsForUser binds sigs ]
where
top_matter = text "instance" <+> ppOverlapPragma mbOverlap
<+> ppr inst_ty
ppDerivStrategy :: Maybe (Located DerivStrategy) -> SDoc
ppDerivStrategy mb =
case mb of
Nothing -> empty
Just (L _ ds) -> ppr ds
ppOverlapPragma :: Maybe (Located OverlapMode) -> SDoc
ppOverlapPragma mb =
case mb of
Nothing -> empty
Just (L _ (NoOverlap s)) -> maybe_stext s "{-# NO_OVERLAP #-}"
Just (L _ (Overlappable s)) -> maybe_stext s "{-# OVERLAPPABLE #-}"
Just (L _ (Overlapping s)) -> maybe_stext s "{-# OVERLAPPING #-}"
Just (L _ (Overlaps s)) -> maybe_stext s "{-# OVERLAPS #-}"
Just (L _ (Incoherent s)) -> maybe_stext s "{-# INCOHERENT #-}"
where
maybe_stext NoSourceText alt = text alt
maybe_stext (SourceText src) _ = text src <+> text "#-}"
instance (OutputableBndrId name) => Outputable (InstDecl name) where
ppr (ClsInstD { cid_inst = decl }) = ppr decl
ppr (TyFamInstD { tfid_inst = decl }) = ppr decl
ppr (DataFamInstD { dfid_inst = decl }) = ppr decl
instDeclDataFamInsts :: [LInstDecl name] -> [DataFamInstDecl name]
instDeclDataFamInsts inst_decls
= concatMap do_one inst_decls
where
do_one (L _ (ClsInstD { cid_inst = ClsInstDecl { cid_datafam_insts = fam_insts } }))
= map unLoc fam_insts
do_one (L _ (DataFamInstD { dfid_inst = fam_inst })) = [fam_inst]
do_one (L _ (TyFamInstD {})) = []
type LDerivDecl name = Located (DerivDecl name)
data DerivDecl name = DerivDecl
{ deriv_type :: LHsSigType name
, deriv_strategy :: Maybe (Located DerivStrategy)
, deriv_overlap_mode :: Maybe (Located OverlapMode)
}
deriving instance (DataId name) => Data (DerivDecl name)
instance (OutputableBndrId name) => Outputable (DerivDecl name) where
ppr (DerivDecl { deriv_type = ty
, deriv_strategy = ds
, deriv_overlap_mode = o })
= hsep [ text "deriving"
, ppDerivStrategy ds
, text "instance"
, ppOverlapPragma o
, ppr ty ]
type LDefaultDecl name = Located (DefaultDecl name)
data DefaultDecl name
= DefaultDecl [LHsType name]
deriving instance (DataId name) => Data (DefaultDecl name)
instance (OutputableBndrId name) => Outputable (DefaultDecl name) where
ppr (DefaultDecl tys)
= text "default" <+> parens (interpp'SP tys)
type LForeignDecl name = Located (ForeignDecl name)
data ForeignDecl name
= ForeignImport
{ fd_name :: Located name
, fd_sig_ty :: LHsSigType name
, fd_co :: PostTc name Coercion
, fd_fi :: ForeignImport }
| ForeignExport
{ fd_name :: Located name
, fd_sig_ty :: LHsSigType name
, fd_co :: PostTc name Coercion
, fd_fe :: ForeignExport }
deriving instance (DataId name) => Data (ForeignDecl name)
noForeignImportCoercionYet :: PlaceHolder
noForeignImportCoercionYet = PlaceHolder
noForeignExportCoercionYet :: PlaceHolder
noForeignExportCoercionYet = PlaceHolder
data ForeignImport =
CImport (Located CCallConv)
(Located Safety)
(Maybe Header)
CImportSpec
(Located SourceText)
deriving Data
data CImportSpec = CLabel CLabelString
| CFunction CCallTarget
| CWrapper
deriving Data
data ForeignExport = CExport (Located CExportSpec)
(Located SourceText)
deriving Data
instance (OutputableBndrId name) => Outputable (ForeignDecl name) where
ppr (ForeignImport { fd_name = n, fd_sig_ty = ty, fd_fi = fimport })
= hang (text "foreign import" <+> ppr fimport <+> ppr n)
2 (dcolon <+> ppr ty)
ppr (ForeignExport { fd_name = n, fd_sig_ty = ty, fd_fe = fexport }) =
hang (text "foreign export" <+> ppr fexport <+> ppr n)
2 (dcolon <+> ppr ty)
instance Outputable ForeignImport where
ppr (CImport cconv safety mHeader spec (L _ srcText)) =
ppr cconv <+> ppr safety
<+> pprWithSourceText srcText (pprCEntity spec "")
where
pp_hdr = case mHeader of
Nothing -> empty
Just (Header _ header) -> ftext header
pprCEntity (CLabel lbl) _ =
doubleQuotes $ text "static" <+> pp_hdr <+> char '&' <> ppr lbl
pprCEntity (CFunction (StaticTarget st _lbl _ isFun)) src =
if dqNeeded then doubleQuotes ce else empty
where
dqNeeded = (take 6 src == "static")
|| isJust mHeader
|| not isFun
|| st /= NoSourceText
ce =
(if take 6 src == "static" then text "static" else empty)
<+> pp_hdr
<+> (if isFun then empty else text "value")
<+> (pprWithSourceText st empty)
pprCEntity (CFunction DynamicTarget) _ =
doubleQuotes $ text "dynamic"
pprCEntity CWrapper _ = doubleQuotes $ text "wrapper"
instance Outputable ForeignExport where
ppr (CExport (L _ (CExportStatic _ lbl cconv)) _) =
ppr cconv <+> char '"' <> ppr lbl <> char '"'
type LRuleDecls name = Located (RuleDecls name)
data RuleDecls name = HsRules { rds_src :: SourceText
, rds_rules :: [LRuleDecl name] }
deriving instance (DataId name) => Data (RuleDecls name)
type LRuleDecl name = Located (RuleDecl name)
data RuleDecl name
= HsRule
(Located (SourceText,RuleName))
Activation
[LRuleBndr name]
(Located (HsExpr name))
(PostRn name NameSet)
(Located (HsExpr name))
(PostRn name NameSet)
deriving instance (DataId name) => Data (RuleDecl name)
flattenRuleDecls :: [LRuleDecls name] -> [LRuleDecl name]
flattenRuleDecls decls = concatMap (rds_rules . unLoc) decls
type LRuleBndr name = Located (RuleBndr name)
data RuleBndr name
= RuleBndr (Located name)
| RuleBndrSig (Located name) (LHsSigWcType name)
deriving instance (DataId name) => Data (RuleBndr name)
collectRuleBndrSigTys :: [RuleBndr name] -> [LHsSigWcType name]
collectRuleBndrSigTys bndrs = [ty | RuleBndrSig _ ty <- bndrs]
pprFullRuleName :: Located (SourceText, RuleName) -> SDoc
pprFullRuleName (L _ (st, n)) = pprWithSourceText st (doubleQuotes $ ftext n)
instance (OutputableBndrId name) => Outputable (RuleDecls name) where
ppr (HsRules st rules)
= pprWithSourceText st (text "{-# RULES")
<+> vcat (punctuate semi (map ppr rules)) <+> text "#-}"
instance (OutputableBndrId name) => Outputable (RuleDecl name) where
ppr (HsRule name act ns lhs _fv_lhs rhs _fv_rhs)
= sep [pprFullRuleName name <+> ppr act,
nest 4 (pp_forall <+> pprExpr (unLoc lhs)),
nest 6 (equals <+> pprExpr (unLoc rhs)) ]
where
pp_forall | null ns = empty
| otherwise = forAllLit <+> fsep (map ppr ns) <> dot
instance (OutputableBndrId name) => Outputable (RuleBndr name) where
ppr (RuleBndr name) = ppr name
ppr (RuleBndrSig name ty) = parens (ppr name <> dcolon <> ppr ty)
type LVectDecl name = Located (VectDecl name)
data VectDecl name
= HsVect
SourceText
(Located name)
(LHsExpr name)
| HsNoVect
SourceText
(Located name)
| HsVectTypeIn
SourceText
Bool
(Located name)
(Maybe (Located name))
| HsVectTypeOut
Bool
TyCon
(Maybe TyCon)
| HsVectClassIn
SourceText
(Located name)
| HsVectClassOut
Class
| HsVectInstIn
(LHsSigType name)
| HsVectInstOut
ClsInst
deriving instance (DataId name) => Data (VectDecl name)
lvectDeclName :: NamedThing name => LVectDecl name -> Name
lvectDeclName (L _ (HsVect _ (L _ name) _)) = getName name
lvectDeclName (L _ (HsNoVect _ (L _ name))) = getName name
lvectDeclName (L _ (HsVectTypeIn _ _ (L _ name) _)) = getName name
lvectDeclName (L _ (HsVectTypeOut _ tycon _)) = getName tycon
lvectDeclName (L _ (HsVectClassIn _ (L _ name))) = getName name
lvectDeclName (L _ (HsVectClassOut cls)) = getName cls
lvectDeclName (L _ (HsVectInstIn _))
= panic "HsDecls.lvectDeclName: HsVectInstIn"
lvectDeclName (L _ (HsVectInstOut _))
= panic "HsDecls.lvectDeclName: HsVectInstOut"
lvectInstDecl :: LVectDecl name -> Bool
lvectInstDecl (L _ (HsVectInstIn _)) = True
lvectInstDecl (L _ (HsVectInstOut _)) = True
lvectInstDecl _ = False
instance (OutputableBndrId name) => Outputable (VectDecl name) where
ppr (HsVect _ v rhs)
= sep [text "{-# VECTORISE" <+> ppr v,
nest 4 $
pprExpr (unLoc rhs) <+> text "#-}" ]
ppr (HsNoVect _ v)
= sep [text "{-# NOVECTORISE" <+> ppr v <+> text "#-}" ]
ppr (HsVectTypeIn _ False t Nothing)
= sep [text "{-# VECTORISE type" <+> ppr t <+> text "#-}" ]
ppr (HsVectTypeIn _ False t (Just t'))
= sep [text "{-# VECTORISE type" <+> ppr t, text "=", ppr t', text "#-}" ]
ppr (HsVectTypeIn _ True t Nothing)
= sep [text "{-# VECTORISE SCALAR type" <+> ppr t <+> text "#-}" ]
ppr (HsVectTypeIn _ True t (Just t'))
= sep [text "{-# VECTORISE SCALAR type" <+> ppr t, text "=", ppr t', text "#-}" ]
ppr (HsVectTypeOut False t Nothing)
= sep [text "{-# VECTORISE type" <+> ppr t <+> text "#-}" ]
ppr (HsVectTypeOut False t (Just t'))
= sep [text "{-# VECTORISE type" <+> ppr t, text "=", ppr t', text "#-}" ]
ppr (HsVectTypeOut True t Nothing)
= sep [text "{-# VECTORISE SCALAR type" <+> ppr t <+> text "#-}" ]
ppr (HsVectTypeOut True t (Just t'))
= sep [text "{-# VECTORISE SCALAR type" <+> ppr t, text "=", ppr t', text "#-}" ]
ppr (HsVectClassIn _ c)
= sep [text "{-# VECTORISE class" <+> ppr c <+> text "#-}" ]
ppr (HsVectClassOut c)
= sep [text "{-# VECTORISE class" <+> ppr c <+> text "#-}" ]
ppr (HsVectInstIn ty)
= sep [text "{-# VECTORISE SCALAR instance" <+> ppr ty <+> text "#-}" ]
ppr (HsVectInstOut i)
= sep [text "{-# VECTORISE SCALAR instance" <+> ppr i <+> text "#-}" ]
type LDocDecl = Located (DocDecl)
data DocDecl
= DocCommentNext HsDocString
| DocCommentPrev HsDocString
| DocCommentNamed String HsDocString
| DocGroup Int HsDocString
deriving Data
instance Outputable DocDecl where
ppr _ = text "<document comment>"
docDeclDoc :: DocDecl -> HsDocString
docDeclDoc (DocCommentNext d) = d
docDeclDoc (DocCommentPrev d) = d
docDeclDoc (DocCommentNamed _ d) = d
docDeclDoc (DocGroup _ d) = d
type LWarnDecls name = Located (WarnDecls name)
data WarnDecls name = Warnings { wd_src :: SourceText
, wd_warnings :: [LWarnDecl name]
}
deriving Data
type LWarnDecl name = Located (WarnDecl name)
data WarnDecl name = Warning [Located name] WarningTxt
deriving Data
instance OutputableBndr name => Outputable (WarnDecls name) where
ppr (Warnings (SourceText src) decls)
= text src <+> vcat (punctuate comma (map ppr decls)) <+> text "#-}"
ppr (Warnings NoSourceText _decls) = panic "WarnDecls"
instance OutputableBndr name => Outputable (WarnDecl name) where
ppr (Warning thing txt)
= hsep ( punctuate comma (map ppr thing))
<+> ppr txt
type LAnnDecl name = Located (AnnDecl name)
data AnnDecl name = HsAnnotation
SourceText
(AnnProvenance name) (Located (HsExpr name))
deriving instance (DataId name) => Data (AnnDecl name)
instance (OutputableBndrId name) => Outputable (AnnDecl name) where
ppr (HsAnnotation _ provenance expr)
= hsep [text "{-#", pprAnnProvenance provenance, pprExpr (unLoc expr), text "#-}"]
data AnnProvenance name = ValueAnnProvenance (Located name)
| TypeAnnProvenance (Located name)
| ModuleAnnProvenance
deriving (Data, Functor)
deriving instance Foldable AnnProvenance
deriving instance Traversable AnnProvenance
annProvenanceName_maybe :: AnnProvenance name -> Maybe name
annProvenanceName_maybe (ValueAnnProvenance (L _ name)) = Just name
annProvenanceName_maybe (TypeAnnProvenance (L _ name)) = Just name
annProvenanceName_maybe ModuleAnnProvenance = Nothing
pprAnnProvenance :: OutputableBndr name => AnnProvenance name -> SDoc
pprAnnProvenance ModuleAnnProvenance = text "ANN module"
pprAnnProvenance (ValueAnnProvenance (L _ name))
= text "ANN" <+> ppr name
pprAnnProvenance (TypeAnnProvenance (L _ name))
= text "ANN type" <+> ppr name
type LRoleAnnotDecl name = Located (RoleAnnotDecl name)
data RoleAnnotDecl name
= RoleAnnotDecl (Located name)
[Located (Maybe Role)]
deriving Data
instance OutputableBndr name => Outputable (RoleAnnotDecl name) where
ppr (RoleAnnotDecl ltycon roles)
= text "type role" <+> ppr ltycon <+>
hsep (map (pp_role . unLoc) roles)
where
pp_role Nothing = underscore
pp_role (Just r) = ppr r
roleAnnotDeclName :: RoleAnnotDecl name -> name
roleAnnotDeclName (RoleAnnotDecl (L _ name) _) = name