#include "stdafx.h" #include "CBakeCooling.h" namespace SERVO { CBakeCooling::CBakeCooling() : CEquipment() { } CBakeCooling::~CBakeCooling() { } const char* CBakeCooling::getClassName() { static char* pszName = "CBakeCooling"; return pszName; } void CBakeCooling::init() { CEquipment::init(); } void CBakeCooling::term() { CEquipment::term(); } // ±ØÐëÒªÊµÏÖµÄÐéº¯Êý£¬ÔÚ´Ë³õÊ¼»¯PinÁÐ±í void CBakeCooling::initPins() { // ¼ÓÈëPin³õÊ¼»¯´úÂë LOGI("initPins"); addPin(SERVO::PinType::INPUT, _T("In1")); addPin(SERVO::PinType::INPUT, _T("In2")); addPin(SERVO::PinType::OUTPUT, _T("Out")); } void CBakeCooling::initSteps() { CEquipment::initSteps(); { // eq mode CEqModeStep* pStep = new CEqModeStep(); pStep->setName(STEP_MODE); pStep->setWriteSignalDev(0x940); pStep->setModeDev(0x11d7d); if (addStep(STEP_ID_EQMODE_CHANGED, pStep) != 0) { delete pStep; } } { // eq status CEqStatusStep* pStep = new CEqStatusStep(); pStep->setName(STEP_STATUS); pStep->setWriteSignalDev(0x941); pStep->setStatusDev(0x11d59); 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[5] = { 0x11f0e , 0x11f3b, 0x11f68, 0x11f95, 0x11fc2 }; static int writeSignalDev[5] = { 0x942, 0x943, 0x944, 0x945, 0x946 }; 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[i]); pStep->setAlarmDev(dev[i]); if (addStep(addr[i], pStep) != 0) { delete pStep; } } } { CEqReadStep* pStep = new CEqReadStep(0x12b55, 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(0x947); 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(0x960); pStep->setCimModeDev(0x1c05); 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(0x961); pStep->setCimMessageDev(0x1bf0); 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(0x948); pStep->setDataDev(0x12850); if (addStep(STEP_ID_CURRENT_RECIPE_CHANGE_REPORT, pStep) != 0) { delete pStep; } } { // CIM Message Confirm // Òª½«int32µÄÖµ²ð·ÖÎªÁ½¸öshort, ·Ö±ðÎªmsg idºÍpanel id // 65538, 2Îªmsg id, 1Îªpanel id CEqReadIntStep* pStep = new CEqReadIntStep(__INT32, 0x11d80); pStep->setName(STEP_EQ_CIM_MESSAGE_CONFIRM); pStep->setWriteSignalDev(0x949); if (addStep(STEP_ID_CIM_MSG_CONFIRM_REPORT, pStep) != 0) { delete pStep; } } { CEqCimMessageClearStep* pStep = new CEqCimMessageClearStep(); pStep->setName(STEP_CIM_MESSAGE_CLEAR); pStep->setWriteSignalDev(0x962); pStep->setClearCimMessageDev(0x1c03); 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(0x963); pStep->setDateTimeDev(0x1c06); if (addStep(STEP_ID_DATETIME_SET_CMD_REPLY, pStep) != 0) { delete pStep; } } { CEqModeChangeStep* pStep = new CEqModeChangeStep(); pStep->setName(STEP_EQ_MODE_CHANGE); pStep->setWriteSignalDev(0x965); pStep->setEqModeDev(0x1c0e); if (addStep(STEP_ID_EQMODE_CHANGE_CMD_REPLY, pStep) != 0) { delete pStep; } } { // ÇëÇóÖ÷Åä·½ÁÐ±íµÄstep CEqWriteStep* pStep = new CEqWriteStep(); pStep->setName(STEP_EQ_MASTER_RECIPE_LIST_REQ); pStep->setWriteSignalDev(0x966); pStep->setDataDev(0x24fa); if (addStep(STEP_ID_MASTER_RECIPE_LIST_CMD_REPLY, pStep) != 0) { delete pStep; } } { // master recipe list report CEqReadStep* pStep = new CEqReadStep(0x12955, 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) { // ´Ë´¦½âÊÍÅä·½Êý¾Ý ret = decodeRecipeListReport(pszData, size); } pTmpStep->setReturnCode(ret); return -1; }); pStep->setName(STEP_EQ_MASTER_RECIPE_LIST); pStep->setWriteSignalDev(0x94b); pStep->setReturnDev(0x37ad); if (addStep(STEP_ID_MASTER_RECIPE_LIST_REPORT, pStep) != 0) { delete pStep; } } { // ÇëÇóÅä·½²ÎÊý CEqWriteStep* pStep = new CEqWriteStep(); pStep->setName(STEP_EQ_RECIPE_PARAMETER_REQ); pStep->setWriteSignalDev(0x967); pStep->setDataDev(0x24fb); if (addStep(STEP_ID_RECIPE_PARAMETER_CMD_REPLY, pStep) != 0) { delete pStep; } } { // recipe parameter report CEqReadStep* pStep = new CEqReadStep(0x12a54, 257 * 2, [&](void* pFrom, int code, const char* pszData, size_t size) -> int { CEqReadStep* pTmpStep = (CEqReadStep*)pFrom; if (code == ROK && pszData != nullptr && size > 0) { // ´Ë´¦½âÊÍÅä·½Êý¾Ý short ret = decodeRecipeParameterReport(pszData, size); pTmpStep->setReturnCode(ret); } pTmpStep->setReturnCode(MRLRC_OK); return -1; }); pStep->setName(STEP_EQ_RECIPE_PARAMETER); pStep->setWriteSignalDev(0x94c); pStep->setReturnDev(0x250c); if (addStep(STEP_ID_RECIPE_PARAMETER_REPORT, pStep) != 0) { delete pStep; } } // Ê¹ÓÃCEqReadStepÌæ»»CEqJobEventStep { // Received Job Report Upstream #1~9 char szBuffer[256]; for (int i = 0; i < 4; i++) { CEqReadStep* pStep = new CEqReadStep(0x10c90 + 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(0x900 + 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 < 4; i++) { CEqReadStep* pStep = new CEqReadStep(0x10000 + 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(0x90a + 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 < 4; i++) { CEqReadStep* pStep = new CEqReadStep(0x11c31 + 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(0x923 + 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 < 4; i++) { CEqReadStep* pStep = new CEqReadStep(0x11b23 + 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(0x914 + i); if (addStep(STEP_ID_STORE_JOB_REPORT1 + i, pStep) != 0) { delete pStep; } } } // process start/end report { CEqReadStep* pStep = new CEqReadStep(0x11D3F, 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(0x933); if (addStep(STEP_ID_JOB_PROCESS_START_REPORT, pStep) != 0) { delete pStep; } } { CEqReadStep* pStep = new CEqReadStep(0x11D4C, 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(0x934); if (addStep(STEP_ID_JOB_PROCESS_END_REPORT, pStep) != 0) { delete pStep; } } } // ±ØÐëÒªÊµÏÖµÄÐéº¯Êý£¬ÔÚ´Ë³õÊ¼»¯SlotÐÅÏ¢ void CBakeCooling::initSlots() { m_slot[0].enable(); m_slot[0].setPosition(m_nID); m_slot[0].setNo(1); m_slot[0].setName("Bake 1"); m_slot[0].setLinkSignalPath(0); m_slot[1].enable(); m_slot[1].setPosition(m_nID); m_slot[1].setNo(2); m_slot[1].setName("Cooling 1"); m_slot[1].setLinkSignalPath(1); m_slot[2].enable(); m_slot[2].setPosition(m_nID); m_slot[2].setNo(3); m_slot[2].setName("Bake 2"); m_slot[2].setLinkSignalPath(2); m_slot[3].enable(); m_slot[3].setPosition(m_nID); m_slot[3].setNo(4); m_slot[3].setName("Cooling 2"); m_slot[3].setLinkSignalPath(3); } void CBakeCooling::onTimer(UINT nTimerid) { CEquipment::onTimer(nTimerid); } void CBakeCooling::serialize(CArchive& ar) { CEquipment::serialize(ar); } void CBakeCooling::getAttributeVector(CAttributeVector& attrubutes) { __super::getAttributeVector(attrubutes); } int CBakeCooling::recvIntent(CPin* pPin, CIntent* pIntent) { return __super::recvIntent(pPin, pIntent); } int CBakeCooling::getIndexerOperationModeBaseValue() { return 25000; } bool CBakeCooling::isSlotProcessed(int slot) { CGlass* pGlass = getGlassFromSlot(slot); if (pGlass == nullptr) return false; return pGlass->isProcessed(m_nID, getSlotUnit(slot)); } int CBakeCooling::parsingParams(const char* pszData, size_t size, std::vector& params) { ASSERT(pszData); if (size < 250) return 0; int i = 0, v; // 1.A_Ç»ºæ¿¾Ê±¼ä v = (pszData[i] & 0xff) | (pszData[i + 1] & 0xff) << 8; params.push_back(CParam("A_Ç»ºæ¿¾Ê±¼ä", "", "", v * 0.01f)); i += 2; // 2.A_Ç»ÀäÈ´Ê±¼ä v = (pszData[i] & 0xff) | (pszData[i + 1] & 0xff) << 8; params.push_back(CParam("A_Ç»ÀäÈ´Ê±¼ä", "", "", v * 0.01f)); i += 2; // 3.B_Ç»ºæ¿¾Ê±¼ä v = (pszData[i] & 0xff) | (pszData[i + 1] & 0xff) << 8; params.push_back(CParam("B_Ç»ºæ¿¾Ê±¼ä", "", "", v * 0.01f)); i += 2; // 4.BB_Ç»ÀäÈ´Ê±¼ä v = (pszData[i] & 0xff) | (pszData[i + 1] & 0xff) << 8; params.push_back(CParam("B_Ç»ÀäÈ´Ê±¼ä", "", "", v * 0.01f)); i += 2; // 5.A_ºæ¿¾ÎÂ¶ÈÉè¶¨ v = (pszData[i] & 0xff) | (pszData[i + 1] & 0xff) << 8; params.push_back(CParam("A_ºæ¿¾ÎÂ¶ÈÉè¶¨", "", "", v * 0.1f)); i += 2; // 6.B_ºæ¿¾ÎÂ¶ÈÉè¶¨ v = (pszData[i] & 0xff) | (pszData[i + 1] & 0xff) << 8; params.push_back(CParam("B_ºæ¿¾ÎÂ¶ÈÉè¶¨", "", "", v * 0.1f)); i += 2; return (int)params.size(); } }