MemoryManager::MemoryManager() : m_front(0), m_limit(0), m_smartsweep(0), m_enabled(RuntimeOption::EnableMemoryManager) { #ifdef USE_JEMALLOC threadStats(m_allocated, m_deallocated, m_cactive, m_cactiveLimit); #endif resetStats(); m_stats.maxBytes = INT64_MAX; m_strings.next = m_strings.prev = &m_strings; // empty circular list }
MemoryManager::MemoryManager() : m_enabled(false), m_checkpoint(false) { if (RuntimeOption::EnableMemoryManager) { m_enabled = true; } #ifdef USE_JEMALLOC threadStats(m_allocated, m_deallocated, m_cactive, m_cactiveLimit); #endif resetStats(); m_stats.maxBytes = 0; }
MemoryManager::MemoryManager() { #ifdef USE_JEMALLOC threadStats(m_allocated, m_deallocated, m_cactive, m_cactiveLimit); #endif resetStatsImpl(true); m_stats.maxBytes = std::numeric_limits<int64_t>::max(); // make the circular-lists empty. m_strings.next = m_strings.prev = &m_strings; m_bypassSlabAlloc = RuntimeOption::DisableSmallAllocator; }
MemoryManager::MemoryManager() : m_front(0), m_limit(0), m_enabled(RuntimeOption::EnableMemoryManager) { #ifdef USE_JEMALLOC threadStats(m_allocated, m_deallocated, m_cactive, m_cactiveLimit); #endif resetStats(); m_stats.maxBytes = INT64_MAX; // make the circular-lists empty. m_sweep.next = m_sweep.prev = &m_sweep; }
MemoryManager::MemoryManager() : m_front(nullptr) , m_limit(nullptr) , m_sweeping(false) { #ifdef USE_JEMALLOC threadStats(m_allocated, m_deallocated, m_cactive, m_cactiveLimit); #endif resetStats(); m_stats.maxBytes = std::numeric_limits<int64_t>::max(); // make the circular-lists empty. m_sweep.next = m_sweep.prev = &m_sweep; m_strings.next = m_strings.prev = &m_strings; }