X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Fcompiler%2FdeSugar%2FDsForeign.lhs;h=52956a09fff45264bc2f6f7b9782e0f339f0e290;hb=9d7da331989abcd1844e9d03b8d1e4163796fa85;hp=d5b25f525727437979b5a21eab1ac750b0f05490;hpb=c65b43c958373a8d38e82255756745141988f9e6;p=ghc-hetmet.git diff --git a/ghc/compiler/deSugar/DsForeign.lhs b/ghc/compiler/deSugar/DsForeign.lhs index d5b25f5..52956a0 100644 --- a/ghc/compiler/deSugar/DsForeign.lhs +++ b/ghc/compiler/deSugar/DsForeign.lhs @@ -9,49 +9,50 @@ Expanding out @foreign import@ and @foreign export@ declarations. module DsForeign ( dsForeigns ) where #include "HsVersions.h" +import TcRnMonad -- temp import CoreSyn import DsCCall ( dsCCall, mkFCall, boxResult, unboxArg, resultWrapper ) import DsMonad -import HsSyn ( ForeignDecl(..), ForeignExport(..), +import HsSyn ( ForeignDecl(..), ForeignExport(..), LForeignDecl, ForeignImport(..), CImportSpec(..) ) -import TcHsSyn ( TypecheckedForeignDecl ) +import DataCon ( splitProductType_maybe ) +#ifdef DEBUG +import DataCon ( dataConSourceArity ) +import Type ( isUnLiftedType ) +#endif +import MachOp ( machRepByteWidth, MachRep(..) ) +import SMRep ( argMachRep, typeCgRep ) import CoreUtils ( exprType, mkInlineMe ) -import Id ( Id, idType, idName, mkVanillaGlobal, mkSysLocal, - setInlinePragma ) -import IdInfo ( vanillaIdInfo ) -import Literal ( Literal(..) ) -import Module ( Module, moduleUserString ) -import Name ( mkGlobalName, nameModule, nameOccName, getOccString, - mkForeignExportOcc, isLocalName, - NamedThing(..), - ) -import Type ( repType, eqType ) +import Id ( Id, idType, idName, mkSysLocal, setInlinePragma ) +import Literal ( Literal(..), mkStringLit ) +import Module ( moduleFS ) +import Name ( getOccString, NamedThing(..) ) +import Type ( repType, coreEqType ) import TcType ( Type, mkFunTys, mkForAllTys, mkTyConApp, - mkFunTy, applyTy, + mkFunTy, tcSplitTyConApp_maybe, tcSplitForAllTys, tcSplitFunTys, tcTyConAppArgs, - tcSplitTyConApp_maybe, tcSplitAppTy, - tcFunResultTy ) +import BasicTypes ( Boxity(..) ) +import HscTypes ( ForeignStubs(..) ) import ForeignCall ( ForeignCall(..), CCallSpec(..), Safety(..), playSafe, - CExportSpec(..), + CExportSpec(..), CLabelString, CCallConv(..), ccallConvToInt, ccallConvAttribute ) -import CStrings ( CLabelString ) -import TysWiredIn ( addrTy, unitTy, stablePtrTyCon ) -import TysPrim ( addrPrimTy ) -import PrelNames ( hasKey, ioTyConKey, deRefStablePtrName, newStablePtrName, - bindIOName, returnIOName - ) +import TysWiredIn ( unitTy, tupleTyCon ) +import TysPrim ( addrPrimTy, mkStablePtrPrimTy, alphaTy ) +import PrelNames ( hasKey, ioTyConKey, stablePtrTyConName, newStablePtrName, bindIOName, + checkDotnetResName ) import BasicTypes ( Activation( NeverActive ) ) -import ErrUtils ( addShortWarnLocLine ) +import SrcLoc ( Located(..), unLoc ) import Outputable -import Maybe ( fromJust ) +import Maybe ( fromJust, isNothing ) +import FastString \end{code} Desugaring of @foreign@ declarations is naturally split up into @@ -71,38 +72,44 @@ so we reuse the desugaring code in @DsCCall@ to deal with these. type Binding = (Id, CoreExpr) -- No rec/nonrec structure; -- the occurrence analyser will sort it all out -dsForeigns :: Module - -> [TypecheckedForeignDecl] - -> DsM ( [Id] -- Foreign-exported binders; - -- we have to generate code to register these - , [Binding] - , SDoc -- Header file prototypes for - -- "foreign exported" functions. - , SDoc -- C stubs to use when calling - -- "foreign exported" functions. - , [FAST_STRING] -- headers that need to be included - -- into C code generated for this module - ) -dsForeigns mod_name fos - = foldlDs combine ([], [], empty, empty, []) fos +dsForeigns :: [LForeignDecl Id] + -> DsM (ForeignStubs, [Binding]) +dsForeigns [] + = returnDs (NoStubs, []) +dsForeigns fos + = foldlDs combine (ForeignStubs empty empty [] [], []) fos where - combine (acc_feb, acc_f, acc_h, acc_c, acc_header) - (ForeignImport id _ spec depr loc) - = dsFImport mod_name id spec `thenDs` \(bs, h, c, hd) -> - warnDepr depr loc `thenDs` \_ -> - returnDs (acc_feb, bs ++ acc_f, h $$ acc_h, c $$ acc_c, hd ++ acc_header) - - combine (acc_feb, acc_f, acc_h, acc_c, acc_header) - (ForeignExport id _ (CExport (CExportStatic ext_nm cconv)) depr loc) - = dsFExport mod_name id (idType id) - ext_nm cconv False `thenDs` \(h, c) -> - warnDepr depr loc `thenDs` \_ -> - returnDs (acc_feb, acc_f, h $$ acc_h, c $$ acc_c, acc_header) - - warnDepr False _ = returnDs () - warnDepr True loc = dsWarn (addShortWarnLocLine loc msg) - where - msg = ptext SLIT("foreign declaration uses deprecated non-standard syntax") + combine stubs (L loc decl) = putSrcSpanDs loc (combine1 stubs decl) + + combine1 (ForeignStubs acc_h acc_c acc_hdrs acc_feb, acc_f) + (ForeignImport id _ spec depr) + = traceIf (text "fi start" <+> ppr id) `thenDs` \ _ -> + dsFImport (unLoc id) spec `thenDs` \ (bs, h, c, mbhd) -> + warnDepr depr `thenDs` \ _ -> + traceIf (text "fi end" <+> ppr id) `thenDs` \ _ -> + returnDs (ForeignStubs (h $$ acc_h) + (c $$ acc_c) + (addH mbhd acc_hdrs) + acc_feb, + bs ++ acc_f) + + combine1 (ForeignStubs acc_h acc_c acc_hdrs acc_feb, acc_f) + (ForeignExport (L _ id) _ (CExport (CExportStatic ext_nm cconv)) depr) + = dsFExport id (idType id) + ext_nm cconv False `thenDs` \(h, c, _, _) -> + warnDepr depr `thenDs` \_ -> + returnDs (ForeignStubs (h $$ acc_h) (c $$ acc_c) acc_hdrs (id:acc_feb), + acc_f) + + addH Nothing ls = ls + addH (Just e) ls + | e `elem` ls = ls + | otherwise = e:ls + + warnDepr False = returnDs () + warnDepr True = dsWarn msg + where + msg = ptext SLIT("foreign declaration uses deprecated non-standard syntax") \end{code} @@ -131,36 +138,53 @@ inside returned tuples; but inlining this wrapper is a Really Good Idea because it exposes the boxing to the call site. \begin{code} -dsFImport :: Module - -> Id +dsFImport :: Id -> ForeignImport - -> DsM ([Binding], SDoc, SDoc, [FAST_STRING]) -dsFImport modName id (CImport cconv safety header lib spec) - = dsCImport modName id spec cconv safety `thenDs` \(ids, h, c) -> - returnDs (ids, h, c, if _NULL_ header then [] else [header]) + -> DsM ([Binding], SDoc, SDoc, Maybe FastString) +dsFImport id (CImport cconv safety header lib spec) + = dsCImport id spec cconv safety no_hdrs `thenDs` \(ids, h, c) -> + returnDs (ids, h, c, if no_hdrs then Nothing else Just header) + where + no_hdrs = nullFS header + -- FIXME: the `lib' field is needed for .NET ILX generation when invoking -- routines that are external to the .NET runtime, but GHC doesn't - -- support such calls yet; if `_NULL_ lib', the value was not given -dsFImport modName id (DNImport spec) - = dsFCall modName id (DNCall spec) `thenDs` \(ids, h, c) -> - returnDs (ids, h, c, []) + -- support such calls yet; if `nullFastString lib', the value was not given +dsFImport id (DNImport spec) + = dsFCall id (DNCall spec) True {- No headers -} `thenDs` \(ids, h, c) -> + returnDs (ids, h, c, Nothing) -dsCImport :: Module - -> Id +dsCImport :: Id -> CImportSpec -> CCallConv -> Safety + -> Bool -- True <=> no headers in the f.i decl -> DsM ([Binding], SDoc, SDoc) -dsCImport modName id (CLabel cid) _ _ - = ASSERT(fromJust resTy `eqType` addrPrimTy) -- typechecker ensures this - returnDs ([(id, rhs)], empty, empty) - where - (resTy, foRhs) = resultWrapper (idType id) - rhs = foRhs (mkLit (MachLabel cid)) -dsCImport modName id (CFunction target) cconv safety - = dsFCall modName id (CCall (CCallSpec target cconv safety)) -dsCImport modName id CWrapper cconv _ - = dsFExportDynamic modName id cconv +dsCImport id (CLabel cid) _ _ no_hdrs + = resultWrapper (idType id) `thenDs` \ (resTy, foRhs) -> + ASSERT(fromJust resTy `coreEqType` addrPrimTy) -- typechecker ensures this + let rhs = foRhs (mkLit (MachLabel cid Nothing)) in + returnDs ([(setImpInline no_hdrs id, rhs)], empty, empty) +dsCImport id (CFunction target) cconv safety no_hdrs + = dsFCall id (CCall (CCallSpec target cconv safety)) no_hdrs +dsCImport id CWrapper cconv _ _ + = dsFExportDynamic id cconv + +setImpInline :: Bool -- True <=> No #include headers + -- in the foreign import declaration + -> Id -> Id +-- If there is a #include header in the foreign import +-- we make the worker non-inlinable, because we currently +-- don't keep the #include stuff in the CCallId, and hence +-- it won't be visible in the importing module, which can be +-- fatal. +-- (The #include stuff is just collected from the foreign import +-- decls in a module.) +-- If you want to do cross-module inlining of the c-calls themselves, +-- put the #include stuff in the package spec, not the foreign +-- import decl. +setImpInline True id = id +setImpInline False id = id `setInlinePragma` NeverActive \end{code} @@ -171,7 +195,7 @@ dsCImport modName id CWrapper cconv _ %************************************************************************ \begin{code} -dsFCall mod_Name fn_id fcall +dsFCall fn_id fcall no_hdrs = let ty = idType fn_id (tvs, fun_ty) = tcSplitForAllTys ty @@ -185,22 +209,43 @@ dsFCall mod_Name fn_id fcall let work_arg_ids = [v | Var v <- val_args] -- All guaranteed to be vars - -- These are the ids we pass to boxResult, which are used to decide - -- whether to touch# an argument after the call (used to keep - -- ForeignObj#s live across a 'safe' foreign import). - maybe_arg_ids | unsafe_call fcall = work_arg_ids - | otherwise = [] + forDotnet = + case fcall of + DNCall{} -> True + _ -> False + + topConDs + | forDotnet = + dsLookupGlobalId checkDotnetResName `thenDs` \ check_id -> + return (Just check_id) + | otherwise = return Nothing + + augmentResultDs + | forDotnet = + newSysLocalDs addrPrimTy `thenDs` \ err_res -> + returnDs (\ (mb_res_ty, resWrap) -> + case mb_res_ty of + Nothing -> (Just (mkTyConApp (tupleTyCon Unboxed 1) + [ addrPrimTy ]), + resWrap) + Just x -> (Just (mkTyConApp (tupleTyCon Unboxed 2) + [ x, addrPrimTy ]), + resWrap)) + | otherwise = returnDs id in - boxResult maybe_arg_ids io_res_ty `thenDs` \ (ccall_result_ty, res_wrapper) -> + augmentResultDs `thenDs` \ augment -> + topConDs `thenDs` \ topCon -> + boxResult augment topCon io_res_ty `thenDs` \ (ccall_result_ty, res_wrapper) -> - getUniqueDs `thenDs` \ ccall_uniq -> - getUniqueDs `thenDs` \ work_uniq -> + newUnique `thenDs` \ ccall_uniq -> + newUnique `thenDs` \ work_uniq -> let -- Build the worker worker_ty = mkForAllTys tvs (mkFunTys (map idType work_arg_ids) ccall_result_ty) the_ccall_app = mkFCall ccall_uniq fcall val_args ccall_result_ty work_rhs = mkLams tvs (mkLams work_arg_ids the_ccall_app) - work_id = mkSysLocal SLIT("$wccall") work_uniq worker_ty + work_id = setImpInline no_hdrs $ -- See comments with setImpInline + mkSysLocal FSLIT("$wccall") work_uniq worker_ty -- Build the wrapper work_app = mkApps (mkVarApps (Var work_id) tvs) val_args @@ -232,8 +277,7 @@ For each `@foreign export foo@' in a module M we generate: the user-written Haskell function `@M.foo@'. \begin{code} -dsFExport :: Module - -> Id -- Either the exported Id, +dsFExport :: Id -- Either the exported Id, -- or the foreign-export-dynamic constructor -> Type -- The type of the thing callable from C -> CLabelString -- The name to export to C land @@ -243,12 +287,14 @@ dsFExport :: Module -- the first argument's stable pointer -> DsM ( SDoc -- contents of Module_stub.h , SDoc -- contents of Module_stub.c + , [MachRep] -- primitive arguments expected by stub function + , Int -- size of args to stub function ) -dsFExport mod_name fn_id ty ext_name cconv isDyn +dsFExport fn_id ty ext_name cconv isDyn = let - (tvs,sans_foralls) = tcSplitForAllTys ty + (_tvs,sans_foralls) = tcSplitForAllTys ty (fe_arg_tys', orig_res_ty) = tcSplitFunTys sans_foralls -- We must use tcSplits here, because we want to see -- the (IO t) in the corner of the type! @@ -272,15 +318,10 @@ dsFExport mod_name fn_id ty ext_name cconv isDyn ) `thenDs` \ (res_ty, -- t is_IO_res_ty) -> -- Bool - getModuleDs - `thenDs` \ mod -> - let - (h_stub, c_stub) - = mkFExportCBits (moduleUserString mod) ext_name - (if isDyn then Nothing else Just fn_id) - fe_arg_tys res_ty is_IO_res_ty cconv - in - returnDs (h_stub, c_stub) + returnDs $ + mkFExportCBits ext_name + (if isDyn then Nothing else Just fn_id) + fe_arg_tys res_ty is_IO_res_ty cconv \end{code} @foreign export dynamic@ lets you dress up Haskell IO actions @@ -306,33 +347,35 @@ foreign export "f_helper" f_helper :: StablePtr (Addr -> Int -> IO Int) -> Addr \end{verbatim} \begin{code} -dsFExportDynamic :: Module - -> Id +dsFExportDynamic :: Id -> CCallConv -> DsM ([Binding], SDoc, SDoc) -dsFExportDynamic mod_name id cconv - = newSysLocalDs ty `thenDs` \ fe_id -> +dsFExportDynamic id cconv + = newSysLocalDs ty `thenDs` \ fe_id -> + getModuleDs `thenDs` \ mod_name -> let -- hack: need to get at the name of the C stub we're about to generate. - fe_nm = _PK_ (moduleUserString mod_name ++ "_" ++ toCName fe_id) + fe_nm = mkFastString (unpackFS (zEncodeFS (moduleFS mod_name)) ++ "_" ++ toCName fe_id) in - dsFExport mod_name id export_ty fe_nm cconv True `thenDs` \ (h_code, c_code) -> - newSysLocalDs arg_ty `thenDs` \ cback -> - dsLookupGlobalValue newStablePtrName `thenDs` \ newStablePtrId -> + newSysLocalDs arg_ty `thenDs` \ cback -> + dsLookupGlobalId newStablePtrName `thenDs` \ newStablePtrId -> + dsLookupTyCon stablePtrTyConName `thenDs` \ stable_ptr_tycon -> let - mk_stbl_ptr_app = mkApps (Var newStablePtrId) [ Type arg_ty, Var cback ] + mk_stbl_ptr_app = mkApps (Var newStablePtrId) [ Type arg_ty, Var cback ] + stable_ptr_ty = mkTyConApp stable_ptr_tycon [arg_ty] + export_ty = mkFunTy stable_ptr_ty arg_ty in - dsLookupGlobalValue bindIOName `thenDs` \ bindIOId -> - newSysLocalDs (mkTyConApp stablePtrTyCon [arg_ty]) `thenDs` \ stbl_value -> + dsLookupGlobalId bindIOName `thenDs` \ bindIOId -> + newSysLocalDs stable_ptr_ty `thenDs` \ stbl_value -> + dsFExport id export_ty fe_nm cconv True + `thenDs` \ (h_code, c_code, arg_reps, args_size) -> let - stbl_app cont ret_ty - = mkApps (Var bindIOId) - [ Type (mkTyConApp stablePtrTyCon [arg_ty]) - , Type ret_ty - , mk_stbl_ptr_app - , cont - ] - + stbl_app cont ret_ty = mkApps (Var bindIOId) + [ Type stable_ptr_ty + , Type ret_ty + , mk_stbl_ptr_app + , cont + ] {- The arguments to the external function which will create a little bit of (template) code on the fly @@ -342,13 +385,28 @@ dsFExportDynamic mod_name id cconv -} adj_args = [ mkIntLitInt (ccallConvToInt cconv) , Var stbl_value - , mkLit (MachLabel fe_nm) + , mkLit (MachLabel fe_nm mb_sz_args) + , mkLit (mkStringLit arg_type_info) ] -- name of external entry point providing these services. -- (probably in the RTS.) - adjustor = SLIT("createAdjustor") + adjustor = FSLIT("createAdjustor") + + arg_type_info = map repCharCode arg_reps + repCharCode F32 = 'f' + repCharCode F64 = 'd' + repCharCode I64 = 'l' + repCharCode _ = 'i' + + -- Determine the number of bytes of arguments to the stub function, + -- so that we can attach the '@N' suffix to its label if it is a + -- stdcall on Windows. + mb_sz_args = case cconv of + StdCallConv -> Just args_size + _ -> Nothing + in - dsCCall adjustor adj_args PlayRisky False io_res_ty `thenDs` \ ccall_adj -> + dsCCall adjustor adj_args PlayRisky io_res_ty `thenDs` \ ccall_adj -> -- PlayRisky: the adjustor doesn't allocate in the Haskell heap or do a callback let ccall_adj_ty = exprType ccall_adj ccall_io_adj = mkLams [stbl_value] $ @@ -369,7 +427,6 @@ dsFExportDynamic mod_name id cconv ([arg_ty], io_res_ty) = tcSplitFunTys sans_foralls [res_ty] = tcTyConAppArgs io_res_ty -- Must use tcSplit* to see the (IO t), which is a newtype - export_ty = mkFunTy (mkTyConApp stablePtrTyCon [arg_ty]) arg_ty toCName :: Id -> String toCName i = showSDoc (pprCode CStyle (ppr (idName i))) @@ -386,39 +443,44 @@ The C stub constructs the application of the exported Haskell function using the hugs/ghc rts invocation API. \begin{code} -mkFExportCBits :: String - -> FAST_STRING +mkFExportCBits :: FastString -> Maybe Id -- Just==static, Nothing==dynamic -> [Type] -> Type -> Bool -- True <=> returns an IO type -> CCallConv - -> (SDoc, SDoc) -mkFExportCBits mod_nm c_nm maybe_target arg_htys res_hty is_IO_res_ty cc - = (header_bits, c_bits) + -> (SDoc, + SDoc, + [MachRep], -- the argument reps + Int -- total size of arguments + ) +mkFExportCBits c_nm maybe_target arg_htys res_hty is_IO_res_ty cc + = (header_bits, c_bits, + [rep | (_,_,_,rep) <- arg_info], -- just the real args + sum [ machRepByteWidth rep | (_,_,_,rep) <- aug_arg_info] -- all the args + ) where - -- Create up types and names for the real args - arg_cnames, arg_ctys :: [SDoc] - arg_cnames = mkCArgNames 1 arg_htys - arg_ctys = map showStgType arg_htys - - -- and also for auxiliary ones; the stable ptr in the dynamic case, and - -- a slot for the dummy return address in the dynamic + ccall case - extra_cnames_and_ctys - = case maybe_target of - Nothing -> [(text "the_stableptr", text "StgStablePtr")] - other -> [] - ++ - case (maybe_target, cc) of - (Nothing, CCallConv) -> [(text "original_return_addr", text "void*")] - other -> [] - - all_cnames_and_ctys :: [(SDoc, SDoc)] - all_cnames_and_ctys - = extra_cnames_and_ctys ++ zip arg_cnames arg_ctys + -- list the arguments to the C function + arg_info :: [(SDoc, -- arg name + SDoc, -- C type + Type, -- Haskell type + MachRep)] -- the MachRep + arg_info = [ (text ('a':show n), showStgType ty, ty, + typeMachRep (getPrimTyOf ty)) + | (ty,n) <- zip arg_htys [1..] ] + + -- add some auxiliary args; the stable ptr in the wrapper case, and + -- a slot for the dummy return address in the wrapper + ccall case + aug_arg_info + | isNothing maybe_target = stable_ptr_arg : insertRetAddr cc arg_info + | otherwise = arg_info + + stable_ptr_arg = + (text "the_stableptr", text "StgStablePtr", undefined, + typeMachRep (mkStablePtrPrimTy alphaTy)) -- stuff to do with the return type of the C function - res_hty_is_unit = res_hty `eqType` unitTy -- Look through any newtypes + res_hty_is_unit = res_hty `coreEqType` unitTy -- Look through any newtypes cResType | res_hty_is_unit = text "void" | otherwise = showStgType res_hty @@ -430,35 +492,63 @@ mkFExportCBits mod_nm c_nm maybe_target arg_htys res_hty is_IO_res_ty cc header_bits = ptext SLIT("extern") <+> fun_proto <> semi - fun_proto = cResType <+> pprCconv <+> ptext c_nm <> - parens (hsep (punctuate comma (map (\(nm,ty) -> ty <+> nm) - all_cnames_and_ctys))) + fun_proto = cResType <+> pprCconv <+> ftext c_nm <> + parens (hsep (punctuate comma (map (\(nm,ty,_,_) -> ty <+> nm) + aug_arg_info))) -- the target which will form the root of what we ask rts_evalIO to run the_cfun = case maybe_target of Nothing -> text "(StgClosure*)deRefStablePtr(the_stableptr)" - Just hs_fn -> ppr hs_fn <> text "_closure" + Just hs_fn -> char '&' <> ppr hs_fn <> text "_closure" + + cap = text "cap" <> comma -- the expression we give to rts_evalIO expr_to_run - = foldl appArg the_cfun (zip arg_cnames arg_htys) + = foldl appArg the_cfun arg_info -- NOT aug_arg_info where - appArg acc (arg_cname, arg_hty) + appArg acc (arg_cname, _, arg_hty, _) = text "rts_apply" - <> parens (acc <> comma <> mkHObj arg_hty <> parens arg_cname) + <> parens (cap <> acc <> comma <> mkHObj arg_hty <> parens (cap <> arg_cname)) -- various other bits for inside the fn declareResult = text "HaskellObj ret;" + declareCResult | res_hty_is_unit = empty + | otherwise = cResType <+> text "cret;" - return_what | res_hty_is_unit = empty - | otherwise = parens (unpackHObj res_hty <> parens (text "ret")) + assignCResult | res_hty_is_unit = empty + | otherwise = + text "cret=" <> unpackHObj res_hty <> parens (text "ret") <> semi -- an extern decl for the fn being called extern_decl = case maybe_target of Nothing -> empty - Just hs_fn -> text "extern StgClosure* " <> ppr hs_fn <> text "_closure" <> semi + Just hs_fn -> text "extern StgClosure " <> ppr hs_fn <> text "_closure" <> semi + + + -- Initialise foreign exports by registering a stable pointer from an + -- __attribute__((constructor)) function. + -- The alternative is to do this from stginit functions generated in + -- codeGen/CodeGen.lhs; however, stginit functions have a negative impact + -- on binary sizes and link times because the static linker will think that + -- all modules that are imported directly or indirectly are actually used by + -- the program. + -- (this is bad for big umbrella modules like Graphics.Rendering.OpenGL) + + initialiser + = case maybe_target of + Nothing -> empty + Just hs_fn -> + vcat + [ text "static void stginit_export_" <> ppr hs_fn + <> text "() __attribute__((constructor));" + , text "static void stginit_export_" <> ppr hs_fn <> text "()" + , braces (text "getStablePtr" + <> parens (text "(StgPtr) &" <> ppr hs_fn <> text "_closure") + <> semi) + ] -- finally, the whole darn thing c_bits = @@ -467,21 +557,42 @@ mkFExportCBits mod_nm c_nm maybe_target arg_htys res_hty is_IO_res_ty cc fun_proto $$ vcat [ lbrace - , text "SchedulerStatus rc;" + , text "Capability *cap;" , declareResult + , declareCResult + , text "cap = rts_lock();" -- create the application + perform it. - , text (if is_IO_res_ty then "rc=rts_evalIO" else "rc=rts_eval") - <> parens (expr_to_run <+> comma <> text "&ret") - <> semi - , text "rts_checkSchedStatus" <> parens (doubleQuotes (ptext c_nm) - <> comma <> text "rc") <> semi - , text "return" <> return_what <> semi + , text "cap=rts_evalIO" <> parens ( + cap <> + text "rts_apply" <> parens ( + cap <> + text "(HaskellObj)" + <> text (if is_IO_res_ty + then "runIO_closure" + else "runNonIO_closure") + <> comma + <> expr_to_run + ) <+> comma + <> text "&ret" + ) <> semi + , text "rts_checkSchedStatus" <> parens (doubleQuotes (ftext c_nm) + <> comma <> text "cap") <> semi + , assignCResult + , text "rts_unlock(cap);" + , if res_hty_is_unit then empty + else text "return cret;" , rbrace - ] - - -mkCArgNames :: Int -> [a] -> [SDoc] -mkCArgNames n as = zipWith (\ _ n -> text ('a':show n)) as [n..] + ] $$ + initialiser + +-- NB. the calculation here isn't strictly speaking correct. +-- We have a primitive Haskell type (eg. Int#, Double#), and +-- we want to know the size, when passed on the C stack, of +-- the associated C type (eg. HsInt, HsDouble). We don't have +-- this information to hand, but we know what GHC's conventions +-- are for passing around the primitive Haskell types, so we +-- use that instead. I hope the two coincide --SDM +typeMachRep ty = argMachRep (typeCgRep ty) mkHObj :: Type -> SDoc mkHObj t = text "rts_mk" <> text (showFFIType t) @@ -498,4 +609,38 @@ showFFIType t = getOccString (getName tc) tc = case tcSplitTyConApp_maybe (repType t) of Just (tc,_) -> tc Nothing -> pprPanic "showFFIType" (ppr t) + +#if !defined(x86_64_TARGET_ARCH) +insertRetAddr CCallConv args = ret_addr_arg : args +insertRetAddr _ args = args +#else +-- On x86_64 we insert the return address after the 6th +-- integer argument, because this is the point at which we +-- need to flush a register argument to the stack (See rts/Adjustor.c for +-- details). +insertRetAddr CCallConv args = go 0 args + where go 6 args = ret_addr_arg : args + go n (arg@(_,_,_,rep):args) + | I64 <- rep = arg : go (n+1) args + | otherwise = arg : go n args + go n [] = [] +insertRetAddr _ args = args +#endif + +ret_addr_arg = (text "original_return_addr", text "void*", undefined, + typeMachRep addrPrimTy) + +-- This function returns the primitive type associated with the boxed +-- type argument to a foreign export (eg. Int ==> Int#). It assumes +-- that all the types we are interested in have a single constructor +-- with a single primitive-typed argument, which is true for all of the legal +-- foreign export argument types (see TcType.legalFEArgTyCon). +getPrimTyOf :: Type -> Type +getPrimTyOf ty = + case splitProductType_maybe (repType ty) of + Just (_, _, data_con, [prim_ty]) -> + ASSERT(dataConSourceArity data_con == 1) + ASSERT2(isUnLiftedType prim_ty, ppr prim_ty) + prim_ty + _other -> pprPanic "DsForeign.getPrimTyOf" (ppr ty) \end{code}