~chenluhua/Bond2.git

			@@ -222,6 +222,9 @@
			// 读缓存数据
			readCache();
			loadState();
			if (m_listener.onControlJobChanged) {
			m_listener.onControlJobChanged(this);
			}


			// 定时器
			@@ -1483,6 +1486,7 @@
			this->saveState();
			LOGE("<Master>ProcessJob(%s)完成.",
			pJob->id().c_str());
			processJobFromInPorcessToComplete(pJob);
			if (m_listener.onPjEnd != nullptr) {
			m_listener.onPjEnd(this, pJob);
			}
			@@ -1536,19 +1540,25 @@
			unlock();
			}
			};
			listener.onProcessStateChanged = [&](void* pEquipment, int slotNo, PROCESS_STATE state) -> void {
			listener.onProcessStateChanged = [&](void* pEquipment, int slotNo, PROCESS_STATE prevState, PROCESS_STATE state) -> void {
			ASSERT(1 <= slotNo && slotNo <= 8);
			int eqid = ((CEquipment*)pEquipment)->getID();
			CGlass* pGlass = ((CEquipment*)pEquipment)->getGlassFromSlot(slotNo);
			LOGI("<Master>onProcessStateChanged<%d>", (int)state);
			if (state == PROCESS_STATE::Processing) {
			if (pGlass != nullptr) {
			m_pCollector->batchStart(eqid,
			m_pCollector->batchStart(SlotToMid(eqid, slotNo),
			pGlass->getID().c_str(), 10 * 60 * 1000ULL);
			}
			}
			else if (state == PROCESS_STATE::Complete) {
			m_pCollector->batchStop(eqid);
			if (pGlass != nullptr) {
			m_pCollector->batchStop(SlotToMid(eqid, slotNo));
			}
			}

			if (m_listener.onProcessStateChanged != nullptr) {
			m_listener.onProcessStateChanged(this, (CEquipment*)pEquipment, slotNo, prevState, state);
			}
			};
			listener.onMapMismatch = [&](void* pEquipment, short scanMap, short downMap) {
			@@ -1643,14 +1653,14 @@

			CGlass* pGlass = ((CEquipment*)pEquipment)->getGlassFromSlot(2);
			auto& dataTypes = CServoUtilsTool::getEqDataTypes();
			auto& bonderTypes = dataTypes[eqid];
			auto& bonderTypes = dataTypes[SlotToMid(eqid, 2)];
			for (const auto& mapping : bonderMapping) {
			int paramIndex = mapping.first;
			int channel = mapping.second;

			if (paramIndex < params.size() && channel - 1 < bonderTypes.size()) {
			if(m_pCollector != nullptr)
			m_pCollector->buffersPush(eqid, channel, ts, params.at(paramIndex).getDoubleValue());
			m_pCollector->buffersPush(SlotToMid(eqid, 2), channel, ts, params.at(paramIndex).getDoubleValue());
			if(pGlass != nullptr)
			pGlass->addSVData(eqid, bonderTypes[channel - 1], ts, params.at(paramIndex).getDoubleValue());
			}
			@@ -1667,21 +1677,30 @@
			CGlass* pGlass1 = ((CEquipment*)pEquipment)->getGlassFromSlot(1);
			CGlass* pGlass2 = ((CEquipment*)pEquipment)->getGlassFromSlot(2);
			auto& dataTypes = CServoUtilsTool::getEqDataTypes();
			auto& vacuumbakeTypes = dataTypes[eqid];
			auto& vacuumbakeTypes = dataTypes[SlotToMid(eqid, 1)];
			LOGD("<Master>onSVDataReport 003 : %d", vacuumMapping.size());
			for (const auto& mapping : vacuumMapping) {
			int paramIndex = mapping.first;
			int channel = mapping.second;

			if (paramIndex < params.size() && channel - 1 < vacuumbakeTypes.size()) {
			double value = params.at(paramIndex).getDoubleValue();
			auto& param = params.at(paramIndex);
			double value = param.getDoubleValue();
			const std::string& dataType = vacuumbakeTypes[channel - 1];
			if (m_pCollector != nullptr)
			m_pCollector->buffersPush(eqid, channel, ts, value);
			const std::string& paramName = param.getName();
			const char slotTag = !paramName.empty() ? paramName[0] : '\0';

			if (m_pCollector != nullptr) {
			if (slotTag == 'A')
			m_pCollector->buffersPush(SlotToMid(eqid, 1), channel, ts, value);
			else if (slotTag == 'B')
			m_pCollector->buffersPush(SlotToMid(eqid, 2), channel, ts, value);
			}

			// 根据腔体前缀写入对应 Slot 的玻璃
			if (pGlass1 != nullptr && !dataType.empty() && dataType[0] == 'A')
			if (pGlass1 != nullptr && !dataType.empty() && slotTag == 'A')
			pGlass1->addSVData(eqid, dataType, ts, value);
			if (pGlass2 != nullptr && !dataType.empty() && dataType[0] == 'B')
			if (pGlass2 != nullptr && !dataType.empty() && slotTag == 'B')
			pGlass2->addSVData(eqid, dataType, ts, value);
			}
			}
			@@ -1699,7 +1718,7 @@
			CGlass* pGlass3 = ((CEquipment*)pEquipment)->getGlassFromSlot(3); // B Bake
			CGlass* pGlass4 = ((CEquipment*)pEquipment)->getGlassFromSlot(4); // B Cool
			auto& dataTypes = CServoUtilsTool::getEqDataTypes();
			auto& coolingTypes = dataTypes[eqid];
			auto& coolingTypes = dataTypes[SlotToMid(eqid, 1)];
			LOGD("<Master>onSVDataReport 003B : %d", coolingMapping.size());
			auto addToGlass = [&](CGlass* glass, const std::string& type, double val) {
			if (glass != nullptr)
			@@ -1710,24 +1729,33 @@
			int channel = mapping.second;

			if (paramIndex < params.size() && channel - 1 < coolingTypes.size()) {
			double value = params.at(paramIndex).getDoubleValue();
			auto& param = params.at(paramIndex);
			double value = param.getDoubleValue();
			const std::string& dataType = coolingTypes[channel - 1];
			if (m_pCollector != nullptr)
			m_pCollector->buffersPush(eqid, channel, ts, value);
			const std::string& paramName = param.getName();
			const char slotTag = !paramName.empty() ? paramName[0] : '\0';
			const bool paramIsBake = paramName.find("烘烤") != std::string::npos;
			const bool paramIsCooling = paramName.find("冷却") != std::string::npos;

			if (m_pCollector != nullptr && paramIsBake) {
			if (slotTag == 'A')
			m_pCollector->buffersPush(SlotToMid(eqid, 1), channel, ts, value);
			else if (slotTag == 'B')
			m_pCollector->buffersPush(SlotToMid(eqid, 3), channel, ts, value);
			}

			if (!dataType.empty()) {
			const bool isBake = dataType.find("烘烤") != std::string::npos;
			const bool isCooling = dataType.find("冷却") != std::string::npos;
			switch (dataType[0]) {
			switch (slotTag) {
			case 'A':
			if (isBake)
			if (paramIsBake)
			addToGlass(pGlass1, dataType, value);
			else if (isCooling)
			else if (paramIsCooling)
			addToGlass(pGlass2, dataType, value);
			break;
			case 'B':
			if (isBake)
			if (paramIsBake)
			addToGlass(pGlass3, dataType, value);
			else if (isCooling)
			else if (paramIsCooling)
			addToGlass(pGlass4, dataType, value);
			break;
			default:
			@@ -2010,6 +2038,173 @@
			}
			}


			// 模拟测试（无机器联机时用于联调 EAP）
			// 读取 test.ini（当前目录或 exe 同目录）
			{
			struct SimCfg {
			bool enabled{ false };
			DWORD intervalMs{ 5000 };
			int step{ 0 };
			};
			auto loadCfg = [&]() -> SimCfg {
			SimCfg cfg;

			// Try INI: current dir, then exe dir
			char iniPath[MAX_PATH] = { 0 };
			strcpy_s(iniPath, "test.ini");
			auto readIni = [&](const char* path) -> bool {
			const UINT en = GetPrivateProfileIntA("SimEap", "Enabled", 0, path);
			if (en == 0) return false; // treat as missing/disabled
			cfg.enabled = (en != 0);
			cfg.intervalMs = (DWORD)GetPrivateProfileIntA("SimEap", "IntervalMs", 5000, path);
			cfg.intervalMs = max(500u, cfg.intervalMs);
			cfg.step = (int)GetPrivateProfileIntA("SimEap", "Step", 0, path);
			return true;
			};
			if (!readIni(iniPath)) {
			char exePath[MAX_PATH] = { 0 };
			GetModuleFileNameA(NULL, exePath, MAX_PATH);
			char* lastSlash = strrchr(exePath, '\\');
			if (lastSlash != nullptr) {
			*(lastSlash + 1) = '\0';
			strcat_s(exePath, "test.ini");
			readIni(exePath);
			}
			}
			return cfg;
			};

			const SimCfg cfg = loadCfg();
			if (cfg.enabled) {
			static DWORD lastTick = 0;
			static int lastExecutedStep = -1;
			static bool inited = false;
			static SERVO::CGlass simGlass;
			static SERVO::CVcrEventReport simVcr;
			static SERVO::CProcessJob simPj("PJ1001");
			static SERVO::CControlJob simCj("CJ5007");

			if (!inited) {
			inited = true;
			simGlass.setID("SIM_PANEL_001");
			simVcr.getGlassId() = "SIM_PANEL_001";
			}

			DWORD now = GetTickCount();
			if (lastTick == 0) lastTick = now;
			if ((now - lastTick) < cfg.intervalMs) {
			return;
			}
			lastTick = now;

			// 单步触发：每个 Step 只执行一次；你手动修改 ini 的 Step 值后会再次触发
			const int step = cfg.step;
			if (step <= 0 \|\| step == lastExecutedStep) {
			return;
			}
			lastExecutedStep = step;

			// 取一个 LoadPort 作为模拟目标
			SERVO::CLoadPort* pLpEq = (SERVO::CLoadPort*)getEquipment(EQ_ID_LOADPORT1);

			auto fireLoadPortStatus = [&](short status) {
			pLpEq->simulateSetCassetteId("Test-Cassette-001");
			if (m_listener.onLoadPortStatusChanged != nullptr && pLpEq != nullptr) {
			m_listener.onLoadPortStatusChanged(this, pLpEq, status, 0);
			}
			};
			auto fireProcessState = [&](SERVO::CEquipment* pEq, int slotNo, SERVO::PROCESS_STATE st) {
			// Drive equipment state so listeners receive prev/current states consistently.
			if (pEq != nullptr) {
			pEq->fireSetProcessState(slotNo, st);
			}
			};

			LOGI("<Master>SIM_EAP single-step=%d", step);
			switch (step) {
			// ===== 业务流程步骤（1~23）=====
			case 1: // E87_06 Material Arrived(TransferBlock) -> Port Blocked
			fireLoadPortStatus(PORT_BLOCKED);
			break;
			case 2: // E87_03 CarrierID Readed -> Port InUse
			fireLoadPortStatus(PORT_INUSE);
			break;
			case 3: // S1F3 Query CJ Space (Host->EQ) - wait host
			LOGI("<Master>SIM_EAP step3: wait host S1F3");
			break;
			case 4: // S16F21 Query PJ Space (Host->EQ) - wait host
			LOGI("<Master>SIM_EAP step4: wait host S16F21");
			break;
			case 5: // S7F19 Query PPID List (Host->EQ) - wait host
			LOGI("<Master>SIM_EAP step5: wait host S7F19");
			break;
			case 6: // S3F17 ProceedWithCarrier (Host->EQ) - wait host
			LOGI("<Master>SIM_EAP step6: wait host S3F17 ProceedWithCarrier");
			break;
			case 7: // E87_14 Check SlotMap (设备上报/进入 WFH) - 由 PORT_INUSE 内部触发
			fireLoadPortStatus(PORT_INUSE);
			break;
			case 8: // S3F17 ProceedWithSlotMap (Host->EQ) - wait host
			LOGI("<Master>SIM_EAP step8: wait host S3F17 ProceedWithSlotMap");
			break;
			case 9: // SlotMap Verify OK (本项目在收到 ProceedWithSlotMap 后上报) - wait host
			LOGI("<Master>SIM_EAP step9: wait host ProceedWithSlotMap to trigger VerifyOK");
			break;
			case 10: // Create PJ (Host->EQ) - wait host
			LOGI("<Master>SIM_EAP step10: wait host S16F15 CreateMultiPJ");
			break;
			case 11: // PJ Queued（本项目在创建 PJ 后上报） - wait host
			LOGI("<Master>SIM_EAP step11: wait host CreateMultiPJ to trigger PJ_Queued");
			break;
			case 12: // Create CJ (Host->EQ) - wait host
			LOGI("<Master>SIM_EAP step12: wait host S14F9 CreateCJ");
			break;
			case 13: // CJ Start
			if (m_listener.onCjStart != nullptr) m_listener.onCjStart(this, &simCj);
			break;
			case 14: // PJ Start
			if (m_listener.onPjStart != nullptr) m_listener.onPjStart(this, &simPj);
			break;
			case 15: // OCR
			if (m_listener.onEqVcrEventReport != nullptr && pLpEq != nullptr) {
			m_listener.onEqVcrEventReport(this, pLpEq, &simVcr);
			}
			break;
			case 16: // Panel Start
			if (m_listener.onPanelStart != nullptr) m_listener.onPanelStart(this, &simGlass);
			// 同时触发一次子机台开始（示例：Bonder1, slot 1）
			fireProcessState(getEquipment(EQ_ID_Bonder1), 1, SERVO::PROCESS_STATE::Processing);
			break;
			case 17: // Panel End
			// 同时触发一次子机台结束（示例：Bonder1, slot 1）
			fireProcessState(getEquipment(EQ_ID_Bonder1), 1, SERVO::PROCESS_STATE::Complete);
			if (m_listener.onPanelEnd != nullptr) m_listener.onPanelEnd(this, &simGlass);
			break;
			case 18: // PJ End
			if (m_listener.onPjEnd != nullptr) m_listener.onPjEnd(this, &simPj);
			break;
			case 19: // CJ End
			if (m_listener.onCjEnd != nullptr) m_listener.onCjEnd(this, &simCj);
			break;
			case 20: // Ready to Release (Port Unload Ready; with prev INUSE will also trigger ReadyToRelease)
			fireLoadPortStatus(PORT_UNLOAD_READY);
			break;
			case 21: // CarrierRelease (Host->EQ) - optional / wait host
			LOGI("<Master>SIM_EAP step21: wait host S3F17 CarrierRelease");
			break;
			case 22: // Ready to Unload
			fireLoadPortStatus(PORT_UNLOAD_READY);
			break;
			case 23: // Material Removed (and ReadyToLoad)
			fireLoadPortStatus(PORT_LOAD_READY);
			fireLoadPortStatus(PORT_EMPTY); // will also raise LoadPortNotAssoc via Model
			break;
			default:
			break;
			}
			}
			}


			// 模拟测试
			@@ -2580,15 +2775,31 @@
			}
			m_processJobs = temp;

			// 重置各端口 DownloadMap（Host/本地勾选的期望加工槽位）
			for (int i = 0; i < 4; i++) {
			auto* pPort = (CLoadPort*)getEquipment(EQ_ID_LOADPORT1 + i);
			if (pPort != nullptr) {
			pPort->setDownloadCassetteMap(0);
			}
			}


			// 更新context
			std::vector<uint8_t> newSlots;
			std::vector<void*> newContexts;
			for (auto pj : m_processJobs) {
			for (auto& c : pj->carriers()) {
			auto pPort = getPortWithCarrierId(c.carrierId);
			if (pPort == nullptr) continue;

			short downloadMap = 0;
			for (auto s : c.slots) {
			if (s >= 1 && s <= 8) {
			downloadMap \|= (short)(1 << (s - 1));
			}
			}
			pPort->setDownloadCassetteMap((short)(pPort->getDownloadCassetteMap() \| downloadMap));

			std::vector<uint8_t> newSlots;
			std::vector<void*> newContexts;
			for (auto s : c.slots) {
			auto pGlass = pPort->getGlassFromSlot(s);
			if (pGlass == nullptr) continue;
			@@ -2604,6 +2815,9 @@


			this->saveState();
			if (m_listener.onControlJobChanged) {
			m_listener.onControlJobChanged(this);
			}

			return (int)m_processJobs.size();
			}
			@@ -2661,6 +2875,9 @@
			}
			m_pControlJob->setPJs(temps);
			this->saveState();
			if (m_listener.onControlJobChanged) {
			m_listener.onControlJobChanged(this);
			}


			return 0;
			@@ -3003,6 +3220,9 @@


			saveState();
			if (m_listener.onControlJobChanged) {
			m_listener.onControlJobChanged(this);
			}

			return true;
			}
			@@ -3037,6 +3257,9 @@


			saveState();
			if (m_listener.onControlJobChanged) {
			m_listener.onControlJobChanged(this);
			}

			return true;
			}
			@@ -3174,29 +3397,60 @@

			// 1) 注册机台（推荐：先注册 id + 机器名称）
			RetentionPolicy defP; defP.mode = RetainMode::ByCount; defP.maxSamples = 200;
			m_pCollector->registryAddMachine(EQ_ID_Bonder1, "Bonder1", defP);
			m_pCollector->registryAddMachine(EQ_ID_Bonder2, "Bonder2", defP);
			m_pCollector->registryAddMachine(EQ_ID_VACUUMBAKE, "前烘烤", defP);
			m_pCollector->registryAddMachine(EQ_ID_BAKE_COOLING, "烘烤冷却", defP);
			m_pCollector->registryAddMachine(MID_Bonder1, "Bonder1", defP);
			m_pCollector->registryAddMachine(MID_Bonder2, "Bonder2", defP);
			m_pCollector->registryAddMachine(MID_VacuumBakeA, "前烘-A", defP);
			m_pCollector->registryAddMachine(MID_VacuumBakeB, "前烘-B", defP);
			m_pCollector->registryAddMachine(MID_BakeCoolingA, "后烘-A", defP);
			m_pCollector->registryAddMachine(MID_BakeCoolingB, "后烘-B", defP);


			// 2) 为通道设置“曲线名称”
			auto& dataTypes = CServoUtilsTool::getEqDataTypes();
			auto& bonderTypes = dataTypes[EQ_ID_Bonder1];
			auto& bonderTypes = dataTypes[MID_Bonder1];
			for (size_t i = 0; i < bonderTypes.size(); ++i) {
			m_pCollector->buffersSetChannelName(EQ_ID_Bonder1, i + 1, bonderTypes[i].c_str());
			m_pCollector->buffersSetChannelName(EQ_ID_Bonder2, i + 1, bonderTypes[i].c_str());
			m_pCollector->buffersSetChannelName(MID_Bonder1, i + 1, bonderTypes[i].c_str());
			m_pCollector->buffersSetChannelName(MID_Bonder2, i + 1, bonderTypes[i].c_str());
			}

			auto& vacuumbakeTypes = dataTypes[EQ_ID_VACUUMBAKE];
			auto& vacuumbakeTypes = dataTypes[MID_VacuumBakeA];
			for (size_t i = 0; i < vacuumbakeTypes.size(); ++i) {
			m_pCollector->buffersSetChannelName(EQ_ID_VACUUMBAKE, i + 1, vacuumbakeTypes[i].c_str());
			m_pCollector->buffersSetChannelName(MID_VacuumBakeA, i + 1, vacuumbakeTypes[i].c_str());
			m_pCollector->buffersSetChannelName(MID_VacuumBakeB, i + 1, vacuumbakeTypes[i].c_str());
			}

			auto& coolingTypes = dataTypes[EQ_ID_BAKE_COOLING];
			auto& coolingTypes = dataTypes[MID_BakeCoolingA];
			for (size_t i = 0; i < coolingTypes.size(); ++i) {
			m_pCollector->buffersSetChannelName(EQ_ID_VACUUMBAKE, i + 1, coolingTypes[i].c_str());
			m_pCollector->buffersSetChannelName(MID_BakeCoolingA, i + 1, coolingTypes[i].c_str());
			m_pCollector->buffersSetChannelName(MID_BakeCoolingB, i + 1, coolingTypes[i].c_str());
			}
			}
			}

			uint32_t CMaster::SlotToMid(int eqid, int slot)
			{
			if (eqid == EQ_ID_Bonder1) {
			return MID_Bonder1;
			}

			if (eqid == EQ_ID_Bonder2) {
			return MID_Bonder2;
			}

			if (eqid == EQ_ID_VACUUMBAKE) {
			if(slot == 1)
			return MID_VacuumBakeA;
			if (slot == 2)
			return MID_VacuumBakeB;
			}

			if (eqid == EQ_ID_BAKE_COOLING) {
			if (slot == 1)
			return MID_BakeCoolingA;
			if (slot == 3)
			return MID_BakeCoolingB;
			}

			return 0;
			}
			}