# result# state#) -> (R# result#, realWorld#)
\end{verbatim}
\begin{code}
dsCCall :: CLabelString
-> [CoreExpr]
-> Safety
-> Type
-> DsM CoreExpr
dsCCall lbl args may_gc result_ty
= do (unboxed_args, arg_wrappers) <- mapAndUnzipM unboxArg args
(ccall_result_ty, res_wrapper) <- boxResult result_ty
uniq <- newUnique
let
target = StaticTarget lbl Nothing
the_fcall = CCall (CCallSpec target CCallConv may_gc)
the_prim_app = mkFCall uniq the_fcall unboxed_args ccall_result_ty
return (foldr ($) (res_wrapper the_prim_app) arg_wrappers)
mkFCall :: Unique -> ForeignCall
-> [CoreExpr]
-> Type
-> CoreExpr
mkFCall uniq the_fcall val_args res_ty
= mkApps (mkVarApps (Var the_fcall_id) tyvars) val_args
where
arg_tys = map exprType val_args
body_ty = (mkFunTys arg_tys res_ty)
tyvars = varSetElems (tyVarsOfType body_ty)
ty = mkForAllTys tyvars body_ty
the_fcall_id = mkFCallId uniq the_fcall ty
\end{code}
\begin{code}
unboxArg :: CoreExpr
-> DsM (CoreExpr,
CoreExpr -> CoreExpr
)
unboxArg arg
| isPrimitiveType arg_ty
= return (arg, \body -> body)
| Just(_rep_ty, co) <- splitNewTypeRepCo_maybe arg_ty
= unboxArg (mkCoerce co arg)
| Just (tc,_) <- splitTyConApp_maybe arg_ty,
tc `hasKey` boolTyConKey
= do prim_arg <- newSysLocalDs intPrimTy
return (Var prim_arg,
\ body -> Case (mkWildCase arg arg_ty intPrimTy
[(DataAlt falseDataCon,[],mkIntLit 0),
(DataAlt trueDataCon, [],mkIntLit 1)])
prim_arg
(exprType body)
[(DEFAULT,[],body)])
| is_product_type && data_con_arity == 1
= ASSERT2(isUnLiftedType data_con_arg_ty1, pprType arg_ty)
do case_bndr <- newSysLocalDs arg_ty
prim_arg <- newSysLocalDs data_con_arg_ty1
return (Var prim_arg,
\ body -> Case arg case_bndr (exprType body) [(DataAlt data_con,[prim_arg],body)]
)
| is_product_type &&
data_con_arity == 3 &&
maybeToBool maybe_arg3_tycon &&
(arg3_tycon == byteArrayPrimTyCon ||
arg3_tycon == mutableByteArrayPrimTyCon)
= do case_bndr <- newSysLocalDs arg_ty
vars@[_l_var, _r_var, arr_cts_var] <- newSysLocalsDs data_con_arg_tys
return (Var arr_cts_var,
\ body -> Case arg case_bndr (exprType body) [(DataAlt data_con,vars,body)]
)
| Just (tc, [arg_ty]) <- splitTyConApp_maybe arg_ty,
tc == listTyCon,
Just (cc,[]) <- splitTyConApp_maybe arg_ty,
cc == charTyCon
= do unpack_id <- dsLookupGlobalId marshalStringName
prim_string <- newSysLocalDs addrPrimTy
return (Var prim_string,
\ body ->
let
io_ty = exprType body
Just (_,io_arg,_) = tcSplitIOType_maybe io_ty
in
mkApps (Var unpack_id)
[ Type io_arg
, arg
, Lam prim_string body
])
| Just (tc, [_]) <- splitTyConApp_maybe arg_ty,
tyConName tc == objectTyConName
= do unpack_id <- dsLookupGlobalId marshalObjectName
prim_obj <- newSysLocalDs addrPrimTy
return (Var prim_obj,
\ body ->
let
io_ty = exprType body
Just (_,io_arg,_) = tcSplitIOType_maybe io_ty
in
mkApps (Var unpack_id)
[ Type io_arg
, arg
, Lam prim_obj body
])
| otherwise
= do l <- getSrcSpanDs
pprPanic "unboxArg: " (ppr l <+> ppr arg_ty)
where
arg_ty = exprType arg
maybe_product_type = splitProductType_maybe arg_ty
is_product_type = maybeToBool maybe_product_type
Just (_, _, data_con, data_con_arg_tys) = maybe_product_type
data_con_arity = dataConSourceArity data_con
(data_con_arg_ty1 : _) = data_con_arg_tys
(_ : _ : data_con_arg_ty3 : _) = data_con_arg_tys
maybe_arg3_tycon = splitTyConApp_maybe data_con_arg_ty3
Just (arg3_tycon,_) = maybe_arg3_tycon
\end{code}
\begin{code}
boxResult :: Type
-> DsM (Type, CoreExpr -> CoreExpr)
boxResult result_ty
| Just (io_tycon, io_res_ty, co) <- tcSplitIOType_maybe result_ty
= do { res <- resultWrapper io_res_ty
; let extra_result_tys
= case res of
(Just ty,_)
| isUnboxedTupleType ty
-> let (Just (_, ls)) = splitTyConApp_maybe ty in tail ls
_ -> []
return_result state anss
= mkConApp (tupleCon Unboxed (2 + length extra_result_tys))
(map Type (realWorldStatePrimTy : io_res_ty : extra_result_tys)
++ (state : anss))
; (ccall_res_ty, the_alt) <- mk_alt return_result res
; state_id <- newSysLocalDs realWorldStatePrimTy
; let io_data_con = head (tyConDataCons io_tycon)
toIOCon = dataConWrapId io_data_con
wrap the_call = mkCoerceI (mkSymCoI co) $
mkApps (Var toIOCon)
[ Type io_res_ty,
Lam state_id $
mkWildCase (App the_call (Var state_id))
ccall_res_ty
(coreAltType the_alt)
[the_alt]
]
; return (realWorldStatePrimTy `mkFunTy` ccall_res_ty, wrap) }
boxResult result_ty
= do
res <- resultWrapper result_ty
(ccall_res_ty, the_alt) <- mk_alt return_result res
let
wrap = \ the_call -> mkWildCase (App the_call (Var realWorldPrimId))
ccall_res_ty
(coreAltType the_alt)
[the_alt]
return (realWorldStatePrimTy `mkFunTy` ccall_res_ty, wrap)
where
return_result _ [ans] = ans
return_result _ _ = panic "return_result: expected single result"
mk_alt :: (Expr Var -> [Expr Var] -> Expr Var)
-> (Maybe Type, Expr Var -> Expr Var)
-> DsM (Type, (AltCon, [Id], Expr Var))
mk_alt return_result (Nothing, wrap_result)
= do
state_id <- newSysLocalDs realWorldStatePrimTy
let
the_rhs = return_result (Var state_id)
[wrap_result (panic "boxResult")]
ccall_res_ty = mkTyConApp unboxedSingletonTyCon [realWorldStatePrimTy]
the_alt = (DataAlt unboxedSingletonDataCon, [state_id], the_rhs)
return (ccall_res_ty, the_alt)
mk_alt return_result (Just prim_res_ty, wrap_result)
| isUnboxedTupleType prim_res_ty= do
let
Just (_, ls) = splitTyConApp_maybe prim_res_ty
arity = 1 + length ls
args_ids@(result_id:as) <- mapM newSysLocalDs ls
state_id <- newSysLocalDs realWorldStatePrimTy
let
the_rhs = return_result (Var state_id)
(wrap_result (Var result_id) : map Var as)
ccall_res_ty = mkTyConApp (tupleTyCon Unboxed arity)
(realWorldStatePrimTy : ls)
the_alt = ( DataAlt (tupleCon Unboxed arity)
, (state_id : args_ids)
, the_rhs
)
return (ccall_res_ty, the_alt)
| otherwise = do
result_id <- newSysLocalDs prim_res_ty
state_id <- newSysLocalDs realWorldStatePrimTy
let
the_rhs = return_result (Var state_id)
[wrap_result (Var result_id)]
ccall_res_ty = mkTyConApp unboxedPairTyCon [realWorldStatePrimTy, prim_res_ty]
the_alt = (DataAlt unboxedPairDataCon, [state_id, result_id], the_rhs)
return (ccall_res_ty, the_alt)
resultWrapper :: Type
-> DsM (Maybe Type,
CoreExpr -> CoreExpr)
resultWrapper result_ty
| isPrimitiveType result_ty
= return (Just result_ty, \e -> e)
| Just (tc,_) <- maybe_tc_app, tc `hasKey` unitTyConKey
= return (Nothing, \_ -> Var unitDataConId)
| Just (tc,_) <- maybe_tc_app, tc `hasKey` boolTyConKey
= return
(Just intPrimTy, \e -> mkWildCase e intPrimTy
boolTy
[(DEFAULT ,[],Var trueDataConId ),
(LitAlt (mkMachInt 0),[],Var falseDataConId)])
| Just (rep_ty, co) <- splitNewTypeRepCo_maybe result_ty
= do (maybe_ty, wrapper) <- resultWrapper rep_ty
return (maybe_ty, \e -> mkCoerce (mkSymCoercion co) (wrapper e))
| Just (tyvar, rest) <- splitForAllTy_maybe result_ty
= do (maybe_ty, wrapper) <- resultWrapper rest
return (maybe_ty, \e -> Lam tyvar (wrapper e))
| Just (tycon, tycon_arg_tys, data_con, data_con_arg_tys) <- splitProductType_maybe result_ty,
dataConSourceArity data_con == 1
= do let
(unwrapped_res_ty : _) = data_con_arg_tys
narrow_wrapper = maybeNarrow tycon
(maybe_ty, wrapper) <- resultWrapper unwrapped_res_ty
return
(maybe_ty, \e -> mkApps (Var (dataConWrapId data_con))
(map Type tycon_arg_tys ++ [wrapper (narrow_wrapper e)]))
| Just (tc, [arg_ty]) <- maybe_tc_app, tc == listTyCon,
Just (cc,[]) <- splitTyConApp_maybe arg_ty, cc == charTyCon
= do pack_id <- dsLookupGlobalId unmarshalStringName
return (Just addrPrimTy,
\ e -> App (Var pack_id) e)
| Just (tc, [_]) <- maybe_tc_app,
tyConName tc == objectTyConName
= do pack_id <- dsLookupGlobalId unmarshalObjectName
return (Just addrPrimTy,
\ e -> App (Var pack_id) e)
| otherwise
= pprPanic "resultWrapper" (ppr result_ty)
where
maybe_tc_app = splitTyConApp_maybe result_ty
maybeNarrow :: TyCon -> (CoreExpr -> CoreExpr)
maybeNarrow tycon
| tycon `hasKey` int8TyConKey = \e -> App (Var (mkPrimOpId Narrow8IntOp)) e
| tycon `hasKey` int16TyConKey = \e -> App (Var (mkPrimOpId Narrow16IntOp)) e
| tycon `hasKey` int32TyConKey
&& wORD_SIZE > 4 = \e -> App (Var (mkPrimOpId Narrow32IntOp)) e
| tycon `hasKey` word8TyConKey = \e -> App (Var (mkPrimOpId Narrow8WordOp)) e
| tycon `hasKey` word16TyConKey = \e -> App (Var (mkPrimOpId Narrow16WordOp)) e
| tycon `hasKey` word32TyConKey
&& wORD_SIZE > 4 = \e -> App (Var (mkPrimOpId Narrow32WordOp)) e
| otherwise = id
\end{code}