%
-% (c) The AQUA Project, Glasgow University, 1993-1995
+% (c) The AQUA Project, Glasgow University, 1993-1998
%
\begin{code}
-#include "HsVersions.h"
-
-module StixMacro (
- genMacroCode, doHeapCheck, smStablePtrTable,
+module StixMacro ( macroCode, checkCode ) where
- Target, StixTree, UniqSupply, CAddrMode, CExprMacro,
- CStmtMacro
- ) where
+#include "HsVersions.h"
-import AbsCSyn
-import PrelInfo ( PrimOp(..)
- IF_ATTACK_PRAGMAS(COMMA tagOf_PrimOp)
- IF_ATTACK_PRAGMAS(COMMA pprPrimOp)
- )
-import MachDesc {- lots -}
-import CgCompInfo ( sTD_UF_SIZE, uF_RET, uF_SUA, uF_SUB, uF_UPDATEE )
+import {-# SOURCE #-} StixPrim ( amodeToStix )
+
+import MachMisc
+import MachRegs
+import AbsCSyn ( CStmtMacro(..), MagicId(..), CAddrMode, tagreg,
+ CCheckMacro(..) )
+import Constants ( uF_RET, uF_SU, uF_UPDATEE, uF_SIZE )
+import CallConv ( cCallConv )
+import OrdList ( OrdList )
+import PrimOp ( PrimOp(..) )
+import PrimRep ( PrimRep(..) )
import Stix
-import UniqSupply
-import Util
+import UniqSupply ( returnUs, thenUs, UniqSM )
+import Outputable
\end{code}
The @ARGS_CHK_A{_LOAD_NODE}@ macros check for sufficient arguments on
closure address.
\begin{code}
-mkIntCLit_0 = mkIntCLit 0 -- out here to avoid CAF (sigh)
-mkIntCLit_3 = mkIntCLit 3
-
--- hacking with Uncle Will:
-#define target_STRICT target@(Target _ _ _ _ _ _ _ _)
-
-genMacroCode
- :: Target
- -> CStmtMacro -- statement macro
+macroCode
+ :: CStmtMacro -- statement macro
-> [CAddrMode] -- args
-> UniqSM StixTreeList
-
-genMacroCode target_STRICT macro args
- = genmacro macro args
- where
- a2stix = amodeToStix target
- stg_reg = stgReg target
-
- -- real thing: here we go -----------------------
-
- genmacro ARGS_CHK_A_LOAD_NODE args =
- getUniqLabelNCG `thenUs` \ ulbl ->
- let [words, lbl] = map a2stix args
- temp = StIndex PtrRep stgSpA words
- test = StPrim AddrGeOp [stgSuA, temp]
- cjmp = StCondJump ulbl test
- assign = StAssign PtrRep stgNode lbl
- join = StLabel ulbl
- in
- returnUs (\xs -> cjmp : assign : updatePAP : join : xs)
-
- genmacro ARGS_CHK_A [words] =
- getUniqLabelNCG `thenUs` \ ulbl ->
- let temp = StIndex PtrRep stgSpA (a2stix words)
- test = StPrim AddrGeOp [stgSuA, temp]
- cjmp = StCondJump ulbl test
- join = StLabel ulbl
- in
- returnUs (\xs -> cjmp : updatePAP : join : xs)
-
\end{code}
-Like the macros above, the @ARGS_CHK_B{_LOAD_NODE}@ macros check for
-sufficient arguments on the B stack, and perform a tail call to
-@UpdatePAP@ if the arguments are not there. The @_LOAD_NODE@ version
-also loads R1 with an appropriate closure address. Note that the
-directions are swapped relative to the A stack.
+-----------------------------------------------------------------------------
+Argument satisfaction checks.
\begin{code}
-
- genmacro ARGS_CHK_B_LOAD_NODE args =
- getUniqLabelNCG `thenUs` \ ulbl ->
- let [words, lbl] = map a2stix args
- temp = StIndex PtrRep stgSuB (StPrim IntNegOp [words])
- test = StPrim AddrGeOp [stgSpB, temp]
- cjmp = StCondJump ulbl test
- assign = StAssign PtrRep stgNode lbl
- join = StLabel ulbl
+macroCode ARGS_CHK_LOAD_NODE args
+ = getUniqLabelNCG `thenUs` \ ulbl ->
+ let
+ [words, lbl] = map amodeToStix args
+ temp = StIndex PtrRep stgSp words
+ test = StPrim AddrGeOp [stgSu, temp]
+ cjmp = StCondJump ulbl test
+ assign = StAssign PtrRep stgNode lbl
+ join = StLabel ulbl
in
- returnUs (\xs -> cjmp : assign : updatePAP : join : xs)
+ returnUs (\xs -> cjmp : assign : updatePAP : join : xs)
- genmacro ARGS_CHK_B [words] =
- getUniqLabelNCG `thenUs` \ ulbl ->
- let temp = StIndex PtrRep stgSuB (StPrim IntNegOp [a2stix words])
- test = StPrim AddrGeOp [stgSpB, temp]
+macroCode ARGS_CHK [words]
+ = getUniqLabelNCG `thenUs` \ ulbl ->
+ let temp = StIndex PtrRep stgSp (amodeToStix words)
+ test = StPrim AddrGeOp [stgSu, temp]
cjmp = StCondJump ulbl test
join = StLabel ulbl
in
- returnUs (\xs -> cjmp : updatePAP : join : xs)
-
-\end{code}
-
-The @HEAP_CHK@ macro checks to see that there are enough words
-available in the heap (before reaching @HpLim@). When a heap check
-fails, it has to call @PerformGC@ via the @PerformGC_wrapper@. The
-call wrapper saves all of our volatile registers so that we don't have to.
-
-Since there are @HEAP_CHK@s buried at unfortunate places in the integer
-primOps, this is just a wrapper.
-
-\begin{code}
-
- genmacro HEAP_CHK args =
- let [liveness,words,reenter] = map a2stix args
- in
- doHeapCheck liveness words reenter
+ returnUs (\xs -> cjmp : updatePAP : join : xs)
\end{code}
-The @STK_CHK@ macro checks for enough space on the stack between @SpA@
-and @SpB@. A stack check can be complicated in the parallel world,
-but for the sequential case, we just need to ensure that we have
-enough space to continue. Not that @_StackOverflow@ doesn't return,
-so we don't have to @callWrapper@ it.
-
-\begin{code}
+-----------------------------------------------------------------------------
+Updating a CAF
- genmacro STK_CHK [liveness, aWords, bWords, spa, spb, prim, reenter] =
-{- Need to check to see if we are compiling with stack checks
- getUniqLabelNCG `thenUs` \ ulbl ->
- let words = StPrim IntNegOp
- [StPrim IntAddOp [a2stix aWords, a2stix bWords]]
- temp = StIndex PtrRep stgSpA words
- test = StPrim AddrGtOp [temp, stgSpB]
- cjmp = StCondJump ulbl test
- join = StLabel ulbl
- in
- returnUs (\xs -> cjmp : stackOverflow : join : xs)
--}
- returnUs id
-
-\end{code}
-
-@UPD_CAF@ involves changing the info pointer of the closure, adding an indirection,
-and putting the new CAF on a linked list for the storage manager.
+@UPD_CAF@ involves changing the info pointer of the closure, and
+adding an indirection.
\begin{code}
-
- genmacro UPD_CAF args =
- let [cafptr,bhptr] = map a2stix args
+macroCode UPD_CAF args
+ = let
+ [cafptr,bhptr] = map amodeToStix args
w0 = StInd PtrRep cafptr
- w1 = StInd PtrRep (StIndex PtrRep cafptr (StInt 1))
- w2 = StInd PtrRep (StIndex PtrRep cafptr (StInt 2))
- a1 = StAssign PtrRep w0 caf_info
- a2 = StAssign PtrRep w1 smCAFlist
- a3 = StAssign PtrRep w2 bhptr
- a4 = StAssign PtrRep smCAFlist cafptr
- in
- returnUs (\xs -> a1 : a2 : a3 : a4 : xs)
-
-\end{code}
-
-@UPD_IND@ is complicated by the fact that we are supporting the
-Appel-style garbage collector by default. This means some extra work
-if we update an old generation object.
-
-\begin{code}
-
- genmacro UPD_IND args =
- getUniqLabelNCG `thenUs` \ ulbl ->
- let [updptr, heapptr] = map a2stix args
- test = StPrim AddrGtOp [updptr, smOldLim]
- cjmp = StCondJump ulbl test
- updRoots = StAssign PtrRep smOldMutables updptr
- join = StLabel ulbl
- upd0 = StAssign PtrRep (StInd PtrRep updptr) ind_info
- upd1 = StAssign PtrRep (StInd PtrRep
- (StIndex PtrRep updptr (StInt 1))) smOldMutables
- upd2 = StAssign PtrRep (StInd PtrRep
- (StIndex PtrRep updptr (StInt 2))) heapptr
+ w1 = StInd PtrRep (StIndex PtrRep cafptr fixedHS)
+ blocking_queue = StInd PtrRep (StIndex PtrRep bhptr fixedHS)
+ a1 = StAssign PtrRep w0 ind_static_info
+ a2 = StAssign PtrRep w1 bhptr
+ a3 = StAssign PtrRep blocking_queue end_tso_queue
in
- returnUs (\xs -> cjmp : upd1 : updRoots : join : upd0 : upd2 : xs)
-
+ returnUs (\xs -> a1 : a2 : a3 : xs)
\end{code}
-@UPD_INPLACE_NOPTRS@ is only needed for ticky-ticky profiling.
-
-\begin{code}
+-----------------------------------------------------------------------------
+Blackholing
- genmacro UPD_INPLACE_NOPTRS args = returnUs id
+We do lazy blackholing: no need to overwrite thunks with blackholes
+the minute they're entered, as long as we do it before a context
+switch or garbage collection, that's ok.
-\end{code}
+Don't blackhole single entry closures, for the following reasons:
+
+ - if the compiler has decided that they won't be entered again,
+ that probably means that nothing has a pointer to it
+ (not necessarily true, but...)
-@UPD_INPLACE_PTRS@ is complicated by the fact that we are supporting
-the Appel-style garbage collector by default. This means some extra work
-if we update an old generation object.
+ - no need to blackhole for concurrency reasons, because nothing
+ can block on the result of this computation.
\begin{code}
+macroCode UPD_BH_UPDATABLE args = returnUs id
- genmacro UPD_INPLACE_PTRS [liveness] =
- getUniqLabelNCG `thenUs` \ ulbl ->
- let cjmp = StCondJump ulbl testOldLim
- testOldLim = StPrim AddrGtOp [stgNode, smOldLim]
- join = StLabel ulbl
- updUpd0 = StAssign PtrRep (StInd PtrRep stgNode) ind_info
- updUpd1 = StAssign PtrRep (StInd PtrRep
- (StIndex PtrRep stgNode (StInt 1))) smOldMutables
- updUpd2 = StAssign PtrRep (StInd PtrRep
- (StIndex PtrRep stgNode (StInt 2))) hpBack2
- hpBack2 = StIndex PtrRep stgHp (StInt (-2))
- updOldMutables = StAssign PtrRep smOldMutables stgNode
- updUpdReg = StAssign PtrRep stgNode hpBack2
+macroCode UPD_BH_SINGLE_ENTRY args = returnUs id
+{-
+ = let
+ update = StAssign PtrRep (StInd PtrRep (amodeToStix arg)) bh_info
in
- genmacro HEAP_CHK [liveness, mkIntCLit_3, mkIntCLit_0]
- `thenUs` \ heap_chk ->
- returnUs (\xs -> (cjmp :
- heap_chk (updUpd0 : updUpd1 : updUpd2 :
- updOldMutables : updUpdReg : join : xs)))
-
+ returnUs (\xs -> update : xs)
+-}
\end{code}
-@UPD_BH_UPDATABLE@ is only used when running concurrent threads (in
-the sequential case, the GC takes care of this). However, we do need
-to handle @UPD_BH_SINGLE_ENTRY@ in all cases.
-
-\begin{code}
-
- genmacro UPD_BH_UPDATABLE args = returnUs id
+-----------------------------------------------------------------------------
+Update frames
- genmacro UPD_BH_SINGLE_ENTRY [arg] =
- let
- update = StAssign PtrRep (StInd PtrRep (a2stix arg)) bh_info
- in
- returnUs (\xs -> update : xs)
-
-\end{code}
-
-Push a four word update frame on the stack and slide the Su[AB]
-registers to the current Sp[AB] locations.
+Push a four word update frame on the stack and slide the Su registers
+to the current Sp location.
\begin{code}
-
- genmacro PUSH_STD_UPD_FRAME args =
- let [bhptr, aWords, bWords] = map a2stix args
+macroCode PUSH_UPD_FRAME args
+ = let
+ [bhptr, _{-0-}] = map amodeToStix args
frame n = StInd PtrRep
- (StIndex PtrRep stgSpB (StPrim IntAddOp
- [bWords, StInt (toInteger (sTD_UF_SIZE - n))]))
+ (StIndex PtrRep stgSp (StInt (toInteger (n-uF_SIZE))))
- a1 = StAssign PtrRep (frame uF_RET) stgRetReg
- a2 = StAssign PtrRep (frame uF_SUB) stgSuB
- a3 = StAssign PtrRep (frame uF_SUA) stgSuA
+ a1 = StAssign PtrRep (frame uF_RET) upd_frame_info
+ a3 = StAssign PtrRep (frame uF_SU) stgSu
a4 = StAssign PtrRep (frame uF_UPDATEE) bhptr
- updSuB = StAssign PtrRep
- stgSuB (StIndex PtrRep stgSpB (StPrim IntAddOp
- [bWords, StInt (toInteger sTD_UF_SIZE)]))
- updSuA = StAssign PtrRep
- stgSuA (StIndex PtrRep stgSpA (StPrim IntNegOp [aWords]))
- in
- returnUs (\xs -> a1 : a2 : a3 : a4 : updSuB : updSuA : xs)
-
-\end{code}
-
-Pop a standard update frame.
-
-\begin{code}
-
- genmacro POP_STD_UPD_FRAME args =
- let frame n = StInd PtrRep (StIndex PtrRep stgSpB (StInt (toInteger (-n))))
-
- grabRet = StAssign PtrRep stgRetReg (frame uF_RET)
- grabSuB = StAssign PtrRep stgSuB (frame uF_SUB)
- grabSuA = StAssign PtrRep stgSuA (frame uF_SUA)
-
- updSpB = StAssign PtrRep
- stgSpB (StIndex PtrRep stgSpB (StInt (toInteger (-sTD_UF_SIZE))))
+ updSu = StAssign PtrRep stgSu
+ (StIndex PtrRep stgSp (StInt (toInteger (-uF_SIZE))))
in
- returnUs (\xs -> grabRet : grabSuB : grabSuA : updSpB : xs)
-
+ returnUs (\xs -> a1 : a3 : a4 : updSu : xs)
\end{code}
-The @SET_ARITY@ and @CHK_ARITY@ macros are disabled for ``normal''
-compilation.
-\begin{code}
- genmacro SET_ARITY args = returnUs id
- genmacro CHK_ARITY args = returnUs id
-\end{code}
+-----------------------------------------------------------------------------
+Setting the tag register
This one only applies if we have a machine register devoted to TagReg.
+
\begin{code}
- genmacro SET_TAG [tag] =
- let set_tag = StAssign IntRep stgTagReg (a2stix tag)
+macroCode SET_TAG [tag]
+ = let set_tag = StAssign IntRep stgTagReg (amodeToStix tag)
in
- case stg_reg TagReg of
- Always _ -> returnUs id
- Save _ -> returnUs (\ xs -> set_tag : xs)
+ case stgReg tagreg of
+ Always _ -> returnUs id
+ Save _ -> returnUs (\ xs -> set_tag : xs)
\end{code}
Do the business for a @HEAP_CHK@, having converted the args to Trees
of StixOp.
-\begin{code}
-
-doHeapCheck
- :: {- unused now: Target
- -> -}StixTree -- liveness
- -> StixTree -- words needed
- -> StixTree -- always reenter node? (boolean)
- -> UniqSM StixTreeList
-
-doHeapCheck {-target:unused now-} liveness words reenter =
- getUniqLabelNCG `thenUs` \ ulbl ->
- let newHp = StIndex PtrRep stgHp words
- assign = StAssign PtrRep stgHp newHp
- test = StPrim AddrLeOp [stgHp, stgHpLim]
- cjmp = StCondJump ulbl test
- arg = StPrim IntAddOp [StPrim IntMulOp [words, StInt 256], liveness]
- -- ToDo: Overflow? (JSM)
- gc = StCall SLIT("PerformGC_wrapper") VoidRep [arg]
- join = StLabel ulbl
- in
- returnUs (\xs -> assign : cjmp : gc : join : xs)
-
-\end{code}
-
+-----------------------------------------------------------------------------
Let's make sure that these CAFs are lifted out, shall we?
\begin{code}
-
-- Some common labels
-bh_info, caf_info, ind_info :: StixTree
+bh_info, ind_static_info, ind_info :: StixTree
-bh_info = sStLitLbl SLIT("BH_SINGLE_info")
-caf_info = sStLitLbl SLIT("Caf_info")
-ind_info = sStLitLbl SLIT("Ind_info")
+bh_info = sStLitLbl SLIT("BLACKHOLE_info")
+ind_static_info = sStLitLbl SLIT("IND_STATIC_info")
+ind_info = sStLitLbl SLIT("IND_info")
+upd_frame_info = sStLitLbl SLIT("Upd_frame_entry")
+end_tso_queue = sStLitLbl SLIT("END_TSO_QUEUE_closure")
-- Some common call trees
updatePAP, stackOverflow :: StixTree
-updatePAP = StJump (sStLitLbl SLIT("UpdatePAP"))
-stackOverflow = StCall SLIT("StackOverflow") VoidRep []
-
+updatePAP = StJump (sStLitLbl SLIT("stg_update_PAP"))
+stackOverflow = StCall SLIT("StackOverflow") cCallConv VoidRep []
\end{code}
-Storage manager nonsense. Note that the indices are dependent on
-the definition of the smInfo structure in SMinterface.lh
+-----------------------------------------------------------------------------
+Heap/Stack checks
\begin{code}
-
-#include "../../includes/platform.h"
-
-#if alpha_TARGET_ARCH
-#include "../../includes/alpha-dec-osf1.h"
-#else
-#if sunos4_TARGET_OS
-#include "../../includes/sparc-sun-sunos4.h"
-#else
-#include "../../includes/sparc-sun-solaris2.h"
-#endif
-#endif
-
-storageMgrInfo, smCAFlist, smOldMutables, smOldLim :: StixTree
-
-storageMgrInfo = sStLitLbl SLIT("StorageMgrInfo")
-smCAFlist = StInd PtrRep (StIndex PtrRep storageMgrInfo (StInt SM_CAFLIST))
-smOldMutables = StInd PtrRep (StIndex PtrRep storageMgrInfo (StInt SM_OLDMUTABLES))
-smOldLim = StInd PtrRep (StIndex PtrRep storageMgrInfo (StInt SM_OLDLIM))
-
-smStablePtrTable = StInd PtrRep
- (StIndex PtrRep storageMgrInfo (StInt SM_STABLEPOINTERTABLE))
+checkCode :: CCheckMacro -> [CAddrMode] -> StixTreeList -> UniqSM StixTreeList
+checkCode macro args assts
+ = getUniqLabelNCG `thenUs` \ ulbl_fail ->
+ getUniqLabelNCG `thenUs` \ ulbl_pass ->
+
+ let args_stix = map amodeToStix args
+ newHp wds = StIndex PtrRep stgHp wds
+ assign_hp wds = StAssign PtrRep stgHp (newHp wds)
+ test_hp = StPrim AddrLeOp [stgHp, stgHpLim]
+ cjmp_hp = StCondJump ulbl_pass test_hp
+
+ newSp wds = StIndex PtrRep stgSp (StPrim IntNegOp [wds])
+ test_sp_pass wds = StPrim AddrGeOp [newSp wds, stgSpLim]
+ test_sp_fail wds = StPrim AddrLtOp [newSp wds, stgSpLim]
+ cjmp_sp_pass wds = StCondJump ulbl_pass (test_sp_pass wds)
+ cjmp_sp_fail wds = StCondJump ulbl_fail (test_sp_fail wds)
+
+ assign_ret r ret = StAssign CodePtrRep r ret
+
+ fail = StLabel ulbl_fail
+ join = StLabel ulbl_pass
+ in
+
+ returnUs (
+ case macro of
+ HP_CHK_NP ->
+ let [words,ptrs] = args_stix
+ in (\xs -> assign_hp words : cjmp_hp :
+ assts (gc_enter ptrs : join : xs))
+
+ STK_CHK_NP ->
+ let [words,ptrs] = args_stix
+ in (\xs -> cjmp_sp_pass words :
+ assts (gc_enter ptrs : join : xs))
+
+ HP_STK_CHK_NP ->
+ let [sp_words,hp_words,ptrs] = args_stix
+ in (\xs -> cjmp_sp_fail sp_words :
+ assign_hp hp_words : cjmp_hp :
+ fail :
+ assts (gc_enter ptrs : join : xs))
+
+ HP_CHK ->
+ let [words,ret,r,ptrs] = args_stix
+ in (\xs -> assign_hp words : cjmp_hp :
+ assts (assign_ret r ret : gc_chk ptrs : join : xs))
+
+ STK_CHK ->
+ let [words,ret,r,ptrs] = args_stix
+ in (\xs -> cjmp_sp_pass words :
+ assts (assign_ret r ret : gc_chk ptrs : join : xs))
+
+ HP_STK_CHK ->
+ let [sp_words,hp_words,ret,r,ptrs] = args_stix
+ in (\xs -> cjmp_sp_fail sp_words :
+ assign_hp hp_words : cjmp_hp :
+ fail :
+ assts (assign_ret r ret : gc_chk ptrs : join : xs))
+
+ HP_CHK_NOREGS ->
+ let [words] = args_stix
+ in (\xs -> assign_hp words : cjmp_hp :
+ assts (gc_noregs : join : xs))
+
+ HP_CHK_UNPT_R1 ->
+ let [words] = args_stix
+ in (\xs -> assign_hp words : cjmp_hp :
+ assts (gc_unpt_r1 : join : xs))
+
+ HP_CHK_UNBX_R1 ->
+ let [words] = args_stix
+ in (\xs -> assign_hp words : cjmp_hp :
+ assts (gc_unbx_r1 : join : xs))
+
+ HP_CHK_F1 ->
+ let [words] = args_stix
+ in (\xs -> assign_hp words : cjmp_hp :
+ assts (gc_f1 : join : xs))
+
+ HP_CHK_D1 ->
+ let [words] = args_stix
+ in (\xs -> assign_hp words : cjmp_hp :
+ assts (gc_d1 : join : xs))
+
+ HP_CHK_UT_ALT ->
+ error "unimplemented check"
+
+ HP_CHK_GEN ->
+ error "unimplemented check"
+ )
+
+-- Various canned heap-check routines
+
+gc_chk (StInt n) = StJump (StLitLbl (ptext SLIT("stg_chk_") <> int (fromInteger n)))
+gc_enter (StInt n) = StJump (StLitLbl (ptext SLIT("stg_gc_enter_") <> int (fromInteger n)))
+gc_noregs = StJump (StLitLbl (ptext SLIT("stg_gc_noregs")))
+gc_unpt_r1 = StJump (StLitLbl (ptext SLIT("stg_gc_unpt_r1")))
+gc_unbx_r1 = StJump (StLitLbl (ptext SLIT("stg_gc_unbx_r1")))
+gc_f1 = StJump (StLitLbl (ptext SLIT("stg_gc_f1")))
+gc_d1 = StJump (StLitLbl (ptext SLIT("stg_gc_d1")))
\end{code}
projects / ghc-hetmet.git / blobdiff