%
% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
-% $Id: CgHeapery.lhs,v 1.18 1999/06/24 13:04:19 simonmar Exp $
+% $Id: CgHeapery.lhs,v 1.24 2000/10/24 08:40:10 simonpj Exp $
%
\section[CgHeapery]{Heap management functions}
import CgMonad
import CgStackery ( getFinalStackHW, mkTaggedStkAmodes, mkTagAssts )
-import SMRep ( fixedHdrSize )
import AbsCUtils ( mkAbstractCs, getAmodeRep )
import CgUsages ( getVirtAndRealHp, getRealSp, setVirtHp, setRealHp,
initHeapUsage
)
import PrimRep ( PrimRep(..), isFollowableRep )
import Unique ( Unique )
-import CmdLineOpts ( opt_SccProfilingOn )
+import CmdLineOpts ( opt_SccProfilingOn, opt_GranMacros )
+import Constants ( bLOCK_SIZE_W )
import GlaExts
import Outputable
let stk_words = spHw - sp in
initHeapUsage (\ hp_words ->
+ let hHw = if hp_words > bLOCK_SIZE_W then hpChkTooBig else hp_words in
+
+ getTickyCtrLabel `thenFC` \ ticky_ctr ->
+
( if all_pointers then -- heap checks are quite easy
- absC (checking_code stk_words hp_words tag_assts
- free_reg (length regs))
+ -- HWL: gran-yield immediately before heap check proper
+ --(if node `elem` regs
+ -- then yield regs True
+ -- else absC AbsCNop ) `thenC`
+ absC (checking_code stk_words hHw tag_assts
+ free_reg (length regs) ticky_ctr)
else -- they are complicated
let adjust_sp = CAssign (CReg Sp) (CAddr (spRel sp new_sp)) in
- absC (checking_code real_stk_words hp_words
+ absC (checking_code real_stk_words hHw
(mkAbstractCs [tag_assts, stk_assts, more_tag_assts,
adjust_sp])
- (CReg node) 0)
+ (CReg node) 0 ticky_ctr)
) `thenC`
where
- checking_code stk hp assts ret regs
- | node_points = do_checks_np stk hp assts (regs+1) -- ret not required
- | otherwise = do_checks stk hp assts ret regs
+ checking_code stk hp assts ret regs ctr
+ = mkAbstractCs
+ [ real_check,
+ if hp == 0 then AbsCNop
+ else profCtrAbsC SLIT("TICK_ALLOC_HEAP")
+ [ mkIntCLit hp, CLbl ctr DataPtrRep ]
+ ]
+
+ where real_check
+ | node_points = do_checks_np stk hp assts (regs+1)
+ | otherwise = do_checks stk hp assts ret regs
-- When node points to the closure for the function:
tag_assts
free_reg = case length regs + 1 of
- IBOX(x) -> CReg (VanillaReg PtrRep x)
+ I# x -> CReg (VanillaReg PtrRep x)
all_pointers = all pointer regs
pointer (VanillaReg rep _) = isFollowableRep rep
= mkTagAssts tags `thenFC` \tag_assts1 ->
let tag_assts = mkAbstractCs [fail_code, tag_assts1]
in
- initHeapUsage (\ hHw -> do_heap_chk hHw tag_assts `thenC` code)
+ initHeapUsage (\ hHw ->
+ do_heap_chk (if hHw > bLOCK_SIZE_W then hpChkTooBig else hHw) tag_assts
+ `thenC` code)
where
do_heap_chk words_required tag_assts
- = absC (if words_required == 0
- then AbsCNop
- else checking_code tag_assts) `thenC`
+ = getTickyCtrLabel `thenFC` \ ctr ->
+ absC ( if words_required == 0
+ then AbsCNop
+ else mkAbstractCs
+ [ checking_code tag_assts,
+ profCtrAbsC SLIT("TICK_ALLOC_HEAP")
+ [ mkIntCLit words_required, CLbl ctr DataPtrRep ]
+ ]
+ ) `thenC`
setRealHp words_required
where
tag_assts
-}
-- this will cover all cases for x86
- [VanillaReg rep ILIT(1)]
+ [VanillaReg rep 1#]
| isFollowableRep rep ->
CCheck HP_CHK_UT_ALT
[mkIntCLit words_required, mkIntCLit 1, mkIntCLit 0,
- CReg (VanillaReg RetRep ILIT(2)),
+ CReg (VanillaReg RetRep 2#),
CLbl (mkReturnInfoLabel ret_addr) RetRep]
tag_assts
| otherwise ->
CCheck HP_CHK_UT_ALT
[mkIntCLit words_required, mkIntCLit 0, mkIntCLit 1,
- CReg (VanillaReg RetRep ILIT(2)),
+ CReg (VanillaReg RetRep 2#),
CLbl (mkReturnInfoLabel ret_addr) RetRep]
tag_assts
in
CCheck HP_CHK_GEN
[mkIntCLit words_required,
- mkIntCLit (IBOX(word2Int# liveness)),
+ mkIntCLit (I# (word2Int# liveness)),
-- HP_CHK_GEN needs a direct return address,
-- not an info table (might be different if
-- we're not assembly-mangling/tail-jumping etc.)
-- normal algebraic and primitive case alternatives:
altHeapCheck is_fun regs [] AbsCNop Nothing code
- = initHeapUsage (\ hHw -> do_heap_chk hHw `thenC` code)
+ = initHeapUsage (\ hHw ->
+ do_heap_chk (if hHw > bLOCK_SIZE_W then hpChkTooBig else hHw)
+ `thenC` code)
+
where
do_heap_chk :: HeapOffset -> Code
do_heap_chk words_required
- = absC (if words_required == 0
- then AbsCNop
- else checking_code) `thenC`
+ = getTickyCtrLabel `thenFC` \ ctr ->
+ absC ( if words_required == 0
+ then AbsCNop
+ else mkAbstractCs
+ [ checking_code,
+ profCtrAbsC SLIT("TICK_ALLOC_HEAP")
+ [ mkIntCLit words_required, CLbl ctr DataPtrRep ]
+ ]
+ ) `thenC`
setRealHp words_required
where
-- We need this case because the closure in Node won't return
-- directly when we enter it (it could be a function), so the
-- heap check code needs to push a seq frame on top of the stack.
- [VanillaReg rep ILIT(1)]
+ [VanillaReg rep 1#]
| rep == PtrRep
&& is_fun ->
CCheck HP_CHK_SEQ_NP
AbsCNop
-- R1 is lifted (the common case)
- [VanillaReg rep ILIT(1)]
+ [VanillaReg rep 1#]
| rep == PtrRep ->
CCheck HP_CHK_NP
[mkIntCLit words_required, mkIntCLit 1{-regs live-}]
CCheck HP_CHK_UNBX_R1 [mkIntCLit words_required] AbsCNop
-- FloatReg1
- [FloatReg ILIT(1)] ->
+ [FloatReg 1#] ->
CCheck HP_CHK_F1 [mkIntCLit words_required] AbsCNop
-- DblReg1
- [DoubleReg ILIT(1)] ->
+ [DoubleReg 1#] ->
CCheck HP_CHK_D1 [mkIntCLit words_required] AbsCNop
-- LngReg1
- [LongReg _ ILIT(1)] ->
+ [LongReg _ 1#] ->
CCheck HP_CHK_L1 [mkIntCLit words_required] AbsCNop
#ifdef DEBUG
= ((int2Word# 1#) `shiftL#` (i -# 1#)) `or#` mkRegLiveness regs
mkRegLiveness (_ : regs) = mkRegLiveness regs
+-- The two functions below are only used in a GranSim setup
-- Emit macro for simulating a fetch and then reschedule
fetchAndReschedule :: [MagicId] -- Live registers
-> Bool -- Node reqd?
-> Code
-fetchAndReschedule regs node_reqd =
+fetchAndReschedule regs node_reqd =
if (node `elem` regs || node_reqd)
then fetch_code `thenC` reschedule_code
else absC AbsCNop
where
- all_regs = if node_reqd then node:regs else regs
- liveness_mask = 0 {-XXX: mkLiveRegsMask all_regs-}
-
+ liveness_mask = mkRegLiveness regs
reschedule_code = absC (CMacroStmt GRAN_RESCHEDULE [
- mkIntCLit liveness_mask,
+ mkIntCLit (I# (word2Int# liveness_mask)),
mkIntCLit (if node_reqd then 1 else 0)])
--HWL: generate GRAN_FETCH macro for GrAnSim
-> Bool -- Node reqd?
-> Code
-yield regs node_reqd =
- -- NB: node is not alive; that's why we use DO_YIELD rather than
- -- GRAN_RESCHEDULE
- yield_code
- where
- all_regs = if node_reqd then node:regs else regs
- liveness_mask = 0 {-XXX: mkLiveRegsMask all_regs-}
+yield regs node_reqd =
+ if opt_GranMacros && node_reqd
+ then yield_code
+ else absC AbsCNop
+ where
+ liveness_mask = mkRegLiveness regs
+ yield_code =
+ absC (CMacroStmt GRAN_YIELD
+ [mkIntCLit (I# (word2Int# liveness_mask))])
+\end{code}
- yield_code = absC (CMacroStmt GRAN_YIELD [mkIntCLit liveness_mask])
+\begin{code}
+hpChkTooBig = panic "Oversize heap check detected. Please try compiling with -O."
\end{code}
%************************************************************************