~chenluhua/Bond2.git

			@@ -5,7 +5,7 @@
			namespace SERVO {
			CBonder::CBonder() : CEquipment()
			{

			m_nIndex = 0;
			}

			CBonder::~CBonder()
			@@ -34,13 +34,406 @@
			{
			// 加入Pin初始化代码
			LOGI("<CBonder>initPins");
			addPin(SERVO::PinType::INPUT, _T("In"));
			addPin(SERVO::PinType::INPUT, _T("In1"));
			addPin(SERVO::PinType::INPUT, _T("In2"));
			addPin(SERVO::PinType::OUTPUT, _T("Out"));
			}

			void CBonder::initSteps()
			{
			CEquipment::initSteps();


			{
			// eq mode
			CEqModeStep* pStep = new CEqModeStep();
			pStep->setName(STEP_MODE);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x340 : 0x640);
			pStep->setModeDev(m_nIndex == 0 ? 0x9d7d : 0xdd7d);
			if (addStep(STEP_ID_EQMODE_CHANGED, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// eq status
			CEqStatusStep* pStep = new CEqStatusStep();
			pStep->setName(STEP_STATUS);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x341 : 0x641);
			pStep->setStatusDev(m_nIndex == 0 ? 0x9d59 : 0xdd59);
			if (addStep(STEP_ID_EQSTATUS_CHANGED, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// Eq Alarm
			static char* pszName[] = { STEP_ALARM_BLOCK1, STEP_ALARM_BLOCK2, STEP_ALARM_BLOCK3, STEP_ALARM_BLOCK4, STEP_ALARM_BLOCK5 };
			static int dev[2][5] = { { 0x9f0e , 0x9f3b, 0x9f68, 0x9f95, 0x9fc2 },
			{ 0xdf0e , 0xdf3b, 0xdf68, 0xdf95, 0xdfc2 } };
			static int writeSignalDev[2][5] = { { 0x342, 0x343, 0x344, 0x345, 0x346 },
			{ 0x642, 0x643, 0x644, 0x645, 0x646 } };
			static int addr[] = { STEP_ID_EQALARM1, STEP_ID_EQALARM2, STEP_ID_EQALARM3, STEP_ID_EQALARM4, STEP_ID_EQALARM5 };

			for (int i = 0; i < 5; i++) {
			CEqAlarmStep* pStep = new CEqAlarmStep();
			pStep->setName(pszName[i]);
			pStep->setWriteSignalDev(writeSignalDev[m_nIndex][i]);
			pStep->setAlarmDev(dev[m_nIndex][i]);
			if (addStep(addr[i], pStep) != 0) {
			delete pStep;
			}
			}

			}

			{
			CEqReadStep* pStep = new CEqReadStep((m_nIndex == 0 ? 0xab55 : 0xeb55), 538 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			decodeProcessDataReport((CStep*)pFrom, pszData, size);
			}
			return -1;
			});
			pStep->setName(STEP_PROCESS);
			pStep->setWriteSignalDev((m_nIndex == 0 ? 0x347 : 0x647));
			if (addStep(STEP_ID_PROCESS_DATA_REPORT, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// eq cim mode change
			CEqCimModeChangeStep* pStep = new CEqCimModeChangeStep();
			pStep->setName(STEP_CIM_MODE_CHANGE);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x360 : 0x660);
			pStep->setCimModeDev(m_nIndex == 0 ? 0x965 : 0x12b5);
			if (addStep(STEP_ID_CIMMODE_CHANGED_CMD_REPLY, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// eq cim message cmd
			CEqCimMessageCmdStep* pStep = new CEqCimMessageCmdStep();
			pStep->setName(STEP_CIM_MESSAGE_CMD);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x361 : 0x661);
			pStep->setCimMessageDev(m_nIndex == 0 ? 0x950 : 0x12a0);
			if (addStep(STEP_ID_CIM_MSG_SET_CMD_REPLY, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// eq current recipe change
			CEqCurrentRecipeChangeStep* pStep = new CEqCurrentRecipeChangeStep();
			pStep->setName(STEP_EQ_RURRENT_RECIPE_CHANGE);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x348 : 0x648);
			pStep->setDataDev(m_nIndex == 0 ? 0xa850 : 0xe850);
			if (addStep(STEP_ID_CURRENT_RECIPE_CHANGE_REPORT, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// CIM Message Confirm
			// 要将int32的值拆分为两个short, 分别为msg id和panel id
			// 65538, 2Ϊmsg id, 1Ϊpanel id
			CEqReadIntStep* pStep = new CEqReadIntStep(__INT32, m_nIndex == 0 ? 0x9d80 : 0xdd80);
			pStep->setName(STEP_EQ_CIM_MESSAGE_CONFIRM);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x349 : 0x649);
			if (addStep(STEP_ID_CIM_MSG_CONFIRM_REPORT, pStep) != 0) {
			delete pStep;
			}
			}

			{
			CEqCimMessageClearStep* pStep = new CEqCimMessageClearStep();
			pStep->setName(STEP_CIM_MESSAGE_CLEAR);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x362 : 0x662);
			pStep->setClearCimMessageDev(m_nIndex == 0 ? 0x963 : 0x12b3);
			if (addStep(STEP_ID_CIM_MSG_CLEAR_CMD_REPLY, pStep) != 0) {
			delete pStep;
			}
			}


			{
			CEqDateTimeSetCmdStep* pStep = new CEqDateTimeSetCmdStep();
			pStep->setName(STEP_DATETIME_SET_CMD);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x363 : 0x663);
			pStep->setDateTimeDev(m_nIndex == 0 ? 0x966 : 0x12b6);
			if (addStep(STEP_ID_DATETIME_SET_CMD_REPLY, pStep) != 0) {
			delete pStep;
			}
			}

			{
			CEqModeChangeStep* pStep = new CEqModeChangeStep();
			pStep->setName(STEP_EQ_MODE_CHANGE);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x365 : 0x665);
			pStep->setEqModeDev(m_nIndex == 0 ? 0x96E : 0x12be);
			if (addStep(STEP_ID_EQMODE_CHANGE_CMD_REPLY, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// 请求主配方列表的step
			CEqWriteStep* pStep = new CEqWriteStep();
			pStep->setName(STEP_EQ_MASTER_RECIPE_LIST_REQ);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x366 : 0x666);
			pStep->setDataDev(m_nIndex == 0 ? 0x125a : 0x1baa);
			if (addStep(STEP_ID_MASTER_RECIPE_LIST_CMD_REPLY, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// master recipe list report
			CEqReadStep* pStep = new CEqReadStep(m_nIndex == 0 ? 0xa955 : 0xe955, 255 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			CEqReadStep* pTmpStep = (CEqReadStep*)pFrom;
			short ret = MRLRC_OK;
			if (code == ROK && pszData != nullptr && size > 0) {
			// 此处解释配方数据
			ret = decodeRecipeListReport(pszData, size);
			}
			pTmpStep->setReturnCode(ret);
			return -1;
			});
			pStep->setName(STEP_EQ_MASTER_RECIPE_LIST);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x34b : 0x64b);
			pStep->setReturnDev(m_nIndex == 0 ? 0x126d : 0x1bbd);
			if (addStep(STEP_ID_MASTER_RECIPE_LIST_REPORT, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// 请求配方参数
			CEqWriteStep* pStep = new CEqWriteStep();
			pStep->setName(STEP_EQ_RECIPE_PARAMETER_REQ);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x367 : 0x667);
			pStep->setDataDev(m_nIndex == 0 ? 0x125b : 0x1bab);
			if (addStep(STEP_ID_RECIPE_PARAMETER_CMD_REPLY, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// recipe parameter report
			CEqReadStep* pStep = new CEqReadStep(m_nIndex == 0 ? 0xaa54 : 0xea54, 257 * 2,
			[&, pStep](void* pFrom, int code, const char* pszData, size_t size) -> int {
			CEqReadStep* pTmpStep = (CEqReadStep*)pFrom;
			short ret = MRLRC_OK;
			if (code == ROK && pszData != nullptr && size > 0) {
			// 此处解释配方数据
			ret = decodeRecipeParameterReport(pszData, size);
			}
			pTmpStep->setReturnCode(ret);
			return -1;
			});
			pStep->setName(STEP_EQ_RECIPE_PARAMETER);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x34c : 0x64c);
			pStep->setReturnDev(m_nIndex == 0 ? 0x126c : 0x1bbc);
			if (addStep(STEP_ID_RECIPE_PARAMETER_REPORT, pStep) != 0) {
			delete pStep;
			}
			}

			// 使用CEqReadStep替换CEqJobEventStep
			{
			// Received Job Report Upstream #1~9
			char szBuffer[256];
			for (int i = 0; i < 2; i++) {
			CEqReadStep* pStep = new CEqReadStep((m_nIndex == 0 ? 0x8c90 : 0xcc90) + 320 * i, 320 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			int port = (int)(__int64)((CEqReadStep*)pFrom)->getProp("Port");
			if (port > 0) {
			decodeReceivedJobReport((CStep*)pFrom, port, pszData, size);
			}
			}
			return -1;
			});
			sprintf_s(szBuffer, "%s%d", STEP_EQ_RECEIVED_JOB_UPSn, i + 1);
			pStep->setName(szBuffer);
			pStep->setProp("Port", (void*)(__int64)(i + 1));
			pStep->setWriteSignalDev((m_nIndex == 0 ? 0x300 : 0x600) + i);
			if (addStep(STEP_ID_RECIVE_JOB_UPS1 + i, pStep) != 0) {
			delete pStep;
			}
			}
			}
			{
			// Sent Out Job Report Downstream #1~9
			char szBuffer[256];
			for (int i = 0; i < 2; i++) {
			CEqReadStep* pStep = new CEqReadStep((m_nIndex == 0 ? 0x8000 : 0xc000) + 320 * i, 320 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			int port = (int)(__int64)((CEqReadStep*)pFrom)->getProp("Port");
			if (port > 0) {
			decodeSentOutJobReport((CStep*)pFrom, port, pszData, size);
			}
			}
			return -1;
			});
			sprintf_s(szBuffer, "%s%d", STEP_EQ_SENT_OUT_JOB_DOWNSn, i + 1);
			pStep->setName(szBuffer);
			pStep->setProp("Port", (void*)(__int64)(i + 1));
			pStep->setWriteSignalDev((m_nIndex == 0 ? 0x30a : 0x60a) + i);
			if (addStep(STEP_ID_SENT_OUT_JOB_DOWNS1 + i, pStep) != 0) {
			delete pStep;
			}
			}
			}

			{
			// Fetched Out Job Report #1~15
			char szBuffer[256];
			for (int i = 0; i < 2; i++) {
			CEqReadStep* pStep = new CEqReadStep((m_nIndex == 0 ? 0x9c31 : 0xdc31) + 18 * i, 18 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			int port = (int)(__int64)((CEqReadStep*)pFrom)->getProp("Port");
			if (port > 0) {
			decodeFetchedOutJobReport((CStep*)pFrom, port, pszData, size);
			}
			}
			return -1;
			});
			sprintf_s(szBuffer, "%s%d", STEP_EQ_FETCHED_OUT_JOBn, i + 1);
			pStep->setName(szBuffer);
			pStep->setProp("Port", (void*)(__int64)(i + 1));
			pStep->setWriteSignalDev((m_nIndex == 0 ? 0x323 : 0x623) + i);
			if (addStep(STEP_ID_FETCHED_OUT_JOB_REPORT1 + i, pStep) != 0) {
			delete pStep;
			}
			}
			}

			{
			// Stored Job Report #1~15
			char szBuffer[256];
			for (int i = 0; i < 2; i++) {
			CEqReadStep* pStep = new CEqReadStep((m_nIndex == 0 ? 0x9b23 : 0xdb23) + 18 * i, 18 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			int port = (int)(__int64)((CEqReadStep*)pFrom)->getProp("Port");
			if (port > 0) {
			decodeStoredJobReport((CStep*)pFrom, port, pszData, size);
			}
			}
			return -1;
			});
			sprintf_s(szBuffer, "%s%d", STEP_EQ_STORED_JOBn, i + 1);
			pStep->setName(szBuffer);
			pStep->setProp("Port", (void*)(__int64)(i + 1));
			pStep->setWriteSignalDev((m_nIndex == 0 ? 0x314 : 0x614) + i);
			if (addStep(STEP_ID_STORE_JOB_REPORT1 + i, pStep) != 0) {
			delete pStep;
			}
			}
			}

			{
			// Indexer Operation Mode Change
			CEqWriteStep* pStep = new CEqWriteStep();
			pStep->setName(STEP_EQ_IN_OP_MODE_CHANGE);
			pStep->setWriteSignalDev(0x370);
			pStep->setDataDev(0x923);
			pStep->setRetDataDev(0xa00e, 2);
			if (addStep(STEP_ID_IN_OP_CMD_REPLY, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// FAC Data Report
			CEqReadStep* pStep = new CEqReadStep(m_nIndex == 0 ? 0xA60E : 0xE60E, 108 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			decodeFacDataReport((CStep*)pFrom, pszData, size);
			}
			return -1;
			});
			pStep->setName(STEP_EQ_FAC_DATA_REPORT);
			pStep->setProp("Port", (void*)1);
			pStep->setWriteSignalDev(0x34d);
			if (addStep(STEP_ID_FAC_DATA_REPORT, pStep) != 0) {
			delete pStep;
			}
			}

			// process start/end report
			{
			CEqReadStep* pStep = new CEqReadStep(m_nIndex == 0 ? 0x9D3F : 0xDD3F, 13 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			decodeJobProcessStartReport((CStep*)pFrom, pszData, size);
			}
			return -1;
			});
			pStep->setName(STEP_EQ_JOB_PROCESS_START_REPORT);
			pStep->setProp("Port", (void*)1);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x333 : 0x633);
			if (addStep(STEP_ID_JOB_PROCESS_START_REPORT, pStep) != 0) {
			delete pStep;
			}
			}
			{
			CEqReadStep* pStep = new CEqReadStep(m_nIndex == 0 ? 0x9D4C : 0xDD4C, 13 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			decodeJobProcessEndReport((CStep*)pFrom, pszData, size);
			}
			return -1;
			});
			pStep->setName(STEP_EQ_JOB_PROCESS_END_REPORT);
			pStep->setProp("Port", (void*)1);
			pStep->setWriteSignalDev(m_nIndex == 0 ? 0x334 : 0x634);
			if (addStep(STEP_ID_JOB_PROCESS_END_REPORT, pStep) != 0) {
			delete pStep;
			}
			}
			}

			// 必须要实现的虚函数，在此初始化Slot信息
			void CBonder::initSlots()
			{
			m_slot[0].enable();
			m_slot[0].setPosition(m_nID);
			m_slot[0].setNo(1);
			m_slot[0].setName("Slot 1(G2)");
			m_slot[0].setLinkSignalPath(0);
			m_slot[0].setType(MaterialsType::G2);
			m_slot[1].enable();
			m_slot[1].setPosition(m_nID);
			m_slot[1].setNo(2);
			m_slot[1].setName("Slot 2(G1)");
			m_slot[1].setLinkSignalPath(1);
			m_slot[1].setType(MaterialsType::G1);
			}

			void CBonder::onTimer(UINT nTimerid)
			{
			CEquipment::onTimer(nTimerid);

			// test
			/*
			static int i[2] = { 0, 0 };
			i[m_nIndex]++;
			if (m_nIndex == 0 && i[m_nIndex] % 20 == 0) {
			if (m_listener.onAlarm != nullptr) {
			m_listener.onAlarm(this, 1,
			i[m_nIndex],
			getID(),
			1);
			}
			}
			*/
			}

			void CBonder::serialize(CArchive& ar)
			@@ -51,87 +444,202 @@
			void CBonder::getAttributeVector(CAttributeVector& attrubutes)
			{
			__super::getAttributeVector(attrubutes);

			for (auto item : m_inputPins) {
			attrubutes.addAttribute(new CAttribute(item->getName().c_str(),
			std::to_string((int)item->getType()).c_str(), ""));
			}

			for (auto item : m_outputPins) {
			attrubutes.addAttribute(new CAttribute(item->getName().c_str(),
			std::to_string((int)item->getType()).c_str(), ""));
			}

			for (auto item : m_panelList) {
			attrubutes.addAttribute(new CAttribute("Panel",
			item->getID().c_str(), ""));
			}
			}

			int CBonder::recvIntent(CPin* pPin, CIntent* pIntent)
			{
			ASSERT(pPin);
			return __super::recvIntent(pPin, pIntent);
			}

			CPin* pFromPin = pPin->getConnectedPin();
			ASSERT(pFromPin);
			void CBonder::setIndex(unsigned int index)
			{
			m_nIndex = index;
			}

			CEquipment* pFromEq = pFromPin->getEquipment();
			ASSERT(pFromEq);
			unsigned int CBonder::getIndex()
			{
			return m_nIndex;
			}

			LOGI("<CBonder><%s-%s>收到来自<%s.%s>的Intent<%d,%s,0x%x>",
			this->getName().c_str(),
			pPin->getName().c_str(),
			pFromEq->getName().c_str(),
			pFromPin->getName().c_str(),
			pIntent->getCode(),
			pIntent->getMsg(),
			pIntent->getContext());
			BOOL CBonder::hasBondGlass()
			{
			CGlass* pGlass = (CGlass*)m_slot[1].getContext();
			if (pGlass == nullptr) return FALSE;
			CGlass* pBuddy = pGlass->getBuddy();
			return pBuddy != nullptr;
			}

			BOOL CBonder::hasG2Glass()
			{
			CGlass* pGlass = (CGlass*)m_slot[0].getContext();
			return (pGlass != nullptr);
			}

			int CBonder::onProcessData(CProcessData* pProcessData)
			{
			CEquipment::onProcessData(pProcessData);


			return 0;
			}

			// 以下解释处理数据
			int code = pIntent->getCode();
			int CBonder::onProcessStateChanged(PROCESS_STATE state)
			{
			CEquipment::onProcessStateChanged(state);


			// 测试
			if (code == FLOW_TEST) {
			AfxMessageBox(pIntent->getMsg());
			return FLOW_ACCEPT;
			}


			// 信号
			if (code == FLOW_SIGNAL) {
			return FLOW_ACCEPT;
			}


			// 数据
			if (code == FLOW_SIGNAL) {
			return FLOW_ACCEPT;
			}


			// 物料
			if (code == FLOW_MOVE_MATERIAL) {
			// 如果我这里是空的，可以接受
			if (state == PROCESS_STATE::Complete) {
			// 检查数据，当前两片玻璃，一片为G1, 一片为G2, 且pProcessData中的id能匹配G1或G2
			Lock();
			if (m_panelList.size() < 15) {
			CPanel* pPanel = (CPanel*)pIntent->getContext();
			ASSERT(pPanel);
			pPanel->addRef();
			m_panelList.push_back(pPanel);
			CGlass* pGlass2 = getGlassFromSlot(1);
			CGlass* pGlass1 = getGlassFromSlot(2);
			if (pGlass1 == nullptr \|\| pGlass2 == nullptr) {
			LOGE("<CBonder-%s>onProcessData,错误!不满足两片玻璃且分别为G1与G2的条件，请检查数据是否正确!", m_strName.c_str());
			Unlock();
			return FLOW_ACCEPT;
			return -1;
			}
			else {
			if (pGlass1->getBuddy() != nullptr) {
			LOGE("<CBonder-%s>onProcessData,错误!玻璃较早前已被绑定，请检查数据是否正确!", m_strName.c_str());
			Unlock();
			return FLOW_REJECT;
			return -1;
			}

			if (pGlass1->getType() != MaterialsType::G1 \|\| pGlass2->getType() != MaterialsType::G2) {
			LOGE("<CBonder-%s>onProcessData,错误!两片玻璃未匹配，必须分别为G1和G2类型，请检查数据是否正确!", m_strName.c_str());
			Unlock();
			return -1;
			}

			pGlass1->setBuddy(pGlass2);
			getSlot(0)->setContext(nullptr);
			LOGE("<CBonder-%s>onProcessStateChanged,%s和%s已贴合!", m_strName.c_str(),
			pGlass1->getID().c_str(), pGlass2->getID().c_str());
			Unlock();
			}


			return 0;
			}

			return FLOW_ACCEPT;
			int CBonder::getIndexerOperationModeBaseValue()
			{
			return m_nIndex == 0 ? 15000 : 20000;
			}

			int CBonder::parsingParams(const char* pszData, size_t size, std::vector<CParam>& params)
			{
			ASSERT(pszData);
			if (size < 250) return 0;
			int i = 0, v;


			// 1.校正对位延时
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8;
			params.push_back(CParam("校正对位延时", "", this->getName().c_str(), v * 0.01f));
			i += 2;

			// 2.保压时间
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8;
			params.push_back(CParam("保压时间", "", this->getName().c_str(), v * 0.01f));
			i += 2;

			// 3.腔体破真空延时
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8;
			params.push_back(CParam("腔体破真空延时", "", this->getName().c_str(), v * 0.01f));
			i += 2;

			// 4.腔体分子泵启动延时
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8;
			params.push_back(CParam("腔体分子泵启动延时", "", this->getName().c_str(), v * 0.1f));
			i += 2;

			// 5.腔体贴附抽真空延时
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8;
			params.push_back(CParam("腔体贴附抽真空延时", "", this->getName().c_str(), v * 0.1f));
			i += 2;

			// 6.加热等待延时
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8;
			params.push_back(CParam("加热等待延时", "", this->getName().c_str(), v * 0.1f));
			i += 2;

			// 7.气囊压力设定
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8 \| (pszData[i + 2] & 0xff) << 16 \| (pszData[i + 3] & 0xff) << 24;
			params.push_back(CParam("气囊压力设定", "", this->getName().c_str(), v * 0.001f));
			i += 4;

			// 8.气囊加压速率
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8 \| (pszData[i + 2] & 0xff) << 16 \| (pszData[i + 3] & 0xff) << 24;
			params.push_back(CParam("气囊加压速率", "", this->getName().c_str(), v * 0.001f));
			i += 4;

			// 9.气囊泄压速率
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8 \| (pszData[i + 2] & 0xff) << 16 \| (pszData[i + 3] & 0xff) << 24;
			params.push_back(CParam("气囊泄压速率", "", this->getName().c_str(), v * 0.001f));
			i += 4;

			// 10.贴附压力上限
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8 \| (pszData[i + 2] & 0xff) << 16 \| (pszData[i + 3] & 0xff) << 24;
			params.push_back(CParam("贴附压力上限", "", this->getName().c_str(), v * 0.1f));
			i += 4;

			// 11.Z轴转矩速度设定
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8 \| (pszData[i + 2] & 0xff) << 16 \| (pszData[i + 3] & 0xff) << 24;
			params.push_back(CParam("上腔Z轴转矩速度设定", "", this->getName().c_str(), v * 0.001f));
			i += 4;

			// 12.上腔温度设定
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8;
			params.push_back(CParam("上腔温度设定", "", this->getName().c_str(), v * 0.1f));
			i += 2;

			// 13.下腔温度设定
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8;
			params.push_back(CParam("下腔温度设定", "", this->getName().c_str(), v * 0.1f));
			i += 2;

			// 14.上腔Z轴预贴合位速度
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8 \| (pszData[i + 2] & 0xff) << 16 \| (pszData[i + 3] & 0xff) << 24;
			params.push_back(CParam("上腔Z轴预贴合位速度", "", this->getName().c_str(), v * 0.001f));
			i += 4;

			// 15.上腔Z轴贴附位速度
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8 \| (pszData[i + 2] & 0xff) << 16 \| (pszData[i + 3] & 0xff) << 24;
			params.push_back(CParam("上腔Z轴贴附位速度", "", this->getName().c_str(), v * 0.001f));
			i += 4;

			// 16.上腔Z上腔加热位间距
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8 \| (pszData[i + 2] & 0xff) << 16 \| (pszData[i + 3] & 0xff) << 24;
			params.push_back(CParam("上腔Z上腔加热位间距", "", this->getName().c_str(), v * 0.001f));
			i += 4;

			// 17.上腔贴附位压入量
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8 \| (pszData[i + 2] & 0xff) << 16 \| (pszData[i + 3] & 0xff) << 24;
			params.push_back(CParam("上腔贴附位压入量", "", this->getName().c_str(), v * 0.001f));
			i += 4;

			// 18.上腔Z轴破真空距离
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8 \| (pszData[i + 2] & 0xff) << 16 \| (pszData[i + 3] & 0xff) << 24;
			params.push_back(CParam("上腔Z轴破真空距离", "", this->getName().c_str(), v * 0.001f));
			i += 4;

			// 19.下顶Pin破真空距离
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8 \| (pszData[i + 2] & 0xff) << 16 \| (pszData[i + 3] & 0xff) << 24;
			params.push_back(CParam("下顶Pin破真空距离", "", this->getName().c_str(), v * 0.001f));
			i += 4;

			// 20.下顶Pin加热位间距
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8 \| (pszData[i + 2] & 0xff) << 16 \| (pszData[i + 3] & 0xff) << 24;
			params.push_back(CParam("下顶Pin加热位间距", "", this->getName().c_str(), v * 0.001f));
			i += 4;

			// 21.腔体真空泵真空规设定值
			params.push_back(CParam("腔体真空泵真空规设定值", "", this->getName().c_str(), (double)toFloat(&pszData[i])));
			i += 4;

			// 22.腔体分子泵到达设定值
			params.push_back(CParam("腔体分子泵到达设定值", "", this->getName().c_str(), (double)toFloat(&pszData[i])));
			i += 4;


			return (int)params.size();
			}
			}