import SMRep ( fixedHdrSize )
import Literal ( Literal(..), word2IntLit )
import MachOp ( MachOp(..) )
-import PrimRep ( PrimRep(..), getPrimRepArrayElemSize )
+import PrimRep ( PrimRep(..), getPrimRepSizeInBytes )
import UniqSupply ( returnUs, thenUs, getUniqueUs, UniqSM )
-import Constants ( wORD_SIZE,
- mIN_INTLIKE, mIN_CHARLIKE, uF_UPDATEE, bLOCK_SIZE,
+import Constants ( mIN_INTLIKE, mIN_CHARLIKE, bLOCK_SIZE,
rESERVED_STACK_WORDS )
import CLabel ( mkIntlikeClosureLabel, mkCharlikeClosureLabel,
- mkMAP_FROZEN_infoLabel,
mkForeignLabel )
import ForeignCall ( ForeignCall(..), CCallSpec(..), CCallTarget(..),
CCallConv(..), playSafe, playThreadSafe )
import Outputable
+import Util ( notNull )
+import FastString
import FastTypes
+import Char
#include "NCG.h"
\end{code}
%* *
%************************************************************************
-First, the dreaded @ccall@. We can't handle @casm@s.
+First, the dreaded @ccall@.
Usually, this compiles to an assignment, but when the left-hand side
is empty, we just perform the call and ignore the result.
-btw Why not let programmer use casm to provide assembly code instead
-of C code? ADR
-
ToDo: saving/restoring of volatile regs around ccalls.
JRS, 001113: always do the call of suspendThread and resumeThread as a ccall
| otherwise = 0
suspend = StAssignReg IntRep id
- (StCall (Left SLIT("suspendThread")) {-no:cconv-} CCallConv
+ (StCall (Left FSLIT("suspendThread")) {-no:cconv-} CCallConv
IntRep [StReg stgBaseReg, StInt is_threadSafe ])
resume = StVoidable
- (StCall (Left SLIT("resumeThread")) {-no:cconv-} CCallConv
+ (StCall (Left FSLIT("resumeThread")) {-no:cconv-} CCallConv
VoidRep [StReg id, StInt is_threadSafe ])
in
returnUs (\xs -> save (suspend : ccall : resume : load xs))
(cargs, stix_target)
= case ctarget of
StaticTarget nm -> (rhs, Left nm)
- DynamicTarget | not (null rhs) -- an assertion
+ DynamicTarget | notNull rhs -- an assertion
-> (tail rhs, Right (amodeToStix (head rhs)))
- CasmTarget _
- -> ncgPrimopMoan "Native code generator can't handle foreign call"
- (ppr call)
-
- stix_args = map amodeCodeForCCall cargs
- amodeCodeForCCall x =
- let base = amodeToStix' x
- in
- case getAmodeRep x of
- ArrayRep -> StIndex PtrRep base arrPtrsHS
- ByteArrayRep -> StIndex IntRep base arrWordsHS
- ForeignObjRep -> StInd PtrRep (StIndex PtrRep base fixedHS)
- other -> base
+
+ stix_args = map amodeToStix' cargs
ccall = case lhs of
[] -> StVoidable (StCall stix_target cconv VoidRep stix_args)
Int64Rep -> Int64Rep
Word64Rep -> Word64Rep
other -> IntRep
+
+-- a bit late to catch this here..
+foreignCallCode _ DNCall{} _
+ = panic "foreignCallCode: .NET interop not supported via NCG; compile with -fvia-C"
\end{code}
%************************************************************************
amodeToStix (CVal rr pk) = StInd pk (amodeToStix (CAddr rr))
-amodeToStix CBytesPerWord
- = StInt (toInteger wORD_SIZE)
-
amodeToStix (CAddr (SpRel off))
= StIndex PtrRep (StReg stgSp) (StInt (toInteger (iBox off)))
amodeToStix (CCharLike (CLit (MachChar c)))
= StIndex Word8Rep cHARLIKE_closure (StInt (toInteger off))
where
- off = charLikeSize * (c - mIN_CHARLIKE)
+ off = charLikeSize * (ord c - mIN_CHARLIKE)
amodeToStix (CCharLike x)
= panic "amodeToStix.CCharLike"
amodeToStix (CLit core)
= case core of
- MachChar c -> StInt (toInteger c)
+ MachChar c -> StInt (toInteger (ord c))
MachStr s -> StString s
- MachAddr a -> StInt a
+ MachNullAddr -> StInt 0
MachInt i -> StInt i
MachWord w -> case word2IntLit core of MachInt iw -> StInt iw
- MachLitLit s _ -> litLitErr
- MachLabel l -> StCLbl (mkForeignLabel l False{-ToDo: dynamic-})
+ -- dreadful, but rare.
+ MachLabel l (Just x) -> StCLbl (mkForeignLabel (mkFastString (unpackFS l ++ '@':show x)) False)
+ MachLabel l _ -> StCLbl (mkForeignLabel l False{-ToDo: dynamic-})
MachFloat d -> StFloat d
MachDouble d -> StDouble d
_ -> panic "amodeToStix:core literal"
amodeToStix (CMacroExpr _ macro [arg])
- = case macro of
- ENTRY_CODE -> amodeToStix arg
- ARG_TAG -> amodeToStix arg -- just an integer no. of words
+ = let
+ arg_amode = amodeToStix arg
+ in
+ case macro of
+ ENTRY_CODE -> arg_amode
+ ARG_TAG -> arg_amode -- just an integer no. of words
GET_TAG ->
#ifdef WORDS_BIGENDIAN
StMachOp MO_Nat_And
- [StInd WordRep (StIndex PtrRep (amodeToStix arg)
+ [StInd WordRep (StIndex PtrRep arg_amode
(StInt (toInteger (-1)))),
StInt 65535]
#else
StMachOp MO_Nat_Shr
- [StInd WordRep (StIndex PtrRep (amodeToStix arg)
+ [StInd WordRep (StIndex PtrRep arg_amode
(StInt (toInteger (-1)))),
StInt 16]
#endif
- UPD_FRAME_UPDATEE
- -> StInd PtrRep (StIndex PtrRep (amodeToStix arg)
- (StInt (toInteger uF_UPDATEE)))
+ BYTE_ARR_CTS -> StIndex IntRep arg_amode arrWordsHS
+ PTRS_ARR_CTS -> StIndex PtrRep arg_amode arrPtrsHS
+ ForeignObj_CLOSURE_DATA -> StInd PtrRep (StIndex PtrRep arg_amode fixedHS)
+
amodeToStix other
= pprPanic "StixPrim.amodeToStix" (pprAmode other)
-
-litLitErr
- = ncgPrimopMoan "native code generator can't handle lit-lits" empty
\end{code}
Sizes of the CharLike and IntLike closures that are arranged as arrays
cHARLIKE_closure :: StixExpr
cHARLIKE_closure = StCLbl mkCharlikeClosureLabel
-mutArrPtrsFrozen_info = StCLbl mkMAP_FROZEN_infoLabel
-
-- these are the sizes of charLike and intLike closures, in _bytes_.
-charLikeSize = (fixedHdrSize + 1) * (getPrimRepArrayElemSize PtrRep)
-intLikeSize = (fixedHdrSize + 1) * (getPrimRepArrayElemSize PtrRep)
+charLikeSize = (fixedHdrSize + 1) * (getPrimRepSizeInBytes PtrRep)
+intLikeSize = (fixedHdrSize + 1) * (getPrimRepSizeInBytes PtrRep)
\end{code}
\begin{code}
save_thread_state
= getUniqueUs `thenUs` \ tso_uq ->
- let tso = StixTemp (StixVReg tso_uq ThreadIdRep) in
+ let tso = StixTemp (StixVReg tso_uq PtrRep) in
returnUs (\xs ->
- StAssignReg ThreadIdRep tso (StReg stgCurrentTSO)
+ StAssignReg PtrRep tso (StReg stgCurrentTSO)
: StAssignMem PtrRep
(StMachOp MO_Nat_Add
[StReg tso, StInt (toInteger (TSO_SP*BYTES_PER_WORD))])
(StReg stgSp)
- : StAssignMem PtrRep
- (StMachOp MO_Nat_Add
- [StReg tso, StInt (toInteger (TSO_SU*BYTES_PER_WORD))])
- (StReg stgSu)
: StAssignMem PtrRep
(StMachOp MO_Nat_Add
[StReg stgCurrentNursery,
load_thread_state
= getUniqueUs `thenUs` \ tso_uq ->
- let tso = StixTemp (StixVReg tso_uq ThreadIdRep) in
+ let tso = StixTemp (StixVReg tso_uq PtrRep) in
returnUs (\xs ->
- StAssignReg ThreadIdRep tso (StReg stgCurrentTSO)
+ StAssignReg PtrRep tso (StReg stgCurrentTSO)
: StAssignReg PtrRep
stgSp
(StInd PtrRep
(StMachOp MO_Nat_Add
[StReg tso, StInt (toInteger (TSO_SP*BYTES_PER_WORD))]))
: StAssignReg PtrRep
- stgSu
- (StInd PtrRep
- (StMachOp MO_Nat_Add
- [StReg tso, StInt (toInteger (TSO_SU*BYTES_PER_WORD))]))
- : StAssignReg PtrRep
stgSpLim
(StMachOp MO_Nat_Add
[StReg tso,