#include "Trace.h"
#include "LdvProfile.h"
#include "Sanity.h"
+#include "Capability.h"
static void scavenge_stack (StgPtr p, StgPtr stack_end);
# define evacuate(a) evacuate1(a)
# define recordMutableGen_GC(a,b) recordMutableGen(a,b)
# define scavenge_loop(a) scavenge_loop1(a)
-# define scavenge_mutable_list(g) scavenge_mutable_list1(g)
+# define scavenge_mutable_list(bd,g) scavenge_mutable_list1(bd,g)
+# define scavenge_capability_mut_lists(cap) scavenge_capability_mut_Lists1(cap)
#endif
/* -----------------------------------------------------------------------------
return;
}
+ debugTrace(DEBUG_gc,"scavenging thread %d",(int)tso->id);
+
saved_eager = gct->eager_promotion;
gct->eager_promotion = rtsFalse;
break;
case CAF_BLACKHOLE:
- case SE_CAF_BLACKHOLE:
- case SE_BLACKHOLE:
case BLACKHOLE:
p += BLACKHOLE_sizeW();
break;
if (gct->failed_to_evac) {
gct->failed_to_evac = rtsFalse;
if (bd->gen_no > 0) {
- recordMutableGen_GC((StgClosure *)q, &generations[bd->gen_no]);
+ recordMutableGen_GC((StgClosure *)q, bd->gen_no);
}
}
}
info = get_itbl((StgClosure *)p);
q = p;
- switch (((volatile StgWord *)info)[1] & 0xffff) {
+ switch (info->type) {
case MVAR_CLEAN:
case MVAR_DIRTY:
}
case CAF_BLACKHOLE:
- case SE_CAF_BLACKHOLE:
- case SE_BLACKHOLE:
case BLACKHOLE:
case ARR_WORDS:
break;
if (gct->failed_to_evac) {
gct->failed_to_evac = rtsFalse;
if (gct->evac_step) {
- recordMutableGen_GC((StgClosure *)q, gct->evac_step->gen);
+ recordMutableGen_GC((StgClosure *)q, gct->evac_step->gen_no);
}
}
}
case CAF_BLACKHOLE:
- case SE_CAF_BLACKHOLE:
- case SE_BLACKHOLE:
case BLACKHOLE:
break;
-------------------------------------------------------------------------- */
void
-scavenge_mutable_list(generation *gen)
+scavenge_mutable_list(bdescr *bd, generation *gen)
{
- bdescr *bd;
StgPtr p, q;
- bd = gen->saved_mut_list;
-
gct->evac_step = &gen->steps[0];
for (; bd != NULL; bd = bd->link) {
for (q = bd->start; q < bd->free; q++) {
// definitely doesn't point into a young generation.
// Clean objects don't need to be scavenged. Some clean
// objects (MUT_VAR_CLEAN) are not kept on the mutable
- // list at all; others, such as MUT_ARR_PTRS_CLEAN and
- // TSO, are always on the mutable list.
+ // list at all; others, such as MUT_ARR_PTRS_CLEAN
+ // are always on the mutable list.
//
switch (get_itbl((StgClosure *)p)->type) {
case MUT_ARR_PTRS_CLEAN:
- recordMutableGen_GC((StgClosure *)p,gen);
+ recordMutableGen_GC((StgClosure *)p,gen->no);
continue;
case TSO: {
StgTSO *tso = (StgTSO *)p;
scavenge_TSO_link(tso);
if (gct->failed_to_evac) {
- recordMutableGen_GC((StgClosure *)p,gen);
+ recordMutableGen_GC((StgClosure *)p,gen->no);
gct->failed_to_evac = rtsFalse;
} else {
tso->flags &= ~TSO_LINK_DIRTY;
if (scavenge_one(p)) {
// didn't manage to promote everything, so put the
// object back on the list.
- recordMutableGen_GC((StgClosure *)p,gen);
+ recordMutableGen_GC((StgClosure *)p,gen->no);
}
}
}
+}
+
+void
+scavenge_capability_mut_lists (Capability *cap)
+{
+ nat g;
- // free the old mut_list
- freeChain_sync(gen->saved_mut_list);
- gen->saved_mut_list = NULL;
+ /* Mutable lists from each generation > N
+ * we want to *scavenge* these roots, not evacuate them: they're not
+ * going to move in this GC.
+ * Also do them in reverse generation order, for the usual reason:
+ * namely to reduce the likelihood of spurious old->new pointers.
+ */
+ for (g = RtsFlags.GcFlags.generations-1; g > N; g--) {
+ scavenge_mutable_list(cap->saved_mut_lists[g], &generations[g]);
+ freeChain_sync(cap->saved_mut_lists[g]);
+ cap->saved_mut_lists[g] = NULL;
+ }
}
/* -----------------------------------------------------------------------------
*/
if (gct->failed_to_evac) {
gct->failed_to_evac = rtsFalse;
- recordMutableGen_GC((StgClosure *)p,oldest_gen);
+ recordMutableGen_GC((StgClosure *)p,oldest_gen->no);
}
break;
}
// the indirection into an IND_PERM, so that evacuate will
// copy the indirection into the old generation instead of
// discarding it.
+ //
+ // Note [upd-black-hole]
+ // One slight hiccup is that the THUNK_SELECTOR machinery can
+ // overwrite the updatee with an IND. In parallel GC, this
+ // could even be happening concurrently, so we can't check for
+ // the IND. Fortunately if we assume that blackholing is
+ // happening (either lazy or eager), then we can be sure that
+ // the updatee is never a THUNK_SELECTOR and we're ok.
+ // NB. this is a new invariant: blackholing is not optional.
{
nat type;
const StgInfoTable *i;
+ StgClosure *updatee;
- i = ((StgUpdateFrame *)p)->updatee->header.info;
+ updatee = ((StgUpdateFrame *)p)->updatee;
+ i = updatee->header.info;
if (!IS_FORWARDING_PTR(i)) {
- type = get_itbl(((StgUpdateFrame *)p)->updatee)->type;
+ type = get_itbl(updatee)->type;
if (type == IND) {
- ((StgUpdateFrame *)p)->updatee->header.info =
- (StgInfoTable *)&stg_IND_PERM_info;
+ updatee->header.info = &stg_IND_PERM_info;
} else if (type == IND_OLDGEN) {
- ((StgUpdateFrame *)p)->updatee->header.info =
- (StgInfoTable *)&stg_IND_OLDGEN_PERM_info;
+ updatee->header.info = &stg_IND_OLDGEN_PERM_info;
}
- evacuate(&((StgUpdateFrame *)p)->updatee);
- p += sizeofW(StgUpdateFrame);
- continue;
}
+ evacuate(&((StgUpdateFrame *)p)->updatee);
+ ASSERT(GET_CLOSURE_TAG(((StgUpdateFrame *)p)->updatee) == 0);
+ p += sizeofW(StgUpdateFrame);
+ continue;
}
// small bitmap (< 32 entries, or 64 on a 64-bit machine)
p = bd->start;
if (scavenge_one(p)) {
if (ws->step->gen_no > 0) {
- recordMutableGen_GC((StgClosure *)p, ws->step->gen);
+ recordMutableGen_GC((StgClosure *)p, ws->step->gen_no);
}
}