(sel_tydata ++ sel_deriv_decls)) allTyNames
-- We need to generate the extras to add to what has
-- already been derived
- ; mapM mkGenDerivExtras derTyDecls }
+ ; {- pprTrace "sel_tydata" (ppr sel_tydata) $
+ pprTrace "sel_deriv_decls" (ppr sel_deriv_decls) $
+ pprTrace "derTyDecls" (ppr derTyDecls) $
+ pprTrace "deriv_decls" (ppr deriv_decls) $ -}
+ mapM mkGenDerivExtras derTyDecls }
-- Merge and return
; return ( eqns1 ++ eqns2, generic_extras_deriv) }
-- Extracts the name of the class in the deriving
getClassName :: HsType Name -> Maybe Name
- getClassName (HsPredTy (HsClassP n _)) = Just n
- getClassName _ = Nothing
+ getClassName (HsForAllTy _ _ _ (L _ n)) = getClassName n
+ getClassName (HsPredTy (HsClassP n _)) = Just n
+ getClassName _ = Nothing
-- Extracts the name of the type in the deriving
+ -- This function (and also getClassName above) is not really nice, and I
+ -- might not have covered all possible cases. I wonder if there is no easier
+ -- way to extract class and type name from a LDerivDecl...
getTypeName :: HsType Name -> Maybe Name
+ getTypeName (HsForAllTy _ _ _ (L _ n)) = getTypeName n
getTypeName (HsTyVar n) = Just n
getTypeName (HsOpTy _ (L _ n) _) = Just n
getTypeName (HsPredTy (HsClassP _ [L _ n])) = getTypeName n
+ getTypeName (HsAppTy (L _ n) _) = getTypeName n
+ getTypeName (HsParTy (L _ n)) = getTypeName n
+ getTypeName (HsKindSig (L _ n) _) = getTypeName n
getTypeName _ = Nothing
extractTyDataPreds decls
let metaDts = MetaTyCons metaDTyCon metaCTyCons metaSTyCons
rep0_tycon <- tc_mkRepTyCon tc metaDts
-
+
+ -- pprTrace "rep0" (ppr rep0_tycon) $
return (metaDts, rep0_tycon)
{-
genGenericAll :: TyCon