module LibFFI (
ForeignCallToken,
prepForeignCall
) where
import TyCon
import ForeignCall
import Panic
import Constants
import Foreign
import Foreign.C
import Text.Printf
type ForeignCallToken = C_ffi_cif
prepForeignCall
:: CCallConv
-> [PrimRep]
-> PrimRep
-> IO (Ptr ForeignCallToken)
prepForeignCall cconv arg_types result_type
= do
let n_args = length arg_types
arg_arr <- mallocArray n_args
let init_arg (ty,n) = pokeElemOff arg_arr n (primRepToFFIType ty)
mapM_ init_arg (zip arg_types [0..])
cif <- mallocBytes (32)
let abi = convToABI cconv
let res_ty = primRepToFFIType result_type
r <- ffi_prep_cif cif abi (fromIntegral n_args) res_ty arg_arr
if (r /= fFI_OK)
then ghcError (InstallationError
(printf "prepForeignCallFailed: %d" (show r)))
else return cif
convToABI :: CCallConv -> C_ffi_abi
convToABI CCallConv = fFI_DEFAULT_ABI
convToABI _ = panic "convToABI: convention not supported"
primRepToFFIType :: PrimRep -> Ptr C_ffi_type
primRepToFFIType r
= case r of
VoidRep -> ffi_type_void
IntRep -> signed_word
WordRep -> unsigned_word
Int64Rep -> ffi_type_sint64
Word64Rep -> ffi_type_uint64
AddrRep -> ffi_type_pointer
FloatRep -> ffi_type_float
DoubleRep -> ffi_type_double
_ -> panic "primRepToFFIType"
where
(signed_word, unsigned_word)
| wORD_SIZE == 4 = (ffi_type_sint32, ffi_type_uint32)
| wORD_SIZE == 8 = (ffi_type_sint64, ffi_type_uint64)
| otherwise = panic "primTyDescChar"
data C_ffi_type
data C_ffi_cif
type C_ffi_status = (Word32)
type C_ffi_abi = (Word32)
foreign import ccall "&ffi_type_void" ffi_type_void :: Ptr C_ffi_type
foreign import ccall "&ffi_type_uint32" ffi_type_uint32 :: Ptr C_ffi_type
foreign import ccall "&ffi_type_sint32" ffi_type_sint32 :: Ptr C_ffi_type
foreign import ccall "&ffi_type_uint64" ffi_type_uint64 :: Ptr C_ffi_type
foreign import ccall "&ffi_type_sint64" ffi_type_sint64 :: Ptr C_ffi_type
foreign import ccall "&ffi_type_float" ffi_type_float :: Ptr C_ffi_type
foreign import ccall "&ffi_type_double" ffi_type_double :: Ptr C_ffi_type
foreign import ccall "&ffi_type_pointer"ffi_type_pointer :: Ptr C_ffi_type
fFI_OK :: C_ffi_status
fFI_OK = (0)
fFI_DEFAULT_ABI :: C_ffi_abi
fFI_DEFAULT_ABI = (2)
foreign import ccall "ffi_prep_cif"
ffi_prep_cif :: Ptr C_ffi_cif
-> C_ffi_abi
-> CUInt
-> Ptr C_ffi_type
-> Ptr (Ptr C_ffi_type)
-> IO C_ffi_status