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 CoreUtils ( exprType, mkInlineMe )
import Id ( Id, idType, idName, mkSysLocal, setInlinePragma )
import Literal ( Literal(..) )
ccallConvAttribute
)
import CStrings ( CLabelString )
-import TysWiredIn ( unitTy, stablePtrTyCon, tupleTyCon )
+import TysWiredIn ( unitTy, tupleTyCon )
import TysPrim ( addrPrimTy, mkStablePtrPrimTy, alphaTy )
import PrimRep ( getPrimRepSizeInBytes )
-import PrelNames ( hasKey, ioTyConKey, newStablePtrName, bindIOName,
+import PrelNames ( hasKey, ioTyConKey, stablePtrTyConName, newStablePtrName, bindIOName,
checkDotnetResName )
import BasicTypes ( Activation( NeverActive ) )
+import SrcLoc ( Located(..), unLoc )
import Outputable
import Maybe ( fromJust )
import FastString
type Binding = (Id, CoreExpr) -- No rec/nonrec structure;
-- the occurrence analyser will sort it all out
-dsForeigns :: [TypecheckedForeignDecl]
+dsForeigns :: [LForeignDecl Id]
-> DsM (ForeignStubs, [Binding])
dsForeigns []
= returnDs (NoStubs, [])
= foldlDs combine (ForeignStubs empty empty [] [], []) fos
where
combine (ForeignStubs acc_h acc_c acc_hdrs acc_feb, acc_f)
- (ForeignImport id _ spec depr loc)
- = dsFImport id spec `thenDs` \ (bs, h, c, mbhd) ->
+ (L loc (ForeignImport id _ spec depr))
+ = traceIf (text "fi start" <+> ppr id) `thenDs` \ _ ->
+ dsFImport (unLoc id) spec `thenDs` \ (bs, h, c, mbhd) ->
warnDepr depr loc `thenDs` \ _ ->
+ traceIf (text "fi end" <+> ppr id) `thenDs` \ _ ->
returnDs (ForeignStubs (h $$ acc_h)
(c $$ acc_c)
(addH mbhd acc_hdrs)
bs ++ acc_f)
combine (ForeignStubs acc_h acc_c acc_hdrs acc_feb, acc_f)
- (ForeignExport id _ (CExport (CExportStatic ext_nm cconv)) depr loc)
+ (L loc (ForeignExport (L _ id) _ (CExport (CExportStatic ext_nm cconv)) depr))
= dsFExport id (idType id)
ext_nm cconv False `thenDs` \(h, c, _) ->
warnDepr depr loc `thenDs` \_ ->
warnDepr False _ = returnDs ()
warnDepr True loc = dsWarn (loc, msg)
- where
- msg = ptext SLIT("foreign declaration uses deprecated non-standard syntax")
+ where
+ msg = ptext SLIT("foreign declaration uses deprecated non-standard syntax")
\end{code}
topConDs `thenDs` \ topCon ->
boxResult maybe_arg_ids 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)
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!
-- hack: need to get at the name of the C stub we're about to generate.
fe_nm = mkFastString (moduleString mod_name ++ "_" ++ toCName fe_id)
in
- dsFExport id export_ty fe_nm cconv True `thenDs` \ (h_code, c_code, stub_args) ->
newSysLocalDs arg_ty `thenDs` \ cback ->
- dsLookupGlobalId newStablePtrName `thenDs` \ newStablePtrId ->
+ 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
- dsLookupGlobalId 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, stub_args) ->
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
]
-- name of external entry point providing these services.
-- (probably in the RTS.)
- adjustor = FSLIT("createAdjustor")
+ adjustor = FSLIT("createAdjustor")
- mb_sz_args =
- case cconv of
- StdCallConv -> Just (sum (map (getPrimRepSizeInBytes . typePrimRep) stub_args))
- _ -> Nothing
+ sz_args = sum (map (getPrimRepSizeInBytes . typePrimRep) stub_args)
+ mb_sz_args = case cconv of
+ StdCallConv -> Just sz_args
+ _ -> 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] $
([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)))