~chenluhua/Bond2.git

			@@ -7,26 +7,11 @@
			#include "Servo.h"


			#define CHECK_READ_STEP_SIGNAL(addr, data, size) { \
			BOOL bFlag = isBitOn(data, size, addr); \
			SERVO::CStep* pStep = getStep(addr); \
			if (pStep != nullptr) { \
			((CReadStep*)pStep)->onReadSignal(bFlag ? addr : 0); \
			} \
			}

			#define CHECK_WRITE_STEP_SIGNAL(addr, data, size) { \
			BOOL bFlag = isBitOn(data, size, addr); \
			SERVO::CStep* pStep = getStep(addr); \
			if (pStep != nullptr) { \
			((CWriteStep*)pStep)->onRecvSignal(bFlag ? addr : 0); \
			} \
			}

			namespace SERVO {

			CEquipment::CEquipment() : m_nID(0), m_strName(""), m_strDescription(""), m_station(0, 255)
			{
			m_bEnable = TRUE;
			m_listener = { };
			m_alive = { FALSE, 0, FALSE };
			m_bCimState = FALSE;
			@@ -35,9 +20,13 @@
			m_bLocalAlarm = FALSE;
			m_bAutoRecipeChange = FALSE;
			m_bVCREnable[0] = FALSE;
			memset(m_bLinkSignalToUpstream, 0, sizeof(m_bLinkSignalToUpstream));
			memset(m_bLinkSignalToDownstream, 0, sizeof(m_bLinkSignalToDownstream));
			m_pCclink = nullptr;
			m_nBaseAlarmId = 0;
			m_pArm = nullptr;
			m_processState = PROCESS_STATE::Ready;
			m_blockReadBit = { 0 };
			InitializeCriticalSection(&m_criticalSection);
			}

			@@ -46,7 +35,6 @@
			for (int i = 0; i < SLOT_MAX; i++) {
			CContext* pContext = m_slot[i].getContext();
			if (pContext != nullptr) {
			pContext->release();
			m_slot[i].setContext(nullptr);
			}
			}
			@@ -67,6 +55,16 @@
			m_outputPins.clear();

			DeleteCriticalSection(&m_criticalSection);
			}

			void CEquipment::SetEnable(BOOL bEnable)
			{
			m_bEnable = bEnable;
			}

			BOOL CEquipment::IsEnabled() const
			{
			return m_bEnable;
			}

			void CEquipment::setListener(EquipmentListener listener)
			@@ -142,6 +140,16 @@
			pStep->setCcLink(m_pCclink);
			m_mapStep[addr] = pStep;
			return 0;
			}

			void CEquipment::setProcessState(PROCESS_STATE state)
			{
			m_processState = state;
			onProcessStateChanged(m_processState);

			if (m_listener.onProcessStateChanged != nullptr) {
			m_listener.onProcessStateChanged(this, m_processState);
			}
			}

			void CEquipment::init()
			@@ -255,13 +263,21 @@
			if (!m_slot[i].isEnable()) continue;

			CGlass* pGlass = (CGlass*)m_slot[i].getContext();
			CGlass* pBuddy = nullptr;
			if (pGlass == nullptr) {
			attrubutes.addAttribute(new CAttribute(m_slot[i].getName().c_str(),
			"", "", weight++));
			}
			else {
			attrubutes.addAttribute(new CAttribute(m_slot[i].getName().c_str(),
			pGlass->getID().c_str(), "", weight++));
			pBuddy = pGlass->getBuddy();
			if (pBuddy == nullptr) {
			attrubutes.addAttribute(new CAttribute(m_slot[i].getName().c_str(),
			pGlass->getID().c_str(), "", weight++));
			}
			else {
			attrubutes.addAttribute(new CAttribute(m_slot[i].getName().c_str(),
			(pGlass->getID() + " -> " + pBuddy->getID()).c_str(), "", weight++));
			}
			}

			}
			@@ -317,8 +333,13 @@
			Lock();
			for (int i = 0; i < SLOT_MAX; i++) {
			m_slot[i].serialize(ar);
			if (m_slot[i].getContext() != nullptr) {
			((CGlass*)m_slot[i].getContext())->serialize(ar);
			CGlass* pGlass = (CGlass *)m_slot[i].getContext();
			if (pGlass != nullptr) {
			pGlass->serialize(ar);
			CGlass* pBuddy = pGlass->getBuddy();
			if (pBuddy != nullptr) {
			pBuddy->serialize(ar);
			}
			}
			}
			Unlock();
			@@ -326,24 +347,32 @@
			else {
			for (int i = 0; i < SLOT_MAX; i++) {
			m_slot[i].serialize(ar);
			if (m_slot[i].getContext() != nullptr) {
			if (m_slot[i].getTempContext() != nullptr) {
			CGlass* pGlass = theApp.m_model.m_glassPool.allocaGlass();
			pGlass->serialize(ar);
			m_slot[i].setContext(pGlass);
			if (pGlass->getBuddy() != nullptr) {
			CGlass* pBuddy = theApp.m_model.m_glassPool.allocaGlass();
			pBuddy->serialize(ar);
			pGlass->forceSetBuddy(pBuddy);
			}
			}
			}

			// 梳理各玻璃之间的绑定关系
			/*
			Lock();
			std::list<CGlass*> list = m_glassList;
			for (auto item : list) {
			std::string& strBuddyId = item->getBuddyId();
			if (!strBuddyId.empty()) {
			for (auto item2 : m_glassList) {
			if (strBuddyId.compare(item2->getID()) == 0) {
			item->setBuddy(item2);
			TRACE("绑定关系: %s <- %s\n", item->getID().c_str(), item2->getID().c_str());
			for (int i = 0; i < SLOT_MAX; i++) {
			CGlass* pGlass = (CGlass*)m_slot[i].getContext();
			if (pGlass != nullptr) {
			std::string& strBuddyId = pGlass->getBuddyId();
			if (!strBuddyId.empty()) {
			for (int j = 0; j < SLOT_MAX; j++) {
			CGlass* pBudy = (CGlass*)m_slot[j].getContext();
			if (pBudy != nullptr && strBuddyId.compare(pBudy->getID()) == 0) {
			pGlass->setBuddy(pBudy);
			TRACE("绑定关系: %s <- %s\n", pGlass->getID().c_str(), pBudy->getID().c_str());
			}
			}
			}
			}
			@@ -363,9 +392,38 @@
			}
			*/

			// 以下解释和处理数据
			// 连接信号解释和保存
			BOOL bFlag;
			int index = 0x540;
			int index = 0;
			for (int i = 0; i < 8; i++) {
			m_bLinkSignalToUpstream[i][SIGNAL_UPSTREAM_INLINE] = isBitOn(pszData, size, index + 0);
			m_bLinkSignalToUpstream[i][SIGNAL_UPSTREAM_TROUBLE] = isBitOn(pszData, size, index + 1);
			m_bLinkSignalToUpstream[i][SIGNAL_INTERLOCK] = isBitOn(pszData, size, index + 2);
			m_bLinkSignalToUpstream[i][SIGNAL_SEND_ABLE] = isBitOn(pszData, size, index + 3);
			index += 0x40;

			if (m_bLinkSignalToUpstream[i][SIGNAL_SEND_ABLE]) {
			onSendAble(i+1);
			}
			}


			index += 0x40 * 2;
			for (int i = 0; i < 8; i++) {
			m_bLinkSignalToDownstream[i][SIGNAL_UPSTREAM_INLINE] = isBitOn(pszData, size, index + 0);
			m_bLinkSignalToDownstream[i][SIGNAL_UPSTREAM_TROUBLE] = isBitOn(pszData, size, index + 1);
			m_bLinkSignalToDownstream[i][SIGNAL_INTERLOCK] = isBitOn(pszData, size, index + 2);
			m_bLinkSignalToDownstream[i][SIGNAL_RECEIVE_ABLE] = isBitOn(pszData, size, index + 3);
			index += 0x40;

			if (m_bLinkSignalToDownstream[0][SIGNAL_RECEIVE_ABLE]) {
			onReceiveAble(i + 1);
			}
			}


			// 其它信号及响应
			index = 0x540;


			// alive
			@@ -467,8 +525,12 @@
			// EQ Job Event
			CHECK_READ_STEP_SIGNAL(STEP_ID_RECIVE_JOB_UPS1, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_RECIVE_JOB_UPS2, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_RECIVE_JOB_UPS3, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_RECIVE_JOB_UPS4, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_SENT_OUT_JOB_DOWNS1, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_SENT_OUT_JOB_DOWNS2, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_SENT_OUT_JOB_DOWNS3, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_SENT_OUT_JOB_DOWNS4, pszData, size);

			// Store Job Report #1~15
			CHECK_READ_STEP_SIGNAL(STEP_ID_STORE_JOB_REPORT1, pszData, size);
			@@ -530,6 +592,30 @@
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT4_INUSE, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT4_UNLOAD_READY, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT4_BLOCKED, pszData, size);

			// robot cmd reply
			CHECK_WRITE_STEP_SIGNAL(STEP_ID_ROBOT_CMD_REPLY, pszData, size);

			// Indexer Operation Mode Change
			CHECK_WRITE_STEP_SIGNAL(STEP_ID_IN_OP_CMD_REPLY, pszData, size);

			// Panel Data Report
			CHECK_READ_STEP_SIGNAL(STEP_ID_PANEL_DATA_REPORT, pszData, size);

			// Panel Data Request
			CHECK_WRITE_STEP_SIGNAL(STEP_ID_PANEL_DATA_REQUEST, pszData, size);

			// Job Data Request
			CHECK_READ_STEP_SIGNAL(STEP_ID_JOB_DATA_REQUEST, pszData, size);

			// job process start/end report
			CHECK_READ_STEP_SIGNAL(STEP_ID_JOB_PROCESS_START_REPORT, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_JOB_PROCESS_END_REPORT, pszData, size);

			CHECK_WRITE_STEP_SIGNAL(STEP_ID_PROT1_CASSETTE_CTR_CMD_REPLY, pszData, size);
			CHECK_WRITE_STEP_SIGNAL(STEP_ID_PROT2_CASSETTE_CTR_CMD_REPLY, pszData, size);
			CHECK_WRITE_STEP_SIGNAL(STEP_ID_PROT3_CASSETTE_CTR_CMD_REPLY, pszData, size);
			CHECK_WRITE_STEP_SIGNAL(STEP_ID_PROT4_CASSETTE_CTR_CMD_REPLY, pszData, size);
			}

			BOOL CEquipment::isBitOn(const char* pszData, size_t size, int index)
			@@ -580,6 +666,50 @@
			{
			if (index >= VCR_MAX) return FALSE;
			return m_bVCREnable[index];
			}

			BOOL CEquipment::isLinkSignalUpstreamOn(unsigned int path, unsigned int signal)
			{
			if (path >= PATH_MAX) return FALSE;
			if (signal >= SIGNAL_MAX) return FALSE;
			return m_bLinkSignalToUpstream[path][signal];
			}

			BOOL CEquipment::isLinkSignalDownstreamOn(unsigned int path, unsigned int signal)
			{
			if (path >= PATH_MAX) return FALSE;
			if (signal >= SIGNAL_MAX) return FALSE;
			return m_bLinkSignalToDownstream[path][signal];
			}

			void CEquipment::setLinkSignalUpstream(unsigned int path, unsigned int signal, BOOL bOn)
			{
			if (path >= PATH_MAX) return;
			if (signal >= SIGNAL_MAX) return;
			m_bLinkSignalToUpstream[path][signal] = bOn;
			}

			void CEquipment::setLinkSignalUpstreamBlock(unsigned int path, BOOL* pSignal)
			{
			if (path >= PATH_MAX) return;
			for (int i = 0; i < SIGNAL_MAX; i++) {
			m_bLinkSignalToUpstream[path][i] = pSignal[i];
			}
			}

			void CEquipment::setLinkSignalDownstream(unsigned int path, unsigned int signal, BOOL bOn)
			{
			if (path >= PATH_MAX) return;
			if (signal >= SIGNAL_MAX) return;
			m_bLinkSignalToDownstream[path][signal] = bOn;
			}

			void CEquipment::setLinkSignalDownstreamBlock(unsigned int path, BOOL* pSignal)
			{
			if (path >= PATH_MAX) return;
			for (int i = 0; i < SIGNAL_MAX; i++) {
			m_bLinkSignalToDownstream[path][i] = pSignal[i];
			}
			}

			int CEquipment::onStepEvent(CStep* pStep, int code)
			@@ -677,6 +807,11 @@
			return m_outputPins;
			}

			CRecipeList* CEquipment::getRecipeList(int unitNo)
			{
			return m_recipesManager.getRecipeList(unitNo);
			}

			int CEquipment::recvIntent(CPin* pPin, CIntent* pIntent)
			{
			ASSERT(pPin);
			@@ -709,7 +844,7 @@
			return 0;
			}

			int CEquipment::fetchedOutJob(CJobDataB* pJobDataB)
			int CEquipment::fetchedOutJob(int port, CJobDataB* pJobDataB)
			{
			if (m_pArm == nullptr) {
			return -1;
			@@ -720,8 +855,9 @@
			CGlass* pContext = nullptr;
			for (int i = 0; i < SLOT_MAX; i++) {
			CGlass* pGlass = (CGlass*)m_slot[i].getContext();
			if (pGlass != nullptr && compareJobDataB(pJobDataB, pGlass->getJobDataB())) {
			if (pGlass != nullptr && compareJobData(pJobDataB, pGlass->getJobDataS())) {
			pContext = pGlass;
			if (pGlass != nullptr) pGlass->addRef();
			m_slot[i].setContext(nullptr);
			break;
			}
			@@ -731,23 +867,14 @@
			return -3;
			}

			// 如果此玻璃已经贴合，贴合的玻璃也要从列表中移除
			CGlass* pBuddy = pContext->getBuddy();
			if (pBuddy != nullptr) {
			for (int i = 0; i < SLOT_MAX; i++) {
			CGlass* pGlass = (CGlass*)m_slot[i].getContext();
			if (pGlass != nullptr && compareJobDataB(pBuddy->getJobDataB(), pGlass->getJobDataB())) {
			pContext->release();
			m_slot[i].setContext(nullptr);
			break;
			}
			}
			}


			((CArm*)m_pArm)->tempStore(pContext);
			pContext->release();
			Unlock();


			if (m_processState != PROCESS_STATE::Ready) {
			setProcessState(PROCESS_STATE::Ready);
			}

			if (m_listener.onDataChanged != nullptr) {
			m_listener.onDataChanged(this, EDCC_FETCHOUT_JOB);
			@@ -756,7 +883,7 @@
			return 0;
			}

			int CEquipment::storedJob(CJobDataB* pJobDataB, short& putSlot)
			int CEquipment::storedJob(int port, CJobDataB* pJobDataB, short putSlot)
			{
			if (m_pArm == nullptr) {
			return -1;
			@@ -770,28 +897,19 @@

			ASSERT(pGlass);
			Lock();
			pGlass->addPath(m_nID);
			pGlass->addPath(m_nID, getSlotUnit(putSlot));
			m_slot[putSlot - 1].setContext(pGlass);
			pGlass->release(); // tempFetchOut需要调用一次release
			Unlock();


			// 如果此玻璃已经贴合，贴合的玻璃也要从加入到列表中
			/*
			CGlass* pBuddy = pGlass->getBuddy();
			if (pBuddy != nullptr) {
			Lock();
			pBuddy->addPath(m_nID);
			pBuddy->addRef(); // 加入list,addRef
			m_glassList.push_back(pBuddy);
			Unlock();
			if (m_processState != PROCESS_STATE::Processing) {
			setProcessState(PROCESS_STATE::Processing);
			}
			*/

			if (m_listener.onDataChanged != nullptr) {
			m_listener.onDataChanged(this, EDCC_STORED_JOB);
			}


			return 0;
			}

			@@ -804,6 +922,74 @@
			}

			return FALSE;
			}

			CGlass* CEquipment::getGlass(const char* pszGlassId)
			{
			for (int i = 0; i < SLOT_MAX; i++) {
			if (!m_slot[i].isEnable()) continue;
			CGlass* pGlass = (CGlass*)m_slot[i].getContext();
			if (pGlass == nullptr) continue;
			if (pGlass->getID().compare(pszGlassId) == 0) {
			return pGlass;
			}
			}

			return nullptr;
			}

			CGlass* CEquipment::getGlassFromSlot(int slotNo)
			{
			CSlot* pSlot = nullptr;
			for (int i = 0; i < SLOT_MAX; i++) {
			if (!m_slot[i].isEnable()) continue;
			if (m_slot[i].getNo() != slotNo) continue;
			pSlot = &m_slot[i];
			break;
			}

			if (pSlot != nullptr) {
			return (CGlass*)pSlot->getContext();
			}

			return nullptr;
			}

			CGlass* CEquipment::getGlassWithCassette(int cassetteSequenceNo, int jobSequenceNo)
			{
			for (int i = 0; i < SLOT_MAX; i++) {
			if (!m_slot[i].isEnable()) continue;
			CGlass* pGlass = (CGlass*)m_slot[i].getContext();
			if (pGlass == nullptr) continue;
			CJobDataS* pJobDataS = pGlass->getJobDataS();
			ASSERT(pJobDataS);
			if (pJobDataS->getCassetteSequenceNo() == cassetteSequenceNo
			&& pJobDataS->getJobSequenceNo() == jobSequenceNo) {
			return pGlass;
			}
			}


			return nullptr;
			}

			CJobDataS* CEquipment::getJobDataSWithCassette(int cassetteSequenceNo, int jobSequenceNo)
			{
			CSlot* pSlot = nullptr;
			for (int i = 0; i < SLOT_MAX; i++) {
			if (!m_slot[i].isEnable()) continue;
			CGlass* pGlass = (CGlass*)m_slot[i].getContext();
			if (pGlass == nullptr) continue;
			CJobDataS* pJobDataS = pGlass->getJobDataS();
			ASSERT(pJobDataS);
			if (pJobDataS->getCassetteSequenceNo() == cassetteSequenceNo
			&& pJobDataS->getJobSequenceNo() == jobSequenceNo) {
			return pJobDataS;
			}
			}


			return nullptr;
			}

			bool CEquipment::isAlarmStep(SERVO::CStep* pStep)
			@@ -943,35 +1129,40 @@
			return 0;
			}

			int CEquipment::indexerOperationModeChange(IDNEXER_OPERATION_MODE mode, ONWRITED onWritedBlock/* = nullptr*/)
			int CEquipment::indexerOperationModeChange(IDNEXER_OPERATION_MODE mode, ONWRITEDRET onWritedRetBlock)
			{
			SERVO::CEqWriteStep* pStep = (SERVO::CEqWriteStep*)getStepWithName(STEP_EFEM_IN_OP_MODE_CHANGE);
			SERVO::CEqWriteStep* pStep = (SERVO::CEqWriteStep*)getStepWithName(STEP_EQ_IN_OP_MODE_CHANGE);
			if (pStep == nullptr) {
			return -1;
			}

			unsigned short operationMode = (unsigned short)((unsigned short)mode + getIndexerOperationModeBaseValue());
			LOGI("<CEquipment-%s>准备设置indexerOperationMode<%d>", m_strName.c_str(), (int)mode);
			if (onWritedBlock != nullptr) {
			pStep->writeShort(operationMode, onWritedBlock);
			}
			else {
			pStep->writeShort(operationMode, [&, mode](int code) -> int {
			if (code == WOK) {
			LOGI("<CEquipment-%s>设置indexerOperationMode成功.", m_strName.c_str());
			}
			else {
			LOGI("<CEquipment-%s>设置indexerOperationMode失败，code:%d", m_strName.c_str(), code);
			}
			pStep->writeShort(operationMode, [&, pStep, mode, onWritedRetBlock](int code) -> int {
			int retCode = 0;
			if (code == WOK) {
			LOGI("<CEquipment-%s>设置indexerOperationMode成功.", m_strName.c_str());
			const char* pszRetData = nullptr;
			pStep->getReturnData(pszRetData);
			ASSERT(pszRetData);
			retCode = (unsigned int)CToolUnits::toInt16(pszRetData);
			LOGI("<CEquipment-%s>返回值: %d", m_strName.c_str(), retCode);
			}
			else {
			LOGI("<CEquipment-%s>设置indexerOperationMode失败，code:%d", m_strName.c_str(), code);
			}

			return 0;
			});
			}
			if (onWritedRetBlock != nullptr) {
			onWritedRetBlock(code, retCode);
			}

			return 0;
			});

			return 0;
			}

			int CEquipment::masterRecipeListRequest(short unitNo)
			int CEquipment::masterRecipeListRequest(short unitNo, ONSYNCINGSTATECHANGED block)
			{
			SERVO::CEqWriteStep* pStep = (SERVO::CEqWriteStep*)getStepWithName(STEP_EQ_MASTER_RECIPE_LIST_REQ);
			if (pStep == nullptr) {
			@@ -979,6 +1170,7 @@
			}

			LOGI("<CEquipment-%s>正在请求单元<%d>主配方列表", m_strName.c_str(), unitNo);
			m_recipesManager.setOnSyncingStateChanged(block);
			if (m_recipesManager.syncing() != 0) {
			return -2;
			}
			@@ -1040,6 +1232,11 @@
			if (!m_slot[i].isEnable()) continue;
			if (m_slot[i].isLock()) continue;
			if (!m_slot[i].isEmpty()) continue;
			int lsPath = m_slot[i].getLinkSignalPath();
			if (!m_bLinkSignalToDownstream[lsPath][SIGNAL_UPSTREAM_INLINE]
			\|\| m_bLinkSignalToDownstream[lsPath][SIGNAL_UPSTREAM_TROUBLE]
			\|\| !m_bLinkSignalToDownstream[lsPath][SIGNAL_INTERLOCK]
			\|\| !m_bLinkSignalToDownstream[lsPath][SIGNAL_RECEIVE_ABLE]) continue;

			MaterialsType slotType = m_slot[i].getType();
			if (type == MaterialsType::G1 && slotType == MaterialsType::G2) continue;
			@@ -1049,6 +1246,65 @@
			}

			return nullptr;
			}

			CSlot* CEquipment::getAvailableSlotForGlassExcludeSignal(MaterialsType type)
			{
			for (int i = 0; i < SLOT_MAX; i++) {
			if (!m_slot[i].isEnable()) continue;
			if (m_slot[i].isLock()) continue;
			if (!m_slot[i].isEmpty()) continue;

			MaterialsType slotType = m_slot[i].getType();
			if (type == MaterialsType::G1 && slotType == MaterialsType::G2) continue;
			if (type == MaterialsType::G2 && slotType == MaterialsType::G1) continue;

			return &m_slot[i];
			}

			return nullptr;
			}

			CSlot* CEquipment::getAvailableSlotForGlass2(MaterialsType type, const std::vector<int>& candidates)
			{
			for (auto item : candidates) {
			for (int i = 0; i < SLOT_MAX; i++) {
			if (item == i + 1) {
			if (!m_slot[i].isEnable()) continue;
			if (m_slot[i].isLock()) continue;
			if (!m_slot[i].isEmpty()) continue;

			int lsPath = m_slot[i].getLinkSignalPath();
			if (!m_bLinkSignalToDownstream[lsPath][SIGNAL_UPSTREAM_INLINE]
			\|\| m_bLinkSignalToDownstream[lsPath][SIGNAL_UPSTREAM_TROUBLE]
			\|\| !m_bLinkSignalToDownstream[lsPath][SIGNAL_INTERLOCK]
			\|\| !m_bLinkSignalToDownstream[lsPath][SIGNAL_RECEIVE_ABLE]) continue;

			MaterialsType slotType = m_slot[i].getType();
			if (type == MaterialsType::G1 && slotType == MaterialsType::G2) continue;
			if (type == MaterialsType::G2 && slotType == MaterialsType::G1) continue;

			return &m_slot[i];
			}
			}
			}

			return nullptr;
			}

			CSlot* CEquipment::isSlotAvailable(unsigned int slot)
			{
			if (slot >= 8) return nullptr;
			if (!m_slot[slot].isEnable()) return nullptr;
			if (m_slot[slot].isLock()) return nullptr;
			if (!m_slot[slot].isEmpty()) return nullptr;
			int lsPath = m_slot[slot].getLinkSignalPath();
			if (!m_bLinkSignalToDownstream[lsPath][SIGNAL_UPSTREAM_INLINE]
			\|\| m_bLinkSignalToDownstream[lsPath][SIGNAL_UPSTREAM_TROUBLE]
			\|\| !m_bLinkSignalToDownstream[lsPath][SIGNAL_INTERLOCK]
			\|\| !m_bLinkSignalToDownstream[lsPath][SIGNAL_RECEIVE_ABLE]) return nullptr;

			return &m_slot[slot];
			}

			CSlot* CEquipment::getNonEmptySlot(MaterialsType putSlotType)
			@@ -1069,21 +1325,102 @@
			return nullptr;
			}

			CGlass* CEquipment::getGlassFromSlot(int slotNo)
			CSlot* CEquipment::getProcessedSlot(MaterialsType putSlotType, BOOL bJobMode/* = FALSE*/)
			{
			CSlot* pSlot = nullptr;
			for (int i = 0; i < SLOT_MAX; i++) {
			if (!m_slot[i].isEnable()) continue;
			if (m_slot[i].getNo() != slotNo) continue;
			pSlot = &m_slot[i];
			break;
			}
			if (m_slot[i].isLock()) continue;
			CGlass* pGlass = (CGlass*)m_slot[i].getContext();
			if (!isSlotProcessed(i)) continue;
			if (pGlass == nullptr) continue;
			if (!pGlass->isScheduledForProcessing()) continue;
			if (bJobMode && pGlass->getProcessJob() == nullptr) continue;
			if(pGlass->getInspResult(m_nID, 0) == InspResult::Fail) continue;
			int lsPath = m_slot[i].getLinkSignalPath();
			if(!m_bLinkSignalToUpstream[lsPath][SIGNAL_UPSTREAM_INLINE]
			\|\| m_bLinkSignalToUpstream[lsPath][SIGNAL_UPSTREAM_TROUBLE]
			\|\| !m_bLinkSignalToUpstream[lsPath][SIGNAL_INTERLOCK]
			\|\| !m_bLinkSignalToUpstream[lsPath][SIGNAL_SEND_ABLE] ) continue;

			if (pSlot != nullptr) {
			return (CGlass*)pSlot->getContext();
			MaterialsType glassType = pGlass->getType();
			if (glassType == MaterialsType::G1 && putSlotType == MaterialsType::G2) continue;
			if (glassType == MaterialsType::G2 && putSlotType == MaterialsType::G1) continue;

			return &m_slot[i];
			}

			return nullptr;
			}

			CSlot* CEquipment::getProcessedSlot2(MaterialsType putSlotType, const std::vector<int>& candidates)
			{
			for (auto item : candidates) {
			for (int i = 0; i < SLOT_MAX; i++) {
			if (item == i + 1) {
			if (!m_slot[i].isEnable()) continue;
			if (m_slot[i].isLock()) continue;
			CGlass* pGlass = (CGlass*)m_slot[i].getContext();
			if (pGlass == nullptr) continue;
			if (!isSlotProcessed(i+1)) continue;
			int lsPath = m_slot[i].getLinkSignalPath();
			if (!m_bLinkSignalToUpstream[lsPath][SIGNAL_UPSTREAM_INLINE]
			\|\| m_bLinkSignalToUpstream[lsPath][SIGNAL_UPSTREAM_TROUBLE]
			\|\| !m_bLinkSignalToUpstream[lsPath][SIGNAL_INTERLOCK]
			\|\| !m_bLinkSignalToUpstream[lsPath][SIGNAL_SEND_ABLE]) continue;

			MaterialsType glassType = pGlass->getType();
			if (glassType == MaterialsType::G1 && putSlotType == MaterialsType::G2) continue;
			if (glassType == MaterialsType::G2 && putSlotType == MaterialsType::G1) continue;

			return &m_slot[i];
			}
			}
			}

			return nullptr;
			}

			CSlot* CEquipment::getProcessedSlotCt(unsigned int slot)
			{
			if (slot >= 8) return nullptr;
			if (!m_slot[slot].isEnable()) return nullptr;
			if (m_slot[slot].isLock()) return nullptr;
			CGlass* pGlass = (CGlass*)m_slot[slot].getContext();
			if (pGlass == nullptr) return nullptr;
			int lsPath = m_slot[slot].getLinkSignalPath();
			if (!m_bLinkSignalToUpstream[lsPath][SIGNAL_UPSTREAM_INLINE]
			\|\| m_bLinkSignalToUpstream[lsPath][SIGNAL_UPSTREAM_TROUBLE]
			\|\| !m_bLinkSignalToUpstream[lsPath][SIGNAL_INTERLOCK]
			\|\| !m_bLinkSignalToUpstream[lsPath][SIGNAL_SEND_ABLE]) return nullptr;

			return &m_slot[slot];
			}

			CSlot* CEquipment::getInspFailSlot()
			{
			for (int i = 0; i < SLOT_MAX; i++) {
			if (!m_slot[i].isEnable()) continue;
			if (m_slot[i].isLock()) continue;
			CGlass* pGlass = (CGlass*)m_slot[i].getContext();
			if (pGlass == nullptr) continue;
			if (!pGlass->isScheduledForProcessing()) continue;
			if (pGlass->getInspResult(m_nID, 0) != InspResult::Fail) continue;
			int lsPath = m_slot[i].getLinkSignalPath();
			if (!m_bLinkSignalToUpstream[lsPath][SIGNAL_UPSTREAM_INLINE]
			\|\| m_bLinkSignalToUpstream[lsPath][SIGNAL_UPSTREAM_TROUBLE]
			\|\| !m_bLinkSignalToUpstream[lsPath][SIGNAL_INTERLOCK]
			\|\| !m_bLinkSignalToUpstream[lsPath][SIGNAL_SEND_ABLE]) continue;

			return &m_slot[i];
			}

			return nullptr;
			}

			CSlot* CEquipment::getSlot(int index)
			{
			if (index >= SLOT_MAX) return nullptr;
			return &m_slot[index];
			}

			CGlass* CEquipment::getAnyGlass()
			@@ -1108,6 +1445,25 @@
			return TRUE;
			}

			int CEquipment::removeGlass(int slotNo)
			{
			CSlot* pSlot = nullptr;
			for (int i = 0; i < SLOT_MAX; i++) {
			if (!m_slot[i].isEnable()) continue;
			if (m_slot[i].getNo() != slotNo) continue;
			pSlot = &m_slot[i];
			break;
			}

			if (pSlot == nullptr) return -1;
			pSlot->setContext(nullptr);
			if (m_listener.onDataChanged != nullptr) {
			m_listener.onDataChanged(this, EDCC_FETCHOUT_JOB);
			}

			return 0;
			}

			short CEquipment::decodeRecipeListReport(const char* pszData, size_t size)
			{
			return m_recipesManager.decodeRecipeListReport(pszData, size);
			@@ -1126,11 +1482,8 @@

			// 缓存Attribute，用于调试时显示信息
			unsigned int weight = 201;
			CAttributeVector attrubutes;
			CAttributeVector& attrubutes = pStep->attributeVector();
			processData.getAttributeVector(attrubutes, weight);
			pStep->addAttributeVector(attrubutes);


			onProcessData(&processData);

			return nRet;
			@@ -1144,11 +1497,8 @@

			// 缓存Attribute，用于调试时显示信息
			unsigned int weight = 201;
			CAttributeVector attrubutes;
			CAttributeVector& attrubutes = pStep->attributeVector();
			jobDataS.getAttributeVector(attrubutes, weight);
			pStep->addAttributeVector(attrubutes);


			onReceivedJob(port, &jobDataS);

			return nRet;
			@@ -1158,8 +1508,15 @@
			{
			LOGI("<CEquipment-%s>onReceivedJob.", m_strName.c_str());

			addJobDataS(pJobDataS);
			return 0;

			// 可以在此更新JobDataS数据了
			int nRet = ((CArm*)m_pArm)->glassUpdateJobDataS(pJobDataS);
			if (nRet < 0) {
			LOGE("<CEquipment-%s>onReceivedJob,更新JobDataS失败，glassUpdateJobDataS返回%d",
			m_strName.c_str(), nRet);
			}

			return nRet;
			}

			int CEquipment::decodeSentOutJobReport(CStep* pStep, int port, const char* pszData, size_t size)
			@@ -1170,12 +1527,9 @@

			// 缓存Attribute，用于调试时显示信息
			unsigned int weight = 201;
			CAttributeVector attrubutes;
			CAttributeVector& attrubutes = pStep->attributeVector();
			jobDataS.getAttributeVector(attrubutes, weight);
			pStep->addAttributeVector(attrubutes);


			onReceivedJob(port, &jobDataS);
			onSentOutJob(port, &jobDataS);

			return nRet;
			}
			@@ -1183,14 +1537,6 @@
			int CEquipment::onSentOutJob(int port, CJobDataS* pJobDataS)
			{
			LOGI("<CEquipment-%s>onSentOutJob.", m_strName.c_str());

			int count = removeJobDataS(pJobDataS->getCassetteSequenceNo(), pJobDataS->getJobSequenceNo());
			if (count == 1) {
			LOGI("<CEquipment-%s>onSentOutJob,删除数据 %d 条", m_strName.c_str(), count);
			}
			else {
			LOGE("<CEquipment-%s>onSentOutJob,删除数据 %d 条，注意排查风险", m_strName.c_str(), count);
			}

			return 0;
			}
			@@ -1242,7 +1588,7 @@
			LOGI("<CEquipment-%s>onPreFetchedOutJob:port:%d\|GlassId:%s",
			m_strName.c_str(), port, pJobDataB->getGlassId().c_str());
			if (m_listener.onPreFethedOutJob != nullptr) {
			return m_listener.onPreFethedOutJob(this, pJobDataB);
			return m_listener.onPreFethedOutJob(this, port, pJobDataB);
			}

			return TRUE;
			@@ -1255,7 +1601,7 @@

			BOOL bCheck = onPreFetchedOutJob(port, pJobDataB);
			if (bCheck) {
			return fetchedOutJob(pJobDataB);
			return fetchedOutJob(port, pJobDataB);
			}

			// 数据异常，处理或显示
			@@ -1309,7 +1655,7 @@
			int CEquipment::decodeVCREventReport(CStep* pStep, const char* pszData, size_t size)
			{
			CVcrEventReport vcrEventReport;
			vcrEventReport.unserialize(pszData, size);
			vcrEventReport.unserialize(pszData, (int)size);
			LOGI("<CEquipment-%s>decodeVCREventReport<Result:%d, GlassId:%s>\n", m_strName.c_str(),
			vcrEventReport.getVcrResult(),
			vcrEventReport.getGlassId().c_str());
			@@ -1317,13 +1663,254 @@

			// 缓存Attribute，用于调试时显示信息
			unsigned int weight = 201;
			CAttributeVector attrubutes;
			CAttributeVector& attrubutes = pStep->attributeVector();
			vcrEventReport.getAttributeVector(attrubutes, weight);
			pStep->addAttributeVector(attrubutes);

			// 0426, 先固定返回1(OK)
			((CReadStep*)pStep)->setReturnCode((short)VCR_Reply_Code::OK);

			return 0;
			}

			int CEquipment::decodePanelDataReport(CStep* pStep, const char* pszData, size_t size)
			{
			short cassetteNo, jobSequenceNo;
			int index = 0;
			std::string strPanelJudgeData, strPanelGradeData;
			memcpy(&cassetteNo, &pszData[index], sizeof(short));
			index += sizeof(short);
			memcpy(&jobSequenceNo, &pszData[index], sizeof(short));
			index += sizeof(short);
			CToolUnits::convertString(&pszData[index], 128 * 2, strPanelJudgeData);
			index += 128 * 2;
			CToolUnits::convertString(&pszData[index], 256 * 2, strPanelGradeData);
			index += 256 * 2;


			// 缓存Attribute，用于调试时显示信息
			unsigned int weight = 201;
			pStep->addAttribute(new CAttribute("CassetteNo",
			std::to_string(cassetteNo).c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("JobSequenceNo",
			std::to_string(jobSequenceNo).c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("PanelJudgeData",
			strPanelJudgeData.c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("PanelGradeData",
			strPanelGradeData.c_str(), "", weight++));


			// 更新检测结果
			CGlass* pGlass = getGlassWithCassette(cassetteNo, jobSequenceNo);
			if (pGlass == nullptr) {
			LOGE("<CEquipment-%s>更新Panel Data失败，找不到对应的Glass.cassetteNo=%d, jobSequenceNo=%d",
			getName().c_str(), cassetteNo, jobSequenceNo);
			return -1;
			}
			pGlass->setInspResult(m_nID, 0, judgeStringToInspResult(strPanelJudgeData));

			return 0;
			}

			int CEquipment::decodeFacDataReport(CStep* pStep, const char* pszData, size_t size)
			{
			int index = 0;
			std::string strSvTimeRecord, strSvData;
			CToolUnits::convertString(&pszData[index], 8 * 2, strSvTimeRecord);
			index += 128 * 2;
			CToolUnits::convertString(&pszData[index], 640 * 2, strSvData);
			index += 256 * 2;


			// 缓存Attribute，用于调试时显示信息
			unsigned int weight = 201;
			pStep->addAttribute(new CAttribute("SV Time Record",
			strSvTimeRecord.c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("SV Data",
			strSvData.c_str(), "", weight++));


			return 0;
			}

			int CEquipment::decodeJobDataRequest(CStep* pStep, const char* pszData, size_t size)
			{
			int index = 0;
			short cassetteSequenceNo, jobSequenceNo;
			memcpy(&cassetteSequenceNo, &pszData[index], sizeof(short));
			index += sizeof(short);
			memcpy(&jobSequenceNo, &pszData[index], sizeof(short));
			index += sizeof(short);
			cassetteSequenceNo = 4000;
			jobSequenceNo = 1;



			// 缓存Attribute，用于调试时显示信息
			unsigned int weight = 201;
			pStep->addAttribute(new CAttribute("CassetteSequenceNo",
			(std::to_string(cassetteSequenceNo)).c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("JobSequenceNo",
			(std::to_string(jobSequenceNo)).c_str(), "", weight++));


			return 0;
			}

			int CEquipment::decodeJobProcessStartReport(CStep* pStep, const char* pszData, size_t size)
			{
			int port = (int)(__int64)pStep->getProp("Port");
			LOGI("<CEquipment-%s>decodeJobProcessStartReport, port:%d", getName().c_str(), port);

			short cassetteNo, jobSequenceNo, unitNo, subUnitNo, slotNo;
			int year, month, day, hour, minute, second;

			int index = 0;
			memcpy(&cassetteNo, &pszData[index], sizeof(short));
			index += sizeof(short);
			memcpy(&jobSequenceNo, &pszData[index], sizeof(short));
			index += sizeof(short);
			memcpy(&unitNo, &pszData[index], sizeof(short));
			index += sizeof(short);
			memcpy(&subUnitNo, &pszData[index], sizeof(short));
			index += sizeof(short);
			memcpy(&slotNo, &pszData[index], sizeof(short));
			index += sizeof(short);

			memcpy(&year, &pszData[index], sizeof(short));
			index += sizeof(short);
			month = (int)pszData[index];
			index += 1;
			day = (int)pszData[index];
			index += 1;
			hour = (int)pszData[index];
			index += 1;
			minute = (int)pszData[index];
			index += 1;
			second = (int)pszData[index];
			index += 1;

			LOGI("<CEquipment-%s>cassetteNo:%d, jobSequenceNo:%d,unitNo:%d, subUnitNo:%d, slotNo:%d %d-%d-%d %d:%d:%d",
			getName().c_str(),
			cassetteNo,
			jobSequenceNo,
			unitNo,
			subUnitNo,
			slotNo,
			year, month, day, hour, minute, second
			);


			if (m_processState != PROCESS_STATE::Processing) {
			setProcessState(PROCESS_STATE::Processing);
			}


			// 缓存Attribute，用于调试时显示信息
			unsigned int weight = 201;
			pStep->addAttribute(new CAttribute("CassetteNo",
			std::to_string(cassetteNo).c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("JobSequenceNo",
			std::to_string(jobSequenceNo).c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("UnitNo",
			std::to_string(unitNo).c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("SubUnitNo",
			std::to_string(subUnitNo).c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("SlotNo",
			std::to_string(slotNo).c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("ProcessStartTime",
			(std::to_string(year) + std::to_string(day) + std::to_string(day) + std::to_string(hour) + std::to_string(minute) + std::to_string(second)).c_str()
			, "", weight++));

			return 0;
			}

			int CEquipment::decodeJobProcessEndReport(CStep* pStep, const char* pszData, size_t size)
			{
			int port = (int)(__int64)pStep->getProp("Port");
			LOGI("<CEquipment-%s>decodeJobProcessEndReport, port:%d", getName().c_str(), port);

			short cassetteNo, jobSequenceNo, unitNo, subUnitNo, slotNo;
			int year, month, day, hour, minute, second;

			int index = 0;
			std::string strPanelJudgeData, strPanelGradeData;
			memcpy(&cassetteNo, &pszData[index], sizeof(short));
			index += sizeof(short);
			memcpy(&jobSequenceNo, &pszData[index], sizeof(short));
			index += sizeof(short);
			memcpy(&unitNo, &pszData[index], sizeof(short));
			index += sizeof(short);
			memcpy(&subUnitNo, &pszData[index], sizeof(short));
			index += sizeof(short);
			memcpy(&slotNo, &pszData[index], sizeof(short));
			index += sizeof(short);

			memcpy(&year, &pszData[index], sizeof(short));
			index += sizeof(short);
			month = (int)pszData[index];
			index += 1;
			day = (int)pszData[index];
			index += 1;
			hour = (int)pszData[index];
			index += 1;
			minute = (int)pszData[index];
			index += 1;
			second = (int)pszData[index];
			index += 1;

			LOGI("<CEquipment-%s>cassetteNo:%d, jobSequenceNo:%d,unitNo:%d, subUnitNo:%d, slotNo:%d %d-%d-%d %d:%d:%d",
			getName().c_str(),
			cassetteNo,
			jobSequenceNo,
			unitNo,
			subUnitNo,
			slotNo,
			year, month, day, hour, minute, second
			);


			if (m_processState != PROCESS_STATE::Complete) {
			setProcessState(PROCESS_STATE::Complete);
			}

			CGlass* pGlass = getGlassFromSlot(slotNo);
			if (pGlass == nullptr) {
			LOGE("<CEquipment-%s>decodeJobProcessEndReport, 找不到对应glass", getName().c_str());
			}
			else {
			CJobDataS* pJs = pGlass->getJobDataS();
			if (pJs->getCassetteSequenceNo() == cassetteNo
			&& pJs->getJobSequenceNo() == jobSequenceNo) {
			pGlass->processEnd(m_nID, getSlotUnit(slotNo));
			if (m_processState != PROCESS_STATE::Complete) {
			setProcessState(PROCESS_STATE::Complete);
			}
			}
			else {
			LOGE("<CEquipment-%s>decodeJobProcessEndReport, jobSequenceNo或jobSequenceNo不匹配",
			getName().c_str());
			}
			}




			// 缓存Attribute，用于调试时显示信息
			unsigned int weight = 201;
			pStep->addAttribute(new CAttribute("CassetteNo",
			std::to_string(cassetteNo).c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("JobSequenceNo",
			std::to_string(jobSequenceNo).c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("UnitNo",
			std::to_string(unitNo).c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("SubUnitNo",
			std::to_string(subUnitNo).c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("SlotNo",
			std::to_string(slotNo).c_str(), "", weight++));
			pStep->addAttribute(new CAttribute("ProcessStartTime",
			(std::to_string(year) + std::to_string(day) + std::to_string(day) + std::to_string(hour) + std::to_string(minute) + std::to_string(second)).c_str()
			, "", weight++));

			return 0;
			}

			@@ -1332,26 +1919,37 @@
			LOGI("<CEquipment-%s>onPreStoredJob:port:%d\|GlassId:%s",
			m_strName.c_str(), port, pJobDataB->getGlassId().c_str());

			CJobDataS* pJobDataS = getJobDataS(pJobDataB->getCassetteSequenceNo(), pJobDataB->getJobSequenceNo());
			if (pJobDataS == nullptr) {
			LOGE("<CFliper-%s>onPreFetchedOutJob,找不到对应的JobDataS(CassetteSequenceNo:%d, JobSequenceNo:%d), 注意排查风险!", m_strName.c_str(),
			// 当前要存片，之前肯定有拔片，因此片子在Arm那里
			CGlass* pGlass = ((CArm*)m_pArm)->getGlassFromSlot(1);
			if (pGlass == nullptr) {
			LOGE("<CFliper-%s>onPreStoredJob,缓存中没有找到对应的Glass(CassetteSequenceNo:%d, JobSequenceNo:%d)，请检查数据，注意风险。", m_strName.c_str(),
			pJobDataB->getCassetteSequenceNo(), pJobDataB->getJobSequenceNo());
			return FALSE;
			}

			CJobDataS* pJobDataS = pGlass->getJobDataS();
			ASSERT(pJobDataS);
			if (!compareJobData(pJobDataB, pJobDataS)) {
			LOGE("<CEquipemnt-%s>onPreStoredJob,JobData数据不匹配(JobDataB(%d, %d),JobDataS(%d, %d)), 注意排查风险!", m_strName.c_str(),
			pJobDataB->getCassetteSequenceNo(), pJobDataB->getJobSequenceNo(),
			pJobDataS->getCassetteSequenceNo(), pJobDataS->getJobSequenceNo());
			return FALSE;
			}

			// 如果没有可用位置，报错
			Lock();
			CSlot* pSlot = getAvailableSlotForGlass((MaterialsType)pJobDataS->getMaterialsType());
			if (pSlot == nullptr) {
			CSlot* pSlot = getSlot(putSlot - 1);
			ASSERT(pSlot);
			if (pSlot->getContext() != nullptr) {
			Unlock();
			LOGE("<CFliper-%s>onPreFetchedOutJob,找不到匹配的Slot，不能进料，请注意风险！", m_strName.c_str());
			LOGE("<CEquipemnt-%s>onPreStoredJob,指定slot(port:%d)有料，请注意风险！", m_strName.c_str(), port);
			return FALSE;
			}
			Unlock();


			if (m_listener.onPreStoredJob != nullptr) {
			if (!m_listener.onPreStoredJob(this, pJobDataB, putSlot)) {
			if (!m_listener.onPreStoredJob(this, port, pJobDataB, putSlot)) {
			return FALSE;
			}

			@@ -1371,12 +1969,11 @@
			short putSlot = 0;
			BOOL bCheck = onPreStoredJob(port, pJobDataB, putSlot);
			if (bCheck) {
			addJobDataB(pJobDataB);
			return storedJob(pJobDataB, putSlot);
			return storedJob(port, pJobDataB, putSlot);
			}

			// 数据异常，处理或显示
			LOGI("<CEquipment-%s>onStoredJob Error.ort:%d\|GlassId:%s",
			LOGI("<CEquipment-%s>onStoredJob Error.port:%d\|GlassId:%s",
			m_strName.c_str(), port, pJobDataB->getGlassId().c_str());
			return -1;
			}
			@@ -1384,6 +1981,30 @@
			int CEquipment::onProcessData(CProcessData* pProcessData)
			{
			LOGI("<CEquipment-%s>onProcessData.", m_strName.c_str());

			return 0;
			}

			/*
			* 当从CC-Link检测到设备Send Able为On时调用此函数
			* 可能会多次重复调用(根据扫描频率), 注意防呆
			*/
			int CEquipment::onSendAble(int port)
			{
			// LOGI("<CEquipment-%s>onSendAble.port:%d", m_strName.c_str(), port);

			return 0;
			}

			int CEquipment::onReceiveAble(int port)
			{
			// LOGI("<CEquipment-%s>onReceiveAble.port:%d", m_strName.c_str(), port);

			return 0;
			}

			int CEquipment::onProcessStateChanged(PROCESS_STATE state)
			{
			return 0;
			}

			@@ -1392,106 +2013,50 @@
			return 0;
			}

			int CEquipment::addJobDataB(CJobDataB* pJobDataB)
			BOOL CEquipment::compareJobData(CJobDataB* pJobDataB, CJobDataS* pJobDataS)
			{
			// 添加之前先删除旧的，以免数据重复
			Lock();
			int count = removeJobDataB(pJobDataB->getCassetteSequenceNo(), pJobDataB->getJobSequenceNo());
			if (count > 0) {
			LOGE("<CEquipment-%s>addJobDataB,删除重复数据 %d 条，注意排查风险", m_strName.c_str(), count);
			}
			ASSERT(pJobDataB);
			ASSERT(pJobDataS);

			m_listJobDataB.push_back(std::move(*pJobDataB));
			Unlock();

			return (int)m_listJobDataB.size();
			}

			int CEquipment::removeJobDataB(int nCassetteSequenceNo, int nJobSequenceNo)
			{
			int count = 0;
			for (auto it = m_listJobDataB.begin(); it != m_listJobDataB.end(); ) {
			if ((*it).getCassetteSequenceNo() == nCassetteSequenceNo
			&& (*it).getJobSequenceNo() == nJobSequenceNo) {
			it = m_listJobDataB.erase(it);
			count++;
			}
			else {
			++it;
			}
			}

			return count;
			}

			CJobDataB* CEquipment::getJobDataB(int nCassetteSequenceNo, int nJobSequenceNo)
			{
			for (auto& item : m_listJobDataB) {
			if (item.getCassetteSequenceNo() == nCassetteSequenceNo
			&& item.getJobSequenceNo() == nJobSequenceNo) {
			return &item;
			}
			}

			return nullptr;
			}

			int CEquipment::addJobDataS(CJobDataS* pJobDataS)
			{
			// 添加之前先删除旧的，以免数据重复
			Lock();
			int count = removeJobDataS(pJobDataS->getCassetteSequenceNo(), pJobDataS->getJobSequenceNo());
			if (count > 0) {
			LOGE("<CEquipment-%s>addJobDataS,删除重复数据 %d 条，注意排查风险", m_strName.c_str(), count);
			}

			m_listJobDataS.push_back(std::move(*pJobDataS));
			Unlock();

			return (int)m_listJobDataB.size();
			}

			int CEquipment::removeJobDataS(int nCassetteSequenceNo, int nJobSequenceNo)
			{
			int count = 0;
			Lock();
			for (auto it = m_listJobDataS.begin(); it != m_listJobDataS.end(); ) {
			if ((*it).getCassetteSequenceNo() == nCassetteSequenceNo
			&& (*it).getJobSequenceNo() == nJobSequenceNo) {
			it = m_listJobDataS.erase(it);
			count++;
			}
			else {
			++it;
			}
			}
			Unlock();

			return count;
			}

			CJobDataS* CEquipment::getJobDataS(int nCassetteSequenceNo, int nJobSequenceNo)
			{
			for (auto& item : m_listJobDataS) {
			if (item.getCassetteSequenceNo() == nCassetteSequenceNo
			&& item.getJobSequenceNo() == nJobSequenceNo) {
			return &item;
			}
			}

			return nullptr;
			}

			BOOL CEquipment::compareJobDataB(CJobDataB* pJobDataB1, CJobDataB* pJobDataB2)
			{
			ASSERT(pJobDataB1);
			ASSERT(pJobDataB2);

			if (pJobDataB1->getCassetteSequenceNo() != pJobDataB2->getCassetteSequenceNo())
			if (pJobDataB->getCassetteSequenceNo() != pJobDataS->getCassetteSequenceNo())
			return FALSE;
			if (pJobDataB1->getJobSequenceNo() != pJobDataB2->getJobSequenceNo())
			if (pJobDataB->getJobSequenceNo() != pJobDataS->getJobSequenceNo())
			return FALSE;

			return TRUE;
			}

			void CEquipment::printDebugString001()
			{
			for (int i = 0; i < 8; i++) {
			LOGI("<CEquipment-%s>Link Signal to UP stream Path#%d, Signal:%s, %s, %s, %s",
			m_strName.c_str(), i,
			m_bLinkSignalToUpstream[i][SIGNAL_UPSTREAM_INLINE] ? "ON" : "OFF",
			m_bLinkSignalToUpstream[i][SIGNAL_UPSTREAM_TROUBLE] ? "ON" : "OFF",
			m_bLinkSignalToUpstream[i][SIGNAL_INTERLOCK] ? "ON" : "OFF",
			m_bLinkSignalToUpstream[i][SIGNAL_SEND_ABLE] ? "ON" : "OFF"
			);
			}
			for (int i = 0; i < 8; i++) {
			LOGI("<CEquipment-%s>Link Signal to Down stream Path#%d, Signal:%s, %s, %s, %s",
			m_strName.c_str(), i,
			m_bLinkSignalToDownstream[i][SIGNAL_UPSTREAM_INLINE] ? "ON" : "OFF",
			m_bLinkSignalToDownstream[i][SIGNAL_UPSTREAM_TROUBLE] ? "ON" : "OFF",
			m_bLinkSignalToDownstream[i][SIGNAL_INTERLOCK] ? "ON" : "OFF",
			m_bLinkSignalToDownstream[i][SIGNAL_SEND_ABLE] ? "ON" : "OFF"
			);
			}
			}

			InspResult CEquipment::judgeStringToInspResult(std::string& strJudge)
			{
			if (strJudge.compare("N") == 0) {
			return InspResult::Fail;
			}
			if (strJudge.compare("G") == 0) {
			return InspResult::Pass;
			}

			return InspResult::NotInspected;
			}
			}