#ifndef UPDATES_H
#define UPDATES_H
-/* -----------------------------------------------------------------------------
- Updates
-
- We have two layers of update macros. The top layer, UPD_IND() and
- friends perform all the work of an update. In detail:
-
- - if the closure being updated is a blocking queue, then all the
- threads waiting on the blocking queue are updated.
-
- - then the lower level updateWithIndirection() macro is invoked
- to actually replace the closure with an indirection (see below).
-
- -------------------------------------------------------------------------- */
-
-# define SEMI ;
-# define UPD_IND(updclosure, heapptr) \
- UPD_REAL_IND(updclosure,INFO_PTR(stg_IND_info),heapptr,SEMI)
-# define UPD_SPEC_IND(updclosure, ind_info, heapptr, and_then) \
- UPD_REAL_IND(updclosure,ind_info,heapptr,and_then)
-
-/* These macros have to work in both C and C--, so here's the
- * impedance matching:
- */
-#ifdef CMINUSMINUS
-#define BLOCK_BEGIN
-#define BLOCK_END
-#define INFO_PTR(info) info
-#else
-#define BLOCK_BEGIN {
-#define BLOCK_END }
-#define INFO_PTR(info) &info
-#define StgBlockingQueue_blocking_queue(closure) \
- (((StgBlockingQueue *)closure)->blocking_queue)
+#ifndef CMINUSMINUS
+BEGIN_RTS_PRIVATE
#endif
-/* krc: there used to be an UPD_REAL_IND and an
- UPD_PERM_IND, the latter of which was used for
- ticky and cost-centre profiling.
- for now, we just have UPD_REAL_IND. */
-#define UPD_REAL_IND(updclosure, ind_info, heapptr, and_then) \
- BLOCK_BEGIN \
- updateWithIndirection(ind_info, \
- updclosure, \
- heapptr, \
- and_then); \
- BLOCK_END
-
-/* -----------------------------------------------------------------------------
- Awaken any threads waiting on a blocking queue (BLACKHOLE_BQ).
- -------------------------------------------------------------------------- */
-
-#if defined(PAR)
-
-/*
- In a parallel setup several types of closures might have a blocking queue:
- BLACKHOLE_BQ ... same as in the default concurrent setup; it will be
- reawakened via calling UPD_IND on that closure after
- having finished the computation of the graph
- FETCH_ME_BQ ... a global indirection (FETCH_ME) may be entered by a
- local TSO, turning it into a FETCH_ME_BQ; it will be
- reawakened via calling processResume
- RBH ... a revertible black hole may be entered by another
- local TSO, putting it onto its blocking queue; since
- RBHs only exist while the corresponding closure is in
- transit, they will be reawakened via calling
- convertToFetchMe (upon processing an ACK message)
-
- In a parallel setup a blocking queue may contain 3 types of closures:
- TSO ... as in the default concurrent setup
- BLOCKED_FETCH ... indicating that a TSO on another PE is waiting for
- the result of the current computation
- CONSTR ... an RBHSave closure (which contains data ripped out of
- the closure to make room for a blocking queue; since
- it only contains data we use the exisiting type of
- a CONSTR closure); this closure is the end of a
- blocking queue for an RBH closure; it only exists in
- this kind of blocking queue and must be at the end
- of the queue
-*/
-extern void awakenBlockedQueue(StgBlockingQueueElement *q, StgClosure *node);
-#define DO_AWAKEN_BQ(bqe, node) STGCALL2(awakenBlockedQueue, bqe, node);
-
-#define AWAKEN_BQ(info,closure) \
- if (info == &stg_BLACKHOLE_BQ_info || \
- info == &stg_FETCH_ME_BQ_info || \
- get_itbl(closure)->type == RBH) { \
- DO_AWAKEN_BQ(((StgBlockingQueue *)closure)->blocking_queue, closure); \
- }
-
-#elif defined(GRAN)
-
-extern void awakenBlockedQueue(StgBlockingQueueElement *q, StgClosure *node);
-#define DO_AWAKEN_BQ(bq, node) STGCALL2(awakenBlockedQueue, bq, node);
-
-/* In GranSim we don't have FETCH_ME or FETCH_ME_BQ closures, so they are
- not checked. The rest of the code is the same as for GUM.
-*/
-#define AWAKEN_BQ(info,closure) \
- if (info == &stg_BLACKHOLE_BQ_info || \
- get_itbl(closure)->type == RBH) { \
- DO_AWAKEN_BQ(((StgBlockingQueue *)closure)->blocking_queue, closure); \
- }
-
-#endif /* GRAN || PAR */
-
-
/* -----------------------------------------------------------------------------
- Updates: lower-level macros which update a closure with an
- indirection to another closure.
-
- There are several variants of this code.
-
- PROFILING:
+ Updates
-------------------------------------------------------------------------- */
/* LDV profiling:
* which p1 resides.
*
* Note:
- * After all, we do *NOT* need to call LDV_RECORD_CREATE() for both IND and
- * IND_OLDGEN closures because they are inherently used. But, it corrupts
+ * After all, we do *NOT* need to call LDV_RECORD_CREATE() for IND
+ * closures because they are inherently used. But, it corrupts
* the invariants that every closure keeps its creation time in the profiling
* field. So, we call LDV_RECORD_CREATE().
*/
W_ sz; \
W_ i; \
inf = %GET_STD_INFO(p); \
- if (%INFO_TYPE(inf) != HALF_W_(BLACKHOLE) \
- && %INFO_TYPE(inf) != HALF_W_(CAF_BLACKHOLE)) { \
+ if (%INFO_TYPE(inf) != HALF_W_(BLACKHOLE)) { \
if (%INFO_TYPE(inf) == HALF_W_(THUNK_SELECTOR)) { \
sz = BYTES_TO_WDS(SIZEOF_StgSelector_NoThunkHdr); \
} else { \
switch (inf->type) {
case BLACKHOLE:
- case CAF_BLACKHOLE:
goto no_slop;
// we already filled in the slop when we overwrote the thunk
// with BLACKHOLE, and also an evacuated BLACKHOLE is only the
* invert the optimisation. Grrrr --SDM).
*/
#ifdef CMINUSMINUS
-#define generation(n) (W_[generations] + n*SIZEOF_generation)
-#define updateWithIndirection(ind_info, p1, p2, and_then) \
+
+#define updateWithIndirection(p1, p2, and_then) \
W_ bd; \
\
DEBUG_FILL_SLOP(p1); \
LDV_RECORD_DEAD_FILL_SLOP_DYNAMIC(p1); \
StgInd_indirectee(p1) = p2; \
prim %write_barrier() []; \
+ SET_INFO(p1, stg_BLACKHOLE_info); \
+ LDV_RECORD_CREATE(p1); \
bd = Bdescr(p1); \
- if (bdescr_gen_no(bd) != 0 :: CInt) { \
+ if (bdescr_gen_no(bd) != 0 :: bits16) { \
recordMutableCap(p1, TO_W_(bdescr_gen_no(bd)), R1); \
- SET_INFO(p1, stg_IND_OLDGEN_info); \
- LDV_RECORD_CREATE(p1); \
- TICK_UPD_OLD_IND(); \
- and_then; \
- } else { \
- SET_INFO(p1, ind_info); \
- LDV_RECORD_CREATE(p1); \
- TICK_UPD_NEW_IND(); \
- and_then; \
- }
-#else
-#define updateWithIndirection(ind_info, p1, p2, and_then) \
- { \
- bdescr *bd; \
- \
- ASSERT( (P_)p1 != (P_)p2 ); \
- /* not necessarily true: ASSERT( !closure_IND(p1) ); */ \
- /* occurs in RaiseAsync.c:raiseAsync() */ \
- DEBUG_FILL_SLOP(p1); \
- LDV_RECORD_DEAD_FILL_SLOP_DYNAMIC(p1); \
- ((StgInd *)p1)->indirectee = p2; \
- write_barrier(); \
- bd = Bdescr((P_)p1); \
- if (bd->gen_no != 0) { \
- recordMutableGenLock(p1, &generations[bd->gen_no]); \
- SET_INFO(p1, &stg_IND_OLDGEN_info); \
TICK_UPD_OLD_IND(); \
and_then; \
} else { \
- SET_INFO(p1, ind_info); \
- LDV_RECORD_CREATE(p1); \
TICK_UPD_NEW_IND(); \
and_then; \
- } \
}
+
+#else /* !CMINUSMINUS */
+
+INLINE_HEADER void updateWithIndirection (Capability *cap,
+ StgClosure *p1,
+ StgClosure *p2)
+{
+ bdescr *bd;
+
+ ASSERT( (P_)p1 != (P_)p2 );
+ /* not necessarily true: ASSERT( !closure_IND(p1) ); */
+ /* occurs in RaiseAsync.c:raiseAsync() */
+ DEBUG_FILL_SLOP(p1);
+ LDV_RECORD_DEAD_FILL_SLOP_DYNAMIC(p1);
+ ((StgInd *)p1)->indirectee = p2;
+ write_barrier();
+ SET_INFO(p1, &stg_BLACKHOLE_info);
+ LDV_RECORD_CREATE(p1);
+ bd = Bdescr((StgPtr)p1);
+ if (bd->gen_no != 0) {
+ recordMutableCap(p1, cap, bd->gen_no);
+ TICK_UPD_OLD_IND();
+ } else {
+ TICK_UPD_NEW_IND();
+ }
+}
+
#endif /* CMINUSMINUS */
+
+#ifndef CMINUSMINUS
+END_RTS_PRIVATE
+#endif
+
#endif /* UPDATES_H */