X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Fcompiler%2FdeSugar%2FDsListComp.lhs;fp=ghc%2Fcompiler%2FdeSugar%2FDsListComp.lhs;h=41bb4d70ffeed3d2680f5cd084dc13b634b8bb7d;hb=550421384b8364cdaf3135f7859c9f7d7ee1fff1;hp=fc3a689773753c6eed02876255171c413e79c98a;hpb=60ea58ab5cbf8428997d5aa8ec9163a50fe5aed3;p=ghc-hetmet.git diff --git a/ghc/compiler/deSugar/DsListComp.lhs b/ghc/compiler/deSugar/DsListComp.lhs index fc3a689..41bb4d7 100644 --- a/ghc/compiler/deSugar/DsListComp.lhs +++ b/ghc/compiler/deSugar/DsListComp.lhs @@ -8,14 +8,11 @@ module DsListComp ( dsListComp, dsPArrComp ) where #include "HsVersions.h" -import {-# SOURCE #-} DsExpr ( dsExpr, dsLet ) +import {-# SOURCE #-} DsExpr ( dsExpr, dsLExpr, dsLet ) import BasicTypes ( Boxity(..) ) -import HsSyn ( Pat(..), HsExpr(..), Stmt(..), - HsMatchContext(..), HsStmtContext(..), - collectHsBinders ) -import TcHsSyn ( TypecheckedStmt, TypecheckedPat, TypecheckedHsExpr, - hsPatType ) +import HsSyn +import TcHsSyn ( hsPatType ) import CoreSyn import DsMonad -- the monadery used in the desugarer @@ -34,7 +31,7 @@ import Match ( matchSimply ) import PrelNames ( foldrName, buildName, replicatePName, mapPName, filterPName, zipPName, crossPName ) import PrelInfo ( pAT_ERROR_ID ) -import SrcLoc ( noSrcLoc ) +import SrcLoc ( noLoc, Located(..), unLoc ) import Panic ( panic ) \end{code} @@ -45,12 +42,14 @@ turned on'' (if you read Gill {\em et al.}'s paper on the subject). There will be at least one ``qualifier'' in the input. \begin{code} -dsListComp :: [TypecheckedStmt] +dsListComp :: [LStmt Id] -> Type -- Type of list elements -> DsM CoreExpr - -dsListComp quals elt_ty +dsListComp lquals elt_ty = getDOptsDs `thenDs` \dflags -> + let + quals = map unLoc lquals + in if opt_RulesOff || dopt Opt_IgnoreInterfacePragmas dflags -- Either rules are switched off, or we are ignoring what there are; -- Either way foldr/build won't happen, so use the more efficient @@ -142,8 +141,7 @@ The introduced tuples are Boxed, but only because I couldn't get it to work with the Unboxed variety. \begin{code} - -deListComp :: [TypecheckedStmt] -> CoreExpr -> DsM CoreExpr +deListComp :: [Stmt Id] -> CoreExpr -> DsM CoreExpr deListComp (ParStmt stmtss_w_bndrs : quals) list = mappM do_list_comp stmtss_w_bndrs `thenDs` \ exps -> @@ -157,26 +155,26 @@ deListComp (ParStmt stmtss_w_bndrs : quals) list bndrs_s = map snd stmtss_w_bndrs -- pat is the pattern ((x1,..,xn), (y1,..,ym)) in the example above - pat = TuplePat pats Boxed + pat = noLoc (TuplePat pats Boxed) pats = map mk_hs_tuple_pat bndrs_s -- Types of (x1,..,xn), (y1,..,yn) etc qual_tys = map mk_bndrs_tys bndrs_s do_list_comp (stmts, bndrs) - = dsListComp (stmts ++ [ResultStmt (mk_hs_tuple_expr bndrs) noSrcLoc]) + = dsListComp (stmts ++ [noLoc $ ResultStmt (mk_hs_tuple_expr bndrs)]) (mk_bndrs_tys bndrs) mk_bndrs_tys bndrs = mkCoreTupTy (map idType bndrs) -- Last: the one to return -deListComp [ResultStmt expr locn] list -- Figure 7.4, SLPJ, p 135, rule C above - = dsExpr expr `thenDs` \ core_expr -> +deListComp [ResultStmt expr] list -- Figure 7.4, SLPJ, p 135, rule C above + = dsLExpr expr `thenDs` \ core_expr -> returnDs (mkConsExpr (exprType core_expr) core_expr list) -- Non-last: must be a guard -deListComp (ExprStmt guard ty locn : quals) list -- rule B above - = dsExpr guard `thenDs` \ core_guard -> +deListComp (ExprStmt guard ty : quals) list -- rule B above + = dsLExpr guard `thenDs` \ core_guard -> deListComp quals list `thenDs` \ core_rest -> returnDs (mkIfThenElse core_guard core_rest list) @@ -185,8 +183,8 @@ deListComp (LetStmt binds : quals) list = deListComp quals list `thenDs` \ core_rest -> dsLet binds core_rest -deListComp (BindStmt pat list1 locn : quals) core_list2 -- rule A' above - = dsExpr list1 `thenDs` \ core_list1 -> +deListComp (BindStmt pat list1 : quals) core_list2 -- rule A' above + = dsLExpr list1 `thenDs` \ core_list1 -> deBindComp pat core_list1 quals core_list2 \end{code} @@ -253,14 +251,14 @@ mkZipBind elt_tys (DataAlt consDataCon, [a', as'], rest)] -- Helper functions that makes an HsTuple only for non-1-sized tuples -mk_hs_tuple_expr :: [Id] -> TypecheckedHsExpr -mk_hs_tuple_expr [] = HsVar unitDataConId -mk_hs_tuple_expr [id] = HsVar id -mk_hs_tuple_expr ids = ExplicitTuple [ HsVar i | i <- ids ] Boxed - -mk_hs_tuple_pat :: [Id] -> TypecheckedPat -mk_hs_tuple_pat [b] = VarPat b -mk_hs_tuple_pat bs = TuplePat (map VarPat bs) Boxed +mk_hs_tuple_expr :: [Id] -> LHsExpr Id +mk_hs_tuple_expr [] = nlHsVar unitDataConId +mk_hs_tuple_expr [id] = nlHsVar id +mk_hs_tuple_expr ids = noLoc $ ExplicitTuple [ nlHsVar i | i <- ids ] Boxed + +mk_hs_tuple_pat :: [Id] -> LPat Id +mk_hs_tuple_pat [b] = nlVarPat b +mk_hs_tuple_pat bs = noLoc $ TuplePat (map nlVarPat bs) Boxed \end{code} @@ -285,17 +283,17 @@ TE[ e | p <- l , q ] c n = let \begin{code} dfListComp :: Id -> Id -- 'c' and 'n' - -> [TypecheckedStmt] -- the rest of the qual's + -> [Stmt Id] -- the rest of the qual's -> DsM CoreExpr -- Last: the one to return -dfListComp c_id n_id [ResultStmt expr locn] - = dsExpr expr `thenDs` \ core_expr -> +dfListComp c_id n_id [ResultStmt expr] + = dsLExpr expr `thenDs` \ core_expr -> returnDs (mkApps (Var c_id) [core_expr, Var n_id]) -- Non-last: must be a guard -dfListComp c_id n_id (ExprStmt guard ty locn : quals) - = dsExpr guard `thenDs` \ core_guard -> +dfListComp c_id n_id (ExprStmt guard ty : quals) + = dsLExpr guard `thenDs` \ core_guard -> dfListComp c_id n_id quals `thenDs` \ core_rest -> returnDs (mkIfThenElse core_guard core_rest (Var n_id)) @@ -304,9 +302,9 @@ dfListComp c_id n_id (LetStmt binds : quals) = dfListComp c_id n_id quals `thenDs` \ core_rest -> dsLet binds core_rest -dfListComp c_id n_id (BindStmt pat list1 locn : quals) +dfListComp c_id n_id (BindStmt pat list1 : quals) -- evaluate the two lists - = dsExpr list1 `thenDs` \ core_list1 -> + = dsLExpr list1 `thenDs` \ core_list1 -> -- find the required type let x_ty = hsPatType pat @@ -346,7 +344,7 @@ dfListComp c_id n_id (BindStmt pat list1 locn : quals) -- -- [:e | qss:] = <<[:e | qss:]>> () [:():] -- -dsPArrComp :: [TypecheckedStmt] +dsPArrComp :: [Stmt Id] -> Type -- Don't use; called with `undefined' below -> DsM CoreExpr dsPArrComp qs _ = @@ -355,18 +353,18 @@ dsPArrComp qs _ = mkIntExpr 1, mkCoreTup []] in - dePArrComp qs (TuplePat [] Boxed) unitArray + dePArrComp qs (noLoc (TuplePat [] Boxed)) unitArray -- the work horse -- -dePArrComp :: [TypecheckedStmt] - -> TypecheckedPat -- the current generator pattern - -> CoreExpr -- the current generator expression +dePArrComp :: [Stmt Id] + -> LPat Id -- the current generator pattern + -> CoreExpr -- the current generator expression -> DsM CoreExpr -- -- <<[:e' | :]>> pa ea = mapP (\pa -> e') ea -- -dePArrComp [ResultStmt e' _] pa cea = +dePArrComp [ResultStmt e'] pa cea = dsLookupGlobalId mapPName `thenDs` \mapP -> let ty = parrElemType cea in @@ -376,7 +374,7 @@ dePArrComp [ResultStmt e' _] pa cea = -- -- <<[:e' | b, qs:]>> pa ea = <<[:e' | qs:]>> pa (filterP (\pa -> b) ea) -- -dePArrComp (ExprStmt b _ _ : qs) pa cea = +dePArrComp (ExprStmt b _ : qs) pa cea = dsLookupGlobalId filterPName `thenDs` \filterP -> let ty = parrElemType cea in @@ -388,10 +386,10 @@ dePArrComp (ExprStmt b _ _ : qs) pa cea = -- in -- <<[:e' | qs:]>> (pa, p) (crossP ea ef) -- -dePArrComp (BindStmt p e _ : qs) pa cea = +dePArrComp (BindStmt p e : qs) pa cea = dsLookupGlobalId filterPName `thenDs` \filterP -> dsLookupGlobalId crossPName `thenDs` \crossP -> - dsExpr e `thenDs` \ce -> + dsLExpr e `thenDs` \ce -> let ty'cea = parrElemType cea ty'ce = parrElemType ce false = Var falseDataConId @@ -401,7 +399,7 @@ dePArrComp (BindStmt p e _ : qs) pa cea = matchSimply (Var v) (StmtCtxt PArrComp) p true false `thenDs` \pred -> let cef = mkApps (Var filterP) [Type ty'ce, mkLams [v] pred, ce] ty'cef = ty'ce -- filterP preserves the type - pa' = TuplePat [pa, p] Boxed + pa' = noLoc (TuplePat [pa, p] Boxed) in dePArrComp qs pa' (mkApps (Var crossP) [Type ty'cea, Type ty'cef, cea, cef]) -- @@ -413,7 +411,7 @@ dePArrComp (BindStmt p e _ : qs) pa cea = -- dePArrComp (LetStmt ds : qs) pa cea = dsLookupGlobalId mapPName `thenDs` \mapP -> - let xs = collectHsBinders ds + let xs = map unLoc (collectGroupBinders ds) ty'cea = parrElemType cea in newSysLocalDs ty'cea `thenDs` \v -> @@ -426,7 +424,7 @@ dePArrComp (LetStmt ds : qs) pa cea = in mkErrorAppDs pAT_ERROR_ID errTy errMsg `thenDs` \cerr -> matchSimply (Var v) (StmtCtxt PArrComp) pa projBody cerr `thenDs` \ccase -> - let pa' = TuplePat [pa, TuplePat (map VarPat xs) Boxed] Boxed + let pa' = noLoc $ TuplePat [pa, noLoc (TuplePat (map nlVarPat xs) Boxed)] Boxed proj = mkLams [v] ccase in dePArrComp qs pa' (mkApps (Var mapP) [Type ty'cea, proj, cea]) @@ -440,11 +438,11 @@ dePArrComp (LetStmt ds : qs) pa cea = dePArrComp (ParStmt [] : qss2) pa cea = dePArrComp qss2 pa cea dePArrComp (ParStmt ((qs, xs):qss) : qss2) pa cea = dsLookupGlobalId zipPName `thenDs` \zipP -> - let pa' = TuplePat [pa, TuplePat (map VarPat xs) Boxed] Boxed + let pa' = noLoc $ TuplePat [pa, noLoc (TuplePat (map nlVarPat xs) Boxed)] Boxed ty'cea = parrElemType cea - resStmt = ResultStmt (ExplicitTuple (map HsVar xs) Boxed) noSrcLoc + resStmt = ResultStmt (noLoc $ ExplicitTuple (map nlHsVar xs) Boxed) in - dsPArrComp (qs ++ [resStmt]) undefined `thenDs` \cqs -> + dsPArrComp (map unLoc qs ++ [resStmt]) undefined `thenDs` \cqs -> let ty'cqs = parrElemType cqs cea' = mkApps (Var zipP) [Type ty'cea, Type ty'cqs, cea, cqs] in @@ -453,12 +451,12 @@ dePArrComp (ParStmt ((qs, xs):qss) : qss2) pa cea = -- generate Core corresponding to `\p -> e' -- deLambda :: Type -- type of the argument - -> TypecheckedPat -- argument pattern - -> TypecheckedHsExpr -- body + -> LPat Id -- argument pattern + -> LHsExpr Id -- body -> DsM (CoreExpr, Type) deLambda ty p e = newSysLocalDs ty `thenDs` \v -> - dsExpr e `thenDs` \ce -> + dsLExpr e `thenDs` \ce -> let errTy = exprType ce errMsg = "DsListComp.deLambda: internal error!" in