| 'case' exp 'of' altslist { LL $ HsCase $2 (mkMatchGroup (unLoc $4)) }
| '-' fexp { LL $ NegApp $2 noSyntaxExpr }
- | 'do' stmtlist {% let loc = comb2 $1 $2 in
- checkDo loc (unLoc $2) >>= \ (stmts,body) ->
- return (L loc (mkHsDo DoExpr stmts body)) }
- | 'mdo' stmtlist {% let loc = comb2 $1 $2 in
- checkDo loc (unLoc $2) >>= \ (stmts,body) ->
- return (L loc (mkHsDo MDoExpr
- [L loc (mkRecStmt stmts)]
- body)) }
+ | 'do' stmtlist { L (comb2 $1 $2) (mkHsDo DoExpr (unLoc $2)) }
+ | 'mdo' stmtlist { L (comb2 $1 $2) (mkHsDo MDoExpr (unLoc $2)) }
+
| scc_annot exp { LL $ if opt_SccProfilingOn
then HsSCC (unLoc $1) $2
else HsPar $2 }
| texp ',' exp '..' { LL $ ArithSeq noPostTcExpr (FromThen $1 $3) }
| texp '..' exp { LL $ ArithSeq noPostTcExpr (FromTo $1 $3) }
| texp ',' exp '..' exp { LL $ ArithSeq noPostTcExpr (FromThenTo $1 $3 $5) }
- | texp '|' flattenedpquals {% checkMonadComp >>= \ ctxt ->
- return (sL (comb2 $1 $>) $ mkHsDo ctxt (unLoc $3) $1) }
+ | texp '|' flattenedpquals
+ {% checkMonadComp >>= \ ctxt ->
+ return (sL (comb2 $1 $>) $
+ mkHsComp ctxt (unLoc $3) $1) }
lexps :: { Located [LHsExpr RdrName] }
: lexps ',' texp { LL (((:) $! $3) $! unLoc $1) }
(reverse (unLoc $1)) }
| texp '..' exp { LL $ PArrSeq noPostTcExpr (FromTo $1 $3) }
| texp ',' exp '..' exp { LL $ PArrSeq noPostTcExpr (FromThenTo $1 $3 $5) }
- | texp '|' flattenedpquals { LL $ mkHsDo PArrComp (unLoc $3) $1 }
+ | texp '|' flattenedpquals { LL $ mkHsComp PArrComp (unLoc $3) $1 }
-- We are reusing `lexps' and `flattenedpquals' from the list case.