~chenluhua/Bond2.git

			@@ -805,48 +805,32 @@

			// 批处理模式，最终以此为准，但先保留之前的单片模式
			else if (m_state == MASTERSTATE::RUNNING_BATCH) {
			// 首选检查有没有CControlJob, 状态等
			if (m_pControlJob == nullptr) {
			// 1) 控制作业生命周期保障
			if (m_pControlJob == nullptr) { unlock(); continue; }
			CJState cjst = m_pControlJob->state();
			if (cjst == CJState::Completed \|\| cjst == CJState::Aborted \|\| cjst == CJState::Failed) {
			unlock();
			continue;
			}
			CJState state = m_pControlJob->state();
			if (state == CJState::Completed \|\| state == CJState::Aborted \|\| state == CJState::Failed) {
			// ConrolJpb已完成
			LOGE("<Master>ControlJob已经完成或失败中断");
			unlock();
			continue;
			}


			if (m_pControlJob->state() == CJState::NoState) {
			if (cjst == CJState::NoState) {
			LOGI("<Master>ControlJob已经进入列队");
			m_pControlJob->queue();
			}
			if (m_pControlJob->state() == CJState::Queued) {
			LOGI("<Master>ControlJob已经启动");
			m_pControlJob->start();

			if (m_listener.onCjStart != nullptr) {
			m_listener.onCjStart(this, m_pControlJob);
			}
			if (m_listener.onCjStart) m_listener.onCjStart(this, m_pControlJob);
			}
			if (m_pControlJob->state() == CJState::Paused) {
			LOGI("<Master>ControlJob已经恢复运行");
			m_pControlJob->resume();
			}


			// 如果当前未选择CProcessJob, 选择一个
			// 2) 若当前无 PJ，则选择一个并上报
			if (m_inProcesJobs.empty()) {
			auto pj = acquireNextProcessJob();
			if (pj != nullptr) {
			if (auto pj = acquireNextProcessJob()) {
			m_inProcesJobs.push_back(pj);

			// 这里上报PJ Start事件
			if (m_listener.onPjStart != nullptr) {
			m_listener.onPjStart(this, pj);
			}
			if (m_listener.onPjStart) m_listener.onPjStart(this, pj);
			}
			}
			if (m_inProcesJobs.empty()) {
			@@ -855,54 +839,64 @@
			continue;
			}

			// 如果当前没有Glass, 选择
			// 3) 若队列无 Glass，拉取到等待队列
			if (m_queueGlasses.empty()) {
			int nCount = acquireGlassToQueue();
			LOGI("<Master>已加入 %d 块Glass到工艺列队！", nCount);
			if (nCount > 0) {
			LOGI("<Master>已加入 %d 块Glass到工艺列队！", nCount);
			}
			}


			// 检测判断robot状态
			// 4) 机器人状态
			RMDATA& rmd = pEFEM->getRobotMonitoringData();
			if (rmd.status != ROBOT_STATUS::Idle && rmd.status != ROBOT_STATUS::Run) {
			unlock();
			continue;
			unlock(); continue;
			}

			// 5) 正在执行的 RobotTask 先让它跑完一拍
			if (m_pActiveRobotTask != nullptr) {
			if (m_pActiveRobotTask->isPicked()) {
			m_pActiveRobotTask->place();
			}
			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...");
			unlock(); // 等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;
			// 6) ——关键：全局统计 G1/G2 与组数门限（与单片分支对齐）——
			auto countG1G2 = [&]() {
			int g1 = 0, g2 = 0;
			if (pBonder1->slotHasGlass(0)) g2++;
			if (pBonder1->slotHasGlass(1)) g1++;
			if (pBonder2->slotHasGlass(0)) g2++;
			if (pBonder2->slotHasGlass(1)) g1++;
			if (pFliper->slotHasGlass(0)) g2++;
			if (pVacuumBake->slotHasGlass(0)) g1++;
			if (pVacuumBake->slotHasGlass(1)) g1++;
			if (auto g = pAligner->getGlassFromSlot(0)) {
			auto t = g->getType();
			if (t == MaterialsType::G1) g1++; else if (t == MaterialsType::G2) g2++;
			}
			}
			else if ((pBonder1->canPlaceGlassInSlot(0) && !pBonder1->canPlaceGlassInSlot(1))
			\|\| (pBonder2->canPlaceGlassInSlot(0) && !pBonder2->canPlaceGlassInSlot(1))) {
			primaryType = MaterialsType::G2;
			secondaryType = MaterialsType::G1;
			}
			return std::pair<int, int>(g1, g2);
			};

			int g1Count = 0, g2Count = 0;
			std::tie(g1Count, g2Count) = countG1G2();
			int nGlassGroup = min(g1Count, g2Count);
			int nExtraType = (g1Count == g2Count ? 0 : (g1Count > g2Count ? 1 : 2));

			// Measurement -> LoadPort
			// primary/secondary 统一定义（secondary 默认 G0）
			MaterialsType primaryType = MaterialsType::G1;
			MaterialsType secondaryType = MaterialsType::G0;
			if (nExtraType == 0) primaryType = MaterialsType::G2; // 与单片分支一致
			else primaryType = MaterialsType::G1;

			// 组数门限：≥2 组时不再从 LP 上片，避免堆积（与单片一致）
			bool blockLoadFromLP = (nGlassGroup >= 2);

			// 7) Measurement -> LoadPort（固定：G1 优先回 LP）
			if (rmd.armState[0] \|\| rmd.armState[1]) {
			LOGD("Arm1 %s, Arm2 %s.", rmd.armState[0] ? _T("不可用") : _T("可用"),
			LOGD("Arm1 %s, Arm2 %s.",
			rmd.armState[0] ? _T("不可用") : _T("可用"),
			rmd.armState[1] ? _T("不可用") : _T("可用"));
			}
			for (int s = 0; s < 4; s++) {
			@@ -910,140 +904,123 @@
			if (!rmd.armState[0] && pLoadPorts[s]->isEnable()
			&& (pt == PortType::Unloading \|\| pt == PortType::Both)
			&& pLoadPorts[s]->getPortStatus() == PORT_INUSE) {
			m_pActiveRobotTask = createTransferTask(pMeasurement, pLoadPorts[s], primaryType, secondaryType);
			if (m_pActiveRobotTask != nullptr) {
			goto BATCH_PORT_PUT;
			}
			m_pActiveRobotTask = createTransferTask(pMeasurement, pLoadPorts[s], MaterialsType::G1, secondaryType);
			if (m_pActiveRobotTask != nullptr) { goto BATCH_PORT_PUT; }
			}
			}

			BATCH_PORT_PUT:
			BATCH_PORT_PUT:
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);


			// Measurement NG -> LoadPort
			// NG回原位
			// 8) Measurement NG -> LoadPort（原位回退）
			if (!rmd.armState[1]) {
			m_pActiveRobotTask = createTransferTask_restore(pMeasurement, pLoadPorts);
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
			}


			// BakeCooling ->Measurement
			// 9) BakeCooling -> Measurement
			if (!rmd.armState[0]) {
			m_pActiveRobotTask = createTransferTask_bakecooling_to_measurement(pBakeCooling, pMeasurement);
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
			}


			// BakeCooling内部
			// Bake -> Cooling
			// 10) BakeCooling 内部（Bake -> Cooling）
			if (!rmd.armState[0]) {
			m_pActiveRobotTask = createTransferTask_bake_to_cooling(pBakeCooling);
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
			}


			// Bonder -> BakeCooling
			// 11) Bonder -> BakeCooling
			if (!rmd.armState[0]) {
			m_pActiveRobotTask = createTransferTask_bonder_to_bakecooling(pBonder1, pBakeCooling);
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
			}

			if (!rmd.armState[0]) {
			m_pActiveRobotTask = createTransferTask_bonder_to_bakecooling(pBonder2, pBakeCooling);
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
			}

			// 12) Fliper(G2) -> Bonder（前置：VacuumBake 有 processed G1；输出 G2 到 Bonder slot0）
			if (auto pSrcSlot = pVacuumBake->getProcessedSlot(MaterialsType::G1)) {
			if (!rmd.armState[1] && pBonder1->canPlaceGlassInSlot(0)) {
			m_pActiveRobotTask = createTransferTask(pFliper, pBonder1, MaterialsType::G2, MaterialsType::G0, 2);
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
			}
			if (!rmd.armState[1] && pBonder2->canPlaceGlassInSlot(0)) {
			m_pActiveRobotTask = createTransferTask(pFliper, pBonder2, MaterialsType::G2, MaterialsType::G0, 2);
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
			}
			}

			// Fliper(G2) -> Bonder
			auto pSrcSlot = pVacuumBake->getProcessedSlot(primaryType);
			if (pSrcSlot != nullptr && !rmd.armState[1] && !pBonder1->hasBondGlass()) {
			m_pActiveRobotTask = createTransferTask(pFliper, pBonder1, primaryType, secondaryType, 2);
			// 13) VacuumBake(G1) -> Bonder（槽级判定：slot0(G2) 已有且 slot1(G1) 为空）
			if (!rmd.armState[0] && pBonder1->slotHasGlass(0) && !pBonder1->slotHasGlass(1)) {
			m_pActiveRobotTask = createTransferTask(pVacuumBake, pBonder1, MaterialsType::G1, MaterialsType::G0);
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
			}
			if (pSrcSlot != nullptr && !rmd.armState[1] && !pBonder2->hasBondGlass()) {
			m_pActiveRobotTask = createTransferTask(pFliper, pBonder2, primaryType, secondaryType, 2);
			if (!rmd.armState[0] && pBonder2->slotHasGlass(0) && !pBonder2->slotHasGlass(1)) {
			m_pActiveRobotTask = createTransferTask(pVacuumBake, pBonder2, MaterialsType::G1, MaterialsType::G0);
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
			}


			// VacuumBake(G1) -> Bonder
			if (!rmd.armState[0] && !pBonder1->hasBondGlass()) {
			m_pActiveRobotTask = createTransferTask(pVacuumBake, pBonder1, primaryType, secondaryType);
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
			}

			if (!rmd.armState[0] && !pBonder2->hasBondGlass()) {
			m_pActiveRobotTask = createTransferTask(pVacuumBake, pBonder2, primaryType, secondaryType);
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
			}


			// Aligner -> Fliper(G2)
			// Aligner -> VacuumBake(G1)
			// 14) Aligner -> Fliper(G2) 以及 -> VacuumBake(G1)（固定映射）
			if (!rmd.armState[1]) {
			m_pActiveRobotTask = createTransferTask(pAligner, pFliper, primaryType, secondaryType);
			m_pActiveRobotTask = createTransferTask(pAligner, pFliper, MaterialsType::G2, MaterialsType::G0);
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
			}

			if (!rmd.armState[0]) {
			m_pActiveRobotTask = createTransferTask(pAligner, pVacuumBake, primaryType, secondaryType);
			m_pActiveRobotTask = createTransferTask(pAligner, pVacuumBake, MaterialsType::G1, MaterialsType::G0);
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
			}


			// Aligner -> LoadPort
			// 15) Aligner -> LoadPort（restore）
			if (!rmd.armState[1]) {
			m_pActiveRobotTask = createTransferTask_restore(pAligner, pLoadPorts);
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
			}

			// 16) LoadPort -> Aligner（受组数门限控制；统一 buddy/状态时序）
			if (blockLoadFromLP) { unlock(); continue; }

			// LoadPort -> Aligner
			for (int s = 0; s < 4; s++) {
			PortType pt = pLoadPorts[s]->getPortType();
			if (!rmd.armState[0] && pLoadPorts[s]->isEnable()
			&& (pt == PortType::Loading \|\| pt == PortType::Both)
			&& pLoadPorts[s]->getPortStatus() == PORT_INUSE) {
			m_pActiveRobotTask = createTransferTask(pLoadPorts[s], pAligner, primaryType, secondaryType, m_bJobMode);

			m_pActiveRobotTask = createTransferTask(pLoadPorts[s], pAligner, primaryType, secondaryType, 1, m_bJobMode);
			if (m_pActiveRobotTask != nullptr) {
			CGlass* pGlass = (CGlass*)m_pActiveRobotTask->getContext();
			auto* pGlass = static_cast<CGlass*>(m_pActiveRobotTask->getContext());
			if (pGlass->getBuddy() != nullptr) {
			delete m_pActiveRobotTask;
			m_pActiveRobotTask = nullptr;
			delete m_pActiveRobotTask; m_pActiveRobotTask = nullptr;
			continue;
			}

			pEFEM->setContext(pGlass);
			// 统一：queue -> start -> setContext -> move queue→inProcess -> onPanelStart
			pGlass->queue();
			pGlass->start();
			pEFEM->setContext(pGlass);

			bool bMoved = glassFromQueueToInPorcess(pGlass);
			if (bMoved) {
			LOGI("<Master>Glass(%s)从等待列队到工艺列队转移成功.",
			pGlass->getID().c_str());
			LOGI("<Master>Glass(%s)从等待列队到工艺列队转移成功.", pGlass->getID().c_str());
			}
			else {
			LOGE("<Master>Glass(%s)从等待列队到工艺列队转移失败.",
			pGlass->getID().c_str());
			LOGE("<Master>Glass(%s)从等待列队到工艺列队转移失败.", pGlass->getID().c_str());
			}

			// 这里上报Panel Start事件
			if (m_listener.onPanelStart != nullptr) {
			m_listener.onPanelStart(this, pGlass);
			}

			if (m_listener.onPanelStart) m_listener.onPanelStart(this, pGlass);
			goto BATCH_PORT_GET;
			}
			}
			}

			BATCH_PORT_GET:
			BATCH_PORT_GET:
			CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);


			unlock();
			continue;
			}


			// 千传模式调度逻辑
			else if (m_state == MASTERSTATE::RUNNING_CONTINUOUS_TRANSFER) {
			@@ -1852,6 +1829,7 @@


			// 模拟测试
			/*
			static int aaa = 0;
			aaa++;
			if (aaa % 30 == 0) {
			@@ -1905,7 +1883,7 @@
			}
			}
			}

			*/
			}

			void CMaster::connectEquipments()
			@@ -2695,6 +2673,7 @@
			int nCount = 0;
			for (auto* pj : m_inProcesJobs) {
			// 遍历 PJ 的 carriers 和 slots
			if (pj->carriers().empty()) continue;
			for (auto& cs : pj->carriers()) {
			for (auto ctx : cs.contexts) {
			CGlass* pGlass = (CGlass*)ctx;
			@@ -2821,6 +2800,14 @@
			m_pControlJob = nullptr;
			}

			// 注意要释放引用
			m_inProcesJobs.clear();
			m_completeProcessJobs.clear();
			m_queueGlasses.clear();
			m_inProcesGlasses.clear();
			m_completeGlasses.clear();


			saveState();

			return true;