~chenluhua/Bond2.git

			@@ -1,25 +1,22 @@
			#include "stdafx.h"
			#include "CLoadPort.h"
			#include "CGlassPool.h"
			#include "Servo.h"
			#include "ServoCommo.h"


			#define CHECK_READ_STEP_SIGNAL2(addr, data, size) { \
			BOOL bFlag = isBitOn(data, size, addr); \
			SERVO::CStep* pStep = getStep(addr); \
			if (pStep != nullptr) { \
			((CReadStep*)pStep)->onReadSignal(bFlag ? addr : 0); \
			} \
			}

			namespace SERVO {
			CLoadPort::CLoadPort() : CEquipment()
			{
			m_nIndex = 0;
			m_nType = 1;
			m_nMode = 1;
			m_nCassetteType = 1;
			m_nTransferMode = 1;
			m_portType = PortType::Both;
			m_portMode = PortMode::OutOfService;
			m_cassetteType = CassetteType::G1;
			m_transferMode = TransferMode::AGVMode;
			m_bEnable = FALSE;
			m_bAutoChangeEnable = FALSE;
			m_nNextCassetteSequenceNo = 0;
			m_isCompareMapsBeforeProceeding = FALSE;
			}

			CLoadPort::~CLoadPort()
			@@ -47,10 +44,20 @@
			void CLoadPort::initPins()
			{
			// 加入Pin初始化代码
			LOGI("<CLoadPort>initPins");
			LOGD("<CLoadPort>initPins");
			addPin(SERVO::PinType::INPUT, _T("In"));
			addPin(SERVO::PinType::OUTPUT, _T("Out1"));
			addPin(SERVO::PinType::OUTPUT, _T("Out2"));
			addPin(SERVO::PinType::OUTPUT, _T("Out"));
			}

			// 必须要实现的虚函数，在此初始化Slot信息
			void CLoadPort::initSlots()
			{
			for (int i = 0; i < SLOT_MAX; i++) {
			m_slot[i].enable();
			m_slot[i].setPosition(m_nID);
			m_slot[i].setNo(i + 1);
			m_slot[i].setName((std::string("Slot") + std::to_string(i+1)).c_str());
			}
			}

			void CLoadPort::initSteps()
			@@ -62,15 +69,15 @@

			{
			// Cassette Ctrl Cmd
			static char* pszName[] = { STEP_EQ_P1_CASSETTE_CTRL_CMD, STEP_EQ_P2_CASSETTE_CTRL_CMD, STEP_EQ_P3_CASSETTE_CTRL_CMD, STEP_EQ_P4_CASSETTE_CTRL_CMD };
			static int writeSignalDev[] = { 0x120, 0x121, 0x122, 0x123 };
			static char* pszName[] = { STEP_EQ_P1_CASSETTE_CTRL_CMD, STEP_EQ_P2_CASSETTE_CTRL_CMD, STEP_EQ_P3_CASSETTE_CTRL_CMD, STEP_EQ_P4_CASSETTE_CTRL_CMD };
			static int writeSignalDev[] = { 0x130, 0x131, 0x132, 0x133 };
			static int dev[] = { 0x45, 0x1a5, 0x305, 0x465 };
			static int addr[] = { 0x480, 0x481, 0x482, 0x483 };
			static int addr[] = { STEP_ID_PROT1_CASSETTE_CTR_CMD_REPLY, STEP_ID_PROT2_CASSETTE_CTR_CMD_REPLY, STEP_ID_PROT3_CASSETTE_CTR_CMD_REPLY, STEP_ID_PROT4_CASSETTE_CTR_CMD_REPLY };

			CEqCassetteCtrlCmdStep* pStep = new CEqCassetteCtrlCmdStep();
			CEqWriteStep* pStep = new CEqWriteStep();
			pStep->setName(pszName[m_nIndex]);
			pStep->setWriteSignalDev(writeSignalDev[m_nIndex]);
			pStep->setCtrlCmdDev(dev[m_nIndex]);
			pStep->setDataDev(dev[m_nIndex]);
			if (addStep(addr[m_nIndex], pStep) != 0) {
			delete pStep;
			}
			@@ -80,10 +87,16 @@
			// Type
			static char* pszName[] = { STEP_EQ_PORT1_TYPE, STEP_EQ_PORT2_TYPE, STEP_EQ_PORT3_TYPE, STEP_EQ_PORT4_TYPE };
			static int dev[] = { 0x6010 , 0x6020, 0x6030, 0x6040 };
			static int writeSignalDev[] = { 0xa0, 0xa1, 0xa2, 0xa3 };
			static int writeSignalDev[] = { 0x90, 0x91, 0x92, 0x93 };
			static int addr[] = { STEP_ID_PORT1_TYPE_CHANGE, STEP_ID_PORT2_TYPE_CHANGE, STEP_ID_PORT3_TYPE_CHANGE, STEP_ID_PORT4_TYPE_CHANGE };

			CEqReadIntStep* pStep = new CEqReadIntStep(__INT16, dev[m_nIndex]);
			CEqReadStep* pStep = new CEqReadStep(dev[m_nIndex], sizeof(short),
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			m_portType = (PortType)CToolUnits::toInt16(pszData);
			}
			return 0;
			});
			pStep->setName(pszName[m_nIndex]);
			pStep->setWriteSignalDev(writeSignalDev[m_nIndex]);
			if (addStep(addr[m_nIndex], pStep) != 0) {
			@@ -95,10 +108,17 @@
			// Mode
			static char* pszName[] = { STEP_EQ_PORT1_MODE, STEP_EQ_PORT2_MODE, STEP_EQ_PORT3_MODE, STEP_EQ_PORT4_MODE };
			static int dev[] = { 0x6011, 0x6021, 0x6031, 0x6041 };
			static int writeSignalDev[] = { 0xa8, 0xa9, 0xaa, 0xab };
			static int writeSignalDev[] = { 0x98, 0x99, 0x9a, 0x9b };
			static int addr[] = { STEP_ID_PORT1_MODE_CHANGE, STEP_ID_PORT2_MODE_CHANGE, STEP_ID_PORT3_MODE_CHANGE, STEP_ID_PORT4_MODE_CHANGE };

			CEqReadIntStep* pStep = new CEqReadIntStep(__INT16, dev[m_nIndex]);
			CEqReadStep* pStep = new CEqReadStep(dev[m_nIndex], sizeof(short),
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			m_portMode = (PortMode)CToolUnits::toInt16(pszData);
			LOGI("<LoadPort-%d>m_portMode:%d", m_nIndex, m_portMode);
			}
			return 0;
			});
			pStep->setName(pszName[m_nIndex]);
			pStep->setWriteSignalDev(writeSignalDev[m_nIndex]);
			if (addStep(addr[m_nIndex], pStep) != 0) {
			@@ -110,10 +130,16 @@
			// Cassette type
			static char* pszName[] = { STEP_EQ_PORT1_CASSETTE_TYPE, STEP_EQ_PORT2_CASSETTE_TYPE, STEP_EQ_PORT3_CASSETTE_TYPE, STEP_EQ_PORT4_CASSETTE_TYPE };
			static int dev[] = { 0x6012, 0x6022, 0x6032, 0x6042 };
			static int writeSignalDev[] = { 0xb0, 0xb1, 0xb2, 0xb3 };
			static int writeSignalDev[] = { 0xa0, 0xa1, 0xa2, 0xa3 };
			static int addr[] = { STEP_ID_PORT1_CASSETTE_TYPE_CHANGE, STEP_ID_PORT2_CASSETTE_TYPE_CHANGE, STEP_ID_PORT3_CASSETTE_TYPE_CHANGE, STEP_ID_PORT4_CASSETTE_TYPE_CHANGE };

			CEqReadIntStep* pStep = new CEqReadIntStep(__INT16, dev[m_nIndex]);
			CEqReadStep* pStep = new CEqReadStep(dev[m_nIndex], sizeof(short),
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			//m_cassetteType = (CassetteType)CToolUnits::toInt16(pszData);
			}
			return 0;
			});
			pStep->setName(pszName[m_nIndex]);
			pStep->setWriteSignalDev(writeSignalDev[m_nIndex]);
			if (addStep(addr[m_nIndex], pStep) != 0) {
			@@ -125,10 +151,16 @@
			// Transfer type
			static char* pszName[] = { STEP_EQ_PORT1_TRANSFER_MODE, STEP_EQ_PORT2_TRANSFER_MODE, STEP_EQ_PORT3_TRANSFER_MODE, STEP_EQ_PORT4_TRANSFER_MODE };
			static int dev[] = { 0x6014, 0x6024, 0x6034, 0x6044 };
			static int writeSignalDev[] = { 0xb8, 0xb9, 0xba, 0xbb };
			static int writeSignalDev[] = { 0xa8, 0xa9, 0xaa, 0xab };
			static int addr[] = { STEP_ID_PORT1_TRANSFER_MODE_CHANGE, STEP_ID_PORT2_TRANSFER_MODE_CHANGE, STEP_ID_PORT3_TRANSFER_MODE_CHANGE, STEP_ID_PORT4_TRANSFER_MODE_CHANGE };

			CEqReadIntStep* pStep = new CEqReadIntStep(__INT16, dev[m_nIndex]);
			CEqReadStep* pStep = new CEqReadStep(dev[m_nIndex], sizeof(short),
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			m_transferMode = (TransferMode)CToolUnits::toInt16(pszData);
			}
			return 0;
			});
			pStep->setName(pszName[m_nIndex]);
			pStep->setWriteSignalDev(writeSignalDev[m_nIndex]);
			if (addStep(addr[m_nIndex], pStep) != 0) {
			@@ -140,10 +172,16 @@
			// Port enable
			static char* pszName[] = { STEP_EQ_PORT1_ENABLE, STEP_EQ_PORT2_ENABLE, STEP_EQ_PORT3_ENABLE, STEP_EQ_PORT4_ENABLE };
			static int dev[] = { 0x6015, 0x6025, 0x6035, 0x6045 };
			static int writeSignalDev[] = { 0xc0, 0xc1, 0xc2, 0xc3 };
			static int writeSignalDev[] = { 0xb0, 0xb1, 0xb2, 0xb3 };
			static int addr[] = { STEP_ID_PORT1_ENABLE_MODE_CHANGE, STEP_ID_PORT2_ENABLE_MODE_CHANGE, STEP_ID_PORT3_ENABLE_MODE_CHANGE, STEP_ID_PORT4_ENABLE_MODE_CHANGE };

			CEqReadIntStep* pStep = new CEqReadIntStep(__INT16, dev[m_nIndex]);
			CEqReadStep* pStep = new CEqReadStep(dev[m_nIndex], sizeof(short),
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			m_bEnable = (unsigned int)CToolUnits::toInt16(pszData) == 1;
			}
			return 0;
			});
			pStep->setName(pszName[m_nIndex]);
			pStep->setWriteSignalDev(writeSignalDev[m_nIndex]);
			if (addStep(addr[m_nIndex], pStep) != 0) {
			@@ -158,11 +196,152 @@
			static int writeSignalDev[] = { 0xc8, 0xc9, 0xca, 0xcb };
			static int addr[] = { STEP_ID_PORT1_TYPE_AUTO_CHANGE, STEP_ID_PORT2_TYPE_AUTO_CHANGE, STEP_ID_PORT3_TYPE_AUTO_CHANGE, STEP_ID_PORT4_TYPE_AUTO_CHANGE };

			CEqReadIntStep* pStep = new CEqReadIntStep(__INT16, dev[m_nIndex]);
			CEqReadStep* pStep = new CEqReadStep(dev[m_nIndex], sizeof(short),
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			m_bAutoChangeEnable = (unsigned int)CToolUnits::toInt16(pszData) == 1;
			}
			return 0;
			});
			pStep->setName(pszName[m_nIndex]);
			pStep->setWriteSignalDev(writeSignalDev[m_nIndex]);
			if (addStep(addr[m_nIndex], pStep) != 0) {
			delete pStep;
			}
			}

			{
			// port command
			// Port Type Change Command
			static char* pszName[] = { STEP_PORT1_TYPE_CHANGE, STEP_PORT2_TYPE_CHANGE, STEP_PORT3_TYPE_CHANGE, STEP_PORT4_TYPE_CHANGE };
			static int dev[] = { 0x024, 0x02c, 0x034, 0x03c };

			CEqWriteStep* pStep = new CEqWriteStep();
			pStep->setName(pszName[m_nIndex]);
			pStep->setWriteSignalDev(0x100 + m_nIndex);
			pStep->setDataDev(dev[m_nIndex]);
			if (addStep(STEP_ID_PROT1_TYPE_CHANGE_REPLY + m_nIndex, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// port command
			// Port Mode Change Command
			static char* pszName[] = { STEP_PORT1_MODE_CHANGE, STEP_PORT2_MODE_CHANGE, STEP_PORT3_MODE_CHANGE, STEP_PORT4_MODE_CHANGE };
			static int dev[] = { 0x025, 0x02d, 0x035, 0x03d };

			CEqWriteStep* pStep = new CEqWriteStep();
			pStep->setName(pszName[m_nIndex]);
			pStep->setWriteSignalDev(0x108 + m_nIndex);
			pStep->setDataDev(dev[m_nIndex]);
			if (addStep(STEP_ID_PROT1_MODE_CHANGE_REPLY + m_nIndex, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// port command
			// Port Transfer Mode Change Command
			static char* pszName[] = { STEP_PORT1_TRANSFER_MODE_CHANGE, STEP_PORT2_TRANSFER_MODE_CHANGE, STEP_PORT3_TRANSFER_MODE_CHANGE, STEP_PORT4_TRANSFER_MODE_CHANGE };
			static int dev[] = { 0x028, 0x030, 0x038, 0x040 };

			CEqWriteStep* pStep = new CEqWriteStep();
			pStep->setName(pszName[m_nIndex]);
			pStep->setWriteSignalDev(0x110 + m_nIndex);
			pStep->setDataDev(dev[m_nIndex]);
			if (addStep(STEP_ID_PROT1_TRANSFER_MODE_CHANGE_REPLY + m_nIndex, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// port command
			// Port Enable Mode Change Command
			static char* pszName[] = { STEP_PORT1_ENABLE_MODE_CHANGE, STEP_PORT2_ENABLE_MODE_CHANGE, STEP_PORT3_ENABLE_MODE_CHANGE, STEP_PORT4_ENABLE_MODE_CHANGE };
			static int dev[] = { 0x029, 0x031, 0x039, 0x041 };

			CEqWriteStep* pStep = new CEqWriteStep();
			pStep->setName(pszName[m_nIndex]);
			pStep->setWriteSignalDev(0x118 + m_nIndex);
			pStep->setDataDev(dev[m_nIndex]);
			if (addStep(STEP_ID_PROT1_ENABLE_MODE_CHANGE_REPLY + m_nIndex, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// port command
			// Port Type Auto Change Command
			static char* pszName[] = { STEP_PORT1_TYPE_AUTO_CHANGE, STEP_PORT2_TYPE_AUTO_CHANGE, STEP_PORT3_TYPE_AUTO_CHANGE, STEP_PORT4_TYPE_AUTO_CHANGE };
			static int dev[] = { 0x02A, 0x032, 0x03A, 0x042 };

			CEqWriteStep* pStep = new CEqWriteStep();
			pStep->setName(pszName[m_nIndex]);
			pStep->setWriteSignalDev(0x120 + m_nIndex);
			pStep->setDataDev(dev[m_nIndex]);
			if (addStep(STEP_ID_PROT1_TYPE_AUTO_CHANGE_REPLY + m_nIndex, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// port command
			// Port Cassette Type Change Command
			static char* pszName[] = { STEP_PORT1_CASSETTE_TYPE_CHANGE, STEP_PORT2_CASSETTE_TYPE_CHANGE, STEP_PORT3_CASSETTE_TYPE_CHANGE, STEP_PORT4_CASSETTE_TYPE_CHANGE };
			static int dev[] = { 0x026, 0x02E, 0x036, 0x03E };

			CEqWriteStep* pStep = new CEqWriteStep();
			pStep->setName(pszName[m_nIndex]);
			pStep->setWriteSignalDev(0x128 + m_nIndex);
			pStep->setDataDev(dev[m_nIndex]);
			if (addStep(STEP_ID_PROT1_CASSETTE_TYPE_CHANGE_REPLY + m_nIndex, pStep) != 0) {
			delete pStep;
			}
			}

			{
			char* pszName[6][4] = {
			{STEP_EQ_PORT1_EMPTY, STEP_EQ_PORT2_EMPTY, STEP_EQ_PORT3_EMPTY, STEP_EQ_PORT4_EMPTY},
			{STEP_EQ_PORT1_LOAD_EADY, STEP_EQ_PORT2_LOAD_EADY, STEP_EQ_PORT3_LOAD_EADY, STEP_EQ_PORT4_LOAD_EADY},
			{STEP_EQ_PORT1_LOADED, STEP_EQ_PORT2_LOADED, STEP_EQ_PORT3_LOADED, STEP_EQ_PORT4_LOADED},
			{STEP_EQ_PORT1_INUSE, STEP_EQ_PORT2_INUSE, STEP_EQ_PORT3_INUSE, STEP_EQ_PORT4_INUSE},
			{STEP_EQ_PORT1_UNLOAD_EADY, STEP_EQ_PORT2_UNLOAD_EADY, STEP_EQ_PORT3_UNLOAD_EADY, STEP_EQ_PORT4_UNLOAD_EADY},
			{STEP_EQ_PORT1_BLOCKED, STEP_EQ_PORT2_BLOCKED, STEP_EQ_PORT3_BLOCKED, STEP_EQ_PORT4_BLOCKED}
			};
			static int dev[] = { 0x6050, 0x6070, 0x6090, 0x60b0 };
			static int writeSignalDev[6][4] = {
			{0xc8, 0xc9, 0xca, 0xcb},
			{0xd0, 0xd1, 0xd2, 0xd3},
			{0xd8, 0xd9, 0xda, 0xdb},
			{0xe0, 0xe1, 0xe2, 0xe3},
			{0xe8, 0xe9, 0xea, 0xeb},
			{0xf0, 0xf1, 0xf2, 0xf3}
			};
			static int addr[6][4] = {
			{ STEP_ID_PORT1_EMPTY, STEP_ID_PORT2_EMPTY, STEP_ID_PORT3_EMPTY, STEP_ID_PORT4_EMPTY },
			{ STEP_ID_PORT1_LOAD_READY, STEP_ID_PORT2_LOAD_READY, STEP_ID_PORT3_LOAD_READY, STEP_ID_PORT4_LOAD_READY },
			{ STEP_ID_PORT1_LOADED, STEP_ID_PORT2_LOADED, STEP_ID_PORT3_LOADED, STEP_ID_PORT4_LOADED },
			{ STEP_ID_PORT1_INUSE, STEP_ID_PORT2_INUSE, STEP_ID_PORT3_INUSE, STEP_ID_PORT4_INUSE },
			{ STEP_ID_PORT1_UNLOAD_READY, STEP_ID_PORT2_UNLOAD_READY, STEP_ID_PORT3_UNLOAD_READY, STEP_ID_PORT4_UNLOAD_READY },
			{ STEP_ID_PORT1_BLOCKED, STEP_ID_PORT2_BLOCKED, STEP_ID_PORT3_BLOCKED, STEP_ID_PORT4_BLOCKED },
			};

			for (int i = 0; i < 6; i++) {
			CEqReadStep* pStep = new CEqReadStep(dev[m_nIndex], 32 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			decodePortStatusReport((CStep*)pFrom, pszData, size);
			return 0;
			}
			return -1;
			});
			pStep->setName(pszName[i][m_nIndex]);
			pStep->setProp("Port", (void*)(__int64)(m_nIndex + 1));
			pStep->setWriteSignalDev(writeSignalDev[i][m_nIndex]);
			if (addStep(addr[i][m_nIndex], pStep) != 0) {
			delete pStep;
			}
			}
			}
			}
			@@ -170,11 +349,64 @@
			void CLoadPort::onTimer(UINT nTimerid)
			{
			CEquipment::onTimer(nTimerid);


			// 从配置读出的enable，初始化时写给efem
			static int i_enable[4] = { 0 };
			if ((++i_enable[m_nIndex]) == 20 + m_nIndex) {
			eablePort(m_bEnable, [&](int code) -> int {
			LOGI("<LoadPort-%d>eablePort:code=%d", m_nIndex, code);
			return 0;
			});
			}



			// 模拟测试
			/*
			if (m_nIndex == 0) {
			static int ii = 0;
			ii++;
			if (ii == 50) {
			char szBuffer[64] = {0};
			CStep* pStep = getStepWithName(STEP_EQ_PORT1_BLOCKED);
			CPortStatusReport portStatusReport;
			portStatusReport.setPortStatus(PORT_BLOCKED);
			portStatusReport.setJobExistenceSlot(0xf);
			portStatusReport.setCassetteId("CID1001");
			int nRet = portStatusReport.serialize(szBuffer, 64);
			decodePortStatusReport(pStep, szBuffer, 64);
			}
			}
			if (m_nIndex == 1) {
			static int ii = 0;
			ii++;
			if (ii == 55) {
			char szBuffer[64] = { 0 };
			CStep* pStep = getStepWithName(STEP_EQ_PORT2_BLOCKED);
			CPortStatusReport portStatusReport;
			portStatusReport.setPortStatus(PORT_BLOCKED);
			portStatusReport.setJobExistenceSlot(0xff );
			portStatusReport.setCassetteId("CID1004");
			int nRet = portStatusReport.serialize(szBuffer, 64);
			decodePortStatusReport(pStep, szBuffer, 64);
			}
			}
			*/
			}

			void CLoadPort::serialize(CArchive& ar)
			{
			CEquipment::serialize(ar);

			if (ar.IsStoring()) {
			ar << m_nIndex;
			m_portStatusReport.serialize(ar);
			}
			else {
			ar >> m_nIndex;
			m_portStatusReport.serialize(ar);
			}
			}

			void CLoadPort::getAttributeVector(CAttributeVector& attrubutes)
			@@ -186,13 +418,13 @@
			attrubutes.addAttribute(new CAttribute("Index",
			std::to_string(m_nIndex).c_str(), "", weight++));
			attrubutes.addAttribute(new CAttribute("Type",
			getPortTypeDescription(m_nType, strTemp).c_str(), "", weight++));
			getPortTypeDescription(m_portType, strTemp).c_str(), "", weight++));
			attrubutes.addAttribute(new CAttribute("Mode",
			getPortModeDescription(m_nMode, strTemp).c_str(), "", weight++));
			getPortModeDescription(m_portMode, strTemp).c_str(), "", weight++));
			attrubutes.addAttribute(new CAttribute("CassetteType",
			getPortCassetteTypeDescription(m_nCassetteType, strTemp).c_str(), "", weight++));
			getPortCassetteTypeDescription(m_cassetteType, strTemp).c_str(), "", weight++));
			attrubutes.addAttribute(new CAttribute("TransferMode",
			getPortTransferModeDescription(m_nTransferMode, strTemp).c_str(), "", weight++));
			getPortTransferModeDescription(m_transferMode, strTemp).c_str(), "", weight++));
			attrubutes.addAttribute(new CAttribute("Enable",
			m_bEnable ? "Eanble" : "Disable", "", weight++));
			attrubutes.addAttribute(new CAttribute("Auto Change",
			@@ -204,37 +436,30 @@
			return __super::recvIntent(pPin, pIntent);
			}

			int CLoadPort::outputGlass(int port)
			{
			return __super::outputGlass(port);
			}

			BOOL CLoadPort::glassWillArrive(CGlass* pGlass)
			{
			BOOL bRet = __super::glassWillArrive(pGlass);
			if (!bRet) {
			return FALSE;
			}

			return (m_glassList.size() < 8);
			}

			int CLoadPort::sendCassetteCtrlCmd(short cmd,
			short* jobExistence,
			int jobExistenceSize,
			short slotProcess,
			short jopCount,
			CJobDataA* pJobDataA)
			CJobDataA* pJobDataA,
			ONWRITED onWritedBlock)
			{
			int id = getID();
			if ( !(id == EQ_ID_LOADPORT1 \|\| id == EQ_ID_LOADPORT2) ) {
			return -1;
			SERVO::CEqWriteStep* pStep = (SERVO::CEqWriteStep*)getCassetteCtrlCmdStep();
			ASSERT(pStep);

			char szBuffer[1024] = { 0 };
			memcpy(&szBuffer[0], &cmd, sizeof(short));
			if (jobExistence != nullptr && jobExistenceSize == 12) {
			memcpy(&szBuffer[2], jobExistence, sizeof(short) * jobExistenceSize);
			}

			memcpy(&szBuffer[26], &slotProcess, sizeof(short));
			memcpy(&szBuffer[36], &jopCount, sizeof(short));
			if (pJobDataA != nullptr) {
			pJobDataA->serialize(&szBuffer[38], 1024 - 38);
			}

			SERVO::CEqCassetteCtrlCmdStep* pStep = (SERVO::CEqCassetteCtrlCmdStep*)getCassetteCtrlCmdStep();
			ASSERT(pStep);
			return pStep->sendCtrlCmd(cmd, jobExistence, jobExistenceSize, slotProcess, jopCount, pJobDataA);
			return pStep->writeDataEx(szBuffer, 352 * 2, onWritedBlock);
			}

			CStep* CLoadPort::getCassetteCtrlCmdStep()
			@@ -254,9 +479,35 @@
			return pStep;
			}

			short CLoadPort::getNextCassetteSequenceNo()
			{
			m_nNextCassetteSequenceNo++;
			if (m_nNextCassetteSequenceNo >= 1000) {
			m_nNextCassetteSequenceNo = 0;
			}

			return (m_nIndex + 1) * 1000 + m_nNextCassetteSequenceNo;
			}

			int CLoadPort::getPortCassetteSnSeed()
			{
			return m_nNextCassetteSequenceNo;
			}

			void CLoadPort::setPortCassetteSnSeed(int seed)
			{
			m_nNextCassetteSequenceNo = seed;
			if (m_nNextCassetteSequenceNo >= 1000) {
			m_nNextCassetteSequenceNo = 0;
			}
			}

			void CLoadPort::setIndex(unsigned int index)
			{
			m_nIndex = index;

			std::string id = "Port" + std::to_string(index + 1);
			m_portStatusReport.setCassetteId(id.c_str());
			}

			unsigned int CLoadPort::getIndex()
			@@ -269,29 +520,64 @@
			return m_bEnable;
			}

			int CLoadPort::getPortType()
			PortType CLoadPort::getPortType()
			{
			return m_nType;
			return m_portType;
			}

			int CLoadPort::getPortMode()
			PortMode CLoadPort::getPortMode()
			{
			return m_nMode;
			return m_portMode;
			}

			int CLoadPort::getCessetteType()
			CassetteType CLoadPort::getCessetteType()
			{
			return m_nCassetteType;
			return m_cassetteType;
			}

			int CLoadPort::getTransferMode()
			TransferMode CLoadPort::getTransferMode()
			{
			return m_nTransferMode;
			return m_transferMode;
			}

			BOOL CLoadPort::isAutoChange()
			{
			return m_bAutoChangeEnable;
			}

			int CLoadPort::getPortStatus()
			{
			return m_portStatusReport.getPortStatus();
			}

			int CLoadPort::getCassetteSequenceNo()
			{
			return m_portStatusReport.getCassetteSequenceNo();
			}

			std::string& CLoadPort::getCassetteId()
			{
			return m_portStatusReport.getCassetteId();
			}

			int CLoadPort::getLoadingCassetteType()
			{
			return m_portStatusReport.getLoadingCassetteType();
			}

			int CLoadPort::getQTimeFlag()
			{
			return m_portStatusReport.getQTimeFlag();
			}

			int CLoadPort::getCassetteMappingState()
			{
			return m_portStatusReport.getCassetteMappingState();
			}

			int CLoadPort::getCassetteStatus()
			{
			return m_portStatusReport.getCassetteStatus();
			}

			/*
			@@ -303,9 +589,9 @@
			6: Buffer Port-Un-loader in Buffer Type
			7: Unloading Partial Port
			*/
			std::string& CLoadPort::getPortTypeDescription(int portType, std::string& strDescription)
			std::string& CLoadPort::getPortTypeDescription(PortType portType, std::string& strDescription)
			{
			switch (portType) {
			switch ((int)portType) {
			case 1:
			strDescription = _T("Loading Port");
			break;
			@@ -343,9 +629,9 @@
			4: InService
			5: TransferReady
			*/
			std::string& CLoadPort::getPortModeDescription(int portMode, std::string& strDescription)
			std::string& CLoadPort::getPortModeDescription(PortMode portMode, std::string& strDescription)
			{
			switch (portMode) {
			switch ((int)portMode) {
			case 0:
			strDescription = _T("OutOfService");
			break;
			@@ -377,9 +663,9 @@
			2: G2
			3: G1&G2
			*/
			std::string& CLoadPort::getPortCassetteTypeDescription(int casseteType, std::string& strDescription)
			std::string& CLoadPort::getPortCassetteTypeDescription(CassetteType casseteType, std::string& strDescription)
			{
			switch (casseteType) {
			switch ((int)casseteType) {
			case 1:
			strDescription = _T("G1");
			break;
			@@ -402,9 +688,9 @@
			2: AGV Mode
			3: Stocker Inline Mode
			*/
			std::string& CLoadPort::getPortTransferModeDescription(int mode, std::string& strDescription)
			std::string& CLoadPort::getPortTransferModeDescription(TransferMode mode, std::string& strDescription)
			{
			switch (mode) {
			switch ((int)mode) {
			case 1:
			strDescription = _T("MGV Mode");
			break;
			@@ -444,8 +730,160 @@
			return strDescription;
			}

			/*
			1: Load Ready(Load Request)
			2: Loaded
			3: In Use (Load Complete)
			4: Unload Ready (Unload Request)
			5: Empty (Unload Complete)
			6: Blocked
			*/
			std::string& CLoadPort::getPortStatusDescription(int portStatus, std::string& strDescription)
			{
			switch (portStatus) {
			case 1:
			strDescription = _T("Load Ready(Load Request)");
			break;
			case 2:
			strDescription = _T("Loaded");
			break;
			case 3:
			strDescription = _T("In Use(Load Complete)");
			break;
			case 4:
			strDescription = _T("Unload Ready(Unload Request)");
			break;
			case 5:
			strDescription = _T("Empty(Unload Complete)");
			break;
			case 6:
			strDescription = _T("Blocked");
			break;
			default:
			strDescription = _T("");
			break;
			}

			return strDescription;
			}

			/*
			1: G1 Cassette
			2: G2 Cassette
			3: G1 + G2 Cassette
			4: Empty Cassette
			* Include this item only when cassette exists"
			*/
			std::string& CLoadPort::getLoadingCassetteTypeDescription(int type, std::string& strDescription)
			{
			switch (type) {
			case 1:
			strDescription = _T("G1 Cassette)");
			break;
			case 2:
			strDescription = _T("G2 Cassette");
			break;
			case 3:
			strDescription = _T("G1+G2 Cassette)");
			break;
			case 4:
			strDescription = _T("Empty Cassette)");
			break;
			default:
			strDescription = _T("");
			break;
			}

			return strDescription;
			}

			/*
			1: Normal Un-loading
			2: Q-Time Over & Un-loading
			*/
			std::string& CLoadPort::getQTimeFlagDescription(int flag, std::string& strDescription)
			{
			switch (flag) {
			case 1:
			strDescription = _T("Normal Un-loading");
			break;
			case 2:
			strDescription = _T("Q-Time Over & Un-loading");
			break;
			default:
			strDescription = _T("");
			break;
			}

			return strDescription;
			}

			/*
			1: mapping use
			2: mapping not use
			*/
			std::string& CLoadPort::getCassetteMappingStateDescription(int state, std::string& strDescription)
			{
			switch (state) {
			case 1:
			strDescription = _T("Mapping use");
			break;
			case 2:
			strDescription = _T("Mapping not use");
			break;
			default:
			strDescription = _T("");
			break;
			}

			return strDescription;
			}

			/*
			1: No Cassette Exist
			2: Waiting for Cassette Data
			3: Waiting for Start Command
			4: Waiting for Processing
			5: In Processing
			6: Process Paused
			7: Process Completed
			*/
			std::string& CLoadPort::getCassetteStatusDescription(int state, std::string& strDescription)
			{
			switch (state) {
			case 1:
			strDescription = _T("No Cassette Exist");
			break;
			case 2:
			strDescription = _T("Waiting for Cassette Data");
			break;
			case 3:
			strDescription = _T("Waiting for Start Command");
			break;
			case 4:
			strDescription = _T("Waiting for Processing");
			break;
			case 5:
			strDescription = _T("In Processing");
			break;
			case 6:
			strDescription = _T("Process Paused");
			break;
			case 7:
			strDescription = _T("Process Completed");
			break;
			default:
			strDescription = _T("");
			break;
			}

			return strDescription;
			}

			void CLoadPort::onReceiveLBData(const char* pszData, size_t size)
			{
			__super::onReceiveLBData(pszData, size);

			static int type[] = { STEP_ID_PORT1_TYPE_CHANGE, STEP_ID_PORT2_TYPE_CHANGE,
			STEP_ID_PORT3_TYPE_CHANGE, STEP_ID_PORT4_TYPE_CHANGE };
			static int mode[] = { STEP_ID_PORT1_MODE_CHANGE, STEP_ID_PORT2_MODE_CHANGE,
			@@ -459,58 +897,314 @@
			static int autoType[] = { STEP_ID_PORT1_TYPE_AUTO_CHANGE, STEP_ID_PORT2_TYPE_AUTO_CHANGE,
			STEP_ID_PORT3_TYPE_AUTO_CHANGE, STEP_ID_PORT4_TYPE_AUTO_CHANGE };

			CHECK_READ_STEP_SIGNAL2(type[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL2(mode[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL2(cassetteType[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL2(transferMode[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL2(enable[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL2(autoType[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL(type[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL(mode[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL(cassetteType[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL(transferMode[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL(enable[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL(autoType[m_nIndex], pszData, size);


			static int typeReply[] = { STEP_ID_PROT1_TYPE_CHANGE_REPLY, STEP_ID_PROT2_TYPE_CHANGE_REPLY,
			STEP_ID_PROT3_TYPE_CHANGE_REPLY, STEP_ID_PROT4_TYPE_CHANGE_REPLY };
			static int modeReply[] = { STEP_ID_PROT1_MODE_CHANGE_REPLY, STEP_ID_PROT2_MODE_CHANGE_REPLY,
			STEP_ID_PROT3_MODE_CHANGE_REPLY, STEP_ID_PROT4_MODE_CHANGE_REPLY };
			static int transferModeReply[] = { STEP_ID_PROT1_TRANSFER_MODE_CHANGE_REPLY, STEP_ID_PROT2_TRANSFER_MODE_CHANGE_REPLY,
			STEP_ID_PROT3_TRANSFER_MODE_CHANGE_REPLY, STEP_ID_PROT4_TRANSFER_MODE_CHANGE_REPLY };
			static int enableModeReply[] = { STEP_ID_PROT1_ENABLE_MODE_CHANGE_REPLY, STEP_ID_PROT2_ENABLE_MODE_CHANGE_REPLY,
			STEP_ID_PROT3_ENABLE_MODE_CHANGE_REPLY, STEP_ID_PROT4_ENABLE_MODE_CHANGE_REPLY };
			static int typeAutoReply[] = { STEP_ID_PROT1_TYPE_AUTO_CHANGE_REPLY, STEP_ID_PROT2_TYPE_AUTO_CHANGE_REPLY,
			STEP_ID_PROT3_TYPE_AUTO_CHANGE_REPLY, STEP_ID_PROT4_TYPE_AUTO_CHANGE_REPLY };
			static int cassetteTypeReply[] = { STEP_ID_PROT1_CASSETTE_TYPE_CHANGE_REPLY, STEP_ID_PROT2_CASSETTE_TYPE_CHANGE_REPLY,
			STEP_ID_PROT3_CASSETTE_TYPE_CHANGE_REPLY, STEP_ID_PROT4_CASSETTE_TYPE_CHANGE_REPLY };

			CHECK_WRITE_STEP_SIGNAL(typeReply[m_nIndex], pszData, size);
			CHECK_WRITE_STEP_SIGNAL(modeReply[m_nIndex], pszData, size);
			CHECK_WRITE_STEP_SIGNAL(transferModeReply[m_nIndex], pszData, size);
			CHECK_WRITE_STEP_SIGNAL(enableModeReply[m_nIndex], pszData, size);
			CHECK_WRITE_STEP_SIGNAL(typeAutoReply[m_nIndex], pszData, size);
			CHECK_WRITE_STEP_SIGNAL(cassetteTypeReply[m_nIndex], pszData, size);
			}

			int CLoadPort::onStepEvent(CStep* pStep, int code)
			int CLoadPort::decodePortStatusReport(CStep* pStep, const char* pszData, size_t size)
			{
			int nRet = CEquipment::onStepEvent(pStep, code);
			if (nRet > 0) return nRet;
			CPortStatusReport portStatusReport;
			int nRet = portStatusReport.unserialize(&pszData[0], (int)size);
			if (nRet < 0) return nRet;
			m_portStatusReport.copyEx(portStatusReport);

			if (code == STEP_EVENT_READDATA) {
			if (isPortTypeStep(pStep)) {
			SERVO::CEqReadIntStep* pReadIntStep = (SERVO::CEqReadIntStep*)pStep;
			m_nType = pReadIntStep->getValue();

			// 当port状态为InUse, 比较map
			if (m_portStatusReport.getPortStatus() == PORT_INUSE) {
			if (m_isCompareMapsBeforeProceeding) {
			short scanMap = getScanCassetteMap();
			short downloadMap = getDownloadCassetteMap();
			if (scanMap == downloadMap) {
			generateGlassList(scanMap);
			this->sendCassetteCtrlCmd(CCC_PROCESS_START, nullptr, 0, 0, 0, nullptr, nullptr);
			}
			else {
			this->sendCassetteCtrlCmd(CCC_PROCESS_CANCEL, nullptr, 0, 0, 0, nullptr, nullptr);

			// 抛出到应用层做提示
			if (m_listener.onMapMismatch != nullptr) {
			m_listener.onMapMismatch(this, scanMap, downloadMap);
			}
			}
			}
			else if(isPortModeStep(pStep)) {
			SERVO::CEqReadIntStep* pReadIntStep = (SERVO::CEqReadIntStep*)pStep;
			m_nMode = pReadIntStep->getValue();
			else {
			// 抛出到应用层做选择要加工的片子
			generateGlassList(getScanCassetteMap());
			}
			else if (isPortCassetteTypeStep(pStep)) {
			SERVO::CEqReadIntStep* pReadIntStep = (SERVO::CEqReadIntStep*)pStep;
			m_nCassetteType = pReadIntStep->getValue();
			}
			else if (isPortTransferModeStep(pStep)) {
			SERVO::CEqReadIntStep* pReadIntStep = (SERVO::CEqReadIntStep*)pStep;
			m_nTransferMode = pReadIntStep->getValue();
			}
			else if (isPortEnableStep(pStep)) {
			SERVO::CEqReadIntStep* pReadIntStep = (SERVO::CEqReadIntStep*)pStep;
			m_bEnable = pReadIntStep->getValue() == 1;
			}
			else if (isPortTypeAutoChangeEnableStep(pStep)) {
			SERVO::CEqReadIntStep* pReadIntStep = (SERVO::CEqReadIntStep*)pStep;
			m_bAutoChangeEnable = pReadIntStep->getValue() == 1;
			}
			}
			if (m_listener.onPortStatusChanged != nullptr) {
			m_listener.onPortStatusChanged(this, portStatusReport.getPortStatus(),
			getScanCassetteMap());
			}


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

			LOGI("<CCassetteTranserStateStep>decodePortStatusReport<Status:%d, CassetteSequenceNo:%d, CassetteId:%s>",
			m_portStatusReport.getPortStatus(), m_portStatusReport.getCassetteSequenceNo(),
			m_portStatusReport.getCassetteId().c_str());
			if (m_portStatusReport.getPortStatus() == 3) {
			LOGI("<CCassetteTranserStateStep>InUse<JobExistenceSlot:%d>",
			m_portStatusReport.getJobExistenceSlot());
			}


			return nRet;
			}

			int CLoadPort::setPortType(PortType type, ONWRITED onWritedBlock/* = nullptr*/)
			{
			static char* pszName[] = { STEP_PORT1_TYPE_CHANGE, STEP_PORT2_TYPE_CHANGE, STEP_PORT3_TYPE_CHANGE, STEP_PORT4_TYPE_CHANGE };
			SERVO::CEqWriteStep* pStep = (SERVO::CEqWriteStep*)getStepWithName(pszName[m_nIndex]);
			if (pStep == nullptr) {
			return -1;
			}

			LOGI("<CLoadPort-%d>准备设置Port type<%d>", m_nIndex, (int)type);
			short value = (short)type;
			pStep->writeDataEx((const char*)&value, sizeof(short), [&, onWritedBlock](int code) -> int {
			// test
			code = WOK;
			if (code == WOK) {
			m_portType = type;
			LOGI("<CLoadPort-%d>设置Port type成功.", m_nIndex);
			}
			else {
			LOGE("<CLoadPort-%d>设置Port type失败，code:%d", m_nIndex, code);
			}
			if (onWritedBlock != nullptr) {
			return onWritedBlock(code);
			}

			return 0;
			});

			return 0;
			}

			int CLoadPort::eablePort(BOOL bEnable, ONWRITED onWritedBlock/* = nullptr*/)
			{
			static char* pszName[] = { STEP_PORT1_ENABLE_MODE_CHANGE, STEP_PORT2_ENABLE_MODE_CHANGE, STEP_PORT3_ENABLE_MODE_CHANGE, STEP_PORT4_ENABLE_MODE_CHANGE };
			SERVO::CEqWriteStep* pStep = (SERVO::CEqWriteStep*)getStepWithName(pszName[m_nIndex]);
			if (pStep == nullptr) {
			return -1;
			}

			LOGI("<CLoadPort-%d>准备%s Port", m_nIndex, bEnable ? _T("启用") : _T("禁用"));
			short value = bEnable ? 1 : 2;
			pStep->writeDataEx((const char*)&value, sizeof(short), [&, onWritedBlock](int code) -> int {
			// test
			code = WOK;
			if (code == WOK) {
			m_bEnable = bEnable;
			LOGI("<CLoadPort-%d>%s Port成功.", m_nIndex, bEnable ? _T("启用") : _T("禁用"));
			}
			else {
			LOGE("<CLoadPort-%d>%s Port失败，code:%d", m_nIndex, bEnable ? _T("启用") : _T("禁用"), code);
			}
			if (onWritedBlock != nullptr) {
			return onWritedBlock(code);
			}
			return 0;
			});

			return 0;
			}

			int CLoadPort::setPortMode(PortMode mode, ONWRITED onWritedBlock/* = nullptr*/)
			{
			static char* pszName[] = { STEP_PORT1_MODE_CHANGE, STEP_PORT2_MODE_CHANGE, STEP_PORT3_MODE_CHANGE, STEP_PORT4_MODE_CHANGE };
			SERVO::CEqWriteStep* pStep = (SERVO::CEqWriteStep*)getStepWithName(pszName[m_nIndex]);
			if (pStep == nullptr) {
			return -1;
			}

			LOGI("<CLoadPort-%d>准备设置Port mode<%d>", m_nIndex, (int)mode);
			short value = (short)mode;
			pStep->writeDataEx((const char*)&value, sizeof(short), [&, onWritedBlock](int code) -> int {
			// test
			code = WOK;
			if (code == WOK) {
			m_portMode = mode;
			LOGI("<CLoadPort-%d>设置Port mode成功.", m_nIndex);
			}
			else {
			LOGE("<CLoadPort-%d>设置Port mode失败，code:%d", m_nIndex, code);
			}
			if (onWritedBlock != nullptr) {
			return onWritedBlock(code);
			}
			return 0;
			});

			return 0;
			}

			int CLoadPort::setCassetteType(CassetteType type, ONWRITED onWritedBlock/* = nullptr*/)
			{
			m_cassetteType = type;
			static char* pszName[] = { STEP_PORT1_CASSETTE_TYPE_CHANGE, STEP_PORT2_CASSETTE_TYPE_CHANGE, STEP_PORT3_CASSETTE_TYPE_CHANGE, STEP_PORT4_CASSETTE_TYPE_CHANGE };
			SERVO::CEqWriteStep* pStep = (SERVO::CEqWriteStep*)getStepWithName(pszName[m_nIndex]);
			if (pStep == nullptr) {
			return -1;
			}

			LOGI("<CLoadPort-%d>准备设置Cassette Type<%d>", m_nIndex, (int)type);
			short value = (short)type;
			pStep->writeDataEx((const char*)&value, sizeof(short), [&, onWritedBlock](int code) -> int {
			// test
			code = WOK;
			if (code == WOK) {
			LOGI("<CLoadPort-%d>设置Cassette Type成功.", m_nIndex);
			}
			else {
			LOGE("<CLoadPort-%d>设置Cassette Type失败，code:%d", m_nIndex, code);
			}
			if (onWritedBlock != nullptr) {
			return onWritedBlock(code);
			}
			return 0;
			});

			return 0;
			}

			int CLoadPort::setTransferMode(TransferMode mode, ONWRITED onWritedBlock/* = nullptr*/)
			{
			static char* pszName[] = { STEP_PORT1_TRANSFER_MODE_CHANGE, STEP_PORT2_TRANSFER_MODE_CHANGE, STEP_PORT3_TRANSFER_MODE_CHANGE, STEP_PORT4_TRANSFER_MODE_CHANGE };
			SERVO::CEqWriteStep* pStep = (SERVO::CEqWriteStep*)getStepWithName(pszName[m_nIndex]);
			if (pStep == nullptr) {
			return -1;
			}

			LOGI("<CLoadPort-%d>准备设置Transfer mode<%d>", m_nIndex, (int)mode);
			short value = (short)mode;
			pStep->writeDataEx((const char*)&value, sizeof(short), [&, onWritedBlock](int code) -> int {
			// test
			code = WOK;
			if (code == WOK) {
			m_transferMode = mode;
			LOGI("<CLoadPort-%d>设置Transfer mode成功.", m_nIndex + 1);
			}
			else {
			LOGE("<CLoadPort-%d>设置Transfer mode失败，code:%d", m_nIndex + 1, code);
			}
			if (onWritedBlock != nullptr) {
			return onWritedBlock(code);
			}
			return 0;
			});

			return 0;
			}

			int CLoadPort::eableAutoChange(BOOL bEnable, ONWRITED onWritedBlock/* = nullptr*/)
			{
			static char* pszName[] = { STEP_PORT1_TYPE_AUTO_CHANGE, STEP_PORT2_TYPE_AUTO_CHANGE, STEP_PORT3_TYPE_AUTO_CHANGE, STEP_PORT4_TYPE_AUTO_CHANGE };
			SERVO::CEqWriteStep* pStep = (SERVO::CEqWriteStep*)getStepWithName(pszName[m_nIndex]);
			if (pStep == nullptr) {
			return -1;
			}

			LOGI("<CLoadPort-%d>准备%s Auto Change", m_nIndex, bEnable ? _T("启用") : _T("禁用"));
			short value = bEnable ? 1 : 2;
			pStep->writeDataEx((const char*)&value, sizeof(short), [&, onWritedBlock](int code) -> int {
			// test
			code = WOK;
			if (code == WOK) {
			m_bAutoChangeEnable = bEnable;
			LOGI("<CLoadPort-%d>%s Auto Change成功.", m_nIndex, bEnable ? _T("启用") : _T("禁用"));
			}
			else {
			LOGE("<CLoadPort-%d>%s Auto Change失败，code:%d", m_nIndex, bEnable ? _T("启用") : _T("禁用"), code);
			}
			if (onWritedBlock != nullptr) {
			return onWritedBlock(code);
			}
			return 0;
			});

			return 0;
			}

			void CLoadPort::localEanblePort(BOOL bEnable)
			{
			m_bEnable = bEnable;
			}

			void CLoadPort::localSetPortType(PortType type)
			{
			m_portType = type;
			}

			void CLoadPort::localSetPortMode(PortMode mode)
			{
			m_portMode = mode;
			}

			void CLoadPort::localSetCessetteType(CassetteType type)
			{
			m_cassetteType = type;
			}

			void CLoadPort::localSetTransferMode(TransferMode mode)
			{
			m_transferMode = mode;
			}

			void CLoadPort::localAutoChangeEnable(BOOL bEnable)
			{
			m_bAutoChangeEnable = bEnable;
			}

			short CLoadPort::getScanCassetteMap()
			{
			return m_portStatusReport.getJobExistenceSlot();
			}

			short CLoadPort::getDownloadCassetteMap()
			{
			// 暂时未实现此功能
			short map = 0;
			return map;
			}

			/*
			* 生成测试用的玻璃列表
			*/
			int CLoadPort::testGenerateGlassList(MaterialsType type, int count, const char* pszPrefix, int startSuffix)
			int CLoadPort::testGenerateGlassList(MaterialsType type)
			{
			// 如果非空就不生成了
			Lock();
			if (!m_glassList.empty()) {
			if (hasGlass()) {
			Unlock();
			return -1;
			}
			@@ -518,30 +1212,112 @@


			char szBuffer[64];
			int suffix = startSuffix;
			for (int i = 0; i < count; i++) {
			CJobDataB jb;
			for (int i = 0; i < SLOT_MAX; i++) {
			if (!m_slot[i].isEnable()) continue;

			CJobDataS js;

			sprintf_s(szBuffer, "%s%d", pszPrefix, suffix++);
			jb.setGlassId(szBuffer);
			js.setCassetteSequenceNo(getNextCassetteSequenceNo());
			js.setJobSequenceNo(m_slot[i].getNo());
			sprintf_s(szBuffer, 64, "%05d%05d", js.getCassetteSequenceNo(), js.getJobSequenceNo());
			js.setJobType(1);
			js.setMaterialsType((int)type);
			if (type == MaterialsType::G1) {
			js.setGlass1Id(szBuffer);
			}
			else if (type == MaterialsType::G2) {
			js.setGlass2Id(szBuffer);
			}

			CGlass* pGlass = new CGlass();
			CGlass* pGlass = theApp.m_model.m_glassPool.allocaGlass();
			pGlass->setOriginPort(m_nIndex, i);
			pGlass->addPath(m_nID, 0, i + 1);
			pGlass->processEnd(m_nID, 0);
			pGlass->setID(szBuffer);
			pGlass->setJobDataB(&jb);
			pGlass->setType(type);
			pGlass->setJobDataS(&js);
			addGlassToList(pGlass);
			m_slot[i].setContext(pGlass);
			}

			return 0;
			}

			/*
			* 根据efem扫描到的map，生成玻璃列表
			*/
			int CLoadPort::generateGlassList(short map)
			{
			// 先释放较早前的数据
			Lock();
			for (int i = 0; i < SLOT_MAX; i++) {
			m_slot[i].setContext(nullptr);
			}
			Unlock();


			// 根据map生成新的
			char szBuffer[64];
			for (int i = 0; i < SLOT_MAX; i++) {
			if (!m_slot[i].isEnable()) continue;
			if (((map >> i) & 1) == 0) continue;

			CJobDataS js;
			js.setCassetteSequenceNo(getNextCassetteSequenceNo());
			js.setJobSequenceNo(m_slot[i].getNo());
			sprintf_s(szBuffer, 64, "%05d%05d", js.getCassetteSequenceNo(), js.getJobSequenceNo());
			js.setJobType(1);
			js.setMaterialsType((int)m_cassetteType);

			CGlass* pGlass = theApp.m_model.m_glassPool.allocaGlass();
			pGlass->setOriginPort(m_nIndex, i);
			pGlass->setScheduledForProcessing(i % 2 == 1);
			pGlass->addPath(m_nID, 0, i + 1);
			pGlass->processEnd(m_nID, 0);
			pGlass->setID(szBuffer);
			pGlass->setType(m_cassetteType);
			pGlass->setJobDataS(&js);
			m_slot[i].setContext(pGlass);
			}

			return 0;
			}


			int CLoadPort::testGenerateGlassListFromConfig(const SERVO::PortConfig& config)
			{
			char szBuffer[64];
			for (const auto& slot : config.vecSlot) {
			int nSlotIndex = slot.nSlotID - 1;
			if (nSlotIndex < 0 \|\| nSlotIndex >= SLOT_MAX) {
			continue;
			}
			if (!slot.isEnabled) {
			m_slot[nSlotIndex].setContext(nullptr);
			continue;
			}

			CJobDataS js;
			js.setCassetteSequenceNo(getNextCassetteSequenceNo());
			js.setJobSequenceNo(m_slot[nSlotIndex].getNo());

			sprintf_s(szBuffer, 64, "%05d%05d", js.getCassetteSequenceNo(), js.getJobSequenceNo());
			js.setJobType(1);
			js.setMaterialsType(config.nMaterialType);

			js.setLotId(config.strLotID.c_str());
			js.setProductId(config.strProductID.c_str());
			js.setOperationId(config.strOperationID.c_str());
			js.setGlass1Id(szBuffer);

			CGlass* pGlass = theApp.m_model.m_glassPool.allocaGlass();
			pGlass->setOriginPort(m_nIndex, nSlotIndex);
			pGlass->addPath(m_nID, 0, slot.nSlotID);
			pGlass->processEnd(m_nID, 0);
			pGlass->setID(szBuffer);
			pGlass->setType(static_cast<SERVO::MaterialsType>(config.nMaterialType));
			pGlass->setJobDataS(&js);

			m_slot[nSlotIndex].setContext(pGlass);
			}

			return 0;
			}

			void CLoadPort::setCompareMapsBeforeProceeding(BOOL bCompare)
			{
			m_isCompareMapsBeforeProceeding = bCompare;
			}
			}