| HsCase (LHsExpr id)
(MatchGroup id)
- | HsIf (LHsExpr id) -- predicate
+ | HsIf (Maybe (SyntaxExpr id)) -- cond function
+ -- Nothing => use the built-in 'if'
+ -- See Note [Rebindable if]
+ (LHsExpr id) -- predicate
(LHsExpr id) -- then part
(LHsExpr id) -- else part
-- pasted back in by the desugarer
\end{code}
-A @Dictionary@, unless of length 0 or 1, becomes a tuple. A
-@ClassDictLam dictvars methods expr@ is, therefore:
-\begin{verbatim}
-\ x -> case x of ( dictvars-and-methods-tuple ) -> expr
-\end{verbatim}
+Note [Rebindable if]
+~~~~~~~~~~~~~~~~~~~~
+The rebindable syntax for 'if' is a bit special, because when
+rebindable syntax is *off* we do not want to treat
+ (if c then t else e)
+as if it was an application (ifThenElse c t e). Why not?
+Because we allow an 'if' to return *unboxed* results, thus
+ if blah then 3# else 4#
+whereas that would not be possible using a all to a polymorphic function
+(because you can't call a polymorphic function at an unboxed type).
+
+So we use Nothing to mean "use the old built-in typing rule".
\begin{code}
instance OutputableBndr id => Outputable (HsExpr id) where
nest 2 (pprMatches (CaseAlt `asTypeOf` idType exprType) matches <+> char '}') ]
where idType :: HsExpr id -> HsMatchContext id; idType = undefined
-ppr_expr (HsIf e1 e2 e3)
+ppr_expr (HsIf _ e1 e2 e3)
= sep [hsep [ptext (sLit "if"), nest 2 (ppr e1), ptext (sLit "then")],
nest 4 (ppr e2),
ptext (sLit "else"),
[Match id] -- bodies are HsCmd's
SrcLoc
- | HsIf (HsExpr id) -- predicate
+ | HsIf (Maybe (SyntaxExpr id)) -- cond function
+ (HsExpr id) -- predicate
(HsCmd id) -- then part
(HsCmd id) -- else part
SrcLoc
pprPatBind :: (OutputableBndr bndr, OutputableBndr id)
=> LPat bndr -> GRHSs id -> SDoc
pprPatBind pat ty@(grhss)
- = sep [ppr pat, nest 4 (pprGRHSs (PatBindRhs `asTypeOf` idType ty) grhss)]
+ = sep [ppr pat, nest 2 (pprGRHSs (PatBindRhs `asTypeOf` idType ty) grhss)]
--avoid using PatternSignatures for stage1 code portability
where idType :: GRHSs id -> HsMatchContext id; idType = undefined
pprMatch :: (OutputableBndr idL, OutputableBndr idR) => HsMatchContext idL -> Match idR -> SDoc
pprMatch ctxt (Match pats maybe_ty grhss)
- = herald <+> sep [sep (map pprParendLPat other_pats),
- ppr_maybe_ty,
- nest 2 (pprGRHSs ctxt grhss)]
+ = sep [ sep (herald : map (nest 2 . pprParendLPat) other_pats)
+ , nest 2 ppr_maybe_ty
+ , nest 2 (pprGRHSs ctxt grhss) ]
where
(herald, other_pats)
= case ctxt of
pprStmt (ParStmt stmtss) = hsep (map doStmts stmtss)
where doStmts stmts = ptext (sLit "| ") <> ppr stmts
-pprStmt (TransformStmt stmts _ using by)
- = sep (ppr_lc_stmts stmts ++ [pprTransformStmt using by])
+pprStmt (TransformStmt stmts bndrs using by)
+ = sep (ppr_lc_stmts stmts ++ [pprTransformStmt bndrs using by])
pprStmt (GroupStmt stmts _ by using)
= sep (ppr_lc_stmts stmts ++ [pprGroupStmt by using])
, ifPprDebug (vcat [ ptext (sLit "rec_ids=") <> ppr rec_ids
, ptext (sLit "later_ids=") <> ppr later_ids])]
-pprTransformStmt :: OutputableBndr id => LHsExpr id -> Maybe (LHsExpr id) -> SDoc
-pprTransformStmt using by = sep [ ptext (sLit "then"), nest 2 (ppr using), nest 2 (pprBy by)]
+pprTransformStmt :: OutputableBndr id => [id] -> LHsExpr id -> Maybe (LHsExpr id) -> SDoc
+pprTransformStmt bndrs using by
+ = sep [ ptext (sLit "then") <+> ifPprDebug (braces (ppr bndrs))
+ , nest 2 (ppr using)
+ , nest 2 (pprBy by)]
pprGroupStmt :: OutputableBndr id => Maybe (LHsExpr id)
-> Either (LHsExpr id) (SyntaxExpr is)
4 (ppr_stmt stmt)
where
-- For Group and Transform Stmts, don't print the nested stmts!
- ppr_stmt (GroupStmt _ _ by using) = pprGroupStmt by using
- ppr_stmt (TransformStmt _ _ using by) = pprTransformStmt using by
- ppr_stmt stmt = pprStmt stmt
+ ppr_stmt (GroupStmt _ _ by using) = pprGroupStmt by using
+ ppr_stmt (TransformStmt _ bndrs using by) = pprTransformStmt bndrs using by
+ ppr_stmt stmt = pprStmt stmt
\end{code}