X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2Fparser%2FParser.y.pp;h=6a34c2de8609fd06e5081ca9f3681ce5b7c425e9;hp=adabb756abc975dcbdc7289ecb3fec5f5e9f591a;hb=82a7cebaea5dce16fc9658cc6a5ec037348075d1;hpb=911ab82c2a7c1aaf8feb78731f0bae588d244e14 diff --git a/compiler/parser/Parser.y.pp b/compiler/parser/Parser.y.pp index adabb75..6a34c2d 100644 --- a/compiler/parser/Parser.y.pp +++ b/compiler/parser/Parser.y.pp @@ -8,18 +8,23 @@ -- --------------------------------------------------------------------------- { +{-# 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/Commentary/CodingStyle#Warnings +-- for details + module Parser ( parseModule, parseStmt, parseIdentifier, parseType, parseHeader ) where -#define INCLUDE #include -INCLUDE "HsVersions.h" - import HsSyn import RdrHsSyn import HscTypes ( IsBootInterface, DeprecTxt ) import Lexer import RdrName import TysWiredIn ( unitTyCon, unitDataCon, tupleTyCon, tupleCon, nilDataCon, + unboxedSingletonTyCon, unboxedSingletonDataCon, listTyCon_RDR, parrTyCon_RDR, consDataCon_RDR ) import Type ( funTyCon ) import ForeignCall ( Safety(..), CExportSpec(..), CLabelString, @@ -35,6 +40,7 @@ import StaticFlags ( opt_SccProfilingOn, opt_Hpc ) import Type ( Kind, mkArrowKind, liftedTypeKind, unliftedTypeKind ) import BasicTypes ( Boxity(..), Fixity(..), FixityDirection(..), IPName(..), Activation(..), defaultInlineSpec ) +import DynFlags import OrdList import HaddockParse import {-# SOURCE #-} HaddockLex hiding ( Token ) @@ -200,7 +206,6 @@ incorrect. 'data' { L _ ITdata } 'default' { L _ ITdefault } 'deriving' { L _ ITderiving } - 'derive' { L _ ITderive } 'do' { L _ ITdo } 'else' { L _ ITelse } 'hiding' { L _ IThiding } @@ -236,6 +241,9 @@ incorrect. 'dotnet' { L _ ITdotnet } 'proc' { L _ ITproc } -- for arrow notation extension 'rec' { L _ ITrec } -- for arrow notation extension + 'group' { L _ ITgroup } -- for list transform extension + 'by' { L _ ITby } -- for list transform extension + 'using' { L _ ITusing } -- for list transform extension '{-# INLINE' { L _ (ITinline_prag _) } '{-# SPECIALISE' { L _ ITspec_prag } @@ -308,6 +316,7 @@ incorrect. PRIMCHAR { L _ (ITprimchar _) } PRIMSTRING { L _ (ITprimstring _) } PRIMINTEGER { L _ (ITprimint _) } + PRIMWORD { L _ (ITprimword _) } PRIMFLOAT { L _ (ITprimfloat _) } PRIMDOUBLE { L _ (ITprimdouble _) } @@ -315,7 +324,6 @@ incorrect. DOCPREV { L _ (ITdocCommentPrev _) } DOCNAMED { L _ (ITdocCommentNamed _) } DOCSECTION { L _ (ITdocSection _ _) } - DOCOPTIONS { L _ (ITdocOptions _) } -- Template Haskell '[|' { L _ ITopenExpQuote } @@ -327,6 +335,7 @@ TH_ID_SPLICE { L _ (ITidEscape _) } -- $x '$(' { L _ ITparenEscape } -- $( exp ) TH_VAR_QUOTE { L _ ITvarQuote } -- 'x TH_TY_QUOTE { L _ ITtyQuote } -- ''T +TH_QUASIQUOTE { L _ (ITquasiQuote _) } %monad { P } { >>= } { return } %lexer { lexer } { L _ ITeof } @@ -345,6 +354,7 @@ identifier :: { Located RdrName } | qcon { $1 } | qvarop { $1 } | qconop { $1 } + | '(' '->' ')' { LL $ getRdrName funTyCon } ----------------------------------------------------------------------------- -- Module Header @@ -357,22 +367,19 @@ identifier :: { Located RdrName } -- know what they are doing. :-) module :: { Located (HsModule RdrName) } - : optdoc 'module' modid maybemoddeprec maybeexports 'where' body - {% fileSrcSpan >>= \ loc -> case $1 of { (opt, info, doc) -> - return (L loc (HsModule (Just $3) $5 (fst $7) (snd $7) $4 - opt info doc) )}} + : maybedocheader 'module' modid maybemoddeprec maybeexports 'where' body + {% fileSrcSpan >>= \ loc -> case $1 of { (info, doc) -> + return (L loc (HsModule (Just $3) $5 (fst $7) (snd $7) $4 + info doc) )}} | body2 {% fileSrcSpan >>= \ loc -> - return (L loc (HsModule Nothing Nothing - (fst $1) (snd $1) Nothing Nothing emptyHaddockModInfo + return (L loc (HsModule Nothing Nothing + (fst $1) (snd $1) Nothing emptyHaddockModInfo Nothing)) } -optdoc :: { (Maybe String, HaddockModInfo RdrName, Maybe (HsDoc RdrName)) } - : moduleheader { (Nothing, fst $1, snd $1) } - | docoptions { (Just $1, emptyHaddockModInfo, Nothing)} - | docoptions moduleheader { (Just $1, fst $2, snd $2) } - | moduleheader docoptions { (Just $2, fst $1, snd $1) } - | {- empty -} { (Nothing, emptyHaddockModInfo, Nothing) } +maybedocheader :: { (HaddockModInfo RdrName, Maybe (HsDoc RdrName)) } + : moduleheader { (fst $1, snd $1) } + | {- empty -} { (emptyHaddockModInfo, Nothing) } missing_module_keyword :: { () } : {- empty -} {% pushCurrentContext } @@ -401,14 +408,14 @@ cvtopdecls :: { [LHsDecl RdrName] } -- Module declaration & imports only header :: { Located (HsModule RdrName) } - : optdoc 'module' modid maybemoddeprec maybeexports 'where' header_body - {% fileSrcSpan >>= \ loc -> case $1 of { (opt, info, doc) -> - return (L loc (HsModule (Just $3) $5 $7 [] $4 - opt info doc))}} + : maybedocheader 'module' modid maybemoddeprec maybeexports 'where' header_body + {% fileSrcSpan >>= \ loc -> case $1 of { (info, doc) -> + return (L loc (HsModule (Just $3) $5 $7 [] $4 + info doc))}} | missing_module_keyword importdecls {% fileSrcSpan >>= \ loc -> - return (L loc (HsModule Nothing Nothing $2 [] Nothing - Nothing emptyHaddockModInfo Nothing)) } + return (L loc (HsModule Nothing Nothing $2 [] Nothing + emptyHaddockModInfo Nothing)) } header_body :: { [LImportDecl RdrName] } : '{' importdecls { $2 } @@ -754,7 +761,7 @@ tycl_hdr :: { Located (LHsContext RdrName, -- Glasgow extension: stand-alone deriving declarations stand_alone_deriving :: { LDerivDecl RdrName } - : 'derive' 'instance' inst_type {% checkDerivDecl (LL (DerivDecl $3)) } + : 'deriving' 'instance' inst_type {% checkDerivDecl (LL (DerivDecl $3)) } ----------------------------------------------------------------------------- -- Nested declarations @@ -813,7 +820,11 @@ where_inst :: { Located (OrdList (LHsDecl RdrName)) } -- Reversed -- Declarations in binding groups other than classes and instances -- decls :: { Located (OrdList (LHsDecl RdrName)) } - : decls ';' decl { LL (unLoc $1 `appOL` unLoc $3) } + : decls ';' decl { let { this = unLoc $3; + rest = unLoc $1; + these = rest `appOL` this } + in rest `seq` this `seq` these `seq` + LL these } | decls ';' { LL (unLoc $1) } | decl { $1 } | {- empty -} { noLoc nilOL } @@ -963,7 +974,7 @@ gentypedoc :: { LHsType RdrName } ctypedoc :: { LHsType RdrName } : 'forall' tv_bndrs '.' ctypedoc { LL $ mkExplicitHsForAllTy $2 (noLoc []) $4 } - | context '=>' gentypedoc { LL $ mkImplicitHsForAllTy $1 $3 } + | context '=>' ctypedoc { LL $ mkImplicitHsForAllTy $1 $3 } -- A type of form (context => type) is an *implicit* HsForAllTy | gentypedoc { $1 } @@ -1212,12 +1223,13 @@ decl :: { Located (OrdList (LHsDecl RdrName)) } return (LL $ unitOL $ LL $ ValD ( PatBind (LL $ BangPat pat) (unLoc $3) placeHolderType placeHolderNames)) } } - | infixexp opt_sig rhs {% do { r <- checkValDef $1 $2 $3; - return (LL $ unitOL (LL $ ValD r)) } } + | infixexp opt_sig rhs {% do { r <- checkValDef $1 $2 $3; + let { l = comb2 $1 $> }; + return $! (sL l (unitOL $! (sL l $ ValD r))) } } | docdecl { LL $ unitOL $1 } rhs :: { Located (GRHSs RdrName) } - : '=' exp wherebinds { L (comb3 $1 $2 $3) $ GRHSs (unguardedRHS $2) (unLoc $3) } + : '=' exp wherebinds { sL (comb3 $1 $2 $3) $ GRHSs (unguardedRHS $2) (unLoc $3) } | gdrhs wherebinds { LL $ GRHSs (reverse (unLoc $1)) (unLoc $2) } gdrhs :: { Located [LGRHS RdrName] } @@ -1225,7 +1237,7 @@ gdrhs :: { Located [LGRHS RdrName] } | gdrh { L1 [$1] } gdrh :: { LGRHS RdrName } - : '|' quals '=' exp { sL (comb2 $1 $>) $ GRHS (reverse (unLoc $2)) $4 } + : '|' guardquals '=' exp { sL (comb2 $1 $>) $ GRHS (unLoc $2) $4 } sigdecl :: { Located (OrdList (LHsDecl RdrName)) } : infixexp '::' sigtypedoc @@ -1296,8 +1308,9 @@ exp10 :: { LHsExpr RdrName } | fexp { $1 } scc_annot :: { Located FastString } - : '_scc_' STRING { LL $ getSTRING $2 } - | '{-# SCC' STRING '#-}' { LL $ getSTRING $2 } + : '_scc_' STRING {% (addWarning Opt_WarnDeprecations (getLoc $1) (text "_scc_ is deprecated; use an SCC pragma instead")) >>= \_ -> + ( do scc <- getSCC $2; return $ LL scc ) } + | '{-# SCC' STRING '#-}' {% do scc <- getSCC $2; return $ LL scc } hpc_annot :: { Located (FastString,(Int,Int),(Int,Int)) } : '{-# GENERATED' STRING INTEGER ':' INTEGER '-' INTEGER ':' INTEGER '#-}' @@ -1318,7 +1331,7 @@ fexp :: { LHsExpr RdrName } aexp :: { LHsExpr RdrName } : qvar '@' aexp { LL $ EAsPat $1 $3 } | '~' aexp { LL $ ELazyPat $2 } - | aexp1 { $1 } + | aexp1 { $1 } aexp1 :: { LHsExpr RdrName } : aexp1 '{' fbinds '}' {% do { r <- mkRecConstrOrUpdate $1 (comb2 $2 $4) $3 @@ -1339,16 +1352,18 @@ aexp2 :: { LHsExpr RdrName } | literal { L1 (HsLit $! unLoc $1) } -- This will enable overloaded strings permanently. Normally the renamer turns HsString -- into HsOverLit when -foverloaded-strings is on. --- | STRING { L1 (HsOverLit $! mkHsIsString (getSTRING $1)) } - | INTEGER { L1 (HsOverLit $! mkHsIntegral (getINTEGER $1)) } - | RATIONAL { L1 (HsOverLit $! mkHsFractional (getRATIONAL $1)) } - | '(' exp ')' { LL (HsPar $2) } +-- | STRING { sL (getLoc $1) (HsOverLit $! mkHsIsString (getSTRING $1) placeHolderType) } + | INTEGER { sL (getLoc $1) (HsOverLit $! mkHsIntegral (getINTEGER $1) placeHolderType) } + | 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 -))') + -- but the less cluttered version fell out of having texps. + | '(' texp ')' { LL (HsPar $2) } | '(' texp ',' texps ')' { LL $ ExplicitTuple ($2 : reverse $4) Boxed } | '(#' texps '#)' { LL $ ExplicitTuple (reverse $2) Unboxed } | '[' list ']' { LL (unLoc $2) } | '[:' parr ':]' { LL (unLoc $2) } - | '(' infixexp qop ')' { LL $ SectionL $2 $3 } - | '(' qopm infixexp ')' { LL $ SectionR $2 $3 } | '_' { L1 EWildPat } -- Template Haskell Extension @@ -1357,6 +1372,11 @@ aexp2 :: { LHsExpr RdrName } (getTH_ID_SPLICE $1)))) } -- $x | '$(' exp ')' { LL $ HsSpliceE (mkHsSplice $2) } -- $( exp ) + | TH_QUASIQUOTE { let { loc = getLoc $1 + ; ITquasiQuote (quoter, quote, quoteSpan) = unLoc $1 + ; quoterId = mkUnqual varName quoter + } + in sL loc $ HsQuasiQuoteE (mkHsQuasiQuote quoterId quoteSpan quote) } | TH_VAR_QUOTE qvar { LL $ HsBracket (VarBr (unLoc $2)) } | TH_VAR_QUOTE qcon { LL $ HsBracket (VarBr (unLoc $2)) } | TH_TY_QUOTE tyvar { LL $ HsBracket (VarBr (unLoc $2)) } @@ -1386,11 +1406,17 @@ cvtopdecls0 :: { [LHsDecl RdrName] } : {- empty -} { [] } | cvtopdecls { $1 } +-- tuple expressions: things that can appear unparenthesized as long as they're +-- inside parens or delimitted by commas texp :: { LHsExpr RdrName } : exp { $1 } - | qopm infixexp { LL $ SectionR $1 $2 } - -- The second production is really here only for bang patterns - -- but + -- Technically, this should only be used for bang patterns, + -- but we can be a little more liberal here and avoid parens + -- inside tuples + | infixexp qop { LL $ SectionL $1 $2 } + | qopm infixexp { LL $ SectionR $1 $2 } + -- view patterns get parenthesized above + | exp '->' exp { LL $ EViewPat $1 $3 } texps :: { [LHsExpr RdrName] } : texps ',' texp { $3 : $1 } @@ -1410,32 +1436,59 @@ 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 pquals { sL (comb2 $1 $>) $ mkHsDo ListComp (reverse (unLoc $2)) $1 } + | texp '|' flattenedpquals { sL (comb2 $1 $>) $ mkHsDo ListComp (unLoc $3) $1 } lexps :: { Located [LHsExpr RdrName] } - : lexps ',' texp { LL ($3 : unLoc $1) } + : lexps ',' texp { LL (((:) $! $3) $! unLoc $1) } | texp ',' texp { LL [$3,$1] } ----------------------------------------------------------------------------- -- List Comprehensions -pquals :: { Located [LStmt RdrName] } -- Either a singleton ParStmt, - -- or a reversed list of Stmts - : pquals1 { case unLoc $1 of - [qs] -> L1 qs - qss -> L1 [L1 (ParStmt stmtss)] - where - stmtss = [ (reverse qs, undefined) - | qs <- qss ] - } - +flattenedpquals :: { Located [LStmt RdrName] } + : pquals { case (unLoc $1) of + ParStmt [(qs, _)] -> L1 qs + -- We just had one thing in our "parallel" list so + -- we simply return that thing directly + + _ -> L1 [$1] + -- We actually found some actual parallel lists so + -- we leave them into as a ParStmt + } + +pquals :: { LStmt RdrName } + : pquals1 { L1 (ParStmt [(qs, undefined) | qs <- (reverse (unLoc $1))]) } + pquals1 :: { Located [[LStmt RdrName]] } - : pquals1 '|' quals { LL (unLoc $3 : unLoc $1) } - | '|' quals { L (getLoc $2) [unLoc $2] } + : pquals1 '|' squals { LL (unLoc $3 : unLoc $1) } + | squals { L (getLoc $1) [unLoc $1] } + +squals :: { Located [LStmt RdrName] } + : squals1 { L (getLoc $1) (reverse (unLoc $1)) } + +squals1 :: { Located [LStmt RdrName] } + : transformquals1 { LL (unLoc $1) } + +transformquals1 :: { Located [LStmt RdrName] } + : transformquals1 ',' transformqual { LL $ [LL ((unLoc $3) (unLoc $1))] } + | transformquals1 ',' qual { LL ($3 : unLoc $1) } +-- | transformquals1 ',' '{|' pquals '|}' { LL ($4 : unLoc $1) } + | transformqual { LL $ [LL ((unLoc $1) [])] } + | qual { L1 [$1] } +-- | '{|' pquals '|}' { L1 [$2] } + -quals :: { Located [LStmt RdrName] } - : quals ',' qual { LL ($3 : unLoc $1) } - | qual { L1 [$1] } +-- It is possible to enable bracketing (associating) qualifier lists by uncommenting the lines with {| |} +-- above. Due to a lack of consensus on the syntax, this feature is not being used until we get user +-- demand. Note that the {| |} symbols are reused from -XGenerics and hence if you want to compile +-- a program that makes use of this temporary syntax you must supply that flag to GHC + +transformqual :: { Located ([LStmt RdrName] -> Stmt RdrName) } + : 'then' exp { LL $ \leftStmts -> (mkTransformStmt (reverse leftStmts) $2) } + | 'then' exp 'by' exp { LL $ \leftStmts -> (mkTransformByStmt (reverse leftStmts) $2 $4) } + | 'then' 'group' 'by' exp { LL $ \leftStmts -> (mkGroupByStmt (reverse leftStmts) $4) } + | 'then' 'group' 'using' exp { LL $ \leftStmts -> (mkGroupUsingStmt (reverse leftStmts) $4) } + | 'then' 'group' 'by' exp 'using' exp { LL $ \leftStmts -> (mkGroupByUsingStmt (reverse leftStmts) $4 $6) } ----------------------------------------------------------------------------- -- Parallel array expressions @@ -1452,9 +1505,19 @@ 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 pquals { sL (comb2 $1 $>) $ mkHsDo PArrComp (reverse (unLoc $2)) $1 } + | texp '|' flattenedpquals { LL $ mkHsDo PArrComp (unLoc $3) $1 } --- We are reusing `lexps' and `pquals' from the list case. +-- We are reusing `lexps' and `flattenedpquals' from the list case. + +----------------------------------------------------------------------------- +-- Guards + +guardquals :: { Located [LStmt RdrName] } + : guardquals1 { L (getLoc $1) (reverse (unLoc $1)) } + +guardquals1 :: { Located [LStmt RdrName] } + : guardquals1 ',' qual { LL ($3 : unLoc $1) } + | qual { L1 [$1] } ----------------------------------------------------------------------------- -- Case alternatives @@ -1487,7 +1550,7 @@ gdpats :: { Located [LGRHS RdrName] } | gdpat { L1 [$1] } gdpat :: { LGRHS RdrName } - : '|' quals '->' exp { sL (comb2 $1 $>) $ GRHS (reverse (unLoc $2)) $4 } + : '|' guardquals '->' exp { sL (comb2 $1 $>) $ GRHS (unLoc $2) $4 } -- 'pat' recognises a pattern, including one with a bang at the top -- e.g. "!x" or "!(x,y)" or "C a b" etc @@ -1533,13 +1596,13 @@ maybe_stmt :: { Maybe (LStmt RdrName) } | {- nothing -} { Nothing } stmt :: { LStmt RdrName } - : qual { $1 } + : qual { $1 } | 'rec' stmtlist { LL $ mkRecStmt (unLoc $2) } qual :: { LStmt RdrName } - : pat '<-' exp { LL $ mkBindStmt $1 $3 } - | exp { L1 $ mkExprStmt $1 } - | 'let' binds { LL $ LetStmt (unLoc $2) } + : pat '<-' exp { LL $ mkBindStmt $1 $3 } + | exp { L1 $ mkExprStmt $1 } + | 'let' binds { LL $ LetStmt (unLoc $2) } ----------------------------------------------------------------------------- -- Record Field Update/Construction @@ -1564,9 +1627,10 @@ fbind :: { HsRecField RdrName (LHsExpr RdrName) } -- Implicit Parameter Bindings dbinds :: { Located [LIPBind RdrName] } - : dbinds ';' dbind { LL ($3 : unLoc $1) } + : dbinds ';' dbind { let { this = $3; rest = unLoc $1 } + in rest `seq` this `seq` LL (this : rest) } | dbinds ';' { LL (unLoc $1) } - | dbind { L1 [$1] } + | dbind { let this = $1 in this `seq` L1 [this] } -- | {- empty -} { [] } dbind :: { LIPBind RdrName } @@ -1602,6 +1666,8 @@ con :: { Located RdrName } sysdcon :: { Located DataCon } -- Wired in data constructors : '(' ')' { LL unitDataCon } | '(' commas ')' { LL $ tupleCon Boxed $2 } + | '(#' '#)' { LL $ unboxedSingletonDataCon } + | '(#' commas '#)' { LL $ tupleCon Unboxed $2 } | '[' ']' { LL nilDataCon } conop :: { Located RdrName } @@ -1619,6 +1685,8 @@ gtycon :: { Located RdrName } -- A "general" qualified tycon : oqtycon { $1 } | '(' ')' { LL $ getRdrName unitTyCon } | '(' commas ')' { LL $ getRdrName (tupleTyCon Boxed $2) } + | '(#' '#)' { LL $ getRdrName unboxedSingletonTyCon } + | '(#' commas '#)' { LL $ getRdrName (tupleTyCon Unboxed $2) } | '(' '->' ')' { LL $ getRdrName funTyCon } | '[' ']' { LL $ listTyCon_RDR } | '[:' ':]' { LL $ parrTyCon_RDR } @@ -1686,9 +1754,9 @@ tyvarop : '`' tyvarid '`' { LL (unLoc $2) } tyvarid :: { Located RdrName } : VARID { L1 $! mkUnqual tvName (getVARID $1) } | special_id { L1 $! mkUnqual tvName (unLoc $1) } - | 'unsafe' { L1 $! mkUnqual tvName FSLIT("unsafe") } - | 'safe' { L1 $! mkUnqual tvName FSLIT("safe") } - | 'threadsafe' { L1 $! mkUnqual tvName FSLIT("threadsafe") } + | 'unsafe' { L1 $! mkUnqual tvName (fsLit "unsafe") } + | 'safe' { L1 $! mkUnqual tvName (fsLit "safe") } + | 'threadsafe' { L1 $! mkUnqual tvName (fsLit "threadsafe") } tyvarsym :: { Located RdrName } -- Does not include "!", because that is used for strictness marks @@ -1717,15 +1785,15 @@ qvarid :: { Located RdrName } varid :: { Located RdrName } : varid_no_unsafe { $1 } - | 'unsafe' { L1 $! mkUnqual varName FSLIT("unsafe") } - | 'safe' { L1 $! mkUnqual varName FSLIT("safe") } - | 'threadsafe' { L1 $! mkUnqual varName FSLIT("threadsafe") } + | 'unsafe' { L1 $! mkUnqual varName (fsLit "unsafe") } + | 'safe' { L1 $! mkUnqual varName (fsLit "safe") } + | 'threadsafe' { L1 $! mkUnqual varName (fsLit "threadsafe") } varid_no_unsafe :: { Located RdrName } : VARID { L1 $! mkUnqual varName (getVARID $1) } | special_id { L1 $! mkUnqual varName (unLoc $1) } - | 'forall' { L1 $! mkUnqual varName FSLIT("forall") } - | 'family' { L1 $! mkUnqual varName FSLIT("family") } + | 'forall' { L1 $! mkUnqual varName (fsLit "forall") } + | 'family' { L1 $! mkUnqual varName (fsLit "family") } qvarsym :: { Located RdrName } : varsym { $1 } @@ -1740,7 +1808,7 @@ qvarsym1 : QVARSYM { L1 $ mkQual varName (getQVARSYM $1) } varsym :: { Located RdrName } : varsym_no_minus { $1 } - | '-' { L1 $ mkUnqual varName FSLIT("-") } + | '-' { L1 $ mkUnqual varName (fsLit "-") } varsym_no_minus :: { Located RdrName } -- varsym not including '-' : VARSYM { L1 $ mkUnqual varName (getVARSYM $1) } @@ -1753,20 +1821,19 @@ varsym_no_minus :: { Located RdrName } -- varsym not including '-' -- depending on context special_id :: { Located FastString } special_id - : 'as' { L1 FSLIT("as") } - | 'qualified' { L1 FSLIT("qualified") } - | 'hiding' { L1 FSLIT("hiding") } - | 'derive' { L1 FSLIT("derive") } - | 'export' { L1 FSLIT("export") } - | 'label' { L1 FSLIT("label") } - | 'dynamic' { L1 FSLIT("dynamic") } - | 'stdcall' { L1 FSLIT("stdcall") } - | 'ccall' { L1 FSLIT("ccall") } + : 'as' { L1 (fsLit "as") } + | 'qualified' { L1 (fsLit "qualified") } + | 'hiding' { L1 (fsLit "hiding") } + | 'export' { L1 (fsLit "export") } + | 'label' { L1 (fsLit "label") } + | 'dynamic' { L1 (fsLit "dynamic") } + | 'stdcall' { L1 (fsLit "stdcall") } + | 'ccall' { L1 (fsLit "ccall") } special_sym :: { Located FastString } -special_sym : '!' { L1 FSLIT("!") } - | '.' { L1 FSLIT(".") } - | '*' { L1 FSLIT("*") } +special_sym : '!' { L1 (fsLit "!") } + | '.' { L1 (fsLit ".") } + | '*' { L1 (fsLit "*") } ----------------------------------------------------------------------------- -- Data constructors @@ -1796,6 +1863,7 @@ literal :: { Located HsLit } : CHAR { L1 $ HsChar $ getCHAR $1 } | STRING { L1 $ HsString $ getSTRING $1 } | PRIMINTEGER { L1 $ HsIntPrim $ getPRIMINTEGER $1 } + | PRIMWORD { L1 $ HsWordPrim $ getPRIMWORD $1 } | PRIMCHAR { L1 $ HsCharPrim $ getPRIMCHAR $1 } | PRIMSTRING { L1 $ HsStringPrim $ getPRIMSTRING $1 } | PRIMFLOAT { L1 $ HsFloatPrim $ getPRIMFLOAT $1 } @@ -1828,38 +1896,35 @@ commas :: { Int } docnext :: { LHsDoc RdrName } : DOCNEXT {% case parseHaddockParagraphs (tokenise (getDOCNEXT $1)) of { - Left err -> parseError (getLoc $1) err; - Right doc -> return (L1 doc) } } + MyLeft err -> parseError (getLoc $1) err; + MyRight doc -> return (L1 doc) } } docprev :: { LHsDoc RdrName } : DOCPREV {% case parseHaddockParagraphs (tokenise (getDOCPREV $1)) of { - Left err -> parseError (getLoc $1) err; - Right doc -> return (L1 doc) } } + MyLeft err -> parseError (getLoc $1) err; + MyRight doc -> return (L1 doc) } } docnamed :: { Located (String, (HsDoc RdrName)) } : DOCNAMED {% let string = getDOCNAMED $1 (name, rest) = break isSpace string in case parseHaddockParagraphs (tokenise rest) of { - Left err -> parseError (getLoc $1) err; - Right doc -> return (L1 (name, doc)) } } + MyLeft err -> parseError (getLoc $1) err; + MyRight doc -> return (L1 (name, doc)) } } -docsection :: { Located (n, HsDoc RdrName) } +docsection :: { Located (Int, HsDoc RdrName) } : DOCSECTION {% let (n, doc) = getDOCSECTION $1 in case parseHaddockString (tokenise doc) of { - Left err -> parseError (getLoc $1) err; - Right doc -> return (L1 (n, doc)) } } - -docoptions :: { String } - : DOCOPTIONS { getDOCOPTIONS $1 } + MyLeft err -> parseError (getLoc $1) err; + MyRight doc -> return (L1 (n, doc)) } } moduleheader :: { (HaddockModInfo RdrName, Maybe (HsDoc RdrName)) } : DOCNEXT {% let string = getDOCNEXT $1 in case parseModuleHeader string of { Right (str, info) -> case parseHaddockParagraphs (tokenise str) of { - Left err -> parseError (getLoc $1) err; - Right doc -> return (info, Just doc); + MyLeft err -> parseError (getLoc $1) err; + MyRight doc -> return (info, Just doc); }; Left err -> parseError (getLoc $1) err } } @@ -1892,6 +1957,7 @@ getRATIONAL (L _ (ITrational x)) = x getPRIMCHAR (L _ (ITprimchar x)) = x getPRIMSTRING (L _ (ITprimstring x)) = x getPRIMINTEGER (L _ (ITprimint x)) = x +getPRIMWORD (L _ (ITprimword x)) = x getPRIMFLOAT (L _ (ITprimfloat x)) = x getPRIMDOUBLE (L _ (ITprimdouble x)) = x getTH_ID_SPLICE (L _ (ITidEscape x)) = x @@ -1902,23 +1968,32 @@ getDOCNEXT (L _ (ITdocCommentNext x)) = x getDOCPREV (L _ (ITdocCommentPrev x)) = x getDOCNAMED (L _ (ITdocCommentNamed x)) = x getDOCSECTION (L _ (ITdocSection n x)) = (n, x) -getDOCOPTIONS (L _ (ITdocOptions x)) = x + +getSCC :: Located Token -> P FastString +getSCC lt = do let s = getSTRING lt + err = "Spaces are not allowed in SCCs" + -- We probably actually want to be more restrictive than this + if ' ' `elem` unpackFS s + then failSpanMsgP (getLoc lt) (text err) + else return s -- Utilities for combining source spans comb2 :: Located a -> Located b -> SrcSpan -comb2 = combineLocs +comb2 a b = a `seq` b `seq` combineLocs a b comb3 :: Located a -> Located b -> Located c -> SrcSpan -comb3 a b c = combineSrcSpans (getLoc a) (combineSrcSpans (getLoc b) (getLoc c)) +comb3 a b c = a `seq` b `seq` c `seq` + combineSrcSpans (getLoc a) (combineSrcSpans (getLoc b) (getLoc c)) comb4 :: Located a -> Located b -> Located c -> Located d -> SrcSpan -comb4 a b c d = combineSrcSpans (getLoc a) $ combineSrcSpans (getLoc b) $ - combineSrcSpans (getLoc c) (getLoc d) +comb4 a b c d = a `seq` b `seq` c `seq` d `seq` + (combineSrcSpans (getLoc a) $ combineSrcSpans (getLoc b) $ + combineSrcSpans (getLoc c) (getLoc d)) -- strict constructor version: {-# INLINE sL #-} sL :: SrcSpan -> a -> Located a -sL span a = span `seq` L span a +sL span a = span `seq` a `seq` L span a -- Make a source location for the file. We're a bit lazy here and just -- make a point SrcSpan at line 1, column 0. Strictly speaking we should