#pragma once template class SQueue { SMutex m_mutex; u32 m_pos; u32 m_count; T m_data[SQSize]; public: SQueue() : m_pos(0) , m_count(0) { } bool Push(const T& data) { while (true) { if (m_mutex.GetOwner() == m_mutex.GetDeadValue()) { return false; } if (m_count >= SQSize) { if (Emu.IsStopped()) { return false; } Sleep(1); continue; } { SMutexLocker lock(m_mutex); if (m_count >= SQSize) continue; m_data[(m_pos + m_count++) % SQSize] = data; return true; } } } bool Pop(T& data) { while (true) { if (m_mutex.GetOwner() == m_mutex.GetDeadValue()) { return false; } if (!m_count) { if (Emu.IsStopped()) { return false; } Sleep(1); continue; } { SMutexLocker lock(m_mutex); if (!m_count) continue; data = m_data[m_pos]; m_pos = (m_pos + 1) % SQSize; m_count--; return true; } } } volatile u32 GetCount() // may be not safe { return m_count; } volatile bool IsEmpty() // may be not safe { return !m_count; } void Clear() { SMutexLocker lock(m_mutex); m_count = 0; } T& Peek(u32 pos = 0) { while (true) { if (m_mutex.GetOwner() == m_mutex.GetDeadValue()) { break; } if (!m_count) { if (Emu.IsStopped()) { break; } Sleep(1); continue; } { SMutexLocker lock(m_mutex); if (m_count) break; } } return m_data[(m_pos + pos) % SQSize]; } };