Use a linked list for the timer queue.
Improves insertion and deletion times for many pending timers considerably.
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beef9c2567
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09a67149bc
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@ -4,6 +4,7 @@
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module eventcore.drivers.timer;
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import eventcore.driver;
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import eventcore.internal.dlist;
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final class LoopTimeoutTimerDriver : EventDriverTimers {
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@ -20,7 +21,7 @@ final class LoopTimeoutTimerDriver : EventDriverTimers {
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private {
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static FreeList!(Mallocator, TimerSlot.sizeof) ms_allocator;
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TimerSlot*[TimerID] m_timers;
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Array!(TimerSlot*) m_timerQueue;
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StackDList!TimerSlot m_timerQueue;
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TimerID m_lastTimerID;
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TimerSlot*[] m_firedTimers;
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}
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@ -34,7 +35,7 @@ final class LoopTimeoutTimerDriver : EventDriverTimers {
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final package Duration getNextTimeout(long stdtime)
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@safe nothrow {
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if (m_timerQueue.length == 0) return Duration.max;
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if (m_timerQueue.empty) return Duration.max;
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return (m_timerQueue.front.timeout - stdtime).hnsecs;
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}
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@ -45,30 +46,23 @@ final class LoopTimeoutTimerDriver : EventDriverTimers {
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TimerSlot ts = void;
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ts.timeout = stdtime+1;
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auto fired = m_timerQueue[].assumeSorted!((a, b) => a.timeout < b.timeout).lowerBound(&ts);
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foreach (tm; fired) {
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foreach (tm; m_timerQueue[]) {
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if (tm.timeout > stdtime) break;
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if (tm.repeatDuration > 0) {
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do tm.timeout += tm.repeatDuration;
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while (tm.timeout <= stdtime);
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auto tail = m_timerQueue[fired.length .. $].assumeSorted!((a, b) => a.timeout < b.timeout).upperBound(tm);
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try m_timerQueue.insertBefore(tail.release, tm);
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catch (Exception e) { assert(false, e.msg); }
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enqueueTimer(tm);
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} else tm.pending = false;
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m_firedTimers ~= tm;
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}
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// NOTE: this isn't yet verified to work under all circumstances
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auto elems = m_timerQueue[0 .. fired.length];
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{
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scope (failure) assert(false);
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m_timerQueue.linearRemove(elems);
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}
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foreach (tm; m_firedTimers)
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m_timerQueue.remove(tm);
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foreach (tm; m_firedTimers) {
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auto cb = tm.callback;
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tm.callback = null;
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if (cb) cb(tm.id);
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}
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@ -103,10 +97,7 @@ final class LoopTimeoutTimerDriver : EventDriverTimers {
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tm.timeout = Clock.currStdTime + timeout.total!"hnsecs";
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tm.repeatDuration = repeat.total!"hnsecs";
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tm.pending = true;
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auto largerRange = m_timerQueue[].assumeSorted!((a, b) => a.timeout < b.timeout).upperBound(tm);
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try m_timerQueue.insertBefore(largerRange.release, tm);
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catch (Exception e) { assert(false, e.msg); }
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enqueueTimer(tm);
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}
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final override void stop(TimerID timer)
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@ -114,20 +105,7 @@ final class LoopTimeoutTimerDriver : EventDriverTimers {
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auto tm = m_timers[timer];
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if (!tm.pending) return;
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tm.pending = false;
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TimerSlot cmp = void;
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cmp.timeout = tm.timeout-1;
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auto upper = m_timerQueue[].assumeSorted!((a, b) => a.timeout < b.timeout).upperBound(&cmp);
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assert(!upper.empty);
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while (!upper.empty) {
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assert(upper.front.timeout == tm.timeout);
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if (upper.front is tm) {
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scope (failure) assert(false);
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m_timerQueue.linearRemove(upper.release.take(1));
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break;
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}
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upper.popFront();
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}
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m_timerQueue.remove(tm);
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}
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final override bool isPending(TimerID descriptor)
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@ -189,9 +167,23 @@ final class LoopTimeoutTimerDriver : EventDriverTimers {
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if (descriptor == TimerID.init) return false;
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return m_timers[descriptor].refCount == 1;
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}
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private void enqueueTimer(TimerSlot* tm)
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nothrow {
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TimerSlot* ns;
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foreach_reverse (t; m_timerQueue[])
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if (t.timeout <= tm.timeout) {
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ns = t;
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break;
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}
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if (ns) m_timerQueue.insertAfter(tm, ns);
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else m_timerQueue.insertFront(tm);
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}
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}
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struct TimerSlot {
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TimerSlot* prev, next;
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TimerID id;
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uint refCount;
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bool pending;
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