Pattern-matching literal patterns
\begin{code}
-{-# OPTIONS_GHC -w #-}
+{-# OPTIONS -w #-}
-- 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/WorkingConventions#Warnings
+-- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#Warnings
-- for details
module MatchLit ( dsLit, dsOverLit, hsLitKey, hsOverLitKey,
dsOverLit :: HsOverLit Id -> DsM CoreExpr
-- Post-typechecker, the SyntaxExpr field of an OverLit contains
-- (an expression for) the literal value itself
-dsOverLit (HsIntegral _ lit) = dsExpr lit
-dsOverLit (HsFractional _ lit) = dsExpr lit
-dsOverLit (HsIsString _ lit) = dsExpr lit
+dsOverLit (HsIntegral _ lit _) = dsExpr lit
+dsOverLit (HsFractional _ lit _) = dsExpr lit
+dsOverLit (HsIsString _ lit _) = dsExpr lit
\end{code}
\begin{code}
hsOverLitKey :: HsOverLit a -> Bool -> Literal
-- Ditto for HsOverLit; the boolean indicates to negate
-hsOverLitKey (HsIntegral i _) False = MachInt i
-hsOverLitKey (HsIntegral i _) True = MachInt (-i)
-hsOverLitKey (HsFractional r _) False = MachFloat r
-hsOverLitKey (HsFractional r _) True = MachFloat (-r)
-hsOverLitKey (HsIsString s _) False = MachStr s
+hsOverLitKey (HsIntegral i _ _) False = MachInt i
+hsOverLitKey (HsIntegral i _ _) True = MachInt (-i)
+hsOverLitKey (HsFractional r _ _) False = MachFloat r
+hsOverLitKey (HsFractional r _ _) True = MachFloat (-r)
+hsOverLitKey (HsIsString s _ _) False = MachStr s
-- negated string should never happen
\end{code}
tidyLitPat lit = LitPat lit
----------------
-tidyNPat :: HsOverLit Id -> Maybe (SyntaxExpr Id) -> SyntaxExpr Id
- -> Type -> Pat Id
-tidyNPat over_lit mb_neg eq lit_ty
- | isIntTy lit_ty = mk_con_pat intDataCon (HsIntPrim int_val)
- | isFloatTy lit_ty = mk_con_pat floatDataCon (HsFloatPrim rat_val)
- | isDoubleTy lit_ty = mk_con_pat doubleDataCon (HsDoublePrim rat_val)
+tidyNPat :: HsOverLit Id -> Maybe (SyntaxExpr Id) -> SyntaxExpr Id -> Pat Id
+tidyNPat over_lit mb_neg eq
+ | isIntTy (overLitType over_lit) = mk_con_pat intDataCon (HsIntPrim int_val)
+ | isFloatTy (overLitType over_lit) = mk_con_pat floatDataCon (HsFloatPrim rat_val)
+ | isDoubleTy (overLitType over_lit) = mk_con_pat doubleDataCon (HsDoublePrim rat_val)
-- | isStringTy lit_ty = mk_con_pat stringDataCon (HsStringPrim str_val)
- | otherwise = NPat over_lit mb_neg eq lit_ty
+ | otherwise = NPat over_lit mb_neg eq
where
mk_con_pat :: DataCon -> HsLit -> Pat Id
- mk_con_pat con lit = unLoc (mkPrefixConPat con [noLoc $ LitPat lit] lit_ty)
+ mk_con_pat con lit = unLoc (mkPrefixConPat con [noLoc $ LitPat lit] (overLitType over_lit))
+
neg_lit = case (mb_neg, over_lit) of
(Nothing, _) -> over_lit
- (Just _, HsIntegral i s) -> HsIntegral (-i) s
- (Just _, HsFractional f s) -> HsFractional (-f) s
+ (Just _, HsIntegral i s ty) -> HsIntegral (-i) s ty
+ (Just _, HsFractional f s ty) -> HsFractional (-f) s ty
int_val :: Integer
int_val = case neg_lit of
- HsIntegral i _ -> i
- HsFractional f _ -> panic "tidyNPat"
+ HsIntegral i _ _ -> i
+ HsFractional f _ _ -> panic "tidyNPat"
rat_val :: Rational
rat_val = case neg_lit of
- HsIntegral i _ -> fromInteger i
- HsFractional f _ -> f
+ HsIntegral i _ _ -> fromInteger i
+ HsFractional f _ _ -> f
str_val :: FastString
str_val = case neg_lit of
- HsIsString s _ -> s
- _ -> error "tidyNPat"
+ HsIsString s _ _ -> s
+ _ -> error "tidyNPat"
\end{code}
; return (foldr1 combineMatchResults match_results) }
matchOneNPat (var:vars) ty (eqn1:eqns) -- All for the same literal
- = do { let NPat lit mb_neg eq_chk _ = firstPat eqn1
+ = do { let NPat lit mb_neg eq_chk = firstPat eqn1
; lit_expr <- dsOverLit lit
; neg_lit <- case mb_neg of
Nothing -> return lit_expr