X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2FdeSugar%2FDsForeign.lhs;h=45eb8138bfbeed71c2581217288d1dc465a0d8a9;hp=46fc0747a2742feeea33ea4dcfe13441045db691;hb=ad94d40948668032189ad22a0ad741ac1f645f50;hpb=61d2625ae2e6a4cdae2ffc92df828905e81c24cc diff --git a/compiler/deSugar/DsForeign.lhs b/compiler/deSugar/DsForeign.lhs index 46fc074..45eb813 100644 --- a/compiler/deSugar/DsForeign.lhs +++ b/compiler/deSugar/DsForeign.lhs @@ -1,11 +1,18 @@ % +% (c) The University of Glasgow 2006 % (c) The AQUA Project, Glasgow University, 1998 % -\section[DsCCall]{Desugaring \tr{foreign} declarations} -Expanding out @foreign import@ and @foreign export@ declarations. +Desugaring foreign declarations (see also DsCCall). \begin{code} +{-# 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/CodingStyle#Warnings +-- for details + module DsForeign ( dsForeigns ) where #include "HsVersions.h" @@ -13,47 +20,34 @@ import TcRnMonad -- temp import CoreSyn -import DsCCall ( dsCCall, mkFCall, boxResult, unboxArg, resultWrapper ) +import DsCCall import DsMonad -import HsSyn ( ForeignDecl(..), ForeignExport(..), LForeignDecl, - ForeignImport(..), CImportSpec(..) ) -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, mkSysLocal, setInlinePragma ) -import Literal ( Literal(..), mkStringLit ) -import Module ( moduleNameFS, moduleName ) -import Name ( getOccString, NamedThing(..) ) -import Type ( repType, coreEqType ) -import TcType ( Type, mkFunTys, mkForAllTys, mkTyConApp, - mkFunTy, tcSplitTyConApp_maybe, tcSplitIOType_maybe, - tcSplitForAllTys, tcSplitFunTys, tcTyConAppArgs, - isBoolTy - ) - -import BasicTypes ( Boxity(..) ) -import HscTypes ( ForeignStubs(..) ) -import ForeignCall ( ForeignCall(..), CCallSpec(..), - Safety(..), - CExportSpec(..), CLabelString, - CCallConv(..), ccallConvToInt, - ccallConvAttribute - ) -import TysWiredIn ( unitTy, tupleTyCon ) -import TysPrim ( addrPrimTy, mkStablePtrPrimTy, alphaTy, intPrimTy ) -import PrelNames ( stablePtrTyConName, newStablePtrName, bindIOName, - checkDotnetResName ) -import BasicTypes ( Activation( NeverActive ) ) -import SrcLoc ( Located(..), unLoc ) +import HsSyn +import DataCon +import MachOp +import SMRep +import CoreUtils +import Id +import Literal +import Module +import Name +import Type +import Coercion +import TcType + +import HscTypes +import ForeignCall +import TysWiredIn +import TysPrim +import PrelNames +import BasicTypes +import SrcLoc import Outputable -import Maybe ( fromJust, isNothing ) import FastString + +import Data.Maybe +import Data.List \end{code} Desugaring of @foreign@ declarations is naturally split up into @@ -78,39 +72,31 @@ dsForeigns :: [LForeignDecl Id] dsForeigns [] = returnDs (NoStubs, []) dsForeigns fos - = foldlDs combine (ForeignStubs empty empty [] [], []) fos - where - 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) + = do + fives <- mapM do_ldecl fos + let + (hs, cs, hdrs, idss, bindss) = unzip5 fives + fe_ids = concat idss + fe_init_code = map foreignExportInitialiser fe_ids + -- + return (ForeignStubs + (vcat hs) + (vcat cs $$ vcat fe_init_code) + (nub (concat hdrs)), + (concat bindss)) + where + do_ldecl (L loc decl) = putSrcSpanDs loc (do_decl decl) + + do_decl (ForeignImport id _ spec) = traceIf (text "fi start" <+> ppr id) `thenDs` \ _ -> dsFImport (unLoc id) spec `thenDs` \ (bs, h, c, mbhd) -> - warnDepr depr `thenDs` \ _ -> traceIf (text "fi end" <+> ppr id) `thenDs` \ _ -> - returnDs (ForeignStubs (h $$ 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) + returnDs (h, c, maybeToList mbhd, [], bs) + + do_decl (ForeignExport (L _ id) _ (CExport (CExportStatic ext_nm cconv))) = 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") + returnDs (h, c, [], [id], []) \end{code} @@ -303,8 +289,9 @@ dsFExport fn_id ty ext_name cconv isDyn -- If it's IO t, return (t, True) -- If it's plain t, return (t, False) (case tcSplitIOType_maybe orig_res_ty of - Just (ioTyCon, res_ty) -> returnDs (res_ty, True) + Just (ioTyCon, res_ty, co) -> returnDs (res_ty, True) -- The function already returns IO t + -- ToDo: what about the coercion? Nothing -> returnDs (orig_res_ty, False) -- The function returns t ) `thenDs` \ (res_ty, -- t @@ -331,7 +318,7 @@ f :: Fun -> IO (FunPtr Fun) f cback = bindIO (newStablePtr cback) (\StablePtr sp# -> IO (\s1# -> - case _ccall_ createAdjustor cconv sp# ``f_helper'' s1# of + case _ccall_ createAdjustor cconv sp# ``f_helper'' s1# of (# s2#, a# #) -> (# s2#, A# a# #))) foreign import "&f_helper" f_helper :: FunPtr (StablePtr Fun -> Fun) @@ -360,7 +347,6 @@ dsFExportDynamic id cconv dsLookupGlobalId newStablePtrName `thenDs` \ newStablePtrId -> dsLookupTyCon stablePtrTyConName `thenDs` \ stable_ptr_tycon -> let - 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 @@ -369,12 +355,6 @@ dsFExportDynamic id cconv 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 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 @@ -405,15 +385,19 @@ dsFExportDynamic id cconv _ -> Nothing in - dsCCall adjustor adj_args PlayRisky io_res_ty `thenDs` \ ccall_adj -> + dsCCall adjustor adj_args PlayRisky (mkTyConApp io_tc [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] $ - Note (Coerce io_res_ty ccall_adj_ty) - ccall_adj - io_app = mkLams tvs $ - mkLams [cback] $ - stbl_app ccall_io_adj res_ty + + let io_app = mkLams tvs $ + Lam cback $ + mkCoerceI (mkSymCoI co) $ + mkApps (Var bindIOId) + [ Type stable_ptr_ty + , Type res_ty + , mkApps (Var newStablePtrId) [ Type arg_ty, Var cback ] + , Lam stbl_value ccall_adj + ] + fed = (id `setInlinePragma` NeverActive, io_app) -- Never inline the f.e.d. function, because the litlit -- might not be in scope in other modules. @@ -421,11 +405,12 @@ dsFExportDynamic id cconv returnDs ([fed], h_code, c_code) where - ty = idType id - (tvs,sans_foralls) = tcSplitForAllTys ty - ([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 + ty = idType id + (tvs,sans_foralls) = tcSplitForAllTys ty + ([arg_ty], fn_res_ty) = tcSplitFunTys sans_foralls + Just (io_tc, res_ty, co) = tcSplitIOType_maybe fn_res_ty + -- Must have an IO type; hence Just + -- co : fn_res_ty ~ IO res_ty toCName :: Id -> String toCName i = showSDoc (pprCode CStyle (ppr (idName i))) @@ -466,7 +451,7 @@ mkFExportCBits c_nm maybe_target arg_htys res_hty is_IO_res_ty cc MachRep)] -- the MachRep arg_info = [ (text ('a':show n), showStgType ty, ty, typeMachRep (getPrimTyOf ty)) - | (ty,n) <- zip arg_htys [1..] ] + | (ty,n) <- zip arg_htys [1::Int ..] ] -- add some auxiliary args; the stable ptr in the wrapper case, and -- a slot for the dummy return address in the wrapper + ccall case @@ -527,28 +512,6 @@ mkFExportCBits c_nm maybe_target arg_htys res_hty is_IO_res_ty cc 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 = space $$ @@ -581,8 +544,28 @@ mkFExportCBits c_nm maybe_target arg_htys res_hty is_IO_res_ty cc , if res_hty_is_unit then empty else text "return cret;" , rbrace - ] $$ - initialiser + ] + + +foreignExportInitialiser :: Id -> SDoc +foreignExportInitialiser hs_fn = + -- 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) + 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) + ] + -- NB. the calculation here isn't strictly speaking correct. -- We have a primitive Haskell type (eg. Int#, Double#), and