%
-% (c) The AQUA Project, Glasgow University, 1993-1996
+% (c) The AQUA Project, Glasgow University, 1993-1998
%
\begin{code}
-#include "HsVersions.h"
-
-module StixPrim ( primCode, amodeToStix, amodeToStix' ) where
+module StixPrim ( amodeToStix, amodeToStix', foreignCallCode )
+where
-IMP_Ubiq(){-uitous-}
-#if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ <= 201
-IMPORT_DELOOPER(NcgLoop) -- paranoia checking only
-#endif
+#include "HsVersions.h"
-import MachMisc
-#if __GLASGOW_HASKELL__ >= 202
-import MachRegs hiding (Addr)
-#else
-import MachRegs
-#endif
+-- import MachMisc
+import Stix
-import AbsCSyn
+import PprAbsC ( pprAmode )
+import AbsCSyn hiding ( spRel )
import AbsCUtils ( getAmodeRep, mixedTypeLocn )
-import Constants ( spARelToInt, spBRelToInt )
-import CostCentre ( noCostCentreAttached )
-import HeapOffs ( hpRelToInt, subOff )
-import Literal ( Literal(..) )
-import PrimOp ( PrimOp(..), isCompareOp, showPrimOp,
- getPrimOpResultInfo, PrimOpResultInfo(..)
- )
-import PrimRep ( PrimRep(..), isFloatingRep )
-import OrdList ( OrdList )
-import Outputable ( PprStyle(..) )
-import SMRep ( SMRep(..), SMSpecRepKind, SMUpdateKind )
-import Stix
-import StixMacro ( heapCheck )
-import StixInteger {- everything -}
-import UniqSupply ( returnUs, thenUs, SYN_IE(UniqSM) )
-import Pretty ( (<>), ptext, int )
-import Util ( panic )
-
-#ifdef REALLY_HASKELL_1_3
-ord = fromEnum :: Char -> Int
-#endif
+import SMRep ( fixedHdrSize )
+import Literal ( Literal(..), word2IntLit )
+import MachOp ( MachOp(..) )
+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 ForeignCall ( ForeignCall(..), CCallSpec(..), CCallTarget(..),
+ CCallConv(..), playSafe, playThreadSafe )
+import Outputable
+import Util ( notNull )
+import FastString
+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 and foreignCallCode, which handle the guts of COpStmts.
\begin{code}
-arrayOfData_info = sStLitLbl SLIT("ArrayOfData_info") -- out here to avoid CAF (sigh)
-imMutArrayOfPtrs_info = sStLitLbl SLIT("ImMutArrayOfPtrs_info")
-
-primCode
+foreignCallCode
:: [CAddrMode] -- results
- -> PrimOp -- op
+ -> ForeignCall -- op
-> [CAddrMode] -- args
- -> UniqSM StixTreeList
+ -> UniqSM StixStmtList
\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
is empty, we just perform the call and ignore the result.
-ToDo ADR: modify this to handle ForeignObjs.
-
btw Why not let programmer use casm to provide assembly code instead
of C code? ADR
-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,
-and modify our heap check accordingly.
-
-\begin{code}
--- NB: ordering of clauses somewhere driven by
--- the desire to getting sane patt-matching behavior
-
-primCode res@[ar1,sr1,dr1, ar2,sr2,dr2]
- IntegerQuotRemOp
- args@[liveness, aa1,sa1,da1, aa2,sa2,da2]
- = gmpTake2Return2 (ar1,sr1,dr1, ar2,sr2,dr2) SLIT("mpz_divmod") (liveness, aa1,sa1,da1, aa2,sa2,da2)
-
-primCode res@[ar1,sr1,dr1, ar2,sr2,dr2]
- IntegerDivModOp
- args@[liveness, aa1,sa1,da1, aa2,sa2,da2]
- = gmpTake2Return2 (ar1,sr1,dr1, ar2,sr2,dr2) SLIT("mpz_targetivmod") (liveness, aa1,sa1,da1, aa2,sa2,da2)
-
-primCode res@[ar,sr,dr] IntegerAddOp args@[liveness, aa1,sa1,da1, aa2,sa2,da2]
- = gmpTake2Return1 (ar,sr,dr) SLIT("mpz_add") (liveness, aa1,sa1,da1, aa2,sa2,da2)
-primCode res@[ar,sr,dr] IntegerSubOp args@[liveness, aa1,sa1,da1, aa2,sa2,da2]
- = gmpTake2Return1 (ar,sr,dr) SLIT("mpz_sub") (liveness, aa1,sa1,da1, aa2,sa2,da2)
-primCode res@[ar,sr,dr] IntegerMulOp args@[liveness, aa1,sa1,da1, aa2,sa2,da2]
- = gmpTake2Return1 (ar,sr,dr) SLIT("mpz_mul") (liveness, aa1,sa1,da1, aa2,sa2,da2)
-
-primCode res@[ar,sr,dr] IntegerNegOp arg@[liveness,aa,sa,da]
- = gmpTake1Return1 (ar,sr,dr) SLIT("mpz_neg") (liveness,aa,sa,da)
-\end{code}
-
-Since we are using the heap for intermediate @MP_INT@ structs, integer
-comparison {\em does} require a heap check in the native code
-implementation.
-
-\begin{code}
-primCode res@[exponr,ar,sr,dr] FloatDecodeOp args@[hp, arg]
- = decodeFloatingKind FloatRep (exponr,ar,sr,dr) (hp, arg)
-
-primCode res@[exponr,ar,sr,dr] DoubleDecodeOp args@[hp, arg]
- = decodeFloatingKind DoubleRep (exponr,ar,sr,dr) (hp, arg)
-
-primCode res@[ar,sr,dr] Int2IntegerOp args@[hp, n]
- = gmpInt2Integer (ar,sr,dr) (hp, n)
-
-primCode res@[ar,sr,dr] Addr2IntegerOp args@[liveness,str]
- = gmpString2Integer (ar,sr,dr) (liveness,str)
-
-primCode [res] IntegerCmpOp args@[hp, aa1,sa1,da1, aa2,sa2,da2]
- = gmpCompare res (hp, aa1,sa1,da1, aa2,sa2,da2)
-
-primCode [res] Integer2IntOp arg@[hp, aa,sa,da]
- = gmpInteger2Int res (hp, aa,sa,da)
-
-primCode [res] FloatEncodeOp args@[hp, aa,sa,da, expon]
- = encodeFloatingKind FloatRep res (hp, aa,sa,da, expon)
-
-primCode [res] DoubleEncodeOp args@[hp, aa,sa,da, expon]
- = encodeFloatingKind DoubleRep res (hp, aa,sa,da, expon)
-
-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] Word2IntOp [arg]
- = simpleCoercion IntRep res arg
-\end{code}
-
-The @ErrorIO@ primitive is actually a bit weird...assign a new value
-to the root closure, flush stdout and stderr, and jump to the
-@ErrorIO_innards@.
-
-\begin{code}
-primCode [] ErrorIOPrimOp [rhs]
- = let
- changeTop = StAssign PtrRep topClosure (amodeToStix rhs)
- in
- returnUs (\xs -> changeTop : flushStdout : flushStderr : errorIO : xs)
-\end{code}
-
-@newArray#@ ops allocate heap space.
-
-\begin{code}
-primCode [res] NewArrayOp args
- = let
- [liveness, n, initial] = map amodeToStix args
- result = amodeToStix res
- space = StPrim IntAddOp [n, mutHS]
- loc = StIndex PtrRep stgHp
- (StPrim IntNegOp [StPrim IntSubOp [space, StInt 1]])
- assign = StAssign PtrRep result loc
- initialise = StCall SLIT("newArrZh_init") VoidRep [result, n, initial]
- in
- heapCheck liveness space (StInt 0) `thenUs` \ heap_chk ->
-
- returnUs (heap_chk . (\xs -> assign : initialise : xs))
-
-primCode [res] (NewByteArrayOp pk) args
- = let
- [liveness, count] = map amodeToStix args
- result = amodeToStix res
- n = StPrim IntMulOp [count, StInt (sizeOf pk)]
- slop = StPrim IntAddOp [n, StInt (sizeOf IntRep - 1)]
- words = StPrim IntQuotOp [slop, StInt (sizeOf IntRep)]
- space = StPrim IntAddOp [n, StPrim IntAddOp [words, dataHS]]
- loc = StIndex PtrRep stgHp
- (StPrim IntNegOp [StPrim IntSubOp [space, StInt 1]])
- assign = StAssign PtrRep result loc
- init1 = StAssign PtrRep (StInd PtrRep loc) arrayOfData_info
- init2 = StAssign IntRep
- (StInd IntRep
- (StIndex IntRep loc
- (StInt (toInteger fixedHdrSizeInWords))))
- (StPrim IntAddOp [words,
- StInt (toInteger (varHdrSizeInWords (DataRep 0)))])
- in
- heapCheck liveness space (StInt 0) `thenUs` \ heap_chk ->
-
- returnUs (heap_chk . (\xs -> assign : init1 : init2 : xs))
-
-primCode [res] SameMutableArrayOp args
- = let
- compare = StPrim AddrEqOp (map amodeToStix args)
- assign = StAssign IntRep (amodeToStix res) compare
- in
- returnUs (\xs -> assign : xs)
-
-primCode res@[_] SameMutableByteArrayOp args
- = primCode res SameMutableArrayOp args
-\end{code}
-
-Freezing an array of pointers is a double assignment. We fix the
-header of the ``new'' closure because the lhs is probably a better
-addressing mode for the indirection (most likely, it's a VanillaReg).
-
-\begin{code}
-
-primCode [lhs] UnsafeFreezeArrayOp [rhs]
- = let
- lhs' = amodeToStix lhs
- rhs' = amodeToStix rhs
- header = StInd PtrRep lhs'
- assign = StAssign PtrRep lhs' rhs'
- freeze = StAssign PtrRep header imMutArrayOfPtrs_info
- in
- returnUs (\xs -> assign : freeze : xs)
-
-primCode [lhs] UnsafeFreezeByteArrayOp [rhs]
- = simpleCoercion PtrRep lhs rhs
-\end{code}
-
-Most other array primitives translate to simple indexing.
+ToDo: saving/restoring of volatile regs around ccalls.
-\begin{code}
-
-primCode lhs@[_] IndexArrayOp args
- = primCode lhs ReadArrayOp args
-
-primCode [lhs] ReadArrayOp [obj, ix]
- = let
- lhs' = amodeToStix lhs
- obj' = amodeToStix obj
- ix' = amodeToStix ix
- base = StIndex IntRep obj' mutHS
- assign = StAssign PtrRep lhs' (StInd PtrRep (StIndex PtrRep base ix'))
- in
- returnUs (\xs -> assign : xs)
-
-primCode [] WriteArrayOp [obj, ix, v]
- = let
- obj' = amodeToStix obj
- ix' = amodeToStix ix
- v' = amodeToStix v
- base = StIndex IntRep obj' mutHS
- assign = StAssign PtrRep (StInd PtrRep (StIndex PtrRep base ix')) v'
- in
- returnUs (\xs -> assign : xs)
-
-primCode lhs@[_] (IndexByteArrayOp pk) args
- = primCode lhs (ReadByteArrayOp pk) args
-
--- NB: indexing in "pk" units, *not* in bytes (WDP 95/09)
+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.
-primCode [lhs] (ReadByteArrayOp pk) [obj, ix]
- = let
- lhs' = amodeToStix lhs
- obj' = amodeToStix obj
- ix' = amodeToStix ix
- base = StIndex IntRep obj' dataHS
- assign = StAssign pk lhs' (StInd pk (StIndex pk base ix'))
- in
- returnUs (\xs -> assign : xs)
-
-primCode [lhs] (IndexOffAddrOp pk) [obj, ix]
- = let
- lhs' = amodeToStix lhs
- obj' = amodeToStix obj
- ix' = amodeToStix ix
- assign = StAssign pk lhs' (StInd pk (StIndex pk obj' ix'))
- in
- returnUs (\xs -> assign : xs)
-
-primCode [] (WriteByteArrayOp pk) [obj, ix, v]
- = let
- obj' = amodeToStix obj
- ix' = amodeToStix ix
- v' = amodeToStix v
- base = StIndex IntRep obj' dataHS
- assign = StAssign pk (StInd pk (StIndex pk base ix')) v'
- in
- returnUs (\xs -> assign : xs)
-\end{code}
-
-Stable pointer operations.
-
-First the easy one.
\begin{code}
+foreignCallCode lhs call@(CCall (CCallSpec ctarget cconv safety)) rhs
-primCode [lhs] DeRefStablePtrOp [sp]
- = let
- lhs' = amodeToStix lhs
- pk = getAmodeRep lhs
- sp' = amodeToStix sp
- call = StCall SLIT("deRefStablePointer") pk [sp', smStablePtrTable]
- assign = StAssign pk lhs' call
- in
- returnUs (\xs -> assign : xs)
-\end{code}
-
-Now the hard one. For comparison, here's the code from StgMacros:
-
-\begin{verbatim}
-#define makeStablePtrZh(stablePtr,liveness,unstablePtr) \
-do { \
- EXTDATA(MK_INFO_LBL(StablePointerTable)); \
- EXTDATA(UnusedSP); \
- StgStablePtr newSP; \
- \
- if (SPT_EMPTY(StorageMgrInfo.StablePointerTable)) { /* free stack is empty */ \
- I_ OldNoPtrs = SPT_NoPTRS(StorageMgrInfo.StablePointerTable); \
- \
- /* any strictly increasing expression will do here */ \
- I_ NewNoPtrs = OldNoPtrs * 2 + 100; \
- \
- I_ NewSize = DYN_VHS + NewNoPtrs + 1 + NewNoPtrs; \
- P_ SPTable; \
- \
- HEAP_CHK(NO_LIVENESS, _FHS+NewSize, 0); \
- CC_ALLOC(CCC, _FHS+NewSize, SPT_K); /* cc prof */ \
- \
- SPTable = Hp + 1 - (_FHS + NewSize); \
- SET_DYN_HDR(SPTable,StablePointerTable,CCC,NewSize,NewNoPtrs); \
- SAFESTGCALL2(void, (void *, P_, P_), enlargeSPTable, SPTable, StorageMgrInfo.StablePointerTable); \
- StorageMgrInfo.StablePointerTable = SPTable; \
- } \
- \
- newSP = SPT_POP(StorageMgrInfo.StablePointerTable); \
- SPT_SPTR(StorageMgrInfo.StablePointerTable, newSP) = unstablePtr; \
- stablePtr = newSP; \
-} while (0)
-\end{verbatim}
-
-ToDo ADR: finish this. (Boy, this is hard work!)
-
-Notes for ADR:
- trMumbles are now just StMumbles.
- StInt 1 is how to write ``1''
- temporaries are allocated at the end of the heap (see notes in StixInteger)
- Good luck!
-
- --JSM
-
-\begin{pseudocode}
-primCode [lhs] MakeStablePtrOp args
- = let
- -- some useful abbreviations (I'm sure these must exist already)
- add = trPrim . IntAddOp
- sub = trPrim . IntSubOp
- one = trInt [1]
- dec x = trAssign IntRep [x, sub [x, one]]
- inc x = trAssign IntRep [x, add [x, one]]
-
- -- tedious hardwiring in of closure layout offsets (from SMClosures)
- dynHS = 2 + fixedHdrSizeInWords + varHdrSizeInWords DynamicRep
- spt_SIZE c = trIndex PtrRep [c, trInt [fhs + gc_reserved] ]
- spt_NoPTRS c = trIndex PtrRep [c, trInt [fhs + gc_reserved + 1] ]
- spt_SPTR c i = trIndex PtrRep [c, add [trInt [dynHS], i]]
- spt_TOP c = trIndex PtrRep [c, add [trInt [dynHS], spt_NoPTRS c]]
- spt_FREE c i = trIndex PtrRep [c, add [trInt [dynHS], spt_NoPTRS c]]
-
- -- tedious hardwiring in of stack manipulation macros (from SMClosures)
- spt_FULL c lbl =
- trCondJump lbl [trPrim IntEqOp [spt_TOP c, spt_NoPTRS c]]
- spt_EMPTY c lbl =
- trCondJump lbl [trPrim IntEqOp [spt_TOP c, trInt [0]]]
- spt_PUSH c f = [
- trAssign PtrRep [spt_FREE c (spt_TOP c), f],
- inc (spt_TOP c),
- spt_POP c x = [
- dec (spt_TOP c),
- trAssign PtrRep [x, spt_FREE c (spt_TOP c)]
- ]
-
- -- now to get down to business
- lhs' = amodeCode lhs
- [liveness, unstable] = map amodeCode args
-
- spt = smStablePtrTable
-
- newSPT = -- a temporary (don't know how to allocate it)
- newSP = -- another temporary
-
- allocNewTable = -- some sort fo heap allocation needed
- copyOldTable = trCall "enlargeSPTable" PtrRep [newSPT, spt]
-
- enlarge =
- allocNewTable ++ [
- copyOldTable,
- trAssign PtrRep [spt, newSPT]
- allocate = [
- spt_POP spt newSP,
- trAssign PtrRep [spt_SPTR spt newSP, unstable],
- trAssign StablePtrRep [lhs', newSP]
- ]
-
- in
- getUniqLabelCTS `thenCTS` \ oklbl ->
- returnCodes sty md
- (spt_EMPTY spt oklbl : (enlarge ++ (trLabel [oklbl] : allocate)))
-\end{pseudocode}
+ | not (playSafe safety)
+ = returnUs (\xs -> ccall : xs)
-\begin{code}
-primCode res Word2IntegerOp args = panic "primCode:Word2IntegerOp"
-
-primCode lhs (CCallOp fn is_asm may_gc arg_tys result_ty) rhs
- | is_asm = error "ERROR: Native code generator can't handle casm"
| otherwise
- = case lhs of
- [] -> returnUs (\xs -> (StCall fn VoidRep args) : xs)
- [lhs] ->
- let lhs' = amodeToStix lhs
- pk = if isFloatingRep (getAmodeRep lhs) then DoubleRep else IntRep
- call = StAssign pk lhs' (StCall fn pk args)
- in
- returnUs (\xs -> call : xs)
- where
- args = map amodeCodeForCCall rhs
- amodeCodeForCCall x =
- let base = amodeToStix' x
- in
- case getAmodeRep x of
- ArrayRep -> StIndex PtrRep base mutHS
- ByteArrayRep -> StIndex IntRep base dataHS
- ForeignObjRep -> error "ERROR: native-code generator can't handle ForeignObjs (yet): use -fvia-C!"
- _ -> base
-\end{code}
-
-Now the more mundane operations.
-
-\begin{code}
-primCode lhs op rhs
- = let
- lhs' = map amodeToStix lhs
- rhs' = map amodeToStix' rhs
+ = save_thread_state `thenUs` \ save ->
+ load_thread_state `thenUs` \ load ->
+ getUniqueUs `thenUs` \ uniq ->
+ let
+ id = StixTemp (StixVReg uniq IntRep)
+
+ is_threadSafe
+ | playThreadSafe safety = 1
+ | otherwise = 0
+
+ suspend = StAssignReg IntRep id
+ (StCall (Left FSLIT("suspendThread")) {-no:cconv-} CCallConv
+ IntRep [StReg stgBaseReg, StInt is_threadSafe ])
+ resume = StVoidable
+ (StCall (Left FSLIT("resumeThread")) {-no:cconv-} CCallConv
+ VoidRep [StReg id, StInt is_threadSafe ])
in
- returnUs (\ xs -> simplePrim lhs' op rhs' : xs)
-\end{code}
+ returnUs (\xs -> save (suspend : ccall : resume : load xs))
-\begin{code}
-simpleCoercion
- :: PrimRep
- -> CAddrMode
- -> CAddrMode
- -> UniqSM StixTreeList
-
-simpleCoercion pk lhs rhs
- = returnUs (\xs -> StAssign pk (amodeToStix lhs) (amodeToStix rhs) : xs)
-\end{code}
-
-Here we try to rewrite primitives into a form the code generator can
-understand. Any primitives not handled here must be handled at the
-level of the specific code generator.
-
-\begin{code}
-simplePrim
- :: [StixTree]
- -> PrimOp
- -> [StixTree]
- -> StixTree
-\end{code}
-
-Now look for something more conventional.
-
-\begin{code}
-simplePrim [lhs] op rest
- = StAssign pk lhs (StPrim op rest)
where
- pk = if isCompareOp op then
- IntRep
- else
- case getPrimOpResultInfo op of
- ReturnsPrim pk -> pk
- _ -> simplePrim_error op
-
-simplePrim as op bs = simplePrim_error op
-
-simplePrim_error op
- = error ("ERROR: primitive operation `"++showPrimOp PprDebug 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")
+ (cargs, stix_target)
+ = case ctarget of
+ StaticTarget nm -> (rhs, Left nm)
+ 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 amodeToStix' cargs
+
+ ccall = case lhs of
+ [] -> StVoidable (StCall stix_target cconv VoidRep stix_args)
+ [lhs] -> mkStAssign pk lhs' (StCall stix_target cconv pk stix_args)
+ where
+ lhs' = amodeToStix lhs
+ pk = case getAmodeRep lhs of
+ FloatRep -> FloatRep
+ DoubleRep -> DoubleRep
+ 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}
-%---------------------------------------------------------------------
-
-Here we generate the Stix code for CAddrModes.
+%************************************************************************
+%* *
+\subsubsection{Code for @CAddrMode@s}
+%* *
+%************************************************************************
When a character is fetched from a mixed type location, we have to do
an extra cast. This is reflected in amodeCode', which is for rhs
amodes that might possibly need the extra cast.
\begin{code}
-amodeToStix, amodeToStix' :: CAddrMode -> StixTree
+amodeToStix, amodeToStix' :: CAddrMode -> StixExpr
amodeToStix'{-'-} am@(CVal rr CharRep)
- | mixedTypeLocn am = StPrim ChrOp [amodeToStix am]
- | otherwise = amodeToStix am
-
-amodeToStix' am = amodeToStix am
+ | mixedTypeLocn am = StMachOp MO_NatS_to_32U [amodeToStix am]
+ | otherwise = amodeToStix am
+amodeToStix' am
+ = amodeToStix am
-----------
amodeToStix am@(CVal rr CharRep)
amodeToStix (CVal rr pk) = StInd pk (amodeToStix (CAddr rr))
-amodeToStix (CAddr (SpARel spA off))
- = StIndex PtrRep stgSpA (StInt (toInteger (spARelToInt spA off)))
-
-amodeToStix (CAddr (SpBRel spB off))
- = StIndex IntRep stgSpB (StInt (toInteger (spBRelToInt spB off)))
+amodeToStix (CAddr (SpRel off))
+ = StIndex PtrRep (StReg stgSp) (StInt (toInteger (iBox off)))
-amodeToStix (CAddr (HpRel hp off))
- = StIndex IntRep stgHp (StInt (toInteger (-(hpRelToInt (hp `subOff` off)))))
+amodeToStix (CAddr (HpRel off))
+ = StIndex IntRep (StReg stgHp) (StInt (toInteger (- (iBox off))))
amodeToStix (CAddr (NodeRel off))
- = StIndex IntRep stgNode (StInt (toInteger (hpRelToInt off)))
+ = StIndex IntRep (StReg stgNode) (StInt (toInteger (iBox off)))
+
+amodeToStix (CAddr (CIndex base off pk))
+ = StIndex pk (amodeToStix base) (amodeToStix off)
amodeToStix (CReg magic) = StReg (StixMagicId magic)
-amodeToStix (CTemp uniq pk) = StReg (StixTemp uniq pk)
+amodeToStix (CTemp uniq pk) = StReg (StixTemp (StixVReg uniq pk))
amodeToStix (CLbl lbl _) = StCLbl lbl
-amodeToStix (CUnVecLbl dir _) = StCLbl dir
-
-amodeToStix (CTableEntry base off pk)
- = StInd pk (StIndex pk (amodeToStix base) (amodeToStix off))
-- For CharLike and IntLike, we attempt some trivial constant-folding here.
amodeToStix (CCharLike (CLit (MachChar c)))
- = StLitLbl ((<>) (ptext SLIT("CHARLIKE_closures+")) (int off))
+ = StIndex Word8Rep cHARLIKE_closure (StInt (toInteger off))
where
- off = charLikeSize * ord c
+ off = charLikeSize * (c - mIN_CHARLIKE)
amodeToStix (CCharLike x)
- = StPrim IntAddOp [charLike, off]
- where
- off = StPrim IntMulOp [amodeToStix x, StInt (toInteger charLikeSize)]
+ = panic "amodeToStix.CCharLike"
-amodeToStix (CIntLike (CLit (MachInt i _)))
- = StPrim IntAddOp [intLikePtr, StInt off]
+amodeToStix (CIntLike (CLit (MachInt i)))
+ = StIndex Word8Rep iNTLIKE_closure (StInt (toInteger off))
where
- off = toInteger intLikeSize * i
+ off = intLikeSize * (fromInteger (i - mIN_INTLIKE))
amodeToStix (CIntLike x)
- = StPrim IntAddOp [intLikePtr, off]
- where
- off = StPrim IntMulOp [amodeToStix x, StInt (toInteger intLikeSize)]
-
- -- A CString is just a (CLit . MachStr)
-amodeToStix (CString s) = StString s
+ = panic "amodeToStix.CIntLike"
amodeToStix (CLit core)
= case core of
- MachChar c -> StInt (toInteger (ord c))
+ MachChar c -> StInt (toInteger c)
MachStr s -> StString s
- MachAddr a -> StInt a
- MachInt i _ -> StInt i
- MachLitLit s _ -> StLitLit s
- MachFloat d -> StDouble d
+ MachNullAddr -> StInt 0
+ MachInt i -> StInt i
+ MachWord w -> case word2IntLit core of MachInt iw -> StInt iw
+ MachLitLit s _ -> litLitErr
+ -- 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"
- -- A CLitLit is just a (CLit . MachLitLit)
-amodeToStix (CLitLit s _) = StLitLit s
+amodeToStix (CMacroExpr _ macro [arg])
+ = 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 arg_amode
+ (StInt (toInteger (-1)))),
+ StInt 65535]
+#else
+ StMachOp MO_Nat_Shr
+ [StInd WordRep (StIndex PtrRep arg_amode
+ (StInt (toInteger (-1)))),
+ StInt 16]
+#endif
+ 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)
- -- COffsets are in words, not bytes!
-amodeToStix (COffset off) = StInt (toInteger (hpRelToInt off))
-amodeToStix (CMacroExpr _ macro [arg])
- = case macro of
- INFO_PTR -> StInd PtrRep (amodeToStix arg)
- ENTRY_CODE -> amodeToStix arg
- INFO_TAG -> tag
- EVAL_TAG -> StPrim IntGeOp [tag, StInt 0]
- where
- tag = StInd IntRep (StIndex IntRep (amodeToStix arg) (StInt (-2)))
- -- That ``-2'' really bothers me. (JSM) (Replace w/ oTHER_TAG? [WDP])
-
-amodeToStix (CCostCentre cc print_as_string)
- = if noCostCentreAttached cc
- then StComment SLIT("") -- sigh
- else panic "amodeToStix:CCostCentre"
+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
\begin{code}
-- The INTLIKE base pointer
-intLikePtr :: StixTree
-
-intLikePtr = StInd PtrRep (sStLitLbl SLIT("INTLIKE_closures"))
+iNTLIKE_closure :: StixExpr
+iNTLIKE_closure = StCLbl mkIntlikeClosureLabel
-- The CHARLIKE base
-charLike :: StixTree
+cHARLIKE_closure :: StixExpr
+cHARLIKE_closure = StCLbl mkCharlikeClosureLabel
-charLike = sStLitLbl SLIT("CHARLIKE_closures")
+mutArrPtrsFrozen_info = StCLbl mkMAP_FROZEN_infoLabel
--- Trees for the ErrorIOPrimOp
+-- these are the sizes of charLike and intLike closures, in _bytes_.
+charLikeSize = (fixedHdrSize + 1) * (getPrimRepSizeInBytes PtrRep)
+intLikeSize = (fixedHdrSize + 1) * (getPrimRepSizeInBytes PtrRep)
+\end{code}
-topClosure, flushStdout, flushStderr, errorIO :: StixTree
-topClosure = StInd PtrRep (sStLitLbl SLIT("TopClosure"))
-flushStdout = StCall SLIT("fflush") VoidRep [StLitLit SLIT("stdout")]
-flushStderr = StCall SLIT("fflush") VoidRep [StLitLit SLIT("stderr")]
-errorIO = StJump (StInd PtrRep (sStLitLbl SLIT("ErrorIO_innards")))
+\begin{code}
+save_thread_state
+ = getUniqueUs `thenUs` \ tso_uq ->
+ let tso = StixTemp (StixVReg tso_uq PtrRep) in
+ returnUs (\xs ->
+ 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 stgCurrentNursery,
+ StInt (toInteger (BDESCR_FREE * BYTES_PER_WORD))])
+ (StMachOp MO_Nat_Add
+ [StReg stgHp, StInt (toInteger (1 * BYTES_PER_WORD))])
+ : xs
+ )
+
+load_thread_state
+ = getUniqueUs `thenUs` \ tso_uq ->
+ let tso = StixTemp (StixVReg tso_uq PtrRep) in
+ returnUs (\xs ->
+ 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
+ stgSpLim
+ (StMachOp MO_Nat_Add
+ [StReg tso,
+ StInt (toInteger ((TSO_STACK + rESERVED_STACK_WORDS)
+ *BYTES_PER_WORD))])
+ : StAssignReg PtrRep
+ stgHp
+ (StMachOp MO_Nat_Sub
+ [StInd PtrRep
+ (StMachOp MO_Nat_Add
+ [StReg stgCurrentNursery,
+ StInt (toInteger (BDESCR_FREE * BYTES_PER_WORD))]),
+ StInt (toInteger (1 * BYTES_PER_WORD))
+ ])
+ : StAssignReg PtrRep
+ stgHpLim
+ (StIndex Word8Rep
+ (StInd PtrRep
+ (StIndex PtrRep (StReg stgCurrentNursery)
+ (StInt (toInteger BDESCR_START))
+ )
+ )
+ (StMachOp MO_Nat_Sub
+ [StMachOp MO_NatU_Mul
+ [StInd WordRep
+ (StIndex PtrRep (StReg stgCurrentNursery)
+ (StInt (toInteger BDESCR_BLOCKS))),
+ StInt (toInteger bLOCK_SIZE{-in bytes-})
+ ],
+ StInt (1 * BYTES_PER_WORD)
+ ]
+ )
+
+ )
+
+ : xs
+ )
\end{code}