X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2Fparser%2FParser.y.pp;h=aa20ea6799fab68540059680f7d7714e8e0fb3ab;hp=8d561bab9fdff1dc5d667f00e43eed6468c230af;hb=f6d254cccd3dc25fff9ff50c2e1bea52b10345e4;hpb=8350c21760d8610b0b2f329095ffb80bb1bc20d9 diff --git a/compiler/parser/Parser.y.pp b/compiler/parser/Parser.y.pp index 8d561ba..aa20ea6 100644 --- a/compiler/parser/Parser.y.pp +++ b/compiler/parser/Parser.y.pp @@ -266,6 +266,8 @@ incorrect. '{-# WARNING' { L _ ITwarning_prag } '{-# UNPACK' { L _ ITunpack_prag } '{-# ANN' { L _ ITann_prag } + '{-# VECTORISE' { L _ ITvect_prag } + '{-# VECTORISE_SCALAR' { L _ ITvect_scalar_prag } '#-}' { L _ ITclose_prag } '..' { L _ ITdotdot } -- reserved symbols @@ -563,6 +565,8 @@ topdecl :: { OrdList (LHsDecl RdrName) } | '{-# DEPRECATED' deprecations '#-}' { $2 } | '{-# WARNING' warnings '#-}' { $2 } | '{-# RULES' rules '#-}' { $2 } + | '{-# VECTORISE_SCALAR' qvar '#-}' { unitOL $ LL $ VectD (HsVect $2 Nothing) } + | '{-# VECTORISE' qvar '=' exp '#-}' { unitOL $ LL $ VectD (HsVect $2 (Just $4)) } | annotation { unitOL $1 } | decl { unLoc $1 } @@ -1279,12 +1283,9 @@ exp10 :: { LHsExpr RdrName } | '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 noPostTcTable) 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 } @@ -1356,8 +1357,8 @@ aexp2 :: { LHsExpr RdrName } | RATIONAL { sL (getLoc $1) (HsOverLit $! mkHsFractional (getRATIONAL $1) placeHolderType) } -- N.B.: sections get parsed by these next two productions. - -- This allows you to write, e.g., '(+ 3, 4 -)', which isn't correct Haskell98 - -- (you'd have to write '((+ 3), (4 -))') + -- This allows you to write, e.g., '(+ 3, 4 -)', which isn't + -- correct Haskell (you'd have to write '((+ 3), (4 -))') -- but the less cluttered version fell out of having texps. | '(' texp ')' { LL (HsPar $2) } | '(' tup_exprs ')' { LL (ExplicitTuple $2 Boxed) } @@ -1417,8 +1418,8 @@ texp :: { LHsExpr RdrName } -- Note [Parsing sections] -- ~~~~~~~~~~~~~~~~~~~~~~~ -- We include left and right sections here, which isn't - -- technically right according to Haskell 98. For example - -- (3 +, True) isn't legal + -- technically right according to the Haskell standard. + -- For example (3 +, True) isn't legal. -- However, we want to parse bang patterns like -- (!x, !y) -- and it's convenient to do so here as a section @@ -1459,7 +1460,10 @@ list :: { LHsExpr RdrName } | 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 { sL (comb2 $1 $>) $ mkHsDo ListComp (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) } @@ -1474,7 +1478,7 @@ flattenedpquals :: { Located [LStmt RdrName] } -- We just had one thing in our "parallel" list so -- we simply return that thing directly - qss -> L1 [L1 $ ParStmt [(qs, undefined) | qs <- qss]] + qss -> L1 [L1 $ ParStmt [(qs, undefined) | qs <- qss] noSyntaxExpr noSyntaxExpr noSyntaxExpr] -- We actually found some actual parallel lists so -- we wrap them into as a ParStmt } @@ -1531,7 +1535,7 @@ parr :: { LHsExpr RdrName } (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.