~chenluhua/Bond2.git

			@@ -6,6 +6,15 @@
			namespace SERVO {
			CMaster* g_pMaster = NULL;

			unsigned __stdcall DispatchThreadFunction(LPVOID lpParam)
			{
			if (g_pMaster != NULL) {
			return g_pMaster->DispatchProc();
			}

			return 0;
			}

			unsigned __stdcall ReadBitsThreadFunction(LPVOID lpParam)
			{
			if (g_pMaster != NULL) {
			@@ -24,12 +33,22 @@

			CMaster::CMaster()
			{
			m_listener = {nullptr, nullptr, nullptr, nullptr, nullptr};
			m_listener = {};
			m_bDataModify = FALSE;
			m_hEventReadBitsThreadExit[0] = ::CreateEvent(NULL, TRUE, FALSE, NULL);
			m_hEventReadBitsThreadExit[1] = ::CreateEvent(NULL, TRUE, FALSE, NULL);
			m_hReadBitsThreadHandle = nullptr;
			m_nReadBitsThreadAddr = 0;
			m_hDispatchEvent = ::CreateEvent(NULL, TRUE, FALSE, NULL);
			m_hEventDispatchThreadExit[0] = ::CreateEvent(NULL, TRUE, FALSE, NULL);
			m_hEventDispatchThreadExit[1] = ::CreateEvent(NULL, TRUE, FALSE, NULL);
			m_hDispatchThreadHandle = nullptr;
			m_nDispatchThreadAddr = 0;
			m_ullStartTime = 0;
			m_ullRunTime = 0;
			m_state = MASTERSTATE::READY;
			m_pActiveRobotTask = nullptr;
			InitializeCriticalSection(&m_criticalSection);
			}

			CMaster::~CMaster()
			@@ -43,15 +62,33 @@
			::CloseHandle(m_hEventReadBitsThreadExit[1]);
			m_hEventReadBitsThreadExit[1] = nullptr;
			}

			if (m_hDispatchEvent != nullptr) {
			::CloseHandle(m_hDispatchEvent);
			m_hDispatchEvent = nullptr;
			}

			if (m_hEventDispatchThreadExit[0] != nullptr) {
			::CloseHandle(m_hEventDispatchThreadExit[0]);
			m_hEventDispatchThreadExit[0] = nullptr;
			}

			if (m_hEventDispatchThreadExit[1] != nullptr) {
			::CloseHandle(m_hEventDispatchThreadExit[1]);
			m_hEventDispatchThreadExit[1] = nullptr;
			}

			DeleteCriticalSection(&m_criticalSection);
			}

			void CMaster::setListener(MasterListener listener)
			{
			m_listener.onEqAlive = listener.onEqAlive;
			m_listener.onEqCimStateChanged = listener.onEqCimStateChanged;
			m_listener.onEqAlarm = listener.onEqAlarm;
			m_listener.onEqVcrEventReport = listener.onEqVcrEventReport;
			m_listener.onEqDataChanged = listener.onEqDataChanged;
			m_listener = listener;
			}

			CRobotTask* CMaster::getActiveRobotTask()
			{
			return m_pActiveRobotTask;
			}

			int CMaster::init()
			@@ -159,6 +196,12 @@
			SetTimer(NULL, 1, 250, (TIMERPROC)MasterTimerProc);


			// 调度线程
			m_hDispatchThreadHandle = (HANDLE)_beginthreadex(NULL, 0, SERVO::DispatchThreadFunction, this,
			0, &m_nDispatchThreadAddr);


			// 监控bit线程
			m_hReadBitsThreadHandle = (HANDLE)_beginthreadex(NULL, 0, SERVO::ReadBitsThreadFunction, this,
			0, &m_nReadBitsThreadAddr);

			@@ -170,7 +213,9 @@
			int CMaster::term()
			{
			SetEvent(m_hEventReadBitsThreadExit[0]);
			SetEvent(m_hEventDispatchThreadExit[0]);
			::WaitForSingleObject(m_hEventReadBitsThreadExit[1], INFINITE);
			::WaitForSingleObject(m_hEventDispatchThreadExit[1], INFINITE);

			LOGI("<Master>正在结束程序.");
			for (auto item : m_listEquipment) {
			@@ -178,6 +223,12 @@
			}
			saveCache();

			lock();
			if (m_pActiveRobotTask != nullptr) {
			delete m_pActiveRobotTask;
			m_pActiveRobotTask = nullptr;
			}
			unlock();

			for (auto item : m_listEquipment) {
			delete item;
			@@ -190,13 +241,337 @@

			int CMaster::start()
			{
			AfxMessageBox("start");
			if (m_state != MASTERSTATE::READY) {
			return -1;
			}

			setState(MASTERSTATE::STARTING);
			m_ullStartTime = GetTickCount64();

			return 0;
			}

			int CMaster::stop()
			{
			AfxMessageBox("stop");
			// 运行时间为累加结果，本次停止时刷新；
			if (m_state != MASTERSTATE::RUNNING) {
			return -1;
			}

			m_ullRunTime += (GetTickCount64() - m_ullStartTime);
			setState(MASTERSTATE::STOPPING);

			return 0;
			}

			ULONGLONG CMaster::getRunTime()
			{
			if (m_state == MASTERSTATE::RUNNING)
			return m_ullRunTime + (GetTickCount64() - m_ullStartTime);
			else
			return m_ullRunTime;
			}

			MASTERSTATE CMaster::getState()
			{
			return m_state;
			}

			unsigned CMaster::DispatchProc()
			{
			// 优先考虑的类型和次要类型
			// 一种情况，如果不分主次，一直搬G1, 等到Bonder1和Bonder2都放了G1, Aligner也放了G1,
			// Bonder1和Bonder2需要的G2就过不来了
			// 最基本的实现，可以G2和G2轮流搬送，但最好根据Bonder的需求来决定
			MaterialsType primaryType, secondaryType;


			// 各种机器
			CEFEM* pEFEM = (CEFEM*)getEquipment(EQ_ID_EFEM);
			CLoadPort* pLoadPort1 = (CLoadPort*)getEquipment(EQ_ID_LOADPORT1);
			CLoadPort* pLoadPort2 = (CLoadPort*)getEquipment(EQ_ID_LOADPORT2);
			CLoadPort* pLoadPort3 = (CLoadPort*)getEquipment(EQ_ID_LOADPORT3);
			CLoadPort* pLoadPort4 = (CLoadPort*)getEquipment(EQ_ID_LOADPORT4);
			CFliper* pFliper = (CFliper*)getEquipment(EQ_ID_FLIPER);
			CVacuumBake* pVacuumBake = (CVacuumBake*)getEquipment(EQ_ID_VACUUMBAKE);
			CAligner* pAligner = (CAligner*)getEquipment(EQ_ID_ALIGNER);
			CBonder* pBonder1 = (CBonder*)getEquipment(EQ_ID_Bonder1);
			CBonder* pBonder2 = (CBonder*)getEquipment(EQ_ID_Bonder2);
			CBakeCooling* pBakeCooling = (CBakeCooling*)getEquipment(EQ_ID_BAKE_COOLING);
			CMeasurement* pMeasurement = (CMeasurement*)getEquipment(EQ_ID_MEASUREMENT);

			ASSERT(pEFEM);
			ASSERT(pLoadPort1);
			ASSERT(pLoadPort2);
			ASSERT(pLoadPort3);
			ASSERT(pLoadPort4);
			ASSERT(pFliper);
			ASSERT(pVacuumBake);
			ASSERT(pAligner);
			ASSERT(pBonder1);
			ASSERT(pBonder2);
			ASSERT(pBakeCooling);
			ASSERT(pMeasurement);

			while (1) {
			// 待退出信号或时间到
			HANDLE hEvents[] = { m_hEventDispatchThreadExit[0], m_hDispatchEvent };
			int nRet = WaitForMultipleObjects(2, hEvents, FALSE, 1000);
			if (nRet == WAIT_OBJECT_0) {
			break;
			}


			// 如果状态为STARTING，开始工作并切换到RUNNING状态
			lock();
			if (m_state == MASTERSTATE::STARTING) {
			unlock();
			Sleep(1000);
			setState(MASTERSTATE::RUNNING);
			continue;
			}


			// 处理完成当前事务后，切换到停止或就绪状态
			else if (m_state == MASTERSTATE::STOPPING) {
			unlock();
			Sleep(1000);
			setState(MASTERSTATE::READY);
			continue;
			}


			// 调度逻辑处理
			else if (m_state == MASTERSTATE::RUNNING) {
			unlock();
			// LOGI("调度处理中...");

			lock();
			if (m_pActiveRobotTask != nullptr) {
			unlock();
			// 检测到当前有正在下午的任务，确保当前任务完成或中止后继续
			// LOGI("检测到当前有正在下午的任务，确保当前任务完成或中止后继续...");
			continue;
			}


			// 此处检测优先类型和次要类型（G1或G2）
			// 如果其中一Bonder有单个玻璃，优先取它的配对类型，否则无所谓了
			primaryType = MaterialsType::G1;
			secondaryType = MaterialsType::G2;
			if ((!pBonder1->canPlaceGlassInSlot(0) && !pBonder1->canPlaceGlassInSlot(1))
			&& (!pBonder2->canPlaceGlassInSlot(0) && !pBonder2->canPlaceGlassInSlot(1))) {
			// 如果G1和G2都满了，那就看Aligner, 如果Aligner有玻璃为G1, 则取G2
			CGlass* pGlass = pAligner->getGlassFromSlot(1);
			if (pGlass != nullptr && pGlass->getType() == MaterialsType::G1) {
			primaryType = MaterialsType::G2;
			secondaryType = MaterialsType::G1;
			}
			}
			else if ((pBonder1->canPlaceGlassInSlot(0) && !pBonder1->canPlaceGlassInSlot(1))
			\|\| (pBonder2->canPlaceGlassInSlot(0) && !pBonder2->canPlaceGlassInSlot(1))) {
			primaryType = MaterialsType::G2;
			secondaryType = MaterialsType::G1;
			}


			// Measurement -> LoadPort
			CLoadPort* pEqLoadPort[] = { pLoadPort1, pLoadPort2, pLoadPort3, pLoadPort4 };
			CEquipment* pEqTar[] = { pVacuumBake, pFliper };
			if (primaryType == MaterialsType::G2) {
			pEqTar[0] = pFliper;
			pEqTar[1] = pVacuumBake;
			}
			for (int s = 0; s < 4; s++) {
			if (pEqLoadPort[s]->isEnable()
			&& pEqLoadPort[s]->getPortType() == PortType::Unloading
			&& pEqLoadPort[s]->getPortMode() == PortMode::ReadyToUnload) {
			m_pActiveRobotTask = createTransferTask(pMeasurement, pEqLoadPort[s], primaryType, secondaryType);
			if (m_pActiveRobotTask != nullptr) {
			goto PORT_PUT;
			}
			}
			}

			PORT_PUT:
			if (m_pActiveRobotTask != nullptr) {
			m_pActiveRobotTask->run();
			std::string strDescription = m_pActiveRobotTask->getDescription();
			unlock();
			if (m_listener.onRobotTaskEvent != nullptr) {
			m_listener.onRobotTaskEvent(this, m_pActiveRobotTask, ROBOT_EVENT_CREATE);
			}
			LOGI("创建新任务<%s>...", strDescription.c_str());
			continue;
			}


			// BakeCooling ->Measurement
			m_pActiveRobotTask = createTransferTask_bakecooling_to_measurement(pBakeCooling, pMeasurement);
			if (m_pActiveRobotTask != nullptr) {
			m_pActiveRobotTask->run();
			std::string strDescription = m_pActiveRobotTask->getDescription();
			unlock();
			if (m_listener.onRobotTaskEvent != nullptr) {
			m_listener.onRobotTaskEvent(this, m_pActiveRobotTask, ROBOT_EVENT_CREATE);
			}
			LOGI("创建新任务<%s>...", strDescription.c_str());
			continue;
			}


			// BakeCooling内部
			// Bake -> Cooling
			m_pActiveRobotTask = createTransferTask_bake_to_cooling(pBakeCooling);
			if (m_pActiveRobotTask != nullptr) {
			m_pActiveRobotTask->run();
			std::string strDescription = m_pActiveRobotTask->getDescription();
			unlock();
			if (m_listener.onRobotTaskEvent != nullptr) {
			m_listener.onRobotTaskEvent(this, m_pActiveRobotTask, ROBOT_EVENT_CREATE);
			}
			LOGI("创建新任务<%s>...", strDescription.c_str());
			continue;
			}


			// Bonder -> BakeCooling
			m_pActiveRobotTask = createTransferTask_bonder_to_bakecooling(pBonder1, pBakeCooling);
			if (m_pActiveRobotTask != nullptr) {
			m_pActiveRobotTask->run();
			std::string strDescription = m_pActiveRobotTask->getDescription();
			unlock();
			if (m_listener.onRobotTaskEvent != nullptr) {
			m_listener.onRobotTaskEvent(this, m_pActiveRobotTask, ROBOT_EVENT_CREATE);
			}
			LOGI("创建新任务<%s>...", strDescription.c_str());
			continue;
			}

			m_pActiveRobotTask = createTransferTask_bonder_to_bakecooling(pBonder2, pBakeCooling);
			if (m_pActiveRobotTask != nullptr) {
			m_pActiveRobotTask->run();
			std::string strDescription = m_pActiveRobotTask->getDescription();
			unlock();
			if (m_listener.onRobotTaskEvent != nullptr) {
			m_listener.onRobotTaskEvent(this, m_pActiveRobotTask, ROBOT_EVENT_CREATE);
			}
			LOGI("创建新任务<%s>...", strDescription.c_str());
			continue;
			}

			// Fliper(G2) -> Bonder
			// VacuumBake(G1) -> Bonder
			m_pActiveRobotTask = createTransferTask(pFliper, pBonder1, primaryType, secondaryType, 2);
			if (m_pActiveRobotTask != nullptr) {
			m_pActiveRobotTask->run();
			std::string strDescription = m_pActiveRobotTask->getDescription();
			unlock();
			if (m_listener.onRobotTaskEvent != nullptr) {
			m_listener.onRobotTaskEvent(this, m_pActiveRobotTask, ROBOT_EVENT_CREATE);
			}
			LOGI("创建新任务<%s>...", strDescription.c_str());
			continue;
			}

			m_pActiveRobotTask = createTransferTask(pFliper, pBonder2, primaryType, secondaryType, 2);
			if (m_pActiveRobotTask != nullptr) {
			m_pActiveRobotTask->run();
			std::string strDescription = m_pActiveRobotTask->getDescription();
			unlock();
			if (m_listener.onRobotTaskEvent != nullptr) {
			m_listener.onRobotTaskEvent(this, m_pActiveRobotTask, ROBOT_EVENT_CREATE);
			}
			LOGI("创建新任务<%s>...", strDescription.c_str());
			continue;
			}

			m_pActiveRobotTask = createTransferTask(pVacuumBake, pBonder1, primaryType, secondaryType);
			if (m_pActiveRobotTask != nullptr) {
			m_pActiveRobotTask->run();
			std::string strDescription = m_pActiveRobotTask->getDescription();
			unlock();
			if (m_listener.onRobotTaskEvent != nullptr) {
			m_listener.onRobotTaskEvent(this, m_pActiveRobotTask, ROBOT_EVENT_CREATE);
			}
			LOGI("创建新任务<%s>...", strDescription.c_str());
			continue;
			}

			m_pActiveRobotTask = createTransferTask(pVacuumBake, pBonder2, primaryType, secondaryType);
			if (m_pActiveRobotTask != nullptr) {
			m_pActiveRobotTask->run();
			std::string strDescription = m_pActiveRobotTask->getDescription();
			unlock();
			if (m_listener.onRobotTaskEvent != nullptr) {
			m_listener.onRobotTaskEvent(this, m_pActiveRobotTask, ROBOT_EVENT_CREATE);
			}
			LOGI("创建新任务<%s>...", strDescription.c_str());
			continue;
			}

			// Aligner -> Fliper(G2)
			// Aligner -> VacuumBake(G1)
			m_pActiveRobotTask = createTransferTask(pAligner, pFliper, primaryType, secondaryType, 2);
			if (m_pActiveRobotTask != nullptr) {
			m_pActiveRobotTask->run();
			std::string strDescription = m_pActiveRobotTask->getDescription();
			unlock();
			if (m_listener.onRobotTaskEvent != nullptr) {
			m_listener.onRobotTaskEvent(this, m_pActiveRobotTask, ROBOT_EVENT_CREATE);
			}
			LOGI("创建新任务<%s>...", strDescription.c_str());
			continue;
			}

			m_pActiveRobotTask = createTransferTask(pAligner, pVacuumBake, primaryType, secondaryType);
			if (m_pActiveRobotTask != nullptr) {
			m_pActiveRobotTask->run();
			std::string strDescription = m_pActiveRobotTask->getDescription();
			unlock();
			if (m_listener.onRobotTaskEvent != nullptr) {
			m_listener.onRobotTaskEvent(this, m_pActiveRobotTask, ROBOT_EVENT_CREATE);
			}
			LOGI("创建新任务<%s>...", strDescription.c_str());
			continue;
			}


			// LoadPort -> Aligner
			for (int s = 0; s < 4; s++) {
			if (pEqLoadPort[s]->isEnable()
			&& pEqLoadPort[s]->getPortType() == PortType::Loading
			&& pEqLoadPort[s]->getPortMode() == PortMode::ReadyToLoad) {
			m_pActiveRobotTask = createTransferTask(pEqLoadPort[s], pAligner, primaryType, secondaryType);
			if (m_pActiveRobotTask != nullptr) {
			goto PORT_GET;
			}
			}
			}

			PORT_GET:
			if (m_pActiveRobotTask != nullptr) {
			m_pActiveRobotTask->run();
			std::string strDescription = m_pActiveRobotTask->getDescription();
			unlock();
			if (m_listener.onRobotTaskEvent != nullptr) {
			m_listener.onRobotTaskEvent(this, m_pActiveRobotTask, ROBOT_EVENT_CREATE);
			}
			LOGI("创建新任务<%s>...", strDescription.c_str());
			continue;
			}

			unlock();

			}
			unlock();
			}

			SetEvent(m_hEventDispatchThreadExit[1]);


			// _endthreadex(0);
			TRACE("CMaster::DispatchProc 线程退出\n");
			return 0;
			}

			@@ -209,6 +584,7 @@
			break;
			}

			// 读标志位
			for (auto item : m_listEquipment) {
			if (item->getID() == EQ_ID_Bonder1 \|\|
			item->getID() == EQ_ID_Bonder2) {
			@@ -260,11 +636,105 @@
			m_listener.onEqVcrEventReport(this, p, p2);
			}
			};
			listener.onPreFethedOutJob = [&](void* pEquipment, CJobDataB* pJobDataB) -> BOOL {
			CEquipment* p = (CEquipment*)pEquipment;


			// 取片，更新当前搬送任务
			BOOL bOk = FALSE;
			lock();
			if (m_pActiveRobotTask != nullptr) {
			if (m_pActiveRobotTask->getSrcPosition() == p->getID()) {
			CGlass* pGlass = p->getGlassFromSlot(m_pActiveRobotTask->getSrcSlot());
			if (pGlass != nullptr) {
			CJobDataB* pJobDataBSrc = pGlass->getJobDataB();
			if (pJobDataBSrc != nullptr
			&& pJobDataBSrc->getCassetteSequenceNo() == pJobDataB->getCassetteSequenceNo()
			&& pJobDataBSrc->getJobSequenceNo() == pJobDataB->getJobSequenceNo()) {
			bOk = TRUE;
			LOGI("<CMaster>onPreFethedOutJob, 已校验数据一致性.");
			}
			}
			}
			else if (p->getID() == EQ_ID_ARM_TRAY1 \|\| p->getID() == EQ_ID_ARM_TRAY2) {
			bOk = TRUE;
			}
			}
			unlock();

			if (!bOk) {
			LOGE("<CMaster>onPreFethedOutJob, 数据校验失败.");
			}

			return bOk;

			};
			listener.onPreStoredJob = [&](void* pEquipment, CJobDataB* pJobDataB, short& slot) -> BOOL {
			CEquipment* p = (CEquipment*)pEquipment;


			// 放片，更新当前搬送任务
			BOOL bOk = FALSE;
			lock();
			if (m_pActiveRobotTask != nullptr) {
			if (m_pActiveRobotTask->getTarPosition() == p->getID()) {
			CGlass* pGlass = p->getGlassFromSlot(m_pActiveRobotTask->getTarSlot());
			if (pGlass == nullptr) {
			bOk = TRUE;
			slot = m_pActiveRobotTask->getTarSlot();
			LOGI("<CMaster>onPreFethedOutJob, 已校验数据一致性.");
			}
			}
			else if (p->getID() == EQ_ID_ARM_TRAY1 \|\| p->getID() == EQ_ID_ARM_TRAY2) {
			slot = 1;
			bOk = TRUE;
			}
			}
			unlock();

			if (!bOk) {
			LOGE("<CMaster>onPreFethedOutJob, 数据校验失败.");
			}

			return bOk;

			};
			listener.onDataChanged = [&](void* pEquipment, int code) -> void {
			m_bDataModify = TRUE;
			CEquipment* p = (CEquipment*)pEquipment;
			if (m_listener.onEqDataChanged != nullptr) {
			m_listener.onEqDataChanged(this, p, 0);
			}

			// 取放片，更新当前搬送任务
			if (code == EDCC_FETCHOUT_JOB) {
			lock();
			if (m_pActiveRobotTask != nullptr && m_pActiveRobotTask->getSrcPosition() == p->getID()) {
			m_pActiveRobotTask->fetchOut();
			LOGI("开始取片...");
			}
			unlock();
			}
			else if (code == EDCC_STORED_JOB) {
			lock();
			if (m_pActiveRobotTask != nullptr && m_pActiveRobotTask->getTarPosition() == p->getID()) {
			m_pActiveRobotTask->stored();
			m_pActiveRobotTask->completed();
			LOGI("放片完成...");

			// 完成此条搬送任务，但要把数据和消息上抛应用层
			unlock();



			lock();
			if (m_listener.onRobotTaskEvent != nullptr) {
			m_listener.onRobotTaskEvent(this, m_pActiveRobotTask, ROBOT_EVENT_FINISH);
			}
			delete m_pActiveRobotTask;
			m_pActiveRobotTask = nullptr;
			}
			unlock();
			}
			};

			@@ -531,42 +1001,40 @@
			CBakeCooling* pBakeCooling = (CBakeCooling*)getEquipment(EQ_ID_BAKE_COOLING);
			CMeasurement* pMeasurement = (CMeasurement*)getEquipment(EQ_ID_MEASUREMENT);

			nRet = pLoadPort1->getPin("Out1")->connectPin(pFliper->getPin("In1"));
			nRet = pLoadPort1->getPin("Out")->connectPin(pAligner->getPin("In1"));
			if (nRet < 0) {
			LOGE("连接LoadPort1-Fliper失败");
			}
			nRet = pLoadPort2->getPin("Out1")->connectPin(pFliper->getPin("In2"));
			nRet = pLoadPort2->getPin("Out")->connectPin(pAligner->getPin("In2"));
			if (nRet < 0) {
			LOGE("连接LoadPort1-Fliper失败");
			}

			nRet = pLoadPort1->getPin("Out2")->connectPin(pVacuumBake->getPin("In1"));
			nRet = pAligner->getPin("Out1")->connectPin(pFliper->getPin("In"));
			if (nRet < 0) {
			LOGE("连接LoadPort1-VacuumBake失败");
			LOGE("连接Aligner-Fliper失败");
			}
			nRet = pLoadPort2->getPin("Out2")->connectPin(pVacuumBake->getPin("In2"));
			nRet = pAligner->getPin("Out2")->connectPin(pVacuumBake->getPin("In"));
			if (nRet < 0) {
			LOGE("连接LoadPort1-VacuumBake失败");
			LOGE("连接Aligner-VacuumBake失败");
			}

			nRet = pFliper->getPin("Out")->connectPin(pAligner->getPin("In1"));
			nRet = pFliper->getPin("Out1")->connectPin(pBonder1->getPin("In1"));
			if (nRet < 0) {
			LOGE("连接Fliper-Aligner失败");
			LOGE("连接Fliper-Bonder1失败");
			}
			nRet = pFliper->getPin("Out2")->connectPin(pBonder2->getPin("In1"));
			if (nRet < 0) {
			LOGE("连接Fliper-Bonder2失败");
			}

			nRet = pVacuumBake->getPin("Out")->connectPin(pAligner->getPin("In2"));
			nRet = pVacuumBake->getPin("Out1")->connectPin(pBonder1->getPin("In2"));
			if (nRet < 0) {
			LOGE("连接VacuumBake-Aligner失败");
			LOGE("连接VacuumBake-Bonder1失败");
			}

			nRet = pAligner->getPin("Out1")->connectPin(pBonder1->getPin("In"));
			nRet = pVacuumBake->getPin("Out2")->connectPin(pBonder2->getPin("In2"));
			if (nRet < 0) {
			LOGE("连接Aligner-Bondere1失败");
			}

			nRet = pAligner->getPin("Out2")->connectPin(pBonder2->getPin("In"));
			if (nRet < 0) {
			LOGE("连接Aligner-Bondere2失败");
			LOGE("连接VacuumBake-Bonder2失败");
			}

			nRet = pBonder1->getPin("Out")->connectPin(pBakeCooling->getPin("In1"));
			@@ -668,4 +1136,190 @@
			item->serialize(ar);
			}
			}

			void CMaster::setState(MASTERSTATE state)
			{
			m_state = state;
			if (m_listener.onMasterStateChanged != nullptr) {
			m_listener.onMasterStateChanged(this, m_state);
			}
			}

			static int taskSeqNo = 0;
			CRobotTask* CMaster::createTransferTask(CEquipment* pSrcEq, CEquipment* pTarEq,
			MaterialsType primaryType/* = MaterialsType::G1/, MaterialsType secondaryType/ = MaterialsType::G2*/,
			int armNo/* = 1*/)
			{
			CRobotTask* pTask = nullptr;
			CSlot* pSrcSlot, * pTarSlot;
			pTarSlot = pTarEq->getAvailableSlotForGlass(primaryType);
			pSrcSlot = pSrcEq->getProcessedSlot(primaryType);
			if (pSrcSlot == nullptr \|\| nullptr == pTarSlot) {
			pTarSlot = pTarEq->getAvailableSlotForGlass(secondaryType);
			pSrcSlot = pSrcEq->getProcessedSlot(secondaryType);
			}


			if (pSrcSlot != nullptr && nullptr != pTarSlot) {
			int srcPos, srcSlot, tarPos, tarSlot;
			transformPosAndSlot(pSrcSlot->getPosition(), pSrcSlot->getNo(), srcPos, srcSlot);
			transformPosAndSlot(pTarSlot->getPosition(), pTarSlot->getNo(), tarPos, tarSlot);
			pTask = new CRobotTask();
			pTask->setContext(pSrcSlot->getContext());
			pTask->setEFEM((CEFEM*)getEquipment(EQ_ID_EFEM));
			pTask->setRobotTransferParam(++taskSeqNo, armNo, srcPos,
			tarPos, srcSlot, tarSlot);
			}


			return pTask;
			}

			CRobotTask* CMaster::createTransferTask_bonder_to_bakecooling(CEquipment* pSrcEq, CEquipment* pTarEq)
			{
			std::vector<int> slots = {1, 2};

			CRobotTask* pTask = nullptr;
			CSlot* pSrcSlot, * pTarSlot;
			pTarSlot = pTarEq->getAvailableSlotForGlass2(MaterialsType::G1, slots);
			pSrcSlot = pSrcEq->getProcessedSlot(MaterialsType::G1);

			if (pSrcSlot != nullptr && nullptr != pTarSlot) {
			int srcPos, srcSlot, tarPos, tarSlot;
			transformPosAndSlot(pSrcSlot->getPosition(), pSrcSlot->getNo(), srcPos, srcSlot);
			transformPosAndSlot(pTarSlot->getPosition(), pTarSlot->getNo(), tarPos, tarSlot);
			pTask = new CRobotTask();
			pTask->setContext(pSrcSlot->getContext());
			pTask->setEFEM((CEFEM*)getEquipment(EQ_ID_EFEM));
			pTask->setRobotTransferParam(++taskSeqNo, 1, srcPos,
			tarPos, srcSlot, tarSlot);
			}


			return pTask;
			}

			CRobotTask* CMaster::createTransferTask_bake_to_cooling(CEquipment* pSrcEq)
			{
			std::vector<int> slotsTar = { 3, 4 };
			std::vector<int> slotsSrc = { 1, 2 };

			CRobotTask* pTask = nullptr;
			CSlot* pSrcSlot, * pTarSlot;
			pTarSlot = pSrcEq->getAvailableSlotForGlass2(MaterialsType::G1, slotsTar);
			pSrcSlot = pSrcEq->getProcessedSlot2(MaterialsType::G1, slotsSrc);

			if (pSrcSlot != nullptr && nullptr != pTarSlot) {
			int srcPos, srcSlot, tarPos, tarSlot;
			transformPosAndSlot(pSrcSlot->getPosition(), pSrcSlot->getNo(), srcPos, srcSlot);
			transformPosAndSlot(pTarSlot->getPosition(), pTarSlot->getNo(), tarPos, tarSlot);
			pTask = new CRobotTask();
			pTask->setContext(pSrcSlot->getContext());
			pTask->setEFEM((CEFEM*)getEquipment(EQ_ID_EFEM));
			pTask->setRobotTransferParam(++taskSeqNo, 1, srcPos,
			tarPos, srcSlot, tarSlot);
			}


			return pTask;
			}

			CRobotTask* CMaster::createTransferTask_bakecooling_to_measurement(CEquipment* pSrcEq, CEquipment* pTarEq)
			{
			std::vector<int> slots = { 3, 4 };

			CRobotTask* pTask = nullptr;
			CSlot* pSrcSlot, * pTarSlot;
			pTarSlot = pTarEq->getAvailableSlotForGlass(MaterialsType::G1);
			pSrcSlot = pSrcEq->getProcessedSlot2(MaterialsType::G1, slots);

			if (pSrcSlot != nullptr && nullptr != pTarSlot) {
			int srcPos, srcSlot, tarPos, tarSlot;
			transformPosAndSlot(pSrcSlot->getPosition(), pSrcSlot->getNo(), srcPos, srcSlot);
			transformPosAndSlot(pTarSlot->getPosition(), pTarSlot->getNo(), tarPos, tarSlot);
			pTask = new CRobotTask();
			pTask->setContext(pSrcSlot->getContext());
			pTask->setEFEM((CEFEM*)getEquipment(EQ_ID_EFEM));
			pTask->setRobotTransferParam(++taskSeqNo, 1, srcPos,
			tarPos, srcSlot, tarSlot);
			}


			return pTask;
			}

			void CMaster::transformPosAndSlot(int srcPos, int srcSlot, int& tarPos, int& tarSlot)
			{
			switch (srcPos)
			{
			case EQ_ID_LOADPORT1:
			case EQ_ID_LOADPORT2:
			case EQ_ID_LOADPORT3:
			case EQ_ID_LOADPORT4:
			case EQ_ID_ARM_TRAY1:
			case EQ_ID_ARM_TRAY2:
			case EQ_ID_ALIGNER:
			case EQ_ID_FLIPER:
			tarPos = srcPos;
			tarSlot = 1;
			break;
			case EQ_ID_Bonder1:
			if (1 <= srcSlot && srcSlot <= 2) {
			tarPos = 9 + srcSlot;
			tarSlot = 1;
			}
			break;
			case EQ_ID_Bonder2:
			if (1 <= srcSlot && srcSlot <= 2) {
			tarPos = 11 + srcSlot;
			tarSlot = 1;
			}
			break;
			case EQ_ID_VACUUMBAKE:
			if (1 <= srcSlot && srcSlot <= 2) {
			tarPos = 13 + srcSlot;
			tarSlot = 1;
			}
			break;
			case EQ_ID_BAKE_COOLING:
			if (1 <= srcSlot && srcSlot <= 4) {
			tarPos = 15 + srcSlot;
			tarSlot = 1;
			}
			break;
			case EQ_ID_MEASUREMENT:
			tarPos = 19;
			tarSlot = 1;
			break;
			default:
			tarPos = srcPos;
			tarSlot = srcSlot;
			break;
			}
			}

			int CMaster::abortCurrentTask()
			{
			lock();
			if (m_pActiveRobotTask != nullptr) {
			m_pActiveRobotTask->abort();
			}
			unlock();

			if (m_listener.onRobotTaskEvent != nullptr) {
			m_listener.onRobotTaskEvent(this, m_pActiveRobotTask, ROBOT_EVENT_ABORT);
			}

			lock();
			if (m_pActiveRobotTask != nullptr) {
			delete m_pActiveRobotTask;
			m_pActiveRobotTask = nullptr;
			}
			unlock();

			// 当前任务手动中止后，停止调度，需要操作员在解决问题后，重新启动
			stop();

			return 0;
			}
			}