%
-% (c) The AQUA Project, Glasgow University, 1994-1996
+% (c) The AQUA Project, Glasgow University, 1994-1998
%
\section[DsCCall]{Desugaring \tr{_ccall_}s and \tr{_casm_}s}
\begin{code}
-#include "HsVersions.h"
-
-module DsCCall ( dsCCall ) where
+module DsCCall
+ ( dsCCall
+ , unboxArg
+ , boxResult
+ , wrapUnboxedValue
+ , can'tSeeDataConsPanic
+
+ ) where
-import Ubiq
+#include "HsVersions.h"
import CoreSyn
import DsMonad
import DsUtils
+import TcHsSyn ( maybeBoxedPrimType )
import CoreUtils ( coreExprType )
-import Id ( dataConArgTys, mkTupleCon )
+import Id ( Id, mkWildId )
+import Const ( Con(..) )
import Maybes ( maybeToBool )
-import PprStyle ( PprStyle(..) )
-import PprType ( GenType{-instances-} )
-import PrelInfo ( byteArrayPrimTy, getStatePairingConInfo,
- packStringForCId, realWorldStatePrimTy,
- realWorldStateTy, realWorldTy, stateDataCon,
- stringTy )
-import Pretty
+import PrelInfo ( packStringForCId )
import PrimOp ( PrimOp(..) )
-import Type ( isPrimType, maybeAppDataTyConExpandingDicts, eqTy )
-import Util ( pprPanic, pprError, panic )
-
-maybeBoxedPrimType = panic "DsCCall.maybeBoxedPrimType"
+import DataCon ( DataCon, dataConId, dataConArgTys )
+import CallConv
+import Type ( isUnLiftedType, splitAlgTyConApp_maybe, mkFunTys,
+ splitTyConApp_maybe, Type
+ )
+import TysPrim ( byteArrayPrimTy, realWorldStatePrimTy,
+ byteArrayPrimTyCon, mutableByteArrayPrimTyCon )
+import TysWiredIn ( unitDataCon, stringTy,
+ unboxedPairDataCon,
+ mkUnboxedTupleTy, unboxedTupleCon
+ )
+import Outputable
\end{code}
Desugaring of @ccall@s consists of adding some state manipulation,
desired.
The state stuff just consists of adding in
-@\ s -> case s of { S# s# -> ... }@ in an appropriate place.
+@PrimIO (\ s -> case s of { S# s# -> ... })@ in an appropriate place.
The unboxing is straightforward, as all information needed to unbox is
available from the type. For each boxed-primitive argument, we
\end{verbatim}
\begin{code}
-dsCCall :: FAST_STRING -- C routine to invoke
+dsCCall :: FAST_STRING -- C routine to invoke
-> [CoreExpr] -- Arguments (desugared)
- -> Bool -- True <=> might cause Haskell GC
- -> Bool -- True <=> really a "_casm_"
- -> Type -- Type of the result (a boxed-prim type)
+ -> Bool -- True <=> might cause Haskell GC
+ -> Bool -- True <=> really a "_casm_"
+ -> Type -- Type of the result (a boxed-prim IO type)
-> DsM CoreExpr
dsCCall label args may_gc is_asm result_ty
- = newSysLocalDs realWorldStateTy `thenDs` \ old_s ->
-
- mapAndUnzipDs unboxArg (Var old_s : args) `thenDs` \ (final_args, arg_wrappers) ->
+ = newSysLocalDs realWorldStatePrimTy `thenDs` \ old_s ->
- boxResult result_ty `thenDs` \ (final_result_ty, res_wrapper) ->
+ mapAndUnzipDs unboxArg args `thenDs` \ (unboxed_args, arg_wrappers) ->
+ boxResult result_ty `thenDs` \ (final_result_ty, res_wrapper) ->
let
- the_ccall_op = CCallOp label is_asm may_gc
- (map coreExprType final_args)
- final_result_ty
- in
- mkPrimDs the_ccall_op
- [] -- ***NOTE*** no ty apps; the types are inside the_ccall_op.
- final_args `thenDs` \ the_prim_app ->
- let
- the_body = foldr apply (res_wrapper the_prim_app) arg_wrappers
+ val_args = Var old_s : unboxed_args
+ final_args = Type inst_ty : val_args
+
+ -- A CCallOp has type (forall a. a), so we must instantiate
+ -- it at the full type, including the state argument
+ inst_ty = mkFunTys (map coreExprType val_args) final_result_ty
+
+ the_ccall_op = CCallOp (Left label) is_asm may_gc cCallConv
+ the_prim_app = mkPrimApp the_ccall_op final_args
+
+ the_body = foldr ($) (res_wrapper the_prim_app) arg_wrappers
in
- returnDs (Lam (ValBinder old_s) the_body)
- where
- apply f x = f x
+ returnDs (Lam old_s the_body)
\end{code}
\begin{code}
unboxArg :: CoreExpr -- The supplied argument
- -> DsM (CoreExpr, -- To pass as the actual argument
+ -> DsM (CoreExpr, -- To pass as the actual argument
CoreExpr -> CoreExpr -- Wrapper to unbox the arg
)
unboxArg arg
-- Primitive types
-- ADR Question: can this ever be used? None of the PrimTypes are
-- instances of the CCallable class.
- | isPrimType arg_ty
+ --
+ -- SOF response:
+ -- Oh yes they are, I've just added them :-) Having _ccall_ and _casm_
+ -- that accept unboxed arguments is a Good Thing if you have a stub generator
+ -- which generates the boiler-plate box-unbox code for you, i.e., it may help
+ -- us nuke this very module :-)
+ --
+ | isUnLiftedType arg_ty
= returnDs (arg, \body -> body)
-- Strings
- | arg_ty `eqTy` stringTy
+ | arg_ty == stringTy
-- ToDo (ADR): - allow synonyms of Strings too?
= newSysLocalDs byteArrayPrimTy `thenDs` \ prim_arg ->
- mkAppDs (Var packStringForCId) [] [arg] `thenDs` \ pack_appn ->
returnDs (Var prim_arg,
- \body -> Case pack_appn (PrimAlts []
- (BindDefault prim_arg body))
- )
+ \body -> Case (App (Var packStringForCId) arg)
+ prim_arg [(DEFAULT,[],body)])
| null data_cons
-- oops: we can't see the data constructors!!!
- = can't_see_datacons_error "argument" arg_ty
+ = can'tSeeDataConsPanic "argument" arg_ty
- -- Byte-arrays, both mutable and otherwise
- -- (HACKy method -- but we really don't want the TyCons wired-in...) [WDP 94/10]
+ -- Byte-arrays, both mutable and otherwise; hack warning
| is_data_type &&
length data_con_arg_tys == 2 &&
- not (isPrimType data_con_arg_ty1) &&
- isPrimType data_con_arg_ty2
+ maybeToBool maybe_arg2_tycon &&
+ (arg2_tycon == byteArrayPrimTyCon ||
+ arg2_tycon == mutableByteArrayPrimTyCon)
-- and, of course, it is an instance of CCallable
--- ( tycon == byteArrayTyCon ||
--- tycon == mutableByteArrayTyCon )
- = newSysLocalsDs data_con_arg_tys `thenDs` \ vars@[ixs_var, arr_cts_var] ->
+ = newSysLocalDs arg_ty `thenDs` \ case_bndr ->
+ newSysLocalsDs data_con_arg_tys `thenDs` \ vars@[ixs_var, arr_cts_var] ->
returnDs (Var arr_cts_var,
- \ body -> Case arg (AlgAlts [(the_data_con,vars,body)]
- NoDefault)
+ \ body -> Case arg case_bndr [(DataCon the_data_con,vars,body)]
)
-- Data types with a single constructor, which has a single, primitive-typed arg
| maybeToBool maybe_boxed_prim_arg_ty
- = newSysLocalDs the_prim_arg_ty `thenDs` \ prim_arg ->
- returnDs (Var prim_arg,
- \ body -> Case arg (AlgAlts [(box_data_con,[prim_arg],body)]
- NoDefault)
- )
- -- ... continued below ....
-\end{code}
-
-As an experiment, I'm going to unpack any "acceptably small"
-enumeration. This code will never get used in the main version
-because enumerations would have triggered type errors but I've
-disabled type-checking in my version. ADR
-
-To Will: It might be worth leaving this in (but commented out) until
-we decide what's happening with enumerations. ADR
-
-\begin{code}
-#if 0
- -- MAYBE LATER:
- -- Data types with a nullary constructors (enumeration)
- | isEnumerationType arg_ty && -- enumeration
- (length data_cons) <= 5 -- "acceptably short"
- = newSysLocalDs the_prim_arg_ty `thenDs` \ prim_arg ->
-
- let
- alts = [ (con, [], mkMachInt i) | (con,i) <- data_cons `zip` [0..] ]
- arg_tag = Case arg (AlgAlts alts) NoDefault
- in
-
+ = newSysLocalDs arg_ty `thenDs` \ case_bndr ->
+ newSysLocalDs the_prim_arg_ty `thenDs` \ prim_arg ->
returnDs (Var prim_arg,
- \ body -> Case arg_tag (PrimAlts [(prim_arg, body)] NoDefault)
+ \ body -> Case arg case_bndr [(DataCon box_data_con,[prim_arg],body)]
)
-#endif
-\end{code}
-\begin{code}
- -- ... continued from above ....
| otherwise
- = pprPanic "unboxArg: " (ppr PprDebug arg_ty)
+ = getSrcLocDs `thenDs` \ l ->
+ pprPanic "unboxArg: " (ppr l <+> ppr arg_ty)
where
arg_ty = coreExprType arg
maybe_boxed_prim_arg_ty = maybeBoxedPrimType arg_ty
(Just (box_data_con, the_prim_arg_ty)) = maybe_boxed_prim_arg_ty
- maybe_data_type = maybeAppDataTyConExpandingDicts arg_ty
+ maybe_data_type = splitAlgTyConApp_maybe arg_ty
is_data_type = maybeToBool maybe_data_type
(Just (tycon, tycon_arg_tys, data_cons)) = maybe_data_type
(the_data_con : other_data_cons) = data_cons
data_con_arg_tys = dataConArgTys the_data_con tycon_arg_tys
(data_con_arg_ty1 : data_con_arg_ty2 : _) = data_con_arg_tys
-can't_see_datacons_error thing ty
- = pprError "ERROR: Can't see the data constructor(s) for _ccall_/_casm_ "
- (ppBesides [ppStr thing, ppStr "; type: ", ppr PprForUser ty])
+ maybe_arg2_tycon = splitTyConApp_maybe data_con_arg_ty2
+ Just (arg2_tycon,_) = maybe_arg2_tycon
+
+can'tSeeDataConsPanic thing ty
+ = pprPanic
+ "ERROR: Can't see the data constructor(s) for _ccall_/_casm_/foreign declaration"
+ (hcat [ text thing, text "; type: ", ppr ty
+ , text "(try compiling with -fno-prune-tydecls ..)\n"])
\end{code}
\begin{code}
-tuple_con_2 = mkTupleCon 2 -- out here to avoid CAF (sigh)
-covar_tuple_con_0 = Var (mkTupleCon 0) -- ditto
-
-boxResult :: Type -- Type of desired result
+boxResult :: Type -- Type of desired result
-> DsM (Type, -- Type of the result of the ccall itself
CoreExpr -> CoreExpr) -- Wrapper for the ccall
- -- to box the result
+ -- to box the result
boxResult result_ty
| null data_cons
-- oops! can't see the data constructors
- = can't_see_datacons_error "result" result_ty
+ = can'tSeeDataConsPanic "result" result_ty
- -- Data types with a single constructor, which has a single, primitive-typed arg
+ -- Data types with a single nullary constructor
| (maybeToBool maybe_data_type) && -- Data type
(null other_data_cons) && -- Just one constr
- not (null data_con_arg_tys) && null other_args_tys && -- Just one arg
- isPrimType the_prim_result_ty -- of primitive type
+ (null data_con_arg_tys)
=
- newSysLocalDs realWorldStatePrimTy `thenDs` \ prim_state_id ->
- newSysLocalDs the_prim_result_ty `thenDs` \ prim_result_id ->
-
- mkConDs stateDataCon [realWorldTy] [Var prim_state_id] `thenDs` \ new_state ->
- mkConDs the_data_con tycon_arg_tys [Var prim_result_id] `thenDs` \ the_result ->
-
- mkConDs tuple_con_2
- [result_ty, realWorldStateTy]
- [the_result, new_state] `thenDs` \ the_pair ->
+ newSysLocalDs realWorldStatePrimTy `thenDs` \ prim_state_id ->
+{-
+ wrapUnboxedValue result_ty `thenDs` \ (state_and_prim_datacon,
+ state_and_prim_ty, prim_result_id, the_result) ->
+ mkConDs ioOkDataCon
+ [TyArg result_ty, VarArg (Var prim_state_id), VarArg the_result]
+ `thenDs` \ the_pair ->
+-}
let
- the_alt = (state_and_prim_datacon, [prim_state_id, prim_result_id], the_pair)
+ the_pair = mkConApp unboxedPairDataCon
+ [Type realWorldStatePrimTy, Type result_ty,
+ Var prim_state_id,
+ Con (DataCon unitDataCon) []]
+ the_alt = (DataCon (unboxedTupleCon 1), [prim_state_id], the_pair)
+ scrut_ty = mkUnboxedTupleTy 1 [realWorldStatePrimTy]
in
- returnDs (state_and_prim_ty,
- \prim_app -> Case prim_app (AlgAlts [the_alt] NoDefault)
+ returnDs (scrut_ty, \prim_app -> Case prim_app (mkWildId scrut_ty) [the_alt]
)
- -- Data types with a single nullary constructor
+ -- Data types with a single constructor, which has a single, primitive-typed arg
| (maybeToBool maybe_data_type) && -- Data type
(null other_data_cons) && -- Just one constr
- (null data_con_arg_tys)
+ not (null data_con_arg_tys) && null other_args_tys && -- Just one arg
+ isUnLiftedType the_prim_result_ty -- of primitive type
=
- newSysLocalDs realWorldStatePrimTy `thenDs` \ prim_state_id ->
-
- mkConDs stateDataCon [realWorldTy] [Var prim_state_id] `thenDs` \ new_state ->
-
- mkConDs tuple_con_2
- [result_ty, realWorldStateTy]
- [covar_tuple_con_0, new_state] `thenDs` \ the_pair ->
+ newSysLocalDs realWorldStatePrimTy `thenDs` \ prim_state_id ->
+ newSysLocalDs the_prim_result_ty `thenDs` \ prim_result_id ->
+ newSysLocalDs ccall_res_type `thenDs` \ case_bndr ->
let
- the_alt = (stateDataCon, [prim_state_id], the_pair)
+ the_result = mkConApp the_data_con (map Type tycon_arg_tys ++ [Var prim_result_id])
+ the_pair = mkConApp unboxedPairDataCon
+ [Type realWorldStatePrimTy, Type result_ty,
+ Var prim_state_id, the_result]
+ the_alt = (DataCon unboxedPairDataCon, [prim_state_id, prim_result_id], the_pair)
in
- returnDs (realWorldStateTy,
- \prim_app -> Case prim_app (AlgAlts [the_alt] NoDefault)
+ returnDs (ccall_res_type, \prim_app -> Case prim_app case_bndr [the_alt]
)
-#if 0
- -- MAYBE LATER???
-
- -- Data types with several nullary constructors (Enumerated types)
- | isEnumerationType result_ty && -- Enumeration
- (length data_cons) <= 5 -- fairly short
- =
- newSysLocalDs realWorldStatePrimTy `thenDs` \ prim_state_id ->
- newSysLocalDs intPrimTy `thenDs` \ prim_result_id ->
+ | otherwise
+ = pprPanic "boxResult: " (ppr result_ty)
+ where
+ maybe_data_type = splitAlgTyConApp_maybe result_ty
+ Just (tycon, tycon_arg_tys, data_cons) = maybe_data_type
+ (the_data_con : other_data_cons) = data_cons
+ ccall_res_type = mkUnboxedTupleTy 2
+ [realWorldStatePrimTy, the_prim_result_ty]
- mkConDs stateDataCon [realWorldTy] [Var prim_state_id] `thenDs` \ new_state ->
+ data_con_arg_tys = dataConArgTys the_data_con tycon_arg_tys
+ (the_prim_result_ty : other_args_tys) = data_con_arg_tys
+-- wrap up an unboxed value.
+wrapUnboxedValue :: Type -> DsM (Type, Id, CoreExpr)
+wrapUnboxedValue ty
+ | null data_cons
+ -- oops! can't see the data constructors
+ = can'tSeeDataConsPanic "result" ty
+ -- Data types with a single constructor, which has a single, primitive-typed arg
+ | (maybeToBool maybe_data_type) && -- Data type
+ (null other_data_cons) && -- Just one constr
+ not (null data_con_arg_tys) && null other_args_tys && -- Just one arg
+ isUnLiftedType the_prim_result_ty -- of primitive type
+ =
+ newSysLocalDs the_prim_result_ty `thenDs` \ prim_result_id ->
let
- alts = [ (mkMachInt i, con) | (i, con) <- [0..] `zip` data_cons ]
- the_result = Case prim_result_id (PrimAlts alts) NoDefault
+ the_result = mkConApp the_data_con (map Type tycon_arg_tys ++ [Var prim_result_id])
in
+ returnDs (ccall_res_type, prim_result_id, the_result)
- mkConDs (mkTupleCon 2)
- [result_ty, realWorldStateTy]
- [the_result, new_state] `thenDs` \ the_pair ->
- let
- the_alt = (state_and_prim_datacon, [prim_state_id, prim_result_id], the_pair)
+ -- Data types with a single nullary constructor
+ | (maybeToBool maybe_data_type) && -- Data type
+ (null other_data_cons) && -- Just one constr
+ (null data_con_arg_tys)
+ =
+ let unit = dataConId unitDataCon
+ scrut_ty = mkUnboxedTupleTy 1 [realWorldStatePrimTy]
in
- returnDs (state_and_prim_ty,
- \prim_app -> Case prim_app (AlgAlts [the_alt] NoDefault)
- )
-#endif
-
+ returnDs (scrut_ty, unit, mkConApp unitDataCon [])
| otherwise
- = pprPanic "boxResult: " (ppr PprDebug result_ty)
-
- where
- maybe_data_type = maybeAppDataTyConExpandingDicts result_ty
- Just (tycon, tycon_arg_tys, data_cons) = maybe_data_type
- (the_data_con : other_data_cons) = data_cons
+ = pprPanic "boxResult: " (ppr ty)
+ where
+ maybe_data_type = splitAlgTyConApp_maybe ty
+ Just (tycon, tycon_arg_tys, data_cons) = maybe_data_type
+ (the_data_con : other_data_cons) = data_cons
+ ccall_res_type = mkUnboxedTupleTy 2
+ [realWorldStatePrimTy, the_prim_result_ty]
- data_con_arg_tys = dataConArgTys the_data_con tycon_arg_tys
- (the_prim_result_ty : other_args_tys) = data_con_arg_tys
+ data_con_arg_tys = dataConArgTys the_data_con tycon_arg_tys
+ (the_prim_result_ty : other_args_tys) = data_con_arg_tys
- (state_and_prim_datacon, state_and_prim_ty) = getStatePairingConInfo the_prim_result_ty
\end{code}
-