module Language.Haskell.Names.SyntaxUtils
( dropAnn
, setAnn
, annName
, nameQualification
, getModuleName
, getImports
, getExportSpecList
, getDeclHead
, getDeclHeadName
, getModuleDecls
, isTypeDecl
, opName
, isCon
, nameToString
, stringToName
, specialConToString
, qNameToName
, nameToQName
, unCName
, getErrors
, getModuleExtensions
) where
import Prelude hiding (concatMap)
import Data.Char
import Data.Either
import Data.Foldable hiding (elem)
import qualified Data.Set as Set
import qualified Language.Haskell.Exts as UnAnn
import Language.Haskell.Exts.Annotated
import Language.Haskell.Names.Types
dropAnn :: (Functor a) => a l -> a ()
dropAnn = fmap (const ())
setAnn :: (Functor a) => l' -> a l -> a l'
setAnn l = fmap (const l)
annName :: UnAnn.Name -> Name ()
annName (UnAnn.Ident n) = Ident () n
annName (UnAnn.Symbol n) = Symbol () n
nameQualification :: QName l -> Maybe UnAnn.ModuleName
nameQualification (UnQual _ _) =
Nothing
nameQualification (Special _ _) =
Nothing
nameQualification (Qual _ (ModuleName _ moduleName) _) =
Just (UnAnn.ModuleName moduleName)
getModuleName :: Module l -> ModuleName l
getModuleName (Module _ (Just (ModuleHead _ mn _ _)) _ _ _) = mn
getModuleName (XmlPage _ mn _ _ _ _ _) = mn
getModuleName (XmlHybrid _ (Just (ModuleHead _ mn _ _)) _ _ _ _ _ _ _) = mn
getModuleName m = main_mod (ann m)
getImports :: Module l -> [ImportDecl l]
getImports (Module _ _ _ is _) = is
getImports (XmlPage _ _ _ _ _ _ _) = []
getImports (XmlHybrid _ _ _ is _ _ _ _ _) = is
getModuleDecls :: Module l -> [Decl l]
getModuleDecls (Module _ _ _ _ ds) = ds
getModuleDecls (XmlPage _ _ _ _ _ _ _) = []
getModuleDecls (XmlHybrid _ _ _ _ ds _ _ _ _) = ds
getExportSpecList :: Module l -> Maybe (ExportSpecList l)
getExportSpecList m = me where ModuleHead _ _ _ me = getModuleHead m
getModuleHead :: Module l -> ModuleHead l
getModuleHead (Module _ (Just mh) _ _ _) = mh
getModuleHead (XmlHybrid _ (Just mh) _ _ _ _ _ _ _) = mh
getModuleHead m = ModuleHead l (main_mod l) Nothing (Just (ExportSpecList l [EVar l (UnQual l (Ident l "main"))]))
where l = ann m
qNameToName :: QName l -> Name l
qNameToName (UnQual _ n) = n
qNameToName (Qual _ _ n) = n
qNameToName (Special l s) = Ident l (specialConToString s)
nameToQName :: Name l -> QName l
nameToQName n = UnQual (ann n) n
getDeclHead :: Decl l -> Maybe (DeclHead l)
getDeclHead (TypeDecl _ dhead _) = Just dhead
getDeclHead (TypeFamDecl _ dhead _) = Just dhead
getDeclHead (DataDecl _ _ _ dhead _ _) = Just dhead
getDeclHead (GDataDecl _ _ _ dhead _ _ _) = Just dhead
getDeclHead (DataFamDecl _ _ dhead _) = Just dhead
getDeclHead (ClassDecl _ _ dhead _ _) = Just dhead
getDeclHead _ = Nothing
getDeclHeadName :: DeclHead l -> Name l
getDeclHeadName dh =
case dh of
DHead _ n -> n
DHInfix _ _ n -> n
DHParen _ dh' -> getDeclHeadName dh'
DHApp _ dh' _ -> getDeclHeadName dh'
isTypeDecl :: Decl l -> Bool
isTypeDecl (TypeDecl _ _ _) = True
isTypeDecl (TypeFamDecl _ _ _) = True
isTypeDecl (DataDecl _ _ _ _ _ _) = True
isTypeDecl (GDataDecl _ _ _ _ _ _ _) = True
isTypeDecl (DataFamDecl _ _ _ _) = True
isTypeDecl _ = False
opName :: Op l -> Name l
opName (VarOp _ n) = n
opName (ConOp _ n) = n
isCon :: Name l -> Bool
isCon (Ident _ (c:_)) = isUpper c
isCon (Symbol _ (':':_)) = True
isCon _ = False
nameToString :: Name l -> String
nameToString (Ident _ s) = s
nameToString (Symbol _ s) = s
stringToName :: String -> Name ()
stringToName s@(c:_) | isHSymbol c = Symbol () s
stringToName s = Ident () s
isHSymbol :: Char -> Bool
isHSymbol c =
c `elem` ":!#%&*./?@\\-" ||
((isSymbol c || isPunctuation c) && not (c `elem` "(),;[]`{}_\"'"))
specialConToString :: SpecialCon l -> String
specialConToString (UnitCon _) = "()"
specialConToString (ListCon _) = "[]"
specialConToString (FunCon _) = "->"
specialConToString (TupleCon _ Boxed n) = replicate (n1) ','
specialConToString (TupleCon _ Unboxed n) = '#':replicate (n1) ','
specialConToString (Cons _) = ":"
specialConToString (UnboxedSingleCon _) = "#"
unCName :: CName l -> Name l
unCName (VarName _ n) = n
unCName (ConName _ n) = n
getErrors :: (Ord l, Foldable a) => a (Scoped l) -> Set.Set (Error l)
getErrors = foldl' f Set.empty
where
f errors (Scoped (ScopeError e) _) = Set.insert e errors
f errors _ = errors
getModuleExtensions :: Module l -> (Maybe Language, [Extension])
getModuleExtensions mod =
let
names =
[ name
| let
pragmas =
case mod of
Module _ _ pragmas _ _ -> pragmas
XmlPage _ _ pragmas _ _ _ _ -> pragmas
XmlHybrid _ _ pragmas _ _ _ _ _ _ -> pragmas
, LanguagePragma _ names <- pragmas
, Ident _ name <- names
]
classified :: [Either Language Extension]
classified =
flip map names $ \name ->
case (parseExtension name, classifyLanguage name) of
(e, UnknownLanguage {}) -> Right e
(_, l) -> Left l
(langs, exts) = partitionEithers classified
in
(if null langs then Nothing else Just $ last langs, exts)