%
\begin{code}
-module StixPrim ( primCode, amodeToStix, amodeToStix' ) where
+module StixPrim ( primCode, amodeToStix, amodeToStix', foreignCallCode )
+ where
#include "HsVersions.h"
import AbsCUtils ( getAmodeRep, mixedTypeLocn )
import SMRep ( fixedHdrSize )
import Literal ( Literal(..), word2IntLit )
-import PrimOp ( PrimOp(..), CCall(..), CCallTarget(..) )
-import PrimRep ( PrimRep(..) )
+import PrimOp ( PrimOp(..) )
+import PrimRep ( PrimRep(..), getPrimRepSizeInBytes )
import UniqSupply ( returnUs, thenUs, getUniqueUs, UniqSM )
import Constants ( mIN_INTLIKE, mIN_CHARLIKE, uF_UPDATEE, bLOCK_SIZE,
rESERVED_STACK_WORDS )
import CLabel ( mkIntlikeClosureLabel, mkCharlikeClosureLabel,
- mkMAP_FROZEN_infoLabel, mkForeignLabel )
-import CallConv ( cCallConv )
+ mkMAP_FROZEN_infoLabel, mkEMPTY_MVAR_infoLabel,
+ mkForeignLabel )
+import ForeignCall ( ForeignCall(..), CCallSpec(..), CCallTarget(..),
+ CCallConv(..), playSafe )
import Outputable
import FastTypes
#include "NCG.h"
\end{code}
-The main honcho here is primCode, which handles the guts of COpStmts.
+The main honchos here are primCode anf foreignCallCode, which handle the guts of COpStmts.
\begin{code}
+foreignCallCode
+ :: [CAddrMode] -- results
+ -> ForeignCall -- op
+ -> [CAddrMode] -- args
+ -> UniqSM StixTreeList
+
primCode
:: [CAddrMode] -- results
-> PrimOp -- op
-> UniqSM StixTreeList
\end{code}
+%************************************************************************
+%* *
+\subsubsection{Code for foreign calls}
+%* *
+%************************************************************************
+
First, the dreaded @ccall@. We can't handle @casm@s.
Usually, this compiles to an assignment, but when the left-hand side
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
+rather than inheriting the calling convention of the thing which we're really
+calling.
+
+\begin{code}
+foreignCallCode lhs (CCall (CCallSpec (StaticTarget fn) cconv safety)) rhs
+ | not (playSafe safety) = returnUs (\xs -> ccall : xs)
+
+ | otherwise
+ = save_thread_state `thenUs` \ save ->
+ load_thread_state `thenUs` \ load ->
+ getUniqueUs `thenUs` \ uniq ->
+ let
+ id = StReg (StixTemp uniq IntRep)
+
+ suspend = StAssign IntRep id
+ (StCall SLIT("suspendThread") {-no:cconv-} CCallConv
+ IntRep [stgBaseReg])
+ resume = StCall SLIT("resumeThread") {-no:cconv-} CCallConv
+ VoidRep [id]
+ in
+ returnUs (\xs -> save (suspend : ccall : resume : load xs))
+
+ where
+ args = map amodeCodeForCCall rhs
+ 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)
+ _ -> base
+
+ ccall = case lhs of
+ [] -> StCall fn cconv VoidRep args
+ [lhs] -> StAssign pk lhs' (StCall fn cconv pk args)
+ where
+ lhs' = amodeToStix lhs
+ pk = case getAmodeRep lhs of
+ FloatRep -> FloatRep
+ DoubleRep -> DoubleRep
+ other -> IntRep
+
+foreignCallCode lhs call rhs
+ = ncgPrimopMoan "Native code generator can't handle foreign call" (ppr call)
+\end{code}
+
+
+%************************************************************************
+%* *
+\subsubsection{Code for primops}
+%* *
+%************************************************************************
+
The (MP) integer operations are a true nightmare. Since we don't have
a convenient abstract way of allocating temporary variables on the (C)
stack, we use the space just below HpLim for the @MP_INT@ structures,
primCode [res] Integer2WordOp arg@[sa,da]
= gmpInteger2Word res (sa,da)
-primCode [res] Int2AddrOp [arg]
- = simpleCoercion AddrRep res arg
-
-primCode [res] Addr2IntOp [arg]
- = simpleCoercion IntRep res arg
-
primCode [res] Int2WordOp [arg]
= simpleCoercion IntRep{-WordRep?-} res arg
primCode [res] AddrToHValueOp [arg]
= simpleCoercion PtrRep res arg
+
+#if (WORD_SIZE_IN_BITS == 32 || WORD_SIZE_IN_BITS == 64)
+primCode [res] Int2AddrOp [arg]
+ = simpleCoercion AddrRep res arg
+
+primCode [res] Addr2IntOp [arg]
+ = simpleCoercion IntRep res arg
+#endif
+
+primCode [res] Narrow8IntOp [arg]
+ = narrowingCoercion IntRep Int8Rep res arg
+primCode [res] Narrow16IntOp [arg]
+ = narrowingCoercion IntRep Int16Rep res arg
+primCode [res] Narrow32IntOp [arg]
+ = narrowingCoercion IntRep Int32Rep res arg
+
+primCode [res] Narrow8WordOp [arg]
+ = narrowingCoercion WordRep Word8Rep res arg
+primCode [res] Narrow16WordOp [arg]
+ = narrowingCoercion WordRep Word16Rep res arg
+primCode [res] Narrow32WordOp [arg]
+ = narrowingCoercion WordRep Word32Rep res arg
\end{code}
\begin{code}
primCode res@[_] SameMutVarOp args
= primCode res SameMutableArrayOp args
+\end{code}
+\begin{code}
primCode res@[_] SameMVarOp args
= primCode res SameMutableArrayOp args
+
+-- #define isEmptyMVarzh(r,a) \
+-- r =(I_)((GET_INFO((StgMVar*)(a))) == &stg_EMPTY_MVAR_info )
+primCode [res] IsEmptyMVarOp [arg]
+ = let res' = amodeToStix res
+ arg' = amodeToStix arg
+ arg_info = StInd PtrRep arg'
+ em_info = StCLbl mkEMPTY_MVAR_infoLabel
+ same = StPrim IntEqOp [arg_info, em_info]
+ assign = StAssign IntRep res' same
+ in
+ returnUs (\xs -> assign : xs)
+
+-- #define myThreadIdzh(t) (t = CurrentTSO)
+primCode [res] MyThreadIdOp []
+ = let res' = amodeToStix res
+ in returnUs (\xs -> StAssign ThreadIdRep res' stgCurrentTSO : xs)
+
\end{code}
Freezing an array of pointers is a double assignment. We fix the
returnUs (\xs -> assign : xs)
-- NB: indexing in "pk" units, *not* in bytes (WDP 95/09)
-primCode ls IndexByteArrayOp_Char rs = primCode_ReadByteArrayOp Int8Rep ls rs
+primCode ls IndexByteArrayOp_Char rs = primCode_ReadByteArrayOp Word8Rep ls rs
+primCode ls IndexByteArrayOp_WideChar rs = primCode_ReadByteArrayOp CharRep ls rs
primCode ls IndexByteArrayOp_Int rs = primCode_ReadByteArrayOp IntRep ls rs
primCode ls IndexByteArrayOp_Word rs = primCode_ReadByteArrayOp WordRep ls rs
primCode ls IndexByteArrayOp_Addr rs = primCode_ReadByteArrayOp AddrRep ls rs
primCode ls IndexByteArrayOp_Float rs = primCode_ReadByteArrayOp FloatRep ls rs
primCode ls IndexByteArrayOp_Double rs = primCode_ReadByteArrayOp DoubleRep ls rs
primCode ls IndexByteArrayOp_StablePtr rs = primCode_ReadByteArrayOp StablePtrRep ls rs
+primCode ls IndexByteArrayOp_Int8 rs = primCode_ReadByteArrayOp Int8Rep ls rs
+primCode ls IndexByteArrayOp_Int16 rs = primCode_ReadByteArrayOp Int16Rep ls rs
+primCode ls IndexByteArrayOp_Int32 rs = primCode_ReadByteArrayOp Int32Rep ls rs
primCode ls IndexByteArrayOp_Int64 rs = primCode_ReadByteArrayOp Int64Rep ls rs
+primCode ls IndexByteArrayOp_Word8 rs = primCode_ReadByteArrayOp Word8Rep ls rs
+primCode ls IndexByteArrayOp_Word16 rs = primCode_ReadByteArrayOp Word16Rep ls rs
+primCode ls IndexByteArrayOp_Word32 rs = primCode_ReadByteArrayOp Word32Rep ls rs
primCode ls IndexByteArrayOp_Word64 rs = primCode_ReadByteArrayOp Word64Rep ls rs
-primCode ls ReadByteArrayOp_Char rs = primCode_ReadByteArrayOp Int8Rep ls rs
+primCode ls ReadByteArrayOp_Char rs = primCode_ReadByteArrayOp Word8Rep ls rs
+primCode ls ReadByteArrayOp_WideChar rs = primCode_ReadByteArrayOp CharRep ls rs
primCode ls ReadByteArrayOp_Int rs = primCode_ReadByteArrayOp IntRep ls rs
primCode ls ReadByteArrayOp_Word rs = primCode_ReadByteArrayOp WordRep ls rs
primCode ls ReadByteArrayOp_Addr rs = primCode_ReadByteArrayOp AddrRep ls rs
primCode ls ReadByteArrayOp_Float rs = primCode_ReadByteArrayOp FloatRep ls rs
primCode ls ReadByteArrayOp_Double rs = primCode_ReadByteArrayOp DoubleRep ls rs
primCode ls ReadByteArrayOp_StablePtr rs = primCode_ReadByteArrayOp StablePtrRep ls rs
+primCode ls ReadByteArrayOp_Int8 rs = primCode_ReadByteArrayOp Int8Rep ls rs
+primCode ls ReadByteArrayOp_Int16 rs = primCode_ReadByteArrayOp Int16Rep ls rs
+primCode ls ReadByteArrayOp_Int32 rs = primCode_ReadByteArrayOp Int32Rep ls rs
primCode ls ReadByteArrayOp_Int64 rs = primCode_ReadByteArrayOp Int64Rep ls rs
+primCode ls ReadByteArrayOp_Word8 rs = primCode_ReadByteArrayOp Word8Rep ls rs
+primCode ls ReadByteArrayOp_Word16 rs = primCode_ReadByteArrayOp Word16Rep ls rs
+primCode ls ReadByteArrayOp_Word32 rs = primCode_ReadByteArrayOp Word32Rep ls rs
primCode ls ReadByteArrayOp_Word64 rs = primCode_ReadByteArrayOp Word64Rep ls rs
-primCode ls ReadOffAddrOp_Char rs = primCode_IndexOffAddrOp Int8Rep ls rs
-primCode ls ReadOffAddrOp_Int rs = primCode_IndexOffAddrOp IntRep ls rs
-primCode ls ReadOffAddrOp_Word rs = primCode_IndexOffAddrOp WordRep ls rs
-primCode ls ReadOffAddrOp_Addr rs = primCode_IndexOffAddrOp AddrRep ls rs
-primCode ls ReadOffAddrOp_Float rs = primCode_IndexOffAddrOp FloatRep ls rs
-primCode ls ReadOffAddrOp_Double rs = primCode_IndexOffAddrOp DoubleRep ls rs
-primCode ls ReadOffAddrOp_StablePtr rs = primCode_IndexOffAddrOp StablePtrRep ls rs
-primCode ls ReadOffAddrOp_Int64 rs = primCode_IndexOffAddrOp Int64Rep ls rs
-primCode ls ReadOffAddrOp_Word64 rs = primCode_IndexOffAddrOp Word64Rep ls rs
+primCode ls WriteByteArrayOp_Char rs = primCode_WriteByteArrayOp Word8Rep ls rs
+primCode ls WriteByteArrayOp_WideChar rs = primCode_WriteByteArrayOp CharRep ls rs
+primCode ls WriteByteArrayOp_Int rs = primCode_WriteByteArrayOp IntRep ls rs
+primCode ls WriteByteArrayOp_Word rs = primCode_WriteByteArrayOp WordRep ls rs
+primCode ls WriteByteArrayOp_Addr rs = primCode_WriteByteArrayOp AddrRep ls rs
+primCode ls WriteByteArrayOp_Float rs = primCode_WriteByteArrayOp FloatRep ls rs
+primCode ls WriteByteArrayOp_Double rs = primCode_WriteByteArrayOp DoubleRep ls rs
+primCode ls WriteByteArrayOp_StablePtr rs = primCode_WriteByteArrayOp StablePtrRep ls rs
+primCode ls WriteByteArrayOp_Int8 rs = primCode_WriteByteArrayOp Int8Rep ls rs
+primCode ls WriteByteArrayOp_Int16 rs = primCode_WriteByteArrayOp Int16Rep ls rs
+primCode ls WriteByteArrayOp_Int32 rs = primCode_WriteByteArrayOp Int32Rep ls rs
+primCode ls WriteByteArrayOp_Int64 rs = primCode_WriteByteArrayOp Int64Rep ls rs
+primCode ls WriteByteArrayOp_Word8 rs = primCode_WriteByteArrayOp Word8Rep ls rs
+primCode ls WriteByteArrayOp_Word16 rs = primCode_WriteByteArrayOp Word16Rep ls rs
+primCode ls WriteByteArrayOp_Word32 rs = primCode_WriteByteArrayOp Word32Rep ls rs
+primCode ls WriteByteArrayOp_Word64 rs = primCode_WriteByteArrayOp Word64Rep ls rs
-primCode ls IndexOffAddrOp_Char rs = primCode_IndexOffAddrOp Int8Rep ls rs
+primCode ls IndexOffAddrOp_Char rs = primCode_IndexOffAddrOp Word8Rep ls rs
+primCode ls IndexOffAddrOp_WideChar rs = primCode_IndexOffAddrOp CharRep ls rs
primCode ls IndexOffAddrOp_Int rs = primCode_IndexOffAddrOp IntRep ls rs
primCode ls IndexOffAddrOp_Word rs = primCode_IndexOffAddrOp WordRep ls rs
primCode ls IndexOffAddrOp_Addr rs = primCode_IndexOffAddrOp AddrRep ls rs
primCode ls IndexOffAddrOp_Float rs = primCode_IndexOffAddrOp FloatRep ls rs
primCode ls IndexOffAddrOp_Double rs = primCode_IndexOffAddrOp DoubleRep ls rs
primCode ls IndexOffAddrOp_StablePtr rs = primCode_IndexOffAddrOp StablePtrRep ls rs
+primCode ls IndexOffAddrOp_Int8 rs = primCode_IndexOffAddrOp Int8Rep ls rs
+primCode ls IndexOffAddrOp_Int16 rs = primCode_IndexOffAddrOp Int16Rep ls rs
+primCode ls IndexOffAddrOp_Int32 rs = primCode_IndexOffAddrOp Int32Rep ls rs
primCode ls IndexOffAddrOp_Int64 rs = primCode_IndexOffAddrOp Int64Rep ls rs
+primCode ls IndexOffAddrOp_Word8 rs = primCode_IndexOffAddrOp Word8Rep ls rs
+primCode ls IndexOffAddrOp_Word16 rs = primCode_IndexOffAddrOp Word16Rep ls rs
+primCode ls IndexOffAddrOp_Word32 rs = primCode_IndexOffAddrOp Word32Rep ls rs
primCode ls IndexOffAddrOp_Word64 rs = primCode_IndexOffAddrOp Word64Rep ls rs
-primCode ls IndexOffForeignObjOp_Char rs = primCode_IndexOffForeignObjOp Int8Rep ls rs
+primCode ls IndexOffForeignObjOp_Char rs = primCode_IndexOffForeignObjOp Word8Rep ls rs
+primCode ls IndexOffForeignObjOp_WideChar rs = primCode_IndexOffForeignObjOp CharRep ls rs
primCode ls IndexOffForeignObjOp_Int rs = primCode_IndexOffForeignObjOp IntRep ls rs
primCode ls IndexOffForeignObjOp_Word rs = primCode_IndexOffForeignObjOp WordRep ls rs
primCode ls IndexOffForeignObjOp_Addr rs = primCode_IndexOffForeignObjOp AddrRep ls rs
primCode ls IndexOffForeignObjOp_Float rs = primCode_IndexOffForeignObjOp FloatRep ls rs
primCode ls IndexOffForeignObjOp_Double rs = primCode_IndexOffForeignObjOp DoubleRep ls rs
primCode ls IndexOffForeignObjOp_StablePtr rs = primCode_IndexOffForeignObjOp StablePtrRep ls rs
+primCode ls IndexOffForeignObjOp_Int8 rs = primCode_IndexOffForeignObjOp Int8Rep ls rs
+primCode ls IndexOffForeignObjOp_Int16 rs = primCode_IndexOffForeignObjOp Int16Rep ls rs
+primCode ls IndexOffForeignObjOp_Int32 rs = primCode_IndexOffForeignObjOp Int32Rep ls rs
primCode ls IndexOffForeignObjOp_Int64 rs = primCode_IndexOffForeignObjOp Int64Rep ls rs
+primCode ls IndexOffForeignObjOp_Word8 rs = primCode_IndexOffForeignObjOp Word8Rep ls rs
+primCode ls IndexOffForeignObjOp_Word16 rs = primCode_IndexOffForeignObjOp Word16Rep ls rs
+primCode ls IndexOffForeignObjOp_Word32 rs = primCode_IndexOffForeignObjOp Word32Rep ls rs
primCode ls IndexOffForeignObjOp_Word64 rs = primCode_IndexOffForeignObjOp Word64Rep ls rs
-primCode ls WriteOffAddrOp_Char rs = primCode_WriteOffAddrOp Int8Rep ls rs
+primCode ls ReadOffAddrOp_Char rs = primCode_IndexOffAddrOp Word8Rep ls rs
+primCode ls ReadOffAddrOp_WideChar rs = primCode_IndexOffAddrOp CharRep ls rs
+primCode ls ReadOffAddrOp_Int rs = primCode_IndexOffAddrOp IntRep ls rs
+primCode ls ReadOffAddrOp_Word rs = primCode_IndexOffAddrOp WordRep ls rs
+primCode ls ReadOffAddrOp_Addr rs = primCode_IndexOffAddrOp AddrRep ls rs
+primCode ls ReadOffAddrOp_Float rs = primCode_IndexOffAddrOp FloatRep ls rs
+primCode ls ReadOffAddrOp_Double rs = primCode_IndexOffAddrOp DoubleRep ls rs
+primCode ls ReadOffAddrOp_StablePtr rs = primCode_IndexOffAddrOp StablePtrRep ls rs
+primCode ls ReadOffAddrOp_Int8 rs = primCode_IndexOffAddrOp Int8Rep ls rs
+primCode ls ReadOffAddrOp_Int16 rs = primCode_IndexOffAddrOp Int16Rep ls rs
+primCode ls ReadOffAddrOp_Int32 rs = primCode_IndexOffAddrOp Int32Rep ls rs
+primCode ls ReadOffAddrOp_Int64 rs = primCode_IndexOffAddrOp Int64Rep ls rs
+primCode ls ReadOffAddrOp_Word8 rs = primCode_IndexOffAddrOp Word8Rep ls rs
+primCode ls ReadOffAddrOp_Word16 rs = primCode_IndexOffAddrOp Word16Rep ls rs
+primCode ls ReadOffAddrOp_Word32 rs = primCode_IndexOffAddrOp Word32Rep ls rs
+primCode ls ReadOffAddrOp_Word64 rs = primCode_IndexOffAddrOp Word64Rep ls rs
+
+primCode ls WriteOffAddrOp_Char rs = primCode_WriteOffAddrOp Word8Rep ls rs
+primCode ls WriteOffAddrOp_WideChar rs = primCode_WriteOffAddrOp CharRep ls rs
primCode ls WriteOffAddrOp_Int rs = primCode_WriteOffAddrOp IntRep ls rs
primCode ls WriteOffAddrOp_Word rs = primCode_WriteOffAddrOp WordRep ls rs
primCode ls WriteOffAddrOp_Addr rs = primCode_WriteOffAddrOp AddrRep ls rs
primCode ls WriteOffAddrOp_Float rs = primCode_WriteOffAddrOp FloatRep ls rs
primCode ls WriteOffAddrOp_Double rs = primCode_WriteOffAddrOp DoubleRep ls rs
primCode ls WriteOffAddrOp_StablePtr rs = primCode_WriteOffAddrOp StablePtrRep ls rs
+primCode ls WriteOffAddrOp_Int8 rs = primCode_WriteOffAddrOp Int8Rep ls rs
+primCode ls WriteOffAddrOp_Int16 rs = primCode_WriteOffAddrOp Int16Rep ls rs
+primCode ls WriteOffAddrOp_Int32 rs = primCode_WriteOffAddrOp Int32Rep ls rs
primCode ls WriteOffAddrOp_Int64 rs = primCode_WriteOffAddrOp Int64Rep ls rs
+primCode ls WriteOffAddrOp_Word8 rs = primCode_WriteOffAddrOp Word8Rep ls rs
+primCode ls WriteOffAddrOp_Word16 rs = primCode_WriteOffAddrOp Word16Rep ls rs
+primCode ls WriteOffAddrOp_Word32 rs = primCode_WriteOffAddrOp Word32Rep ls rs
primCode ls WriteOffAddrOp_Word64 rs = primCode_WriteOffAddrOp Word64Rep ls rs
-primCode ls WriteByteArrayOp_Char rs = primCode_WriteByteArrayOp Int8Rep ls rs
-primCode ls WriteByteArrayOp_Int rs = primCode_WriteByteArrayOp IntRep ls rs
-primCode ls WriteByteArrayOp_Word rs = primCode_WriteByteArrayOp WordRep ls rs
-primCode ls WriteByteArrayOp_Addr rs = primCode_WriteByteArrayOp AddrRep ls rs
-primCode ls WriteByteArrayOp_Float rs = primCode_WriteByteArrayOp FloatRep ls rs
-primCode ls WriteByteArrayOp_Double rs = primCode_WriteByteArrayOp DoubleRep ls rs
-primCode ls WriteByteArrayOp_StablePtr rs = primCode_WriteByteArrayOp StablePtrRep ls rs
-primCode ls WriteByteArrayOp_Int64 rs = primCode_WriteByteArrayOp Int64Rep ls rs
-primCode ls WriteByteArrayOp_Word64 rs = primCode_WriteByteArrayOp Word64Rep ls rs
-
\end{code}
-ToDo: saving/restoring of volatile regs around ccalls.
-
-JRS, 001113: always do the call of suspendThread and resumeThread as a ccall
-rather than inheriting the calling convention of the thing which we're really
-calling.
-
-\begin{code}
-primCode lhs (CCallOp (CCall (StaticTarget fn) is_asm may_gc cconv)) rhs
- | is_asm = error "ERROR: Native code generator can't handle casm"
- | not may_gc = returnUs (\xs -> ccall : xs)
- | otherwise =
- save_thread_state `thenUs` \ save ->
- load_thread_state `thenUs` \ load ->
- getUniqueUs `thenUs` \ uniq ->
- let
- id = StReg (StixTemp uniq IntRep)
-
- suspend = StAssign IntRep id
- (StCall SLIT("suspendThread") {-no:cconv-} cCallConv
- IntRep [stgBaseReg])
- resume = StCall SLIT("resumeThread") {-no:cconv-} cCallConv
- VoidRep [id]
- in
- returnUs (\xs -> save (suspend : ccall : resume : load xs))
-
- where
- args = map amodeCodeForCCall rhs
- 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)
- _ -> base
-
- ccall = case lhs of
- [] -> StCall fn cconv VoidRep args
- [lhs] ->
- let lhs' = amodeToStix lhs
- pk = case getAmodeRep lhs of
- FloatRep -> FloatRep
- DoubleRep -> DoubleRep
- other -> IntRep
- in
- StAssign pk lhs' (StCall fn cconv pk args)
-\end{code}
DataToTagOp won't work for 64-bit archs, as it is.
simpleCoercion pk lhs rhs
= returnUs (\xs -> StAssign pk (amodeToStix lhs) (amodeToStix rhs) : xs)
+
+
+-- Rewrite a narrowing coercion into a pair of shifts.
+narrowingCoercion
+ :: PrimRep -> PrimRep
+ -> CAddrMode -> CAddrMode
+ -> UniqSM StixTreeList
+
+narrowingCoercion pks pkd dst src
+ | szd > szs
+ = panic "StixPrim.narrowingCoercion"
+ | szd == szs
+ = returnUs (\xs -> StAssign pkd dst' src' : xs)
+ | otherwise
+ = returnUs (\xs -> assign : xs)
+ where
+ szs = getPrimRepSizeInBytes pks
+ szd = getPrimRepSizeInBytes pkd
+ src' = amodeToStix src
+ dst' = amodeToStix dst
+ shift_amt = fromIntegral (8 * (szs - szd))
+
+ assign
+ = StAssign pkd dst'
+ (StPrim (if signed then ISraOp else SrlOp)
+ [StPrim SllOp [src', StInt shift_amt],
+ StInt shift_amt])
+ signed
+ = case pkd of
+ Int8Rep -> True; Int16Rep -> True
+ Int32Rep -> True; Int64Rep -> True; IntRep -> True
+ Word8Rep -> False; Word16Rep -> False
+ Word32Rep -> False; Word64Rep -> False; WordRep -> False
+ other -> pprPanic "StixPrim.narrowingCoercion" (ppr pkd)
\end{code}
Here we try to rewrite primitives into a form the code generator can
\begin{code}
simplePrim pk [lhs] op rest = StAssign pk lhs (StPrim op rest)
-simplePrim pk as op bs = simplePrim_error op
-
-simplePrim_error op
- = error ("ERROR: primitive operation `"++show op++"'cannot be handled\nby the native-code generator. Workaround: use -fvia-C.\n(Perhaps you should report it as a GHC bug, also.)\n")
+simplePrim pk as op bs = ncgPrimopMoan "simplPrim(all targets)" (ppr op)
\end{code}
%---------------------------------------------------------------------
-- For CharLike and IntLike, we attempt some trivial constant-folding here.
amodeToStix (CCharLike (CLit (MachChar c)))
- = StIndex Int8Rep cHARLIKE_closure (StInt (toInteger off))
+ = StIndex Word8Rep cHARLIKE_closure (StInt (toInteger off))
where
off = charLikeSize * (c - mIN_CHARLIKE)
= panic "CCharLike"
amodeToStix (CIntLike (CLit (MachInt i)))
- = StIndex Int8Rep iNTLIKE_closure (StInt (toInteger off))
+ = StIndex Word8Rep iNTLIKE_closure (StInt (toInteger off))
where
off = intLikeSize * (fromInteger (i - mIN_INTLIKE))
mutArrPtrsFrozen_info = StCLbl mkMAP_FROZEN_infoLabel
-- these are the sizes of charLike and intLike closures, in _bytes_.
-charLikeSize = (fixedHdrSize + 1) * (fromInteger (sizeOf PtrRep))
-intLikeSize = (fixedHdrSize + 1) * (fromInteger (sizeOf PtrRep))
+charLikeSize = (fixedHdrSize + 1) * (sizeOf PtrRep)
+intLikeSize = (fixedHdrSize + 1) * (sizeOf PtrRep)
\end{code}