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272 lines
7.2 KiB
272 lines
7.2 KiB
/*++
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Copyright (c) 1998 Microsoft Corporation
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Module Name:
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etimer.cpp
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Abstract:
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SIS Groveler event timer
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Authors:
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John Douceur, 1998
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Environment:
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User Mode
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Revision History:
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--*/
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#include "all.hxx"
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#define NEW_HeapSegment(segment_size) \
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((HeapSegment *)(new BYTE[sizeof(HeapSegment) + \
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((segment_size) - 1) * sizeof(Event)]))
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#define DELETE_HeapSegment(heap_segment) delete[] ((BYTE *)(heap_segment))
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EventTimer::EventTimer()
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{
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ASSERT(this != 0);
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first_segment = NEW_HeapSegment(1);
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first_segment->previous = 0;
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first_segment->next = 0;
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last_segment = first_segment;
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population = 0;
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segment_size = 1;
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heap_ok = false;
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}
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EventTimer::~EventTimer()
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{
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ASSERT(this != 0);
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ASSERT(first_segment != 0);
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ASSERT(last_segment != 0);
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ASSERT(population >= 0);
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ASSERT(segment_size > 0);
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ASSERT((segment_size & (segment_size - 1)) == 0); // power of 2
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ASSERT(population >= segment_size - 1);
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ASSERT(!heap_ok || population >= segment_size);
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ASSERT(population < 2 * segment_size);
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ASSERT(first_segment != last_segment || segment_size == 1);
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ASSERT(first_segment == last_segment || segment_size > 1);
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while (first_segment != 0)
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{
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HeapSegment *next_segment = first_segment->next;
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ASSERT(first_segment != 0);
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DELETE_HeapSegment(first_segment);
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first_segment = next_segment;
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}
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}
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void
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EventTimer::run()
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{
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ASSERT(this != 0);
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running = true;
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while (running && population > 0)
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{
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ASSERT(first_segment != 0);
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ASSERT(last_segment != 0);
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ASSERT(population >= 0);
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ASSERT(segment_size > 0);
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ASSERT((segment_size & (segment_size - 1)) == 0); // power of 2
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ASSERT(population >= segment_size - 1);
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ASSERT(!heap_ok || population >= segment_size);
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ASSERT(population < 2 * segment_size);
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ASSERT(first_segment != last_segment || segment_size == 1);
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ASSERT(first_segment == last_segment || segment_size > 1);
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if (!heap_ok)
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{
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int final_position = (population + 1) % segment_size;
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unsigned int final_time =
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last_segment->events[final_position].event_time;
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HeapSegment *segment = first_segment;
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HeapSegment *next_segment = segment->next;
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int position = 0;
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int next_position = 0;
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while (segment != last_segment
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&& (next_segment != last_segment
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|| next_position < final_position))
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{
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if ((next_segment != last_segment ||
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next_position + 1 < final_position) &&
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signed(next_segment->events[next_position].event_time -
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next_segment->events[next_position + 1].event_time) > 0)
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{
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next_position++;
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}
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if (signed(final_time -
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next_segment->events[next_position].event_time) <= 0)
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{
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break;
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}
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segment->events[position] = next_segment->events[next_position];
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segment = next_segment;
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next_segment = segment->next;
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position = next_position;
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next_position = 2 * position;
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}
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segment->events[position] = last_segment->events[final_position];
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if (population < segment_size)
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{
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segment_size /= 2;
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last_segment = last_segment->previous;
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}
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heap_ok = true;
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}
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ASSERT(first_segment != 0);
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ASSERT(last_segment != 0);
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ASSERT(population >= 0);
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ASSERT(segment_size > 0);
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ASSERT((segment_size & (segment_size - 1)) == 0); // power of 2
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ASSERT(population >= segment_size - 1);
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ASSERT(!heap_ok || population >= segment_size);
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ASSERT(population < 2 * segment_size);
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ASSERT(first_segment != last_segment || segment_size == 1);
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ASSERT(first_segment == last_segment || segment_size > 1);
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unsigned int current_time = GET_TICK_COUNT();
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int sleep_time = __max(
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signed(first_segment->events[0].event_time - current_time), 0);
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do
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{
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bool event_triggered = sync_event.wait(sleep_time);
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if (event_triggered)
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{
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SERVICE_FOLLOW_COMMAND();
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if (!running)
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{
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return;
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}
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}
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current_time = GET_TICK_COUNT();
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sleep_time = __max(
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signed(first_segment->events[0].event_time - current_time), 0);
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} while (sleep_time > 0);
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heap_ok = false;
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population--;
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(*first_segment->events[0].callback)(first_segment->events[0].context);
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bool ok = shared_data->send_values();
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if (!ok)
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{
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PRINT_DEBUG_MSG((_T("GROVELER: SharedData::send_values() failed\n")));
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}
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}
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}
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void
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EventTimer::halt()
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{
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ASSERT(this != 0);
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ASSERT(first_segment != 0);
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ASSERT(last_segment != 0);
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ASSERT(population >= 0);
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ASSERT(segment_size > 0);
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ASSERT((segment_size & (segment_size - 1)) == 0); // power of 2
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ASSERT(population >= segment_size - 1);
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ASSERT(!heap_ok || population >= segment_size);
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ASSERT(population < 2 * segment_size);
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ASSERT(first_segment != last_segment || segment_size == 1);
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ASSERT(first_segment == last_segment || segment_size > 1);
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running = false;
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}
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void
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EventTimer::schedule(
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unsigned int event_time,
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void *context,
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EventCallback callback)
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{
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ASSERT(this != 0);
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ASSERT(first_segment != 0);
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ASSERT(last_segment != 0);
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ASSERT(population >= 0);
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ASSERT(segment_size > 0);
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ASSERT((segment_size & (segment_size - 1)) == 0); // power of 2
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ASSERT(population >= segment_size - 1);
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ASSERT(!heap_ok || population >= segment_size);
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ASSERT(population < 2 * segment_size);
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ASSERT(first_segment != last_segment || segment_size == 1);
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ASSERT(first_segment == last_segment || segment_size > 1);
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population++;
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HeapSegment *segment;
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int position;
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if (heap_ok)
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{
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if (population >= 2 * segment_size)
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{
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segment_size *= 2;
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if (last_segment->next == 0)
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{
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last_segment->next = NEW_HeapSegment(segment_size);
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last_segment->next->previous = last_segment;
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last_segment->next->next = 0;
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}
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last_segment = last_segment->next;
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}
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segment = last_segment;
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HeapSegment *previous_segment = segment->previous;
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position = population % segment_size;
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int next_position = position >> 1;
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while (previous_segment != 0 && signed(event_time
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- previous_segment->events[next_position].event_time) < 0)
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{
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segment->events[position] = previous_segment->events[next_position];
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segment = previous_segment;
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previous_segment = segment->previous;
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position = next_position;
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next_position >>= 1;
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}
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}
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else
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{
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int final_position = population % segment_size + 1;
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segment = first_segment;
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HeapSegment *next_segment = segment->next;
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position = 0;
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int next_position = 0;
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while (segment != last_segment
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&& (next_segment != last_segment
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|| next_position < final_position))
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{
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if ((next_segment != last_segment ||
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next_position + 1 < final_position) &&
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signed(next_segment->events[next_position].event_time -
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next_segment->events[next_position + 1].event_time) > 0)
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{
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next_position++;
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}
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if (signed(event_time -
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next_segment->events[next_position].event_time) <= 0)
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{
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break;
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}
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segment->events[position] = next_segment->events[next_position];
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segment = next_segment;
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next_segment = segment->next;
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position = next_position;
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next_position = 2 * position;
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}
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}
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segment->events[position].event_time = event_time;
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segment->events[position].context = context;
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segment->events[position].callback = callback;
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heap_ok = true;
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ASSERT(first_segment != 0);
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ASSERT(last_segment != 0);
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ASSERT(population >= 0);
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ASSERT(segment_size > 0);
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ASSERT((segment_size & (segment_size - 1)) == 0); // power of 2
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ASSERT(population >= segment_size);
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ASSERT(population < 2 * segment_size);
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ASSERT(first_segment != last_segment || segment_size == 1);
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ASSERT(first_segment == last_segment || segment_size > 1);
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return;
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}
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