% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
-HsDecls: Abstract syntax: global declarations
-Definitions for: @TyDecl@ and @oCnDecl@, @ClassDecl@,
-@InstDecl@, @DefaultDecl@ and @ForeignDecl@.
\begin{code}
+{-# OPTIONS -fno-warn-incomplete-patterns #-}
+-- The above warning supression flag is a temporary kludge.
+-- While working on this module you are encouraged to remove it and fix
+-- any warnings in the module. See
+-- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#Warnings
+-- for details
+
+-- | Abstract syntax of global declarations.
+--
+-- Definitions for: @TyDecl@ and @ConDecl@, @ClassDecl@,
+-- @InstDecl@, @DefaultDecl@ and @ForeignDecl@.
module HsDecls (
- HsDecl(..), LHsDecl, TyClDecl(..), LTyClDecl,
- InstDecl(..), LInstDecl, DerivDecl(..), LDerivDecl, NewOrData(..),
- FamilyFlavour(..),
- RuleDecl(..), LRuleDecl, RuleBndr(..),
- DefaultDecl(..), LDefaultDecl, SpliceDecl(..),
- ForeignDecl(..), LForeignDecl, ForeignImport(..), ForeignExport(..),
- CImportSpec(..), FoType(..),
- ConDecl(..), ResType(..), LConDecl,
- DocDecl(..), LDocDecl, docDeclDoc,
- DeprecDecl(..), LDeprecDecl,
- HsGroup(..), emptyRdrGroup, emptyRnGroup, appendGroups,
- tcdName, tyClDeclNames, tyClDeclTyVars,
- isClassDecl, isSynDecl, isDataDecl, isTypeDecl, isFamilyDecl,
- isFamInstDecl,
- countTyClDecls,
- conDetailsTys,
- instDeclATs,
- collectRuleBndrSigTys,
+ -- * Toplevel declarations
+ HsDecl(..), LHsDecl,
+ -- ** Class or type declarations
+ TyClDecl(..), LTyClDecl,
+ isClassDecl, isSynDecl, isDataDecl, isTypeDecl, isFamilyDecl,
+ isFamInstDecl, tcdName, tyClDeclNames, tyClDeclTyVars,
+ countTyClDecls,
+ -- ** Instance declarations
+ InstDecl(..), LInstDecl, NewOrData(..), FamilyFlavour(..),
+ instDeclATs,
+ -- ** Standalone deriving declarations
+ DerivDecl(..), LDerivDecl,
+ -- ** @RULE@ declarations
+ RuleDecl(..), LRuleDecl, RuleBndr(..),
+ collectRuleBndrSigTys,
+ -- ** @default@ declarations
+ DefaultDecl(..), LDefaultDecl,
+ -- ** Top-level template haskell splice
+ SpliceDecl(..),
+ -- ** Foreign function interface declarations
+ ForeignDecl(..), LForeignDecl, ForeignImport(..), ForeignExport(..),
+ CImportSpec(..),
+ -- ** Data-constructor declarations
+ ConDecl(..), LConDecl, ResType(..),
+ HsConDeclDetails, hsConDeclArgTys, hsConDeclsNames,
+ -- ** Document comments
+ DocDecl(..), LDocDecl, docDeclDoc,
+ -- ** Deprecations
+ WarnDecl(..), LWarnDecl,
+ -- ** Annotations
+ AnnDecl(..), LAnnDecl,
+ AnnProvenance(..), annProvenanceName_maybe, modifyAnnProvenanceNameM,
+
+ -- * Grouping
+ HsGroup(..), emptyRdrGroup, emptyRnGroup, appendGroups
) where
-#include "HsVersions.h"
-
-- friends:
import {-# SOURCE #-} HsExpr( HsExpr, pprExpr )
-- Because Expr imports Decls via HsBracket
import HsBinds
import HsPat
-import HsImpExp
import HsTypes
import HsDoc
import NameSet
-import CoreSyn
import {- Kind parts of -} Type
import BasicTypes
import ForeignCall
import SrcLoc
import FastString
+import Control.Monad ( liftM )
import Data.Maybe ( isJust )
\end{code}
\begin{code}
type LHsDecl id = Located (HsDecl id)
+-- | A Haskell Declaration
data HsDecl id
- = TyClD (TyClDecl id)
- | InstD (InstDecl id)
+ = TyClD (TyClDecl id) -- ^ A type or class declaration.
+ | InstD (InstDecl id) -- ^ An instance declaration.
| DerivD (DerivDecl id)
| ValD (HsBind id)
| SigD (Sig id)
| DefD (DefaultDecl id)
| ForD (ForeignDecl id)
- | DeprecD (DeprecDecl id)
+ | WarningD (WarnDecl id)
+ | AnnD (AnnDecl id)
| RuleD (RuleDecl id)
| SpliceD (SpliceDecl id)
- | DocD (DocDecl id)
+ | DocD (DocDecl)
-- NB: all top-level fixity decls are contained EITHER
--
-- The latter is for class methods only
--- A [HsDecl] is categorised into a HsGroup before being
+-- | A 'HsDecl' is categorised into a 'HsGroup' before being
-- fed to the renamer.
data HsGroup id
= HsGroup {
hs_defds :: [LDefaultDecl id],
hs_fords :: [LForeignDecl id],
- hs_depds :: [LDeprecDecl id],
+ hs_warnds :: [LWarnDecl id],
+ hs_annds :: [LAnnDecl id],
hs_ruleds :: [LRuleDecl id],
- hs_docs :: [LDocDecl id]
+ hs_docs :: [LDocDecl]
}
emptyGroup, emptyRdrGroup, emptyRnGroup :: HsGroup a
emptyRnGroup = emptyGroup { hs_valds = emptyValBindsOut }
emptyGroup = HsGroup { hs_tyclds = [], hs_instds = [], hs_derivds = [],
- hs_fixds = [], hs_defds = [], hs_fords = [],
- hs_depds = [], hs_ruleds = [],
+ hs_fixds = [], hs_defds = [], hs_annds = [],
+ hs_fords = [], hs_warnds = [], hs_ruleds = [],
hs_valds = error "emptyGroup hs_valds: Can't happen",
hs_docs = [] }
hs_derivds = derivds1,
hs_fixds = fixds1,
hs_defds = defds1,
+ hs_annds = annds1,
hs_fords = fords1,
- hs_depds = depds1,
+ hs_warnds = warnds1,
hs_ruleds = rulds1,
hs_docs = docs1 }
HsGroup {
hs_derivds = derivds2,
hs_fixds = fixds2,
hs_defds = defds2,
+ hs_annds = annds2,
hs_fords = fords2,
- hs_depds = depds2,
+ hs_warnds = warnds2,
hs_ruleds = rulds2,
hs_docs = docs2 }
=
hs_tyclds = tyclds1 ++ tyclds2,
hs_instds = instds1 ++ instds2,
hs_derivds = derivds1 ++ derivds2,
- hs_fixds = fixds1 ++ fixds2,
+ hs_fixds = fixds1 ++ fixds2,
+ hs_annds = annds1 ++ annds2,
hs_defds = defds1 ++ defds2,
hs_fords = fords1 ++ fords2,
- hs_depds = depds1 ++ depds2,
+ hs_warnds = warnds1 ++ warnds2,
hs_ruleds = rulds1 ++ rulds2,
hs_docs = docs1 ++ docs2 }
\end{code}
ppr (ForD fd) = ppr fd
ppr (SigD sd) = ppr sd
ppr (RuleD rd) = ppr rd
- ppr (DeprecD dd) = ppr dd
+ ppr (WarningD wd) = ppr wd
+ ppr (AnnD ad) = ppr ad
ppr (SpliceD dd) = ppr dd
ppr (DocD doc) = ppr doc
hs_instds = inst_decls,
hs_derivds = deriv_decls,
hs_fixds = fix_decls,
- hs_depds = deprec_decls,
+ hs_warnds = deprec_decls,
+ hs_annds = ann_decls,
hs_fords = foreign_decls,
hs_defds = default_decls,
hs_ruleds = rule_decls })
= vcat [ppr_ds fix_decls, ppr_ds default_decls,
- ppr_ds deprec_decls, ppr_ds rule_decls,
+ ppr_ds deprec_decls, ppr_ds ann_decls,
+ ppr_ds rule_decls,
ppr val_decls,
ppr_ds tycl_decls, ppr_ds inst_decls,
ppr_ds deriv_decls,
ppr_ds foreign_decls]
where
ppr_ds [] = empty
- ppr_ds ds = text "" $$ vcat (map ppr ds)
+ ppr_ds ds = blankLine $$ vcat (map ppr ds)
data SpliceDecl id = SpliceDecl (Located (HsExpr id)) -- Top level splice
instance OutputableBndr name => Outputable (SpliceDecl name) where
- ppr (SpliceDecl e) = ptext SLIT("$") <> parens (pprExpr (unLoc e))
+ ppr (SpliceDecl e) = ptext (sLit "$") <> parens (pprExpr (unLoc e))
\end{code}
--
-- * If it is 'Just pats', we have the definition of an indexed type. Then,
-- 'pats' are type patterns for the type-indexes of the type constructor
--- and 'tcdVars' are the variables in those patterns. Hence, the arity of
+-- and 'tcdTyVars' are the variables in those patterns. Hence, the arity of
-- the indexed type (ie, the number of indexes) is 'length tcdTyPats' and
-- *not* 'length tcdVars'.
--
type LTyClDecl name = Located (TyClDecl name)
+-- | A type or class declaration.
data TyClDecl name
= ForeignType {
tcdLName :: Located name,
- tcdExtName :: Maybe FastString,
- tcdFoType :: FoType
+ tcdExtName :: Maybe FastString
}
- -- type/data/newtype family T :: *->*
- | TyFamily { tcdFlavour:: FamilyFlavour, -- type, new, or data
+
+ | -- | @type/data family T :: *->*@
+ TyFamily { tcdFlavour:: FamilyFlavour, -- type or data
tcdLName :: Located name, -- type constructor
tcdTyVars :: [LHsTyVarBndr name], -- type variables
tcdKind :: Maybe Kind -- result kind
}
- -- Declares a data type or newtype, giving its construcors
- -- data/newtype T a = <constrs>
- -- data/newtype instance T [a] = <constrs>
- | TyData { tcdND :: NewOrData,
- tcdCtxt :: LHsContext name, -- Context
- tcdLName :: Located name, -- Type constructor
-
- tcdTyVars :: [LHsTyVarBndr name], -- Type variables
-
- tcdTyPats :: Maybe [LHsType name], -- Type patterns
- -- Just [t1..tn] for data instance T t1..tn = ...
- -- in this case tcdTyVars = fv( tcdTyPats )
- -- Nothing for everything else
- tcdKindSig:: Maybe Kind, -- Optional kind sig
- -- (Just k) for a GADT-style 'data', or 'data
- -- instance' decl with explicit kind sig
+ | -- | Declares a data type or newtype, giving its construcors
+ -- @
+ -- data/newtype T a = <constrs>
+ -- data/newtype instance T [a] = <constrs>
+ -- @
+ TyData { tcdND :: NewOrData,
+ tcdCtxt :: LHsContext name, -- ^ Context
+ tcdLName :: Located name, -- ^ Type constructor
- tcdCons :: [LConDecl name], -- Data constructors
- -- For data T a = T1 | T2 a the LConDecls all have ResTyH98
- -- For data T a where { T1 :: T a } the LConDecls all have ResTyGADT
+ tcdTyVars :: [LHsTyVarBndr name], -- ^ Type variables
+
+ tcdTyPats :: Maybe [LHsType name],
+ -- ^ Type patterns.
+ --
+ -- @Just [t1..tn]@ for @data instance T t1..tn = ...@
+ -- in this case @tcdTyVars = fv( tcdTyPats )@.
+ -- @Nothing@ for everything else.
+
+ tcdKindSig:: Maybe Kind,
+ -- ^ Optional kind signature.
+ --
+ -- @(Just k)@ for a GADT-style @data@, or @data
+ -- instance@ decl with explicit kind sig
+
+ tcdCons :: [LConDecl name],
+ -- ^ Data constructors
+ --
+ -- For @data T a = T1 | T2 a@
+ -- the 'LConDecl's all have 'ResTyH98'.
+ -- For @data T a where { T1 :: T a }@
+ -- the 'LConDecls' all have 'ResTyGADT'.
tcdDerivs :: Maybe [LHsType name]
- -- Derivings; Nothing => not specified
- -- Just [] => derive exactly what is asked
+ -- ^ Derivings; @Nothing@ => not specified,
+ -- @Just []@ => derive exactly what is asked
+ --
-- These "types" must be of form
+ -- @
-- forall ab. C ty1 ty2
+ -- @
-- Typically the foralls and ty args are empty, but they
-- are non-empty for the newtype-deriving case
}
- | TySynonym { tcdLName :: Located name, -- type constructor
- tcdTyVars :: [LHsTyVarBndr name], -- type variables
- tcdTyPats :: Maybe [LHsType name], -- Type patterns
+ | TySynonym { tcdLName :: Located name, -- ^ type constructor
+ tcdTyVars :: [LHsTyVarBndr name], -- ^ type variables
+ tcdTyPats :: Maybe [LHsType name], -- ^ Type patterns
-- See comments for tcdTyPats in TyData
-- 'Nothing' => vanilla type synonym
- tcdSynRhs :: LHsType name -- synonym expansion
+ tcdSynRhs :: LHsType name -- ^ synonym expansion
}
- | ClassDecl { tcdCtxt :: LHsContext name, -- Context...
- tcdLName :: Located name, -- Name of the class
- tcdTyVars :: [LHsTyVarBndr name], -- Class type variables
- tcdFDs :: [Located (FunDep name)], -- Functional deps
- tcdSigs :: [LSig name], -- Methods' signatures
- tcdMeths :: LHsBinds name, -- Default methods
- tcdATs :: [LTyClDecl name], -- Associated types; ie
- -- only 'TyData',
- -- 'TyFunction',
- -- and 'TySynonym'
- tcdDocs :: [LDocDecl name] -- Haddock docs
+ | ClassDecl { tcdCtxt :: LHsContext name, -- ^ Context...
+ tcdLName :: Located name, -- ^ Name of the class
+ tcdTyVars :: [LHsTyVarBndr name], -- ^ Class type variables
+ tcdFDs :: [Located (FunDep name)], -- ^ Functional deps
+ tcdSigs :: [LSig name], -- ^ Methods' signatures
+ tcdMeths :: LHsBinds name, -- ^ Default methods
+ tcdATs :: [LTyClDecl name], -- ^ Associated types; ie
+ -- only 'TyFamily' and
+ -- 'TySynonym'; the
+ -- latter for defaults
+ tcdDocs :: [LDocDecl] -- ^ Haddock docs
}
data NewOrData
- = NewType -- "newtype Blah ..."
- | DataType -- "data Blah ..."
+ = NewType -- ^ @newtype Blah ...@
+ | DataType -- ^ @data Blah ...@
deriving( Eq ) -- Needed because Demand derives Eq
data FamilyFlavour
- = TypeFamily -- "type family ..."
- | DataFamily NewOrData -- "newtype family ..." or "data family ..."
+ = TypeFamily -- ^ @type family ...@
+ | DataFamily -- ^ @data family ...@
\end{code}
Simple classifiers
\begin{code}
-isDataDecl, isTypeDecl, isSynDecl, isClassDecl, isFamilyDecl, isFamInstDecl ::
- TyClDecl name -> Bool
-
--- data/newtype or data/newtype instance declaration
+-- | @True@ <=> argument is a @data@\/@newtype@ or @data@\/@newtype instance@
+-- declaration.
+isDataDecl :: TyClDecl name -> Bool
isDataDecl (TyData {}) = True
isDataDecl _other = False
--- type or type instance declaration
+-- | type or type instance declaration
+isTypeDecl :: TyClDecl name -> Bool
isTypeDecl (TySynonym {}) = True
isTypeDecl _other = False
--- vanilla Haskell type synonym (ie, not a type instance)
+-- | vanilla Haskell type synonym (ie, not a type instance)
+isSynDecl :: TyClDecl name -> Bool
isSynDecl (TySynonym {tcdTyPats = Nothing}) = True
isSynDecl _other = False
--- type class
+-- | type class
+isClassDecl :: TyClDecl name -> Bool
isClassDecl (ClassDecl {}) = True
-isClassDecl other = False
+isClassDecl _ = False
--- type family declaration
+-- | type family declaration
+isFamilyDecl :: TyClDecl name -> Bool
isFamilyDecl (TyFamily {}) = True
isFamilyDecl _other = False
--- family instance (types, newtypes, and data types)
+-- | family instance (types, newtypes, and data types)
+isFamInstDecl :: TyClDecl name -> Bool
isFamInstDecl tydecl
| isTypeDecl tydecl
|| isDataDecl tydecl = isJust (tcdTyPats tydecl)
tcdName decl = unLoc (tcdLName decl)
tyClDeclNames :: Eq name => TyClDecl name -> [Located name]
--- Returns all the *binding* names of the decl, along with their SrcLocs
--- The first one is guaranteed to be the name of the decl
--- For record fields, the first one counts as the SrcLoc
--- We use the equality to filter out duplicate field names
+-- ^ Returns all the /binding/ names of the decl, along with their SrcLocs.
+-- The first one is guaranteed to be the name of the decl. For record fields
+-- mentioned in multiple constructors, the SrcLoc will be from the first
+-- occurence. We use the equality to filter out duplicate field names
tyClDeclNames (TyFamily {tcdLName = name}) = [name]
tyClDeclNames (TySynonym {tcdLName = name}) = [name]
concatMap (tyClDeclNames . unLoc) ats ++ [n | L _ (TypeSig n _) <- sigs]
tyClDeclNames (TyData {tcdLName = tc_name, tcdCons = cons})
- = tc_name : conDeclsNames (map unLoc cons)
+ = tc_name : hsConDeclsNames cons
+tyClDeclTyVars :: TyClDecl name -> [LHsTyVarBndr name]
tyClDeclTyVars (TyFamily {tcdTyVars = tvs}) = tvs
tyClDeclTyVars (TySynonym {tcdTyVars = tvs}) = tvs
tyClDeclTyVars (TyData {tcdTyVars = tvs}) = tvs
=> Outputable (TyClDecl name) where
ppr (ForeignType {tcdLName = ltycon})
- = hsep [ptext SLIT("foreign import type dotnet"), ppr ltycon]
+ = hsep [ptext (sLit "foreign import type dotnet"), ppr ltycon]
ppr (TyFamily {tcdFlavour = flavour, tcdLName = ltycon,
tcdTyVars = tyvars, tcdKind = mb_kind})
= pp_flavour <+> pp_decl_head [] ltycon tyvars Nothing <+> pp_kind
where
pp_flavour = case flavour of
- TypeFamily -> ptext SLIT("type family")
- DataFamily NewType -> ptext SLIT("newtype family")
- DataFamily DataType -> ptext SLIT("data family")
+ TypeFamily -> ptext (sLit "type family")
+ DataFamily -> ptext (sLit "data family")
pp_kind = case mb_kind of
Nothing -> empty
ppr (TySynonym {tcdLName = ltycon, tcdTyVars = tyvars, tcdTyPats = typats,
tcdSynRhs = mono_ty})
- = hang (ptext SLIT("type") <+>
- (if isJust typats then ptext SLIT("instance") else empty) <+>
+ = hang (ptext (sLit "type") <+>
+ (if isJust typats then ptext (sLit "instance") else empty) <+>
pp_decl_head [] ltycon tyvars typats <+>
equals)
4 (ppr mono_ty)
tcdCons = condecls, tcdDerivs = derivings})
= pp_tydecl (null condecls && isJust mb_sig)
(ppr new_or_data <+>
- (if isJust typats then ptext SLIT("instance") else empty) <+>
+ (if isJust typats then ptext (sLit "instance") else empty) <+>
pp_decl_head (unLoc context) ltycon tyvars typats <+>
ppr_sig mb_sig)
(pp_condecls condecls)
= top_matter
| otherwise -- Laid out
- = sep [hsep [top_matter, ptext SLIT("where {")],
+ = sep [hsep [top_matter, ptext (sLit "where {")],
nest 4 (sep [ sep (map ppr_semi ats)
, sep (map ppr_semi sigs)
, pprLHsBinds methods
, char '}'])]
where
- top_matter = ptext SLIT("class")
+ top_matter = ptext (sLit "class")
<+> pp_decl_head (unLoc context) lclas tyvars Nothing
<+> pprFundeps (map unLoc fds)
ppr_semi decl = ppr decl <> semi
= hsep [ pprHsContext context, ppr thing
, hsep (map (pprParendHsType.unLoc) typats)]
+pp_condecls :: OutputableBndr name => [LConDecl name] -> SDoc
pp_condecls cs@(L _ ConDecl{ con_res = ResTyGADT _ } : _) -- In GADT syntax
- = hang (ptext SLIT("where")) 2 (vcat (map ppr cs))
+ = hang (ptext (sLit "where")) 2 (vcat (map ppr cs))
pp_condecls cs -- In H98 syntax
- = equals <+> sep (punctuate (ptext SLIT(" |")) (map ppr cs))
+ = equals <+> sep (punctuate (ptext (sLit " |")) (map ppr cs))
-pp_tydecl True pp_head pp_decl_rhs derivings
+pp_tydecl :: OutputableBndr name => Bool -> SDoc -> SDoc -> Maybe [LHsType name] -> SDoc
+pp_tydecl True pp_head _ _
= pp_head
pp_tydecl False pp_head pp_decl_rhs derivings
= hang pp_head 4 (sep [
pp_decl_rhs,
case derivings of
Nothing -> empty
- Just ds -> hsep [ptext SLIT("deriving"), parens (interpp'SP ds)]
+ Just ds -> hsep [ptext (sLit "deriving"), parens (interpp'SP ds)]
])
instance Outputable NewOrData where
- ppr NewType = ptext SLIT("newtype")
- ppr DataType = ptext SLIT("data")
+ ppr NewType = ptext (sLit "newtype")
+ ppr DataType = ptext (sLit "data")
\end{code}
data ConDecl name
= ConDecl
- { con_name :: Located name -- Constructor name; this is used for the
- -- DataCon itself, and for the user-callable wrapper Id
-
- , con_explicit :: HsExplicitForAll -- Is there an user-written forall? (cf. HStypes.HsForAllTy)
-
- , con_qvars :: [LHsTyVarBndr name] -- ResTyH98: the constructor's existential type variables
- -- ResTyGADT: all the constructor's quantified type variables
-
- , con_cxt :: LHsContext name -- The context. This *does not* include the
- -- "stupid theta" which lives only in the TyData decl
+ { con_name :: Located name
+ -- ^ Constructor name. This is used for the DataCon itself, and for
+ -- the user-callable wrapper Id.
+
+ , con_explicit :: HsExplicitForAll
+ -- ^ Is there an user-written forall? (cf. 'HsTypes.HsForAllTy')
+
+ , con_qvars :: [LHsTyVarBndr name]
+ -- ^ Type variables. Depending on 'con_res' this describes the
+ -- follewing entities
+ --
+ -- - ResTyH98: the constructor's *existential* type variables
+ -- - ResTyGADT: *all* the constructor's quantified type variables
+
+ , con_cxt :: LHsContext name
+ -- ^ The context. This /does not/ include the \"stupid theta\" which
+ -- lives only in the 'TyData' decl.
+
+ , con_details :: HsConDeclDetails name
+ -- ^ The main payload
+
+ , con_res :: ResType name
+ -- ^ Result type of the constructor
+
+ , con_doc :: Maybe LHsDocString
+ -- ^ A possible Haddock comment.
+
+ , con_old_rec :: Bool
+ -- ^ TEMPORARY field; True <=> user has employed now-deprecated syntax for
+ -- GADT-style record decl C { blah } :: T a b
+ -- Remove this when we no longer parse this stuff, and hence do not
+ -- need to report decprecated use
+ }
- , con_details :: HsConDetails name (LBangType name) -- The main payload
+type HsConDeclDetails name = HsConDetails (LBangType name) [ConDeclField name]
- , con_res :: ResType name -- Result type of the constructor
-
- , con_doc :: Maybe (LHsDoc name) -- A possible Haddock comment
- }
+hsConDeclArgTys :: HsConDeclDetails name -> [LBangType name]
+hsConDeclArgTys (PrefixCon tys) = tys
+hsConDeclArgTys (InfixCon ty1 ty2) = [ty1,ty2]
+hsConDeclArgTys (RecCon flds) = map cd_fld_type flds
data ResType name
= ResTyH98 -- Constructor was declared using Haskell 98 syntax
| ResTyGADT (LHsType name) -- Constructor was declared using GADT-style syntax,
-- and here is its result type
+
+instance OutputableBndr name => Outputable (ResType name) where
+ -- Debugging only
+ ppr ResTyH98 = ptext (sLit "ResTyH98")
+ ppr (ResTyGADT ty) = ptext (sLit "ResTyGADT") <+> pprParendHsType (unLoc ty)
\end{code}
\begin{code}
-conDeclsNames :: Eq name => [ConDecl name] -> [Located name]
+hsConDeclsNames :: (Eq name) => [LConDecl name] -> [Located name]
-- See tyClDeclNames for what this does
-- The function is boringly complicated because of the records
-- And since we only have equality, we have to be a little careful
-conDeclsNames cons
+hsConDeclsNames cons
= snd (foldl do_one ([], []) cons)
where
- do_one (flds_seen, acc) (ConDecl { con_name = lname, con_details = RecCon flds })
- = (map unLoc new_flds ++ flds_seen, lname : [f | f <- new_flds] ++ acc)
+ do_one (flds_seen, acc) (L _ (ConDecl { con_name = lname, con_details = RecCon flds }))
+ = (map unLoc new_flds ++ flds_seen, lname : new_flds ++ acc)
where
- new_flds = [ f | (HsRecField f _ _) <- flds, not (unLoc f `elem` flds_seen) ]
+ new_flds = filterOut (\f -> unLoc f `elem` flds_seen)
+ (map cd_fld_name flds)
- do_one (flds_seen, acc) c
- = (flds_seen, (con_name c):acc)
-
-conDetailsTys details = map getBangType (hsConArgs details)
+ do_one (flds_seen, acc) (L _ (ConDecl { con_name = lname }))
+ = (flds_seen, lname:acc)
\end{code}
instance (OutputableBndr name) => Outputable (ConDecl name) where
ppr = pprConDecl
-pprConDecl (ConDecl con expl tvs cxt details ResTyH98 doc)
+pprConDecl :: OutputableBndr name => ConDecl name -> SDoc
+pprConDecl (ConDecl { con_name =con, con_explicit = expl, con_qvars = tvs
+ , con_cxt = cxt, con_details = details
+ , con_res = ResTyH98, con_doc = doc })
= sep [ppr_mbDoc doc, pprHsForAll expl tvs cxt, ppr_details con details]
where
- ppr_details con (InfixCon t1 t2) = hsep [ppr t1, pprHsVar con, ppr t2]
+ ppr_details con (InfixCon t1 t2) = hsep [ppr t1, pprHsInfix con, ppr t2]
ppr_details con (PrefixCon tys) = hsep (pprHsVar con : map ppr tys)
- ppr_details con (RecCon fields) = ppr con <+> ppr_fields fields
+ ppr_details con (RecCon fields) = ppr con <+> pprConDeclFields fields
-pprConDecl (ConDecl con expl tvs cxt (PrefixCon arg_tys) (ResTyGADT res_ty) _)
+pprConDecl (ConDecl { con_name = con, con_explicit = expl, con_qvars = tvs
+ , con_cxt = cxt, con_details = PrefixCon arg_tys
+ , con_res = ResTyGADT res_ty })
= ppr con <+> dcolon <+>
sep [pprHsForAll expl tvs cxt, ppr (foldr mk_fun_ty res_ty arg_tys)]
where
mk_fun_ty a b = noLoc (HsFunTy a b)
-pprConDecl (ConDecl con expl tvs cxt (RecCon fields) (ResTyGADT res_ty) _)
- = sep [pprHsForAll expl tvs cxt, ppr con <+> ppr_fields fields <+> dcolon <+> ppr res_ty]
+pprConDecl (ConDecl { con_name = con, con_explicit = expl, con_qvars = tvs
+ , con_cxt = cxt, con_details = RecCon fields, con_res = ResTyGADT res_ty })
+ = sep [ppr con <+> dcolon <+> pprHsForAll expl tvs cxt,
+ pprConDeclFields fields <+> arrow <+> ppr res_ty]
-ppr_fields fields = braces (sep (punctuate comma (map ppr fields)))
+pprConDecl (ConDecl {con_name = con, con_details = InfixCon {}, con_res = ResTyGADT {} })
+ = pprPanic "pprConDecl" (ppr con)
+ -- In GADT syntax we don't allow infix constructors
\end{code}
%************************************************************************
instance (OutputableBndr name) => Outputable (InstDecl name) where
ppr (InstDecl inst_ty binds uprags ats)
- = vcat [hsep [ptext SLIT("instance"), ppr inst_ty, ptext SLIT("where")],
- nest 4 (ppr ats),
- nest 4 (ppr uprags),
- nest 4 (pprLHsBinds binds) ]
+ = vcat [hsep [ptext (sLit "instance"), ppr inst_ty, ptext (sLit "where")]
+ , nest 4 $ vcat (map ppr ats)
+ , nest 4 $ vcat (map ppr uprags)
+ , nest 4 $ pprLHsBinds binds ]
-- Extract the declarations of associated types from an instance
--
instance (OutputableBndr name) => Outputable (DerivDecl name) where
ppr (DerivDecl ty)
- = hsep [ptext SLIT("derived instance"), ppr ty]
+ = hsep [ptext (sLit "deriving instance"), ppr ty]
\end{code}
%************************************************************************
=> Outputable (DefaultDecl name) where
ppr (DefaultDecl tys)
- = ptext SLIT("default") <+> parens (interpp'SP tys)
+ = ptext (sLit "default") <+> parens (interpp'SP tys)
\end{code}
%************************************************************************
CImport CCallConv -- ccall or stdcall
Safety -- safe or unsafe
FastString -- name of C header
- FastString -- name of library object
CImportSpec -- details of the C entity
- -- import of a .NET function
- --
- | DNImport DNCallSpec
-
-- details of an external C entity
--
data CImportSpec = CLabel CLabelString -- import address of a C label
-- convention
--
data ForeignExport = CExport CExportSpec -- contains the calling convention
- | DNExport -- presently unused
-
--- abstract type imported from .NET
---
-data FoType = DNType -- In due course we'll add subtype stuff
- deriving (Eq) -- Used for equality instance for TyClDecl
-
-- pretty printing of foreign declarations
--
instance OutputableBndr name => Outputable (ForeignDecl name) where
ppr (ForeignImport n ty fimport) =
- ptext SLIT("foreign import") <+> ppr fimport <+>
- ppr n <+> dcolon <+> ppr ty
+ hang (ptext (sLit "foreign import") <+> ppr fimport <+> ppr n)
+ 2 (dcolon <+> ppr ty)
ppr (ForeignExport n ty fexport) =
- ptext SLIT("foreign export") <+> ppr fexport <+>
- ppr n <+> dcolon <+> ppr ty
+ hang (ptext (sLit "foreign export") <+> ppr fexport <+> ppr n)
+ 2 (dcolon <+> ppr ty)
instance Outputable ForeignImport where
- ppr (DNImport spec) =
- ptext SLIT("dotnet") <+> ppr spec
- ppr (CImport cconv safety header lib spec) =
+ ppr (CImport cconv safety header spec) =
ppr cconv <+> ppr safety <+>
- char '"' <> pprCEntity header lib spec <> char '"'
+ char '"' <> pprCEntity spec <> char '"'
where
- pprCEntity header lib (CLabel lbl) =
- ptext SLIT("static") <+> ftext header <+> char '&' <>
- pprLib lib <> ppr lbl
- pprCEntity header lib (CFunction (StaticTarget lbl)) =
- ptext SLIT("static") <+> ftext header <+> char '&' <>
- pprLib lib <> ppr lbl
- pprCEntity header lib (CFunction (DynamicTarget)) =
- ptext SLIT("dynamic")
- pprCEntity _ _ (CWrapper) = ptext SLIT("wrapper")
- --
- pprLib lib | nullFS lib = empty
- | otherwise = char '[' <> ppr lib <> char ']'
+ pp_hdr = if nullFS header then empty else ftext header
+
+ pprCEntity (CLabel lbl) =
+ ptext (sLit "static") <+> pp_hdr <+> char '&' <> ppr lbl
+ pprCEntity (CFunction (StaticTarget lbl)) =
+ ptext (sLit "static") <+> pp_hdr <+> ppr lbl
+ pprCEntity (CFunction (DynamicTarget)) =
+ ptext (sLit "dynamic")
+ pprCEntity (CWrapper) = ptext (sLit "wrapper")
instance Outputable ForeignExport where
ppr (CExport (CExportStatic lbl cconv)) =
ppr cconv <+> char '"' <> ppr lbl <> char '"'
- ppr (DNExport ) =
- ptext SLIT("dotnet") <+> ptext SLIT("\"<unused>\"")
-
-instance Outputable FoType where
- ppr DNType = ptext SLIT("type dotnet")
\end{code}
collectRuleBndrSigTys bndrs = [ty | RuleBndrSig _ ty <- bndrs]
instance OutputableBndr name => Outputable (RuleDecl name) where
- ppr (HsRule name act ns lhs fv_lhs rhs fv_rhs)
+ ppr (HsRule name act ns lhs _fv_lhs rhs _fv_rhs)
= sep [text "{-# RULES" <+> doubleQuotes (ftext name) <+> ppr act,
nest 4 (pp_forall <+> pprExpr (unLoc lhs)),
nest 4 (equals <+> pprExpr (unLoc rhs) <+> text "#-}") ]
\begin{code}
-type LDocDecl name = Located (DocDecl name)
+type LDocDecl = Located (DocDecl)
-data DocDecl name
- = DocCommentNext (HsDoc name)
- | DocCommentPrev (HsDoc name)
- | DocCommentNamed String (HsDoc name)
- | DocGroup Int (HsDoc name)
+data DocDecl
+ = DocCommentNext HsDocString
+ | DocCommentPrev HsDocString
+ | DocCommentNamed String HsDocString
+ | DocGroup Int HsDocString
-- Okay, I need to reconstruct the document comments, but for now:
-instance Outputable (DocDecl name) where
+instance Outputable DocDecl where
ppr _ = text "<document comment>"
+docDeclDoc :: DocDecl -> HsDocString
docDeclDoc (DocCommentNext d) = d
docDeclDoc (DocCommentPrev d) = d
docDeclDoc (DocCommentNamed _ d) = d
We use exported entities for things to deprecate.
\begin{code}
-type LDeprecDecl name = Located (DeprecDecl name)
+type LWarnDecl name = Located (WarnDecl name)
-data DeprecDecl name = Deprecation name DeprecTxt
+data WarnDecl name = Warning name WarningTxt
-instance OutputableBndr name => Outputable (DeprecDecl name) where
- ppr (Deprecation thing txt)
+instance OutputableBndr name => Outputable (WarnDecl name) where
+ ppr (Warning thing txt)
= hsep [text "{-# DEPRECATED", ppr thing, doubleQuotes (ppr txt), text "#-}"]
\end{code}
+
+%************************************************************************
+%* *
+\subsection[AnnDecl]{Annotations}
+%* *
+%************************************************************************
+
+\begin{code}
+type LAnnDecl name = Located (AnnDecl name)
+
+data AnnDecl name = HsAnnotation (AnnProvenance name) (Located (HsExpr name))
+
+instance (OutputableBndr name) => Outputable (AnnDecl name) where
+ ppr (HsAnnotation provenance expr)
+ = hsep [text "{-#", pprAnnProvenance provenance, pprExpr (unLoc expr), text "#-}"]
+
+
+data AnnProvenance name = ValueAnnProvenance name
+ | TypeAnnProvenance name
+ | ModuleAnnProvenance
+
+annProvenanceName_maybe :: AnnProvenance name -> Maybe name
+annProvenanceName_maybe (ValueAnnProvenance name) = Just name
+annProvenanceName_maybe (TypeAnnProvenance name) = Just name
+annProvenanceName_maybe ModuleAnnProvenance = Nothing
+
+-- TODO: Replace with Traversable instance when GHC bootstrap version rises high enough
+modifyAnnProvenanceNameM :: Monad m => (before -> m after) -> AnnProvenance before -> m (AnnProvenance after)
+modifyAnnProvenanceNameM fm prov =
+ case prov of
+ ValueAnnProvenance name -> liftM ValueAnnProvenance (fm name)
+ TypeAnnProvenance name -> liftM TypeAnnProvenance (fm name)
+ ModuleAnnProvenance -> return ModuleAnnProvenance
+
+pprAnnProvenance :: OutputableBndr name => AnnProvenance name -> SDoc
+pprAnnProvenance ModuleAnnProvenance = ptext (sLit "ANN module")
+pprAnnProvenance (ValueAnnProvenance name) = ptext (sLit "ANN") <+> ppr name
+pprAnnProvenance (TypeAnnProvenance name) = ptext (sLit "ANN type") <+> ppr name
+\end{code}
projects / ghc-hetmet.git / blobdiff