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Bug 1088831 - Account for the storebuffer compaction time, r=jonco
--HG-- extra : rebase_source : f193ff3774353572c48814f8fd2669d91feb4745
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@ -326,6 +326,9 @@ static const PhaseInfo phases[] = {
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{ PHASE_COMPACT_UPDATE, "Compact Update", PHASE_COMPACT, },
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{ PHASE_COMPACT_UPDATE_GRAY, "Compact Update Gray", PHASE_COMPACT_UPDATE, },
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{ PHASE_GC_END, "End Callback", PHASE_NO_PARENT },
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{ PHASE_MINOR_GC, "Minor GC", PHASE_NO_PARENT },
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{ PHASE_COMPACT_STOREBUFFER_IN_MINOR_GC, "Compact Store Buffers", PHASE_MINOR_GC },
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{ PHASE_COMPACT_STOREBUFFER_NO_PARENT, "Compact Store Buffers (toplevel)", PHASE_NO_PARENT },
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{ PHASE_LIMIT, nullptr, PHASE_NO_PARENT }
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};
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@ -386,6 +389,7 @@ Statistics::formatData(StatisticsSerializer &ss, uint64_t timestamp)
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ss.appendNumber("Total Compartments", "%d", "", zoneStats.compartmentCount);
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ss.appendNumber("Minor GCs", "%d", "", counts[STAT_MINOR_GC]);
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ss.appendNumber("Store Buffer Compactions", "%d", "", counts[STAT_COMPACT_STOREBUFFER]);
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ss.appendNumber("Store Buffer Overflows", "%d", "", counts[STAT_STOREBUFFER_OVERFLOW]);
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ss.appendNumber("MMU (20ms)", "%d", "%", int(mmu20 * 100));
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ss.appendNumber("MMU (50ms)", "%d", "%", int(mmu50 * 100));
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ss.appendDecimal("SCC Sweep Total", "ms", t(sccTotal));
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@ -478,6 +482,7 @@ Statistics::formatDescription()
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Compartments Collected: %d of %d\n\
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MinorGCs since last GC: %d\n\
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Store Buffer Compactions: %d\n\
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Store Buffer Overflows: %d\n\
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MMU 20ms:%.1f%%; 50ms:%.1f%%\n\
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SCC Sweep Total (MaxPause): %.3fms (%.3fms)\n\
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HeapSize: %.3f MiB\n\
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@ -494,6 +499,7 @@ Statistics::formatDescription()
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zoneStats.collectedCompartmentCount, zoneStats.compartmentCount,
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counts[STAT_MINOR_GC],
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counts[STAT_COMPACT_STOREBUFFER],
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counts[STAT_STOREBUFFER_OVERFLOW],
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mmu20 * 100., mmu50 * 100.,
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t(sccTotal), t(sccLongest),
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double(preBytes) / 1024. / 1024.,
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@ -643,6 +649,8 @@ Statistics::Statistics(JSRuntime *rt)
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{
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PodArrayZero(phaseTotals);
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PodArrayZero(counts);
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PodArrayZero(phaseStartTimes);
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PodArrayZero(phaseTimes);
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char *env = getenv("MOZ_GCTIMER");
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if (!env || strcmp(env, "none") == 0) {
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@ -726,9 +734,6 @@ Statistics::printStats()
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void
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Statistics::beginGC(JSGCInvocationKind kind)
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{
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PodArrayZero(phaseStartTimes);
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PodArrayZero(phaseTimes);
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slices.clearAndFree();
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sccTimes.clearAndFree();
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gckind = kind;
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@ -770,6 +775,11 @@ Statistics::endGC()
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if (fp)
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printStats();
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// Clear the timers at the end of a GC because we accumulate time for some
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// phases (eg storebuffer compaction) during the mutator's run.
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PodArrayZero(phaseStartTimes);
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PodArrayZero(phaseTimes);
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}
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void
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@ -837,6 +847,9 @@ Statistics::beginPhase(Phase phase)
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Phase parent = phaseNestingDepth ? phaseNesting[phaseNestingDepth - 1] : PHASE_NO_PARENT;
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MOZ_ASSERT(phaseNestingDepth < MAX_NESTING);
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MOZ_ASSERT_IF(gcDepth == 1, phases[phase].parent == parent);
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MOZ_ASSERT_IF(phase == PHASE_COMPACT_STOREBUFFER_IN_MINOR_GC, parent == PHASE_MINOR_GC);
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MOZ_ASSERT_IF(phase == PHASE_COMPACT_STOREBUFFER_NO_PARENT, parent == PHASE_NO_PARENT);
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phaseNesting[phaseNestingDepth] = phase;
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phaseNestingDepth++;
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#endif
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@ -849,8 +862,10 @@ Statistics::endPhase(Phase phase)
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{
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phaseNestingDepth--;
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int64_t t = PRMJ_Now() - phaseStartTimes[phase];
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slices.back().phaseTimes[phase] += t;
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int64_t now = PRMJ_Now();
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int64_t t = now - phaseStartTimes[phase];
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if (!slices.empty())
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slices.back().phaseTimes[phase] += t;
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phaseTimes[phase] += t;
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phaseStartTimes[phase] = 0;
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}
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@ -70,6 +70,9 @@ enum Phase {
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PHASE_COMPACT_UPDATE,
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PHASE_COMPACT_UPDATE_GRAY,
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PHASE_GC_END,
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PHASE_MINOR_GC,
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PHASE_COMPACT_STOREBUFFER_IN_MINOR_GC,
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PHASE_COMPACT_STOREBUFFER_NO_PARENT,
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PHASE_LIMIT
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};
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@ -78,8 +81,14 @@ enum Stat {
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STAT_NEW_CHUNK,
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STAT_DESTROY_CHUNK,
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STAT_MINOR_GC,
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// Number of times the storebuffers were compacted
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STAT_COMPACT_STOREBUFFER,
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// Number of times a 'put' into a storebuffer overflowed, triggering a
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// compaction
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STAT_STOREBUFFER_OVERFLOW,
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STAT_LIMIT
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};
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@ -99,6 +99,8 @@ StoreBuffer::MonoTypeBuffer<T>::handleOverflow(StoreBuffer *owner)
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* Compact the buffer now, and if that fails to free enough space then
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* trigger a minor collection.
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*/
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gcstats::AutoPhase ap(owner->stats(), PHASE_COMPACT_STOREBUFFER_NO_PARENT);
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owner->stats().count(gcstats::STAT_STOREBUFFER_OVERFLOW);
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compact(owner);
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if (isLowOnSpace())
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owner->setAboutToOverflow();
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@ -107,8 +109,10 @@ StoreBuffer::MonoTypeBuffer<T>::handleOverflow(StoreBuffer *owner)
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* A minor GC has already been triggered, so there's no point
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* compacting unless the buffer is totally full.
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*/
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if (storage_->availableInCurrentChunk() < sizeof(T))
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maybeCompact(owner);
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if (storage_->availableInCurrentChunk() < sizeof(T)) {
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owner->stats().count(gcstats::STAT_STOREBUFFER_OVERFLOW);
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maybeCompact(owner, PHASE_COMPACT_STOREBUFFER_NO_PARENT);
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}
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}
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}
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@ -116,8 +120,6 @@ template <typename T>
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void
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StoreBuffer::MonoTypeBuffer<T>::compactRemoveDuplicates(StoreBuffer *owner)
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{
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Statistics& stats = owner->stats();
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typedef HashSet<T, typename T::Hasher, SystemAllocPolicy> DedupSet;
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DedupSet duplicates;
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@ -138,7 +140,7 @@ StoreBuffer::MonoTypeBuffer<T>::compactRemoveDuplicates(StoreBuffer *owner)
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storage_->release(insert.mark());
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duplicates.clear();
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stats.count(gcstats::STAT_COMPACT_STOREBUFFER);
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owner->stats().count(gcstats::STAT_COMPACT_STOREBUFFER);
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}
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template <typename T>
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@ -152,11 +154,13 @@ StoreBuffer::MonoTypeBuffer<T>::compact(StoreBuffer *owner)
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template <typename T>
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void
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StoreBuffer::MonoTypeBuffer<T>::maybeCompact(StoreBuffer *owner)
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StoreBuffer::MonoTypeBuffer<T>::maybeCompact(StoreBuffer *owner, gcstats::Phase phase)
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{
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MOZ_ASSERT(storage_);
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if (storage_->used() != usedAtLastCompact_)
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if (storage_->used() != usedAtLastCompact_) {
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gcstats::AutoPhase ap(owner->stats(), phase);
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compact(owner);
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}
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}
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template <typename T>
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@ -168,7 +172,8 @@ StoreBuffer::MonoTypeBuffer<T>::mark(StoreBuffer *owner, JSTracer *trc)
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if (!storage_)
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return;
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maybeCompact(owner);
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maybeCompact(owner, PHASE_COMPACT_STOREBUFFER_IN_MINOR_GC);
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for (LifoAlloc::Enum e(*storage_); !e.empty(); e.popFront<T>()) {
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T *edge = e.get<T>();
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edge->mark(trc);
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@ -144,7 +144,7 @@ class StoreBuffer
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virtual void compact(StoreBuffer *owner);
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/* Compacts if any entries have been added since the last compaction. */
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void maybeCompact(StoreBuffer *owner);
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void maybeCompact(StoreBuffer *owner, gcstats::Phase phase);
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/* Add one item to the buffer. */
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void put(StoreBuffer *owner, const T &t) {
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@ -503,7 +503,10 @@ js::gc::GCRuntime::endVerifyPostBarriers()
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if (!edges.init())
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goto oom;
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trc->edges = &edges;
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storeBuffer.markAll(trc);
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{
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gcstats::AutoPhase ap(stats, gcstats::PHASE_MINOR_GC);
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storeBuffer.markAll(trc);
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}
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/* Walk the heap to find any edges not the the |edges| set. */
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trc->setTraceCallback(PostVerifierVisitEdge);
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@ -6235,6 +6235,7 @@ void
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GCRuntime::minorGC(JS::gcreason::Reason reason)
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{
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#ifdef JSGC_GENERATIONAL
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gcstats::AutoPhase ap(stats, gcstats::PHASE_MINOR_GC);
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minorGCRequested = false;
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TraceLogger *logger = TraceLoggerForMainThread(rt);
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AutoTraceLog logMinorGC(logger, TraceLogger::MinorGC);
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@ -6249,6 +6250,7 @@ GCRuntime::minorGC(JSContext *cx, JS::gcreason::Reason reason)
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// Alternate to the runtime-taking form above which allows marking type
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// objects as needing pretenuring.
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#ifdef JSGC_GENERATIONAL
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gcstats::AutoPhase ap(stats, gcstats::PHASE_MINOR_GC);
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minorGCRequested = false;
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TraceLogger *logger = TraceLoggerForMainThread(rt);
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AutoTraceLog logMinorGC(logger, TraceLogger::MinorGC);
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