#pragma once #include "Array.h" #include #include #include #include #include #include class ThreadExec; class NamedThreadBase { std::string m_name; public: NamedThreadBase(const std::string& name) : m_name(name) { } NamedThreadBase() { } virtual std::string GetThreadName() const; virtual void SetThreadName(const std::string& name); }; NamedThreadBase* GetCurrentNamedThread(); class ThreadBase : public NamedThreadBase { protected: std::atomic m_destroy; std::atomic m_alive; std::thread* m_executor; mutable std::mutex m_main_mutex; ThreadBase(const std::string& name); ~ThreadBase(); public: void Start(); void Stop(bool wait = true, bool send_destroy = true); bool Join() const; bool IsAlive() const; bool TestDestroy() const; virtual void Task() = 0; }; class thread { std::string m_name; std::thread m_thr; public: thread(const std::string& name, std::function func); thread(const std::string& name); thread(); public: void start(std::function func); void detach(); void join(); bool joinable() const; }; template class MTPacketBuffer { protected: volatile bool m_busy; volatile u32 m_put, m_get; std::vector m_buffer; u32 m_max_buffer_size; mutable std::recursive_mutex m_cs_main; void CheckBusy() { m_busy = m_put >= m_max_buffer_size; } public: MTPacketBuffer(u32 max_buffer_size) : m_max_buffer_size(max_buffer_size) { Flush(); } ~MTPacketBuffer() { Flush(); } void Flush() { std::lock_guard lock(m_cs_main); m_put = m_get = 0; m_buffer.clear(); m_busy = false; } private: virtual void _push(const T& v) = 0; virtual T _pop() = 0; public: void Push(const T& v) { std::lock_guard lock(m_cs_main); _push(v); } T Pop() { std::lock_guard lock(m_cs_main); return _pop(); } bool HasNewPacket() const { std::lock_guard lock(m_cs_main); return m_put != m_get; } bool IsBusy() const { return m_busy; } }; static __forceinline bool SemaphorePostAndWait(rSemaphore& sem) { if(sem.TryWait() != rSEMA_BUSY) return false; sem.Post(); sem.Wait(); return true; } /* class StepThread : public ThreadBase { wxSemaphore m_main_sem; wxSemaphore m_destroy_sem; volatile bool m_exit; protected: StepThread(const std::string& name = "Unknown StepThread") : ThreadBase(true, name) , m_exit(false) { } virtual ~StepThread() throw() { } private: virtual void Task() { m_exit = false; while(!TestDestroy()) { m_main_sem.Wait(); if(TestDestroy() || m_exit) break; Step(); } while(!TestDestroy()) Sleep(0); if(m_destroy_sem.TryWait() != wxSEMA_NO_ERROR) m_destroy_sem.Post(); } virtual void Step()=0; public: void DoStep() { if(IsRunning()) m_main_sem.Post(); } void WaitForExit() { if(TestDestroy()) m_destroy_sem.Wait(); } void WaitForNextStep() { if(!IsRunning()) return; while(m_main_sem.TryWait() != wxSEMA_NO_ERROR) Sleep(0); } void Exit(bool wait = false) { if(!IsAlive()) return; if(m_main_sem.TryWait() != wxSEMA_NO_ERROR) { m_exit = true; m_main_sem.Post(); } Delete(); if(wait) WaitForExit(); } }; */