X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Fcompiler%2Frename%2FRnExpr.lhs;h=a128c3561f4adce8928604f746a442eb90ec5cf7;hb=5d3051c66796dcf884b052f9e4afc3ed19b9f514;hp=c33cbe01f8762308c578034f3343b189367735f2;hpb=00007e64fd17385867ab6b835a2ef77575e86229;p=ghc-hetmet.git diff --git a/ghc/compiler/rename/RnExpr.lhs b/ghc/compiler/rename/RnExpr.lhs index c33cbe0..a128c35 100644 --- a/ghc/compiler/rename/RnExpr.lhs +++ b/ghc/compiler/rename/RnExpr.lhs @@ -11,18 +11,14 @@ free variables. \begin{code} module RnExpr ( - rnMatchGroup, rnMatch, rnGRHSs, rnLExpr, rnExpr, rnStmts, - checkPrecMatch, checkTH + rnLExpr, rnExpr, rnStmts ) where #include "HsVersions.h" -import {-# SOURCE #-} RnSource ( rnSrcDecls, rnBindGroupsAndThen, rnBindGroups, rnSplice ) - --- RnSource imports RnBinds.rnTopMonoBinds, RnExpr.rnExpr --- RnBinds imports RnExpr.rnMatch, etc --- RnExpr imports [boot] RnSource.rnSrcDecls, RnSource.rnBinds - +import RnSource ( rnSrcDecls, rnSplice, checkTH ) +import RnBinds ( rnLocalBindsAndThen, rnValBinds, + rnMatchGroup, trimWith ) import HsSyn import RnHsSyn import TcRnMonad @@ -30,106 +26,31 @@ import RnEnv import OccName ( plusOccEnv ) import RnNames ( getLocalDeclBinders, extendRdrEnvRn ) import RnTypes ( rnHsTypeFVs, rnLPat, rnOverLit, rnPatsAndThen, rnLit, - dupFieldErr, precParseErr, sectionPrecErr, patSigErr, - checkTupSize ) -import DynFlags ( DynFlag(..) ) -import BasicTypes ( Fixity(..), FixityDirection(..), negateFixity, compareFixity ) -import PrelNames ( hasKey, assertIdKey, assertErrorName, + mkOpFormRn, mkOpAppRn, mkNegAppRn, checkSectionPrec, + dupFieldErr, checkTupSize ) +import DynFlags ( DynFlag(..) ) +import BasicTypes ( FixityDirection(..) ) +import PrelNames ( thFAKE, hasKey, assertIdKey, assertErrorName, loopAName, choiceAName, appAName, arrAName, composeAName, firstAName, negateName, thenMName, bindMName, failMName ) -import Name ( Name, nameOccName ) +import Name ( Name, nameOccName, nameIsLocalOrFrom ) import NameSet -import RdrName ( RdrName, emptyGlobalRdrEnv ) -import UnicodeUtil ( stringToUtf8 ) +import RdrName ( RdrName, emptyGlobalRdrEnv, extendLocalRdrEnv, lookupLocalRdrEnv ) +import LoadIface ( loadHomeInterface ) import UniqFM ( isNullUFM ) import UniqSet ( emptyUniqSet ) +import List ( nub ) import Util ( isSingleton ) import ListSetOps ( removeDups ) +import Maybes ( fromJust ) import Outputable -import SrcLoc ( Located(..), unLoc, getLoc, combineLocs, cmpLocated ) +import SrcLoc ( Located(..), unLoc, getLoc, cmpLocated ) import FastString import List ( unzip4 ) \end{code} -************************************************************************ -* * -\subsection{Match} -* * -************************************************************************ - -\begin{code} -rnMatchGroup :: HsMatchContext Name -> MatchGroup RdrName -> RnM (MatchGroup Name, FreeVars) -rnMatchGroup ctxt (MatchGroup ms _) - = mapFvRn (rnMatch ctxt) ms `thenM` \ (new_ms, ms_fvs) -> - returnM (MatchGroup new_ms placeHolderType, ms_fvs) - -rnMatch :: HsMatchContext Name -> LMatch RdrName -> RnM (LMatch Name, FreeVars) -rnMatch ctxt = wrapLocFstM (rnMatch' ctxt) - -rnMatch' ctxt match@(Match pats maybe_rhs_sig grhss) - = - -- Deal with the rhs type signature - bindPatSigTyVarsFV rhs_sig_tys $ - doptM Opt_GlasgowExts `thenM` \ opt_GlasgowExts -> - (case maybe_rhs_sig of - Nothing -> returnM (Nothing, emptyFVs) - Just ty | opt_GlasgowExts -> rnHsTypeFVs doc_sig ty `thenM` \ (ty', ty_fvs) -> - returnM (Just ty', ty_fvs) - | otherwise -> addLocErr ty patSigErr `thenM_` - returnM (Nothing, emptyFVs) - ) `thenM` \ (maybe_rhs_sig', ty_fvs) -> - - -- Now the main event - rnPatsAndThen ctxt True pats $ \ pats' -> - rnGRHSs ctxt grhss `thenM` \ (grhss', grhss_fvs) -> - - returnM (Match pats' maybe_rhs_sig' grhss', grhss_fvs `plusFV` ty_fvs) - -- The bindPatSigTyVarsFV and rnPatsAndThen will remove the bound FVs - where - rhs_sig_tys = case maybe_rhs_sig of - Nothing -> [] - Just ty -> [ty] - doc_sig = text "In a result type-signature" -\end{code} - - -%************************************************************************ -%* * -\subsubsection{Guarded right-hand sides (GRHSs)} -%* * -%************************************************************************ - -\begin{code} -rnGRHSs :: HsMatchContext Name -> GRHSs RdrName -> RnM (GRHSs Name, FreeVars) - --- gaw 2004 -rnGRHSs ctxt (GRHSs grhss binds) - = rnBindGroupsAndThen binds $ \ binds' -> - mapFvRn (rnGRHS ctxt) grhss `thenM` \ (grhss', fvGRHSs) -> - returnM (GRHSs grhss' binds', fvGRHSs) - -rnGRHS :: HsMatchContext Name -> LGRHS RdrName -> RnM (LGRHS Name, FreeVars) -rnGRHS ctxt = wrapLocFstM (rnGRHS' ctxt) - -rnGRHS' ctxt (GRHS guards rhs) - = do { opt_GlasgowExts <- doptM Opt_GlasgowExts - ; checkM (opt_GlasgowExts || is_standard_guard guards) - (addWarn (nonStdGuardErr guards)) - - ; ((guards', rhs'), fvs) <- rnStmts (PatGuard ctxt) guards $ - rnLExpr rhs - ; return (GRHS guards' rhs', fvs) } - where - -- Standard Haskell 1.4 guards are just a single boolean - -- expression, rather than a list of qualifiers as in the - -- Glasgow extension - is_standard_guard [] = True - is_standard_guard [L _ (ExprStmt _ _ _)] = True - is_standard_guard other = False -\end{code} - %************************************************************************ %* * \subsubsection{Expressions} @@ -264,7 +185,7 @@ rnExpr (HsCase expr matches) returnM (HsCase new_expr new_matches, e_fvs `plusFV` ms_fvs) rnExpr (HsLet binds expr) - = rnBindGroupsAndThen binds $ \ binds' -> + = rnLocalBindsAndThen binds $ \ binds' -> rnLExpr expr `thenM` \ (expr',fvExpr) -> returnM (HsLet binds' expr', fvExpr) @@ -334,14 +255,9 @@ Since all the symbols are reservedops we can simply reject them. We return a (bogus) EWildPat in each case. \begin{code} -rnExpr e@EWildPat = addErr (patSynErr e) `thenM_` - returnM (EWildPat, emptyFVs) - -rnExpr e@(EAsPat _ _) = addErr (patSynErr e) `thenM_` - returnM (EWildPat, emptyFVs) - -rnExpr e@(ELazyPat _) = addErr (patSynErr e) `thenM_` - returnM (EWildPat, emptyFVs) +rnExpr e@EWildPat = patSynErr e +rnExpr e@(EAsPat {}) = patSynErr e +rnExpr e@(ELazyPat {}) = patSynErr e \end{code} %************************************************************************ @@ -353,8 +269,8 @@ rnExpr e@(ELazyPat _) = addErr (patSynErr e) `thenM_` \begin{code} rnExpr (HsProc pat body) = newArrowScope $ - rnPatsAndThen ProcExpr True [pat] $ \ [pat'] -> - rnCmdTop body `thenM` \ (body',fvBody) -> + rnPatsAndThen ProcExpr [pat] $ \ [pat'] -> + rnCmdTop body `thenM` \ (body',fvBody) -> returnM (HsProc pat' body', fvBody) rnExpr (HsArrApp arrow arg _ ho rtl) @@ -389,36 +305,6 @@ rnExpr (HsArrForm op fixity cmds) rnExpr other = pprPanic "rnExpr: unexpected expression" (ppr other) -- DictApp, DictLam, TyApp, TyLam - ---------------------------- --- Deal with fixity (cf mkOpAppRn for the method) - -mkOpFormRn :: LHsCmdTop Name -- Left operand; already rearranged - -> LHsExpr Name -> Fixity -- Operator and fixity - -> LHsCmdTop Name -- Right operand (not an infix) - -> RnM (HsCmd Name) - ---------------------------- --- (e11 `op1` e12) `op2` e2 -mkOpFormRn a1@(L loc (HsCmdTop (L _ (HsArrForm op1 (Just fix1) [a11,a12])) _ _ _)) - op2 fix2 a2 - | nofix_error - = addErr (precParseErr (ppr_op op1,fix1) (ppr_op op2,fix2)) `thenM_` - returnM (HsArrForm op2 (Just fix2) [a1, a2]) - - | associate_right - = mkOpFormRn a12 op2 fix2 a2 `thenM` \ new_c -> - returnM (HsArrForm op1 (Just fix1) - [a11, L loc (HsCmdTop (L loc new_c) [] placeHolderType [])]) - -- TODO: locs are wrong - where - (nofix_error, associate_right) = compareFixity fix1 fix2 - ---------------------------- --- Default case -mkOpFormRn arg1 op fix arg2 -- Default case, no rearrangment - = returnM (HsArrForm op (Just fix) [arg1, arg2]) - \end{code} @@ -635,29 +521,51 @@ rnRbinds str rbinds %************************************************************************ \begin{code} -rnBracket (VarBr n) = lookupOccRn n `thenM` \ name -> - returnM (VarBr name, unitFV name) -rnBracket (ExpBr e) = rnLExpr e `thenM` \ (e', fvs) -> - returnM (ExpBr e', fvs) -rnBracket (PatBr p) = rnLPat p `thenM` \ (p', fvs) -> - returnM (PatBr p', fvs) -rnBracket (TypBr t) = rnHsTypeFVs doc t `thenM` \ (t', fvs) -> - returnM (TypBr t', fvs) +rnBracket (VarBr n) = do { name <- lookupOccRn n + ; this_mod <- getModule + ; checkM (nameIsLocalOrFrom this_mod name) $ -- Reason: deprecation checking asumes the + do { loadHomeInterface msg name -- home interface is loaded, and this is the + ; return () } -- only way that is going to happen + ; returnM (VarBr name, unitFV name) } + where + msg = ptext SLIT("Need interface for Template Haskell quoted Name") + +rnBracket (ExpBr e) = do { (e', fvs) <- rnLExpr e + ; return (ExpBr e', fvs) } +rnBracket (PatBr p) = do { (p', fvs) <- rnLPat p + ; return (PatBr p', fvs) } +rnBracket (TypBr t) = do { (t', fvs) <- rnHsTypeFVs doc t + ; return (TypBr t', fvs) } where doc = ptext SLIT("In a Template-Haskell quoted type") rnBracket (DecBr group) = do { gbl_env <- getGblEnv - ; names <- getLocalDeclBinders gbl_env group - ; rdr_env' <- extendRdrEnvRn (tcg_mod gbl_env) emptyGlobalRdrEnv names - ; setGblEnv (gbl_env { tcg_rdr_env = tcg_rdr_env gbl_env `plusOccEnv` rdr_env', + ; let gbl_env1 = gbl_env { tcg_mod = thFAKE } + -- Note the thFAKE. The top-level names from the bracketed + -- declarations will go into the name cache, and we don't want them to + -- confuse the Names for the current module. + -- By using a pretend module, thFAKE, we keep them safely out of the way. + + ; names <- getLocalDeclBinders gbl_env1 group + ; rdr_env' <- extendRdrEnvRn emptyGlobalRdrEnv names + -- Furthermore, the names in the bracket shouldn't conflict with + -- existing top-level names E.g. + -- foo = 1 + -- bar = [d| foo = 1|] + -- But both 'foo's get a LocalDef provenance, so we'd get a complaint unless + -- we start with an emptyGlobalRdrEnv + + ; setGblEnv (gbl_env { tcg_rdr_env = tcg_rdr_env gbl_env1 `plusOccEnv` rdr_env', tcg_dus = emptyDUs }) $ do -- Notice plusOccEnv, not plusGlobalRdrEnv. In this situation we want - -- to *shadow* top-level bindings. E.g. - -- foo = 1 - -- bar = [d| foo = 1|] - -- So we drop down to plusOccEnv. (Perhaps there should be a fn in RdrName.) - -- + -- to *shadow* top-level bindings. (See the 'foo' example above.) + -- If we don't shadow, we'll get an ambiguity complaint when we do + -- a lookupTopBndrRn (which uses lookupGreLocalRn) on the binder of the 'foo' + -- + -- Furthermore, arguably if the splice does define foo, that should hide + -- any foo's further out + -- -- The emptyDUs is so that we just collect uses for this group alone { (tcg_env, group') <- rnSrcDecls group @@ -711,67 +619,28 @@ rnStmt ctxt (BindStmt pat expr _ _) thing_inside -- The binders do not scope over the expression ; (bind_op, fvs1) <- lookupSyntaxName bindMName ; (fail_op, fvs2) <- lookupSyntaxName failMName - - ; let reportUnused = case ctxt of - ParStmtCtxt{} -> False - _ -> True - ; rnPatsAndThen (StmtCtxt ctxt) reportUnused [pat] $ \ [pat'] -> do + ; rnPatsAndThen (StmtCtxt ctxt) [pat] $ \ [pat'] -> do { (thing, fvs3) <- thing_inside ; return ((BindStmt pat' expr' bind_op fail_op, thing), fv_expr `plusFV` fvs1 `plusFV` fvs2 `plusFV` fvs3) }} - -- fv_expr shouldn't really be filtered by - -- the rnPatsAndThen, but it does not matter + -- fv_expr shouldn't really be filtered by the rnPatsAndThen + -- but it does not matter because the names are unique rnStmt ctxt (LetStmt binds) thing_inside - = do { checkErr (ok ctxt binds) (badIpBinds binds) - ; rnBindGroupsAndThen binds $ \ binds' -> do + = do { checkErr (ok ctxt binds) + (badIpBinds (ptext SLIT("a parallel list comprehension:")) binds) + ; rnLocalBindsAndThen binds $ \ binds' -> do { (thing, fvs) <- thing_inside ; return ((LetStmt binds', thing), fvs) }} where -- We do not allow implicit-parameter bindings in a parallel -- list comprehension. I'm not sure what it might mean. - ok (ParStmtCtxt _) binds = not (any is_ip_bind binds) - ok _ _ = True - - is_ip_bind (HsIPBinds _) = True - is_ip_bind _ = False - -rnStmt ctxt (ParStmt stmtss) thing_inside - = do { opt_GlasgowExts <- doptM Opt_GlasgowExts - ; checkM opt_GlasgowExts parStmtErr - ; (stmtss'_w_unit, fv_stmtss) <- mapFvRn rn_branch stmtss - ; let - bndrss :: [[Name]] -- NB: Name, not RdrName - bndrss = map (map unLoc . collectLStmtsBinders) stmtss' - (bndrs, dups) = removeDups cmpByOcc (concat bndrss) - stmtss' = map fst stmtss'_w_unit - ; mappM dupErr dups - - ; bindLocalNamesFV bndrs $ do - { (thing, fvs) <- thing_inside - -- Note: binders are returned in scope order, so one may - -- shadow the next; e.g. x <- xs; x <- ys - - -- Cut down the exported binders to just the ones needed in the body - ; let used_bndrs_s = map (filter (`elemNameSet` fvs)) bndrss - unused_bndrs = filter (not . (`elemNameSet` fvs)) bndrs - - -- With processing of the branches and the tail of comprehension done, - -- we can finally compute&report any unused ParStmt binders. - ; warnUnusedMatches unused_bndrs - ; return ((ParStmt (stmtss' `zip` used_bndrs_s), thing), - fv_stmtss `plusFV` fvs) }} - where - rn_branch (stmts, _) = rnNormalStmts (ParStmtCtxt ctxt) stmts $ - return ((), emptyFVs) - - cmpByOcc n1 n2 = nameOccName n1 `compare` nameOccName n2 - dupErr vs = addErr (ptext SLIT("Duplicate binding in parallel list comprehension for:") - <+> quotes (ppr (head vs))) + ok (ParStmtCtxt _) (HsIPBinds _) = False + ok _ _ = True rnStmt ctxt (RecStmt rec_stmts _ _ _ _) thing_inside - = bindLocatedLocalsRn doc (collectLStmtsBinders rec_stmts) $ \ _ -> - rn_rec_stmts rec_stmts `thenM` \ segs -> + = bindLocatedLocalsRn doc (collectLStmtsBinders rec_stmts) $ \ bndrs -> + rn_rec_stmts bndrs rec_stmts `thenM` \ segs -> thing_inside `thenM` \ (thing, fvs) -> let segs_w_fwd_refs = addFwdRefs segs @@ -784,6 +653,59 @@ rnStmt ctxt (RecStmt rec_stmts _ _ _ _) thing_inside returnM ((rec_stmt, thing), uses `plusFV` fvs) where doc = text "In a recursive do statement" + +rnStmt ctxt (ParStmt segs) thing_inside + = do { opt_GlasgowExts <- doptM Opt_GlasgowExts + ; checkM opt_GlasgowExts parStmtErr + ; orig_lcl_env <- getLocalRdrEnv + ; ((segs',thing), fvs) <- go orig_lcl_env [] segs + ; return ((ParStmt segs', thing), fvs) } + where +-- type ParSeg id = [([LStmt id], [id])] +-- go :: NameSet -> [ParSeg RdrName] +-- -> RnM (([ParSeg Name], thing), FreeVars) + + go orig_lcl_env bndrs [] + = do { let { (bndrs', dups) = removeDups cmpByOcc bndrs + ; inner_env = extendLocalRdrEnv orig_lcl_env bndrs' } + ; mappM dupErr dups + ; (thing, fvs) <- setLocalRdrEnv inner_env thing_inside + ; return (([], thing), fvs) } + + go orig_lcl_env bndrs_so_far ((stmts, _) : segs) + = do { ((stmts', (bndrs, segs', thing)), fvs) + <- rnNormalStmts par_ctxt stmts $ do + { -- Find the Names that are bound by stmts + lcl_env <- getLocalRdrEnv + ; let { rdr_bndrs = collectLStmtsBinders stmts + ; bndrs = map ( fromJust + . lookupLocalRdrEnv lcl_env + . unLoc) rdr_bndrs + ; new_bndrs = nub bndrs ++ bndrs_so_far + -- The nub is because there might be shadowing + -- x <- e1; x <- e2 + -- So we'll look up (Unqual x) twice, getting + -- the second binding both times, which is the + } -- one we want + + -- Typecheck the thing inside, passing on all + -- the Names bound, but separately; revert the envt + ; ((segs', thing), fvs) <- setLocalRdrEnv orig_lcl_env $ + go orig_lcl_env new_bndrs segs + + -- Figure out which of the bound names are used + ; let used_bndrs = filter (`elemNameSet` fvs) bndrs + ; return ((used_bndrs, segs', thing), fvs) } + + ; let seg' = (stmts', bndrs) + ; return (((seg':segs'), thing), + delListFromNameSet fvs bndrs) } + + par_ctxt = ParStmtCtxt ctxt + + cmpByOcc n1 n2 = nameOccName n1 `compare` nameOccName n2 + dupErr vs = addErr (ptext SLIT("Duplicate binding in parallel list comprehension for:") + <+> quotes (ppr (head vs))) \end{code} @@ -811,7 +733,7 @@ rnMDoStmts stmts thing_inside = -- Step1: bring all the binders of the mdo into scope -- Remember that this also removes the binders from the -- finally-returned free-vars - bindLocatedLocalsRn doc (collectLStmtsBinders stmts) $ \ _ -> + bindLocatedLocalsRn doc (collectLStmtsBinders stmts) $ \ bndrs -> do { -- Step 2: Rename each individual stmt, making a -- singleton segment. At this stage the FwdRefs field @@ -819,7 +741,7 @@ rnMDoStmts stmts thing_inside -- for which it's the fwd refs within the bind itself -- (This set may not be empty, because we're in a recursive -- context.) - segs <- rn_rec_stmts stmts + segs <- rn_rec_stmts bndrs stmts ; (thing, fvs_later) <- thing_inside @@ -846,20 +768,24 @@ rnMDoStmts stmts thing_inside where doc = text "In a recursive mdo-expression" +--------------------------------------------- +rn_rec_stmts :: [Name] -> [LStmt RdrName] -> RnM [Segment (LStmt Name)] +rn_rec_stmts bndrs stmts = mappM (rn_rec_stmt bndrs) stmts `thenM` \ segs_s -> + returnM (concat segs_s) ---------------------------------------------------- -rn_rec_stmt :: LStmt RdrName -> RnM [Segment (LStmt Name)] +rn_rec_stmt :: [Name] -> LStmt RdrName -> RnM [Segment (LStmt Name)] -- Rename a Stmt that is inside a RecStmt (or mdo) -- Assumes all binders are already in scope -- Turns each stmt into a singleton Stmt -rn_rec_stmt (L loc (ExprStmt expr _ _)) +rn_rec_stmt all_bndrs (L loc (ExprStmt expr _ _)) = rnLExpr expr `thenM` \ (expr', fvs) -> lookupSyntaxName thenMName `thenM` \ (then_op, fvs1) -> returnM [(emptyNameSet, fvs `plusFV` fvs1, emptyNameSet, L loc (ExprStmt expr' then_op placeHolderType))] -rn_rec_stmt (L loc (BindStmt pat expr _ _)) +rn_rec_stmt all_bndrs (L loc (BindStmt pat expr _ _)) = rnLExpr expr `thenM` \ (expr', fv_expr) -> rnLPat pat `thenM` \ (pat', fv_pat) -> lookupSyntaxName bindMName `thenM` \ (bind_op, fvs1) -> @@ -871,24 +797,22 @@ rn_rec_stmt (L loc (BindStmt pat expr _ _)) returnM [(bndrs, fvs, bndrs `intersectNameSet` fvs, L loc (BindStmt pat' expr' bind_op fail_op))] -rn_rec_stmt (L loc (LetStmt binds)) - = rnBindGroups binds `thenM` \ (binds', du_binds) -> +rn_rec_stmt all_bndrs (L loc (LetStmt binds@(HsIPBinds _))) + = do { addErr (badIpBinds (ptext SLIT("an mdo expression")) binds) + ; failM } + +rn_rec_stmt all_bndrs (L loc (LetStmt (HsValBinds binds))) + = rnValBinds (trimWith all_bndrs) binds `thenM` \ (binds', du_binds) -> returnM [(duDefs du_binds, duUses du_binds, - emptyNameSet, L loc (LetStmt binds'))] + emptyNameSet, L loc (LetStmt (HsValBinds binds')))] -rn_rec_stmt (L loc (RecStmt stmts _ _ _ _)) -- Flatten Rec inside Rec - = rn_rec_stmts stmts +rn_rec_stmt all_bndrs (L loc (RecStmt stmts _ _ _ _)) -- Flatten Rec inside Rec + = rn_rec_stmts all_bndrs stmts -rn_rec_stmt stmt@(L _ (ParStmt _)) -- Syntactically illegal in mdo +rn_rec_stmt all_bndrs stmt@(L _ (ParStmt _)) -- Syntactically illegal in mdo = pprPanic "rn_rec_stmt" (ppr stmt) --------------------------------------------- -rn_rec_stmts :: [LStmt RdrName] -> RnM [Segment (LStmt Name)] -rn_rec_stmts stmts = mappM rn_rec_stmt stmts `thenM` \ segs_s -> - returnM (concat segs_s) - - ---------------------------------------------- addFwdRefs :: [Segment a] -> [Segment a] -- So far the segments only have forward refs *within* the Stmt -- (which happens for bind: x <- ...x...) @@ -991,151 +915,6 @@ segsToStmts ((defs, uses, fwds, ss) : segs) fvs_later %************************************************************************ %* * -\subsubsection{Precedence Parsing} -%* * -%************************************************************************ - -@mkOpAppRn@ deals with operator fixities. The argument expressions -are assumed to be already correctly arranged. It needs the fixities -recorded in the OpApp nodes, because fixity info applies to the things -the programmer actually wrote, so you can't find it out from the Name. - -Furthermore, the second argument is guaranteed not to be another -operator application. Why? Because the parser parses all -operator appications left-associatively, EXCEPT negation, which -we need to handle specially. - -\begin{code} -mkOpAppRn :: LHsExpr Name -- Left operand; already rearranged - -> LHsExpr Name -> Fixity -- Operator and fixity - -> LHsExpr Name -- Right operand (not an OpApp, but might - -- be a NegApp) - -> RnM (HsExpr Name) - ---------------------------- --- (e11 `op1` e12) `op2` e2 -mkOpAppRn e1@(L _ (OpApp e11 op1 fix1 e12)) op2 fix2 e2 - | nofix_error - = addErr (precParseErr (ppr_op op1,fix1) (ppr_op op2,fix2)) `thenM_` - returnM (OpApp e1 op2 fix2 e2) - - | associate_right - = mkOpAppRn e12 op2 fix2 e2 `thenM` \ new_e -> - returnM (OpApp e11 op1 fix1 (L loc' new_e)) - where - loc'= combineLocs e12 e2 - (nofix_error, associate_right) = compareFixity fix1 fix2 - ---------------------------- --- (- neg_arg) `op` e2 -mkOpAppRn e1@(L _ (NegApp neg_arg neg_name)) op2 fix2 e2 - | nofix_error - = addErr (precParseErr (pp_prefix_minus,negateFixity) (ppr_op op2,fix2)) `thenM_` - returnM (OpApp e1 op2 fix2 e2) - - | associate_right - = mkOpAppRn neg_arg op2 fix2 e2 `thenM` \ new_e -> - returnM (NegApp (L loc' new_e) neg_name) - where - loc' = combineLocs neg_arg e2 - (nofix_error, associate_right) = compareFixity negateFixity fix2 - ---------------------------- --- e1 `op` - neg_arg -mkOpAppRn e1 op1 fix1 e2@(L _ (NegApp neg_arg _)) -- NegApp can occur on the right - | not associate_right -- We *want* right association - = addErr (precParseErr (ppr_op op1, fix1) (pp_prefix_minus, negateFixity)) `thenM_` - returnM (OpApp e1 op1 fix1 e2) - where - (_, associate_right) = compareFixity fix1 negateFixity - ---------------------------- --- Default case -mkOpAppRn e1 op fix e2 -- Default case, no rearrangment - = ASSERT2( right_op_ok fix (unLoc e2), - ppr e1 $$ text "---" $$ ppr op $$ text "---" $$ ppr fix $$ text "---" $$ ppr e2 - ) - returnM (OpApp e1 op fix e2) - --- Parser left-associates everything, but --- derived instances may have correctly-associated things to --- in the right operarand. So we just check that the right operand is OK -right_op_ok fix1 (OpApp _ _ fix2 _) - = not error_please && associate_right - where - (error_please, associate_right) = compareFixity fix1 fix2 -right_op_ok fix1 other - = True - --- Parser initially makes negation bind more tightly than any other operator --- And "deriving" code should respect this (use HsPar if not) -mkNegAppRn :: LHsExpr id -> SyntaxExpr id -> RnM (HsExpr id) -mkNegAppRn neg_arg neg_name - = ASSERT( not_op_app (unLoc neg_arg) ) - returnM (NegApp neg_arg neg_name) - -not_op_app (OpApp _ _ _ _) = False -not_op_app other = True -\end{code} - -\begin{code} -checkPrecMatch :: Bool -> Name -> MatchGroup Name -> RnM () - -- True indicates an infix lhs - -- See comments with rnExpr (OpApp ...) about "deriving" - -checkPrecMatch False fn match - = returnM () -checkPrecMatch True op (MatchGroup ms _) - = mapM_ check ms - where - check (L _ (Match (p1:p2:_) _ _)) - = checkPrec op (unLoc p1) False `thenM_` - checkPrec op (unLoc p2) True - - check _ = panic "checkPrecMatch" - -checkPrec op (ConPatIn op1 (InfixCon _ _)) right - = lookupFixityRn op `thenM` \ op_fix@(Fixity op_prec op_dir) -> - lookupFixityRn (unLoc op1) `thenM` \ op1_fix@(Fixity op1_prec op1_dir) -> - let - inf_ok = op1_prec > op_prec || - (op1_prec == op_prec && - (op1_dir == InfixR && op_dir == InfixR && right || - op1_dir == InfixL && op_dir == InfixL && not right)) - - info = (ppr_op op, op_fix) - info1 = (ppr_op op1, op1_fix) - (infol, infor) = if right then (info, info1) else (info1, info) - in - checkErr inf_ok (precParseErr infol infor) - -checkPrec op pat right - = returnM () - --- Check precedence of (arg op) or (op arg) respectively --- If arg is itself an operator application, then either --- (a) its precedence must be higher than that of op --- (b) its precedency & associativity must be the same as that of op -checkSectionPrec :: FixityDirection -> HsExpr RdrName - -> LHsExpr Name -> LHsExpr Name -> RnM () -checkSectionPrec direction section op arg - = case unLoc arg of - OpApp _ op fix _ -> go_for_it (ppr_op op) fix - NegApp _ _ -> go_for_it pp_prefix_minus negateFixity - other -> returnM () - where - L _ (HsVar op_name) = op - go_for_it pp_arg_op arg_fix@(Fixity arg_prec assoc) - = lookupFixityRn op_name `thenM` \ op_fix@(Fixity op_prec _) -> - checkErr (op_prec < arg_prec - || op_prec == arg_prec && direction == assoc) - (sectionPrecErr (ppr_op op_name, op_fix) - (pp_arg_op, arg_fix) section) -\end{code} - - -%************************************************************************ -%* * \subsubsection{Assertion utils} %* * %************************************************************************ @@ -1147,7 +926,7 @@ mkAssertErrorExpr = getSrcSpanM `thenM` \ sloc -> let expr = HsApp (L sloc (HsVar assertErrorName)) (L sloc (HsLit msg)) - msg = HsStringPrim (mkFastString (stringToUtf8 (showSDoc (ppr sloc)))) + msg = HsStringPrim (mkFastString (showSDoc (ppr sloc))) in returnM (expr, emptyFVs) \end{code} @@ -1159,30 +938,13 @@ mkAssertErrorExpr %************************************************************************ \begin{code} -ppr_op op = quotes (ppr op) -- Here, op can be a Name or a (Var n), where n is a Name -pp_prefix_minus = ptext SLIT("prefix `-'") - -nonStdGuardErr guard - = hang (ptext - SLIT("accepting non-standard pattern guards (-fglasgow-exts to suppress this message)") - ) 4 (ppr guard) - -patSynErr e - = sep [ptext SLIT("Pattern syntax in expression context:"), - nest 4 (ppr e)] - -#ifdef GHCI -checkTH e what = returnM () -- OK -#else -checkTH e what -- Raise an error in a stage-1 compiler - = addErr (vcat [ptext SLIT("Template Haskell") <+> text what <+> - ptext SLIT("illegal in a stage-1 compiler"), - nest 2 (ppr e)]) -#endif +patSynErr e = do { addErr (sep [ptext SLIT("Pattern syntax in expression context:"), + nest 4 (ppr e)]) + ; return (EWildPat, emptyFVs) } parStmtErr = addErr (ptext SLIT("Illegal parallel list comprehension: use -fglasgow-exts")) -badIpBinds binds - = hang (ptext SLIT("Implicit-parameter bindings illegal in a parallel list comprehension:")) 4 - (ppr binds) +badIpBinds what binds + = hang (ptext SLIT("Implicit-parameter bindings illegal in") <+> what) + 2 (ppr binds) \end{code}