check :: [EquationInfo] -> ([ExhaustivePat], [EquationInfo])
-- Second result is the shadowed equations
-- if there are view patterns, just give up - don't know what the function is
-check qs = pprTrace "check" (ppr tidy_qs) $
- (untidy_warns, shadowed_eqns)
+check qs = (untidy_warns, shadowed_eqns)
where
tidy_qs = map tidy_eqn qs
(warns, used_nos) = check' ([1..] `zip` tidy_qs)
-- Finally the ones that are sure to succeed, or which are covered by the checking algorithm
might_fail_pat (LazyPat _) = False -- Always succeeds
-might_fail_pat _ = False -- VarPat, WildPat, LitPat, NPat, TypePat
+might_fail_pat _ = False -- VarPat, WildPat, LitPat, NPat
--------------
might_fail_lpat :: LPat Id -> Bool
where
arity = length ps
-tidy_pat (NPat lit mb_neg eq) = tidyNPat lit mb_neg eq
+tidy_pat (NPat lit mb_neg eq) = tidyNPat tidy_lit_pat lit mb_neg eq
+tidy_pat (LitPat lit) = tidy_lit_pat lit
--- Unpack string patterns fully, so we can see when they overlap with
--- each other, or even explicit lists of Chars.
-tidy_pat (LitPat lit)
+tidy_lit_pat :: HsLit -> Pat Id
+-- Unpack string patterns fully, so we can see when they
+-- overlap with each other, or even explicit lists of Chars.
+tidy_lit_pat lit
| HsString s <- lit
- = unLoc $ foldr (\c pat -> mkPrefixConPat consDataCon [mk_char_lit c, pat] stringTy)
+ = unLoc $ foldr (\c pat -> mkPrefixConPat consDataCon [mkCharLitPat c, pat] stringTy)
(mkPrefixConPat nilDataCon [] stringTy) (unpackFS s)
| otherwise
= tidyLitPat lit
- where
- mk_char_lit c = mkPrefixConPat charDataCon [nlLitPat (HsCharPrim c)] charTy
-----------------
tidy_con :: DataCon -> HsConPatDetails Id -> HsConPatDetails Id