485 lines
21 KiB
Haskell
485 lines
21 KiB
Haskell
{-# LANGUAGE CPP, MultiParamTypeClasses, FunctionalDependencies #-}
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{-# LANGUAGE FlexibleInstances #-}
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module Language.Haskell.GhcMod.FillSig (
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sig
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, refine
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, auto
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) where
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import Data.Char (isSymbol)
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import Data.Function (on)
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import Data.List (find, nub, sortBy)
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import qualified Data.Map as M
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import Data.Maybe (isJust, catMaybes)
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import Exception (ghandle, SomeException(..))
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import GHC (GhcMonad, Id, ParsedModule(..), TypecheckedModule(..), DynFlags,
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SrcSpan, Type, GenLocated(L))
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import qualified GHC as G
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import qualified Name as G
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import qualified Language.Haskell.GhcMod.Gap as Gap
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import Language.Haskell.GhcMod.Convert
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import Language.Haskell.GhcMod.Monad
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import Language.Haskell.GhcMod.SrcUtils
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import Language.Haskell.GhcMod.Types
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import Outputable (PprStyle)
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import qualified Type as Ty
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import qualified HsBinds as Ty
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import qualified Class as Ty
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import qualified Var as Ty
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import qualified HsPat as Ty
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import qualified Language.Haskell.Exts.Annotated as HE
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import Djinn.GHC
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----------------------------------------------------------------
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-- INTIAL CODE FROM FUNCTION OR INSTANCE SIGNATURE
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----------------------------------------------------------------
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-- Possible signatures we can find: function or instance
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data SigInfo
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= Signature SrcSpan [G.RdrName] (G.HsType G.RdrName)
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| InstanceDecl SrcSpan G.Class
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| TyFamDecl SrcSpan G.RdrName TyFamType {- True if closed -} [G.RdrName]
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-- Signature for fallback operation via haskell-src-exts
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data HESigInfo
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= HESignature HE.SrcSpan [HE.Name HE.SrcSpanInfo] (HE.Type HE.SrcSpanInfo)
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| HEFamSignature
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HE.SrcSpan
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TyFamType
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(HE.Name HE.SrcSpanInfo)
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[HE.Name HE.SrcSpanInfo]
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data TyFamType = Closed | Open | Data
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initialTyFamString :: TyFamType -> (String, String)
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initialTyFamString Closed = ("instance", "")
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initialTyFamString Open = ("function", "type instance ")
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initialTyFamString Data = ("function", "data instance ")
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-- | Create a initial body from a signature.
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sig :: IOish m
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=> FilePath -- ^ A target file.
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-> Int -- ^ Line number.
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-> Int -- ^ Column number.
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-> GhcModT m String
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sig file lineNo colNo = ghandle handler body
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where
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body = inModuleContext file $ \dflag style -> do
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opt <- options
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modSum <- Gap.fileModSummary file
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whenFound opt (getSignature modSum lineNo colNo) $ \s -> case s of
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Signature loc names ty ->
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("function", fourInts loc, map (initialBody dflag style ty) names)
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InstanceDecl loc cls ->
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("instance", fourInts loc, map (\x -> initialBody dflag style (G.idType x) x)
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(Ty.classMethods cls))
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TyFamDecl loc name flavour vars ->
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let (rTy, initial) = initialTyFamString flavour
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in (rTy, fourInts loc, [initial ++ initialFamBody dflag style name vars])
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handler (SomeException _) = do
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opt <- options
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-- Code cannot be parsed by ghc module
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-- Fallback: try to get information via haskell-src-exts
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whenFound opt (getSignatureFromHE file lineNo colNo) $ \x -> case x of
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HESignature loc names ty ->
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("function", fourIntsHE loc, map (initialBody undefined undefined ty) names)
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HEFamSignature loc flavour name vars ->
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let (rTy, initial) = initialTyFamString flavour
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in (rTy, fourIntsHE loc, [initial ++ initialFamBody undefined undefined name vars])
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----------------------------------------------------------------
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-- a. Code for getting the information
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-- Get signature from ghc parsing and typechecking
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getSignature :: GhcMonad m => G.ModSummary -> Int -> Int -> m (Maybe SigInfo)
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getSignature modSum lineNo colNo = do
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p@ParsedModule{pm_parsed_source = ps} <- G.parseModule modSum
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-- Inspect the parse tree to find the signature
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case listifyParsedSpans ps (lineNo, colNo) :: [G.LHsDecl G.RdrName] of
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[L loc (G.SigD (Ty.TypeSig names (L _ ty)))] ->
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-- We found a type signature
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return $ Just $ Signature loc (map G.unLoc names) ty
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[L _ (G.InstD _)] -> do
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-- We found an instance declaration
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TypecheckedModule{tm_renamed_source = Just tcs
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,tm_checked_module_info = minfo} <- G.typecheckModule p
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let lst = listifyRenamedSpans tcs (lineNo, colNo)
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case Gap.getClass lst of
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Just (clsName,loc) -> obtainClassInfo minfo clsName loc
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_ -> return Nothing
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#if __GLASGOW_HASKELL__ >= 708
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[L loc (G.TyClD (G.FamDecl (G.FamilyDecl info (L _ name) (G.HsQTvs _ vars) _)))] -> do
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#elif __GLASGOW_HASKELL__ >= 706
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[L loc (G.TyClD (G.TyFamily info (L _ name) (G.HsQTvs _ vars) _))] -> do
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#else
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[L loc (G.TyClD (G.TyFamily info (L _ name) vars _))] -> do
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#endif
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#if __GLASGOW_HASKELL__ >= 708
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let flavour = case info of
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G.ClosedTypeFamily _ -> Closed
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G.OpenTypeFamily -> Open
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G.DataFamily -> Data
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#else
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let flavour = case info of -- Closed type families where introduced in GHC 7.8
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G.TypeFamily -> Open
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G.DataFamily -> Data
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#endif
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#if __GLASGOW_HASKELL__ >= 706
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getTyFamVarName x = case x of
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L _ (G.UserTyVar n) -> n
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L _ (G.KindedTyVar n _) -> n
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#else
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getTyFamVarName x = case x of -- In GHC 7.4, HsTyVarBndr's have an extra arg
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L _ (G.UserTyVar n _) -> n
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L _ (G.KindedTyVar n _ _) -> n
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#endif
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in return $ Just (TyFamDecl loc name flavour $ map getTyFamVarName vars)
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_ -> return Nothing
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where obtainClassInfo :: GhcMonad m => G.ModuleInfo -> G.Name -> SrcSpan -> m (Maybe SigInfo)
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obtainClassInfo minfo clsName loc = do
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tyThing <- G.modInfoLookupName minfo clsName
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return $ do Ty.ATyCon clsCon <- tyThing -- In Maybe
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cls <- G.tyConClass_maybe clsCon
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return $ InstanceDecl loc cls
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-- Get signature from haskell-src-exts
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getSignatureFromHE :: GhcMonad m => FilePath -> Int -> Int -> m (Maybe HESigInfo)
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getSignatureFromHE file lineNo colNo = do
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presult <- liftIO $ HE.parseFile file
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return $ case presult of
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HE.ParseOk (HE.Module _ _ _ _ mdecls) -> do
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decl <- find (typeSigInRangeHE lineNo colNo) mdecls
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case decl of
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HE.TypeSig (HE.SrcSpanInfo s _) names ty ->
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return $ HESignature s names ty
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HE.TypeFamDecl (HE.SrcSpanInfo s _) declHead _ ->
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let (name, tys) = dHeadTyVars declHead in
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return $ HEFamSignature s Open name (map cleanTyVarBind tys)
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HE.DataFamDecl (HE.SrcSpanInfo s _) _ declHead _ ->
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let (name, tys) = dHeadTyVars declHead in
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return $ HEFamSignature s Open name (map cleanTyVarBind tys)
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_ -> fail ""
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_ -> Nothing
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where cleanTyVarBind (HE.KindedVar _ n _) = n
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cleanTyVarBind (HE.UnkindedVar _ n) = n
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#if MIN_VERSION_haskell_src_exts(1,16,0)
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dHeadTyVars :: HE.DeclHead l -> (HE.Name l, [HE.TyVarBind l])
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dHeadTyVars (HE.DHead _ name) = (name, [])
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dHeadTyVars (HE.DHApp _ r ty) = (++[ty]) `fmap` (dHeadTyVars r)
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dHeadTyVars (HE.DHInfix _ ty name) = (name, [ty])
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dHeadTyVars (HE.DHParen _ r) = dHeadTyVars r
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#else
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dHeadTyVars :: HE.DeclHead l -> (HE.Name l, [HE.TyVarBind l])
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dHeadTyVars (HE.DHead _ n tys) = (n, tys)
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#endif
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----------------------------------------------------------------
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-- b. Code for generating initial code
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-- A list of function arguments, and whether they are functions or normal
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-- arguments is built from either a function signature or an instance signature
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data FnArg = FnArgFunction | FnArgNormal | FnExplicitName String
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initialBody :: FnArgsInfo ty name => DynFlags -> PprStyle -> ty -> name -> String
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initialBody dflag style ty name =
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initialBody' (getFnName dflag style name) (getFnArgs ty)
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initialBody' :: String -> [FnArg] -> String
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initialBody' fname args =
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initialHead fname args ++ " = " ++ n ++ "_body"
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where n = if isSymbolName fname then "" else '_':fname
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initialFamBody :: FnArgsInfo ty name
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=> DynFlags -> PprStyle -> name -> [name] -> String
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initialFamBody dflag style name args =
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initialHead fnName fnArgs ++ " = ()"
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where fnName = getFnName dflag style name
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fnArgs = map (FnExplicitName . getFnName dflag style) args
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initialHead :: String -> [FnArg] -> String
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initialHead fname args =
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case initialBodyArgs args infiniteVars infiniteFns of
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[] -> fname
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arglist -> if isSymbolName fname
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then head arglist ++ " " ++ fname ++ " " ++ unwords (tail arglist)
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else fname ++ " " ++ unwords arglist
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initialBodyArgs :: [FnArg] -> [String] -> [String] -> [String]
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initialBodyArgs [] _ _ = []
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initialBodyArgs (FnArgFunction:xs) vs (f:fs) = f : initialBodyArgs xs vs fs
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initialBodyArgs (FnArgNormal:xs) (v:vs) fs = v : initialBodyArgs xs vs fs
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initialBodyArgs (FnExplicitName n:xs) vs fs = n : initialBodyArgs xs vs fs
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initialBodyArgs _ _ _ =
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error "initialBodyArgs: This should never happen" -- Lists are infinite
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initialHead1 :: String -> [FnArg] -> [String] -> String
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initialHead1 fname args elts =
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case initialBodyArgs1 args elts of
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[] -> fname
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arglist -> if isSymbolName fname
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then head arglist ++ " " ++ fname ++ " " ++ unwords (tail arglist)
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else fname ++ " " ++ unwords arglist
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initialBodyArgs1 :: [FnArg] -> [String] -> [String]
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initialBodyArgs1 args elts = take (length args) elts
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-- Getting the initial body of function and instances differ
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-- This is because for functions we only use the parsed file
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-- (so the full file doesn't have to be type correct)
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-- but for instances we need to get information about the class
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class FnArgsInfo ty name | ty -> name, name -> ty where
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getFnName :: DynFlags -> PprStyle -> name -> String
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getFnArgs :: ty -> [FnArg]
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instance FnArgsInfo (G.HsType G.RdrName) (G.RdrName) where
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getFnName dflag style name = showOccName dflag style $ Gap.occName name
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getFnArgs (G.HsForAllTy _ _ _ (L _ iTy)) = getFnArgs iTy
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getFnArgs (G.HsParTy (L _ iTy)) = getFnArgs iTy
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getFnArgs (G.HsFunTy (L _ lTy) (L _ rTy)) =
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(if fnarg lTy then FnArgFunction else FnArgNormal):getFnArgs rTy
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where fnarg ty = case ty of
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(G.HsForAllTy _ _ _ (L _ iTy)) -> fnarg iTy
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(G.HsParTy (L _ iTy)) -> fnarg iTy
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(G.HsFunTy _ _) -> True
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_ -> False
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getFnArgs _ = []
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instance FnArgsInfo (HE.Type HE.SrcSpanInfo) (HE.Name HE.SrcSpanInfo) where
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getFnName _ _ (HE.Ident _ s) = s
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getFnName _ _ (HE.Symbol _ s) = s
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getFnArgs (HE.TyForall _ _ _ iTy) = getFnArgs iTy
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getFnArgs (HE.TyParen _ iTy) = getFnArgs iTy
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getFnArgs (HE.TyFun _ lTy rTy) =
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(if fnarg lTy then FnArgFunction else FnArgNormal):getFnArgs rTy
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where fnarg ty = case ty of
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(HE.TyForall _ _ _ iTy) -> fnarg iTy
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(HE.TyParen _ iTy) -> fnarg iTy
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(HE.TyFun _ _ _) -> True
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_ -> False
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getFnArgs _ = []
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instance FnArgsInfo Type Id where
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getFnName dflag style method = showOccName dflag style $ G.getOccName method
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getFnArgs = getFnArgs' . Ty.dropForAlls
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where getFnArgs' ty | Just (lTy,rTy) <- Ty.splitFunTy_maybe ty =
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maybe (if Ty.isPredTy lTy then getFnArgs' rTy else FnArgNormal:getFnArgs' rTy)
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(\_ -> FnArgFunction:getFnArgs' rTy)
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$ Ty.splitFunTy_maybe lTy
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getFnArgs' ty | Just (_,iTy) <- Ty.splitForAllTy_maybe ty =
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getFnArgs' iTy
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getFnArgs' _ = []
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-- Infinite supply of variable and function variable names
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infiniteVars, infiniteFns :: [String]
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infiniteVars = infiniteSupply ["x","y","z","t","u","v","w"]
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infiniteFns = infiniteSupply ["f","g","h"]
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infiniteSupply :: [String] -> [String]
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infiniteSupply initialSupply =
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initialSupply ++ concatMap (\n -> map (\v -> v ++ show n) initialSupply)
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([1 .. ] :: [Integer])
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-- Check whether a String is a symbol name
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isSymbolName :: String -> Bool
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isSymbolName (c:_) = c `elem` "!#$%&*+./<=>?@\\^|-~" || isSymbol c
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isSymbolName [] = error "This should never happen"
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----------------------------------------------------------------
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-- REWRITE A HOLE / UNDEFINED VIA A FUNCTION
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----------------------------------------------------------------
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refine :: IOish m
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=> FilePath -- ^ A target file.
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-> Int -- ^ Line number.
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-> Int -- ^ Column number.
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-> Expression -- ^ A Haskell expression.
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-> GhcModT m String
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refine file lineNo colNo expr = ghandle handler body
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where
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body = inModuleContext file $ \dflag style -> do
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opt <- options
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modSum <- Gap.fileModSummary file
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p <- G.parseModule modSum
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tcm@TypecheckedModule{tm_typechecked_source = tcs} <- G.typecheckModule p
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ety <- G.exprType expr
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whenFound opt (findVar dflag style tcm tcs lineNo colNo) $
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\(loc, name, rty, paren) ->
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let eArgs = getFnArgs ety
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rArgs = getFnArgs rty
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diffArgs' = length eArgs - length rArgs
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diffArgs = if diffArgs' < 0 then 0 else diffArgs'
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iArgs = take diffArgs eArgs
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text = initialHead1 expr iArgs (infinitePrefixSupply name)
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in (fourInts loc, doParen paren text)
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handler (SomeException _) = emptyResult =<< options
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-- Look for the variable in the specified position
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findVar :: GhcMonad m => DynFlags -> PprStyle
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-> G.TypecheckedModule -> G.TypecheckedSource
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-> Int -> Int -> m (Maybe (SrcSpan, String, Type, Bool))
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findVar dflag style tcm tcs lineNo colNo =
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let lst = sortBy (cmp `on` G.getLoc) $
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listifySpans tcs (lineNo, colNo) :: [G.LHsExpr Id]
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in case lst of
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e@(L _ (G.HsVar i)):others ->
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do tyInfo <- Gap.getType tcm e
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let name = getFnName dflag style i
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if (name == "undefined" || head name == '_') && isJust tyInfo
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then let Just (s,t) = tyInfo
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b = case others of -- If inside an App, we need
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-- parenthesis
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[] -> False
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L _ (G.HsApp (L _ a1) (L _ a2)):_ ->
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isSearchedVar i a1 || isSearchedVar i a2
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_ -> False
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in return $ Just (s, name, t, b)
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else return Nothing
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_ -> return Nothing
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infinitePrefixSupply :: String -> [String]
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infinitePrefixSupply "undefined" = repeat "undefined"
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infinitePrefixSupply p = map (\n -> p ++ "_" ++ show n) ([1 ..] :: [Integer])
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doParen :: Bool -> String -> String
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doParen False s = s
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doParen True s = if ' ' `elem` s then '(':s ++ ")" else s
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isSearchedVar :: Id -> G.HsExpr Id -> Bool
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isSearchedVar i (G.HsVar i2) = i == i2
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isSearchedVar _ _ = False
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----------------------------------------------------------------
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-- REFINE AUTOMATICALLY
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----------------------------------------------------------------
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auto :: IOish m
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=> FilePath -- ^ A target file.
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-> Int -- ^ Line number.
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-> Int -- ^ Column number.
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-> GhcModT m String
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auto file lineNo colNo = ghandle handler body
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where
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body = inModuleContext file $ \dflag style -> do
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opt <- options
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modSum <- Gap.fileModSummary file
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p <- G.parseModule modSum
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tcm@TypecheckedModule {
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tm_typechecked_source = tcs
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, tm_checked_module_info = minfo
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} <- G.typecheckModule p
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whenFound' opt (findVar dflag style tcm tcs lineNo colNo) $ \(loc, _name, rty, paren) -> do
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topLevel <- getEverythingInTopLevel minfo
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let (f,pats) = getPatsForVariable tcs (lineNo,colNo)
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-- Remove self function to prevent recursion, and id to trim
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-- cases
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filterFn (n,_) = let funName = G.getOccString n
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recName = G.getOccString (G.getName f)
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in funName `notElem` recName:notWantedFuns
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-- Find without using other functions in top-level
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localBnds = M.unions $
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map (\(L _ pat) -> getBindingsForPat pat) pats
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lbn = filter filterFn (M.toList localBnds)
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djinnsEmpty <- djinn True (Just minfo) lbn rty (Max 10) 100000
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let -- Find with the entire top-level
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almostEnv = M.toList $ M.union localBnds topLevel
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env = filter filterFn almostEnv
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djinns <- djinn True (Just minfo) env rty (Max 10) 100000
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return ( fourInts loc
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, map (doParen paren) $ nub (djinnsEmpty ++ djinns))
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handler (SomeException _) = emptyResult =<< options
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-- Functions we do not want in completions
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notWantedFuns :: [String]
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notWantedFuns = ["id", "asTypeOf", "const"]
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-- Get all things defined in top-level
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getEverythingInTopLevel :: GhcMonad m => G.ModuleInfo -> m (M.Map G.Name Type)
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getEverythingInTopLevel m = do
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let modInfo = tyThingsToInfo (G.modInfoTyThings m)
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topNames = G.modInfoTopLevelScope m
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case topNames of
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Just topNames' -> do topThings <- mapM G.lookupGlobalName topNames'
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let topThings' = catMaybes topThings
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topInfo = tyThingsToInfo topThings'
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return $ M.union modInfo topInfo
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Nothing -> return modInfo
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tyThingsToInfo :: [Ty.TyThing] -> M.Map G.Name Type
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tyThingsToInfo [] = M.empty
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tyThingsToInfo (G.AnId i : xs) =
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M.insert (G.getName i) (Ty.varType i) (tyThingsToInfo xs)
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-- Getting information about constructors is not needed
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-- because they will be added by djinn-ghc when traversing types
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-- #if __GLASGOW_HASKELL__ >= 708
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-- tyThingToInfo (G.AConLike (G.RealDataCon con)) = return [(Ty.dataConName con, Ty.dataConUserType con)]
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-- #else
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-- tyThingToInfo (G.AConLike con) = return [(Ty.dataConName con, Ty.dataConUserType con)]
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-- #endif
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tyThingsToInfo (_:xs) = tyThingsToInfo xs
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-- Find the Id of the function and the pattern where the hole is located
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getPatsForVariable :: G.TypecheckedSource -> (Int,Int) -> (Id, [Ty.LPat Id])
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getPatsForVariable tcs (lineNo, colNo) =
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let (L _ bnd:_) = sortBy (cmp `on` G.getLoc) $
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listifySpans tcs (lineNo, colNo) :: [G.LHsBind Id]
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in case bnd of
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G.PatBind { Ty.pat_lhs = L ploc pat } -> case pat of
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Ty.ConPatIn (L _ i) _ -> (i, [L ploc pat])
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_ -> (error "This should never happen", [])
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G.FunBind { Ty.fun_id = L _ funId } ->
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let m = sortBy (cmp `on` G.getLoc) $ listifySpans tcs (lineNo, colNo)
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#if __GLASGOW_HASKELL__ >= 708
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:: [G.LMatch Id (G.LHsExpr Id)]
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#else
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:: [G.LMatch Id]
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#endif
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(L _ (G.Match pats _ _):_) = m
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in (funId, pats)
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_ -> (error "This should never happen", [])
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getBindingsForPat :: Ty.Pat Id -> M.Map G.Name Type
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getBindingsForPat (Ty.VarPat i) = M.singleton (G.getName i) (Ty.varType i)
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getBindingsForPat (Ty.LazyPat (L _ l)) = getBindingsForPat l
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getBindingsForPat (Ty.BangPat (L _ b)) = getBindingsForPat b
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getBindingsForPat (Ty.AsPat (L _ a) (L _ i)) =
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M.insert (G.getName a) (Ty.varType a) (getBindingsForPat i)
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#if __GLASGOW_HASKELL__ >= 708
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getBindingsForPat (Ty.ListPat l _ _) =
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M.unions $ map (\(L _ i) -> getBindingsForPat i) l
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#else
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getBindingsForPat (Ty.ListPat l _) =
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M.unions $ map (\(L _ i) -> getBindingsForPat i) l
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#endif
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getBindingsForPat (Ty.TuplePat l _ _) =
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M.unions $ map (\(L _ i) -> getBindingsForPat i) l
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getBindingsForPat (Ty.PArrPat l _) =
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M.unions $ map (\(L _ i) -> getBindingsForPat i) l
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getBindingsForPat (Ty.ViewPat _ (L _ i) _) = getBindingsForPat i
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getBindingsForPat (Ty.SigPatIn (L _ i) _) = getBindingsForPat i
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getBindingsForPat (Ty.SigPatOut (L _ i) _) = getBindingsForPat i
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getBindingsForPat (Ty.ConPatIn (L _ i) d) =
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M.insert (G.getName i) (Ty.varType i) (getBindingsForRecPat d)
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getBindingsForPat (Ty.ConPatOut { Ty.pat_args = d }) = getBindingsForRecPat d
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getBindingsForPat _ = M.empty
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|
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getBindingsForRecPat :: Ty.HsConPatDetails Id -> M.Map G.Name Type
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getBindingsForRecPat (Ty.PrefixCon args) =
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M.unions $ map (\(L _ i) -> getBindingsForPat i) args
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getBindingsForRecPat (Ty.InfixCon (L _ a1) (L _ a2)) =
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M.union (getBindingsForPat a1) (getBindingsForPat a2)
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getBindingsForRecPat (Ty.RecCon (Ty.HsRecFields { Ty.rec_flds = fields })) =
|
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getBindingsForRecFields fields
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where getBindingsForRecFields [] = M.empty
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getBindingsForRecFields (Ty.HsRecField {Ty.hsRecFieldArg = (L _ a)}:fs) =
|
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M.union (getBindingsForPat a) (getBindingsForRecFields fs)
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