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Backed out changesets b03bd1170d1c, 419615a1195d, a1b699b80442, and 524c573fd8a6 (bug 937960) for Win7 debug xpcshell orange.
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@ -121,15 +121,6 @@ static PRLogModuleInfo* gJSDiagnostics;
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#define NS_CC_SKIPPABLE_DELAY 400 // ms
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// Maximum amount of time that should elapse between incremental CC slices
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static const int64_t kICCIntersliceDelay = 32; // ms
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// Time budget for an incremental CC slice
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static const int64_t kICCSliceBudget = 10; // ms
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// Maximum total duration for an ICC
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static const uint32_t kMaxICCDuration = 2000; // ms
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// Force a CC after this long if there's more than NS_CC_FORCED_PURPLE_LIMIT
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// objects in the purple buffer.
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#define NS_CC_FORCED (2 * 60 * PR_USEC_PER_SEC) // 2 min
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@ -153,7 +144,6 @@ static const uint32_t kMaxICCDuration = 2000; // ms
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static nsITimer *sGCTimer;
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static nsITimer *sShrinkGCBuffersTimer;
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static nsITimer *sCCTimer;
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static nsITimer *sICCTimer;
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static nsITimer *sFullGCTimer;
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static nsITimer *sInterSliceGCTimer;
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@ -190,7 +180,6 @@ static uint32_t sCleanupsSinceLastGC = UINT32_MAX;
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static bool sNeedsFullCC = false;
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static bool sNeedsGCAfterCC = false;
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static nsJSContext *sContextList = nullptr;
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static bool sIncrementalCC = false;
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static nsScriptNameSpaceManager *gNameSpaceManager;
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@ -233,7 +222,6 @@ KillTimers()
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nsJSContext::KillGCTimer();
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nsJSContext::KillShrinkGCBuffersTimer();
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nsJSContext::KillCCTimer();
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nsJSContext::KillICCTimer();
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nsJSContext::KillFullGCTimer();
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nsJSContext::KillInterSliceGCTimer();
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}
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@ -2025,22 +2013,6 @@ struct CycleCollectorStats
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CycleCollectorStats gCCStats;
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static int64_t
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ICCSliceTime()
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{
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// If CC is not incremental, use an unlimited budget.
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if (!sIncrementalCC) {
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return -1;
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}
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// If an ICC is in progress and is taking too long, finish it off.
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if (gCCStats.mBeginTime != 0 &&
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TimeBetween(gCCStats.mBeginTime, PR_Now()) >= kMaxICCDuration) {
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return -1;
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}
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return kICCSliceBudget;
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}
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static void
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PrepareForCycleCollection(int32_t aExtraForgetSkippableCalls = 0)
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@ -2098,42 +2070,15 @@ nsJSContext::CycleCollectNow(nsICycleCollectorListener *aListener,
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//static
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void
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nsJSContext::ScheduledCycleCollectNow(int64_t aSliceTime)
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nsJSContext::ScheduledCycleCollectNow()
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{
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if (!NS_IsMainThread()) {
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return;
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}
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PROFILER_LABEL("CC", "ScheduledCycleCollectNow");
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// Ideally, the slice time would be decreased by the amount of
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// time spent on PrepareForCycleCollection().
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PrepareForCycleCollection();
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nsCycleCollector_scheduledCollect(aSliceTime);
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}
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static void
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ICCTimerFired(nsITimer* aTimer, void* aClosure)
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{
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if (sDidShutdown) {
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return;
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}
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// Ignore ICC timer fires during IGC. Running ICC during an IGC will cause us
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// to synchronously finish the GC, which is bad.
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if (sCCLockedOut) {
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PRTime now = PR_Now();
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if (sCCLockedOutTime == 0) {
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sCCLockedOutTime = now;
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return;
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}
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if (now - sCCLockedOutTime < NS_MAX_CC_LOCKEDOUT_TIME) {
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return;
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}
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}
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nsJSContext::ScheduledCycleCollectNow(ICCSliceTime());
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nsCycleCollector_scheduledCollect();
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}
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//static
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@ -2146,20 +2091,6 @@ nsJSContext::BeginCycleCollectionCallback()
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gCCStats.mSuspected = nsCycleCollector_suspectedCount();
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KillCCTimer();
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MOZ_ASSERT(!sICCTimer, "Tried to create a new ICC timer when one already existed.");
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if (!sIncrementalCC) {
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return;
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}
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CallCreateInstance("@mozilla.org/timer;1", &sICCTimer);
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if (sICCTimer) {
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sICCTimer->InitWithFuncCallback(ICCTimerFired,
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nullptr,
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kICCIntersliceDelay,
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nsITimer::TYPE_REPEATING_SLACK);
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}
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}
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//static
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@ -2168,8 +2099,6 @@ nsJSContext::EndCycleCollectionCallback(CycleCollectorResults &aResults)
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{
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MOZ_ASSERT(NS_IsMainThread());
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nsJSContext::KillICCTimer();
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sCCollectedWaitingForGC += aResults.mFreedRefCounted + aResults.mFreedGCed;
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// If we collected a substantial amount of cycles, poke the GC since more objects
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@ -2337,17 +2266,6 @@ ShouldTriggerCC(uint32_t aSuspected)
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sLastCCEndTime + NS_CC_FORCED < PR_Now());
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}
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static uint32_t
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TimeToNextCC()
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{
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if (sIncrementalCC) {
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return NS_CC_DELAY - kMaxICCDuration;
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}
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return NS_CC_DELAY;
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}
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static_assert(NS_CC_DELAY > kMaxICCDuration, "ICC shouldn't reduce CC delay to 0");
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static void
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CCTimerFired(nsITimer *aTimer, void *aClosure)
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{
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@ -2357,7 +2275,7 @@ CCTimerFired(nsITimer *aTimer, void *aClosure)
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static uint32_t ccDelay = NS_CC_DELAY;
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if (sCCLockedOut) {
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ccDelay = TimeToNextCC() / 3;
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ccDelay = NS_CC_DELAY / 3;
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PRTime now = PR_Now();
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if (sCCLockedOutTime == 0) {
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@ -2379,8 +2297,8 @@ CCTimerFired(nsITimer *aTimer, void *aClosure)
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// During early timer fires, we only run forgetSkippable. During the first
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// late timer fire, we decide if we are going to have a second and final
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// late timer fire, where we may begin to run the CC.
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uint32_t numEarlyTimerFires = ccDelay / NS_CC_SKIPPABLE_DELAY - 2;
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// late timer fire, where we may run the CC.
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const uint32_t numEarlyTimerFires = ccDelay / NS_CC_SKIPPABLE_DELAY - 2;
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bool isLateTimerFire = sCCTimerFireCount > numEarlyTimerFires;
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uint32_t suspected = nsCycleCollector_suspectedCount();
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if (isLateTimerFire && ShouldTriggerCC(suspected)) {
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@ -2395,7 +2313,7 @@ CCTimerFired(nsITimer *aTimer, void *aClosure)
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// We are in the final timer fire and still meet the conditions for
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// triggering a CC. Let CycleCollectNow finish the current IGC, if any,
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// because that will allow us to include the GC time in the CC pause.
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nsJSContext::ScheduledCycleCollectNow(ICCSliceTime());
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nsJSContext::ScheduledCycleCollectNow();
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}
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} else if ((sPreviousSuspectedCount + 100) <= suspected) {
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// Only do a forget skippable if there are more than a few new objects.
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@ -2403,7 +2321,7 @@ CCTimerFired(nsITimer *aTimer, void *aClosure)
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}
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if (isLateTimerFire) {
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ccDelay = TimeToNextCC();
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ccDelay = NS_CC_DELAY;
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// We have either just run the CC or decided we don't want to run the CC
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// next time, so kill the timer.
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@ -2507,7 +2425,7 @@ nsJSContext::PokeShrinkGCBuffers()
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void
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nsJSContext::MaybePokeCC()
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{
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if (sCCTimer || sICCTimer || sShuttingDown || !sHasRunGC) {
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if (sCCTimer || sShuttingDown || !sHasRunGC) {
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return;
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}
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@ -2579,19 +2497,6 @@ nsJSContext::KillCCTimer()
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}
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}
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//static
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void
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nsJSContext::KillICCTimer()
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{
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sCCLockedOutTime = 0;
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if (sICCTimer) {
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sICCTimer->Cancel();
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NS_RELEASE(sICCTimer);
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}
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}
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void
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nsJSContext::GC(JS::gcreason::Reason aReason)
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{
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@ -2753,7 +2658,7 @@ void
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mozilla::dom::StartupJSEnvironment()
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{
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// initialize all our statics, so that we can restart XPCOM
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sGCTimer = sFullGCTimer = sCCTimer = sICCTimer = nullptr;
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sGCTimer = sFullGCTimer = sCCTimer = nullptr;
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sCCLockedOut = false;
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sCCLockedOutTime = 0;
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sLastCCEndTime = 0;
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@ -2849,13 +2754,6 @@ SetMemoryGCDynamicMarkSlicePrefChangedCallback(const char* aPrefName, void* aClo
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JS_SetGCParameter(sRuntime, JSGC_DYNAMIC_MARK_SLICE, pref);
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}
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static void
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SetIncrementalCCPrefChangedCallback(const char* aPrefName, void* aClosure)
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{
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bool pref = Preferences::GetBool(aPrefName);
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sIncrementalCC = pref;
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}
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JSObject*
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NS_DOMReadStructuredClone(JSContext* cx,
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JSStructuredCloneReader* reader,
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@ -3062,9 +2960,6 @@ nsJSContext::EnsureStatics()
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"javascript.options.mem.gc_decommit_threshold_mb",
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(void *)JSGC_DECOMMIT_THRESHOLD);
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Preferences::RegisterCallbackAndCall(SetIncrementalCCPrefChangedCallback,
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"dom.cycle_collector.incremental");
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nsCOMPtr<nsIObserverService> obs = mozilla::services::GetObserverService();
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if (!obs) {
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MOZ_CRASH();
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IsShrinking aShrinking = NonShrinkingGC,
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int64_t aSliceMillis = 0);
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static void ShrinkGCBuffersNow();
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// If aExtraForgetSkippableCalls is -1, forgetSkippable won't be
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// called even if the previous collection was GC.
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static void CycleCollectNow(nsICycleCollectorListener *aListener = nullptr,
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int32_t aExtraForgetSkippableCalls = 0);
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// If aSliceTime is negative, the CC will run to completion. If aSliceTime
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// is 0, only a minimum quantum of work will be done. Otherwise, aSliceTime
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// will be used as the time budget for the slice, in ms.
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static void ScheduledCycleCollectNow(int64_t aSliceTime);
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static void ScheduledCycleCollectNow();
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static void BeginCycleCollectionCallback();
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static void EndCycleCollectionCallback(mozilla::CycleCollectorResults &aResults);
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@ -123,7 +117,6 @@ public:
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static void MaybePokeCC();
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static void KillCCTimer();
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static void KillICCTimer();
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static void KillFullGCTimer();
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static void KillInterSliceGCTimer();
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@ -713,8 +713,6 @@ pref("dom.sysmsg.enabled", false);
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// Enable pre-installed applications.
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pref("dom.webapps.useCurrentProfile", false);
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pref("dom.cycle_collector.incremental", false);
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// Parsing perf prefs. For now just mimic what the old code did.
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#ifndef XP_WIN
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pref("content.sink.pending_event_mode", 0);
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// don't want to abandon the current CC, because the graph contains
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// information about purple roots. So we synchronously finish off
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// the current CC.
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void
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nsCycleCollector::PrepareForGarbageCollection()
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void nsCycleCollector::PrepareForGarbageCollection()
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{
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if (mIncrementalPhase == IdlePhase) {
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MOZ_ASSERT(mGraph.IsEmpty(), "Non-empty graph when idle");
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@ -3552,7 +3551,7 @@ nsCycleCollector_collect(nsICycleCollectorListener *aManualListener)
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}
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void
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nsCycleCollector_scheduledCollect(int64_t aSliceTime)
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nsCycleCollector_scheduledCollect()
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{
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CollectorData *data = sCollectorData.get();
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@ -3561,13 +3560,8 @@ nsCycleCollector_scheduledCollect(int64_t aSliceTime)
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MOZ_ASSERT(data->mCollector);
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PROFILER_LABEL("CC", "nsCycleCollector_scheduledCollect");
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SliceBudget budget;
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if (aSliceTime > 0) {
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budget = SliceBudget::TimeBudget(aSliceTime);
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} else if (aSliceTime == 0) {
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budget = SliceBudget::WorkBudget(1);
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}
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data->mCollector->Collect(ScheduledCC, budget, nullptr);
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SliceBudget unlimitedBudget;
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data->mCollector->Collect(ScheduledCC, unlimitedBudget, nullptr);
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}
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void
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bool nsCycleCollector_doDeferredDeletion();
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void nsCycleCollector_collect(nsICycleCollectorListener *aManualListener);
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// If aSliceTime is negative, the CC will run to completion. If aSliceTime
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// is 0, only a minimum quantum of work will be done. Otherwise, aSliceTime
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// will be used as the time budget for the slice, in ms.
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void nsCycleCollector_scheduledCollect(int64_t aSliceTime);
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void nsCycleCollector_scheduledCollect();
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uint32_t nsCycleCollector_suspectedCount();
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void nsCycleCollector_shutdown();
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