#include "PurifierClient.h" #include "S7Command.h" #include "../global.h" #include "../SystemInfo.h" #include "../PLC/SignalService.h" #include "../utils/DataByte.h" PurifierClient::PurifierClient(CommunicationCfg* pconfig) :S7Client(pconfig) { m_RunCfg = ConfigManager::GetInstance()->GetRunCfg(); m_ExtCfg = ConfigManager::GetInstance()->GetExtCfg(); m_AlarmCfgWrapper = ConfigManager::GetInstance()->GetAlarmCfg(); } PurifierClient::~PurifierClient() { Shutdown(); } void PurifierClient::InitCommand() { S7Command* pcommand = new S7Command(S7_COMMAND_READ_INFO, READ_ITEM_COUNT); TS7DataItem* items = pcommand->getDataItems(); int itemFlag = 0; items[itemFlag].Area = S7AreaMK; items[itemFlag].WordLen = S7WLByte; items[itemFlag].Start = 0; items[itemFlag].Amount = 6; items[itemFlag].pdata = new unsigned char[6]; //VD_中效过滤器压力实值 itemFlag = 1; items[itemFlag].Area = S7AreaDB; items[itemFlag].WordLen = S7WLByte; items[itemFlag].DBNumber = 1; items[itemFlag].Start = 0; items[itemFlag].Amount = 206; items[itemFlag].pdata = new unsigned char[206]; pcommand->m_Ref = this; pcommand->m_Fun = &PurifierClient::ProcReadInfoXT; pcommand->isNeedDel = false; S7Command* pcommand2 = new S7Command(S7_COMMAND_READ_INFO, READ_ITEM_COUNT2); TS7DataItem* items2 = pcommand2->getDataItems(); //报警信息 itemFlag = 0; //报警信息 items2[itemFlag].Area = S7AreaDB; items2[itemFlag].WordLen = S7WLByte; items2[itemFlag].DBNumber = 1; items2[itemFlag].Start = 389; items2[itemFlag].Amount = 2; items2[itemFlag].pdata = new unsigned char[2]; //最大风速 itemFlag = 1; items2[itemFlag].Area = S7AreaDB; items2[itemFlag].WordLen = S7WLByte; items2[itemFlag].DBNumber = 1; items2[itemFlag].Start = 550; items2[itemFlag].Amount = 8; items2[itemFlag].pdata = new unsigned char[8]; itemFlag = 2; items2[itemFlag].Area = S7AreaDB; items2[itemFlag].WordLen = S7WLByte; items2[itemFlag].DBNumber = 1; items2[itemFlag].Start = 594; items2[itemFlag].Amount = 1; items2[itemFlag].pdata = new unsigned char[1]; itemFlag = 3; items2[itemFlag].Area = S7AreaDB; items2[itemFlag].WordLen = S7WLByte; items2[itemFlag].DBNumber = 1; items2[itemFlag].Start = 696; items2[itemFlag].Amount = 4; items2[itemFlag].pdata = new unsigned char[4]; itemFlag = 4; items2[itemFlag].Area = S7AreaDB; items2[itemFlag].WordLen = S7WLByte; items2[itemFlag].DBNumber = 1; items2[itemFlag].Start = 812; items2[itemFlag].Amount = 4; items2[itemFlag].pdata = new unsigned char[4]; itemFlag = 5; items2[itemFlag].Area = S7AreaDB; items2[itemFlag].WordLen = S7WLByte; items2[itemFlag].DBNumber = 1; items2[itemFlag].Start = 846; items2[itemFlag].Amount = 4; items2[itemFlag].pdata = new unsigned char[4]; pcommand2->m_Ref = this; pcommand2->m_Fun = &PurifierClient::ProcReadInfoXT2; pcommand2->isNeedDel = false; //写测氧值 S7Command* oxygenPressureCom = new S7Command(S7_COMMAND_WRITE,2); TS7DataItem* dataItem = oxygenPressureCom->getDataItems(); dataItem[0].Area = S7AreaDB; dataItem[0].DBNumber = 1; dataItem[0].Start = 408; dataItem[0].WordLen = S7WLByte; dataItem[0].Amount = 4; unsigned char* poxygenfloat = new unsigned char[4]; S7FLOATDATA foxygendata; //EnterCriticalSection(&g_SystemInfo->m_InfoCs); foxygendata.fValue = (g_SystemInfo->m_ComPrintOxygen1 > g_SystemInfo->m_ComPrintOxygen2 ? g_SystemInfo->m_ComPrintOxygen1 : g_SystemInfo->m_ComPrintOxygen2); //LeaveCriticalSection(&g_SystemInfo->m_InfoCs); poxygenfloat[0] = foxygendata.data[3]; poxygenfloat[1] = foxygendata.data[2]; poxygenfloat[2] = foxygendata.data[1]; poxygenfloat[3] = foxygendata.data[0]; dataItem[0].pdata = poxygenfloat; m_OxygenWriteValue = (unsigned char*)dataItem[0].pdata; dataItem[1].Area = S7AreaDB; dataItem[1].DBNumber = 1; dataItem[1].Start = 20; dataItem[1].WordLen = S7WLByte; dataItem[1].Amount = 4; unsigned char* pfloat = new unsigned char[4]; S7FLOATDATA fPressure; EnterCriticalSection(&g_SystemInfo->m_InfoCs); fPressure.fValue = g_SystemInfo->m_EnvState.m_PrintPressureAnalog; LeaveCriticalSection(&g_SystemInfo->m_InfoCs); pfloat[0] = fPressure.data[3]; pfloat[1] = fPressure.data[2]; pfloat[2] = fPressure.data[1]; pfloat[3] = fPressure.data[0]; dataItem[1].pdata = pfloat; m_PressureWriteValue = (unsigned char*)dataItem[1].pdata; oxygenPressureCom->m_Ref = this; oxygenPressureCom->m_Fun = &PurifierClient::ProcWriteValueXT; oxygenPressureCom->isNeedDel = false; oxygenPressureCom->m_PreWrite = &PurifierClient::ProcSetOxygenValue; m_CycleCommands.push_back(pcommand); m_CycleCommands.push_back(pcommand2); m_CycleCommands.push_back(oxygenPressureCom); } void PurifierClient::ProcReadInfoXT(void *pobject, Command* pcommand) { S7Command* s7Command = (S7Command*)pcommand; TS7DataItem* pdataItems = s7Command->getDataItems(); int itemcount = s7Command->getItemCount(); if (pobject == NULL || itemcount != READ_ITEM_COUNT)return; PurifierClient* ppw = (PurifierClient*)pobject; TS7DataItem pCtrl = pdataItems[0]; TS7DataItem pPresure = pdataItems[1]; TS7DataItem pBoxClean = pdataItems[2]; TS7DataItem pWind = pdataItems[3]; TS7DataItem pFilterTime = pdataItems[4]; TS7DataItem pAlarm = pdataItems[5]; TS7DataItem pMaxWind = pdataItems[6]; TS7DataItem pCoverWindOffset = pdataItems[7]; EnterCriticalSection(&ppw->m_ValueCS); if (pCtrl.Result == 0) { unsigned char* arr = (unsigned char*)pCtrl.pdata; unsigned char mdata0 = arr[0]; unsigned char mdata1 = arr[1]; unsigned char mdata2 = arr[2]; unsigned char mdata3 = arr[3]; unsigned char mdata4 = arr[4]; unsigned char mdata5 = arr[5]; ppw->m_Stat.isPurifying =((mdata5 & 0x1)>0?true:false); ppw->m_Stat.isDedusting = ((mdata0 & 0x4) ? true : false); ppw->m_Stat.isBoxCleaning = ((mdata0 & 0x40) ? true : false); ppw->m_Stat.isBlowBack = ((mdata1 & 0x2) ? true : false); ppw->m_Stat.isFilterDiscarding = ((mdata1 & 0x10) ? true : false); ppw->m_Stat.isFilterCleaning = ((mdata1 & 0x80) ? true : false); ppw->m_Stat.isHopperCleaning = ((mdata2 & 0x20 )?true:false); } if (pPresure.Result == 0) { unsigned char* pchar = (unsigned char*)pPresure.pdata; ppw->m_Stat.midPressureValue = FLOATDATA(false, &pchar[0]).fValue; ppw->m_Stat.midPressureDifValue = FLOATDATA(false, &pchar[4]).fValue; ppw->m_Stat.midTemperatureValue = FLOATDATA(false, &pchar[8]).fValue; ppw->m_Stat.highPressureDifValue = FLOATDATA(false, &pchar[12]).fValue; ppw->m_Stat.anemometerActualValue = FLOATDATA(false, &pchar[16]).fValue; ppw->m_Stat.printPressureValue = FLOATDATA(false, &pchar[20]).fValue; ppw->m_Stat.boxPressureUpLimit = FLOATDATA(false, &pchar[28]).fValue; ppw->m_Stat.boxPressureDownLimit = FLOATDATA(false, &pchar[32]).fValue; ppw->m_Stat.filterOxygenValue = FLOATDATA(false, &pchar[48]).fValue; ppw->m_Stat.printOxygenValue = FLOATDATA(false, &pchar[60]).fValue; ppw->m_Stat.midPressureDifAlarmValue = FLOATDATA(false, &pchar[64]).fValue; ppw->m_Stat.highPressureDifAlarmValue = FLOATDATA(false, &pchar[68]).fValue; ppw->m_Stat.printOxygenUpSetValue = FLOATDATA(false, &pchar[76]).fValue; ppw->m_RunCfg->m_WarnOxygen = ppw->m_Stat.printOxygenUpSetValue; ppw->m_Stat.boxWashTime = ((pchar[110] & 0xff) << 8) + (pchar[111] & 0xff); ppw->m_Stat.filterWashTime = ((pchar[112] & 0xff) << 8) + (pchar[113] & 0xff); ppw->m_Stat.boxWashDelayTime = ((pchar[114] & 0xff) << 8) + (pchar[115] & 0xff); ppw->m_Stat.dedustingWashDelayTime = ((pchar[116] & 0xff) << 8) + (pchar[117] & 0xff); ppw->m_Stat.hopperCleanRemind = ((pchar[118] & 0xff) << 8) + (pchar[119] & 0xff); ppw->m_Stat.printCleanOxygenSetValue = FLOATDATA(false, &pchar[142]).fValue; ppw->m_Stat.windSetValue = FLOATDATA(false, &pchar[146]).fValue; ppw->m_Stat.windActualValue = FLOATDATA(false, &pchar[150]).fValue; ppw->m_Stat.filterCleanOxygenSetValue = FLOATDATA(false, &pchar[158]).fValue; ppw->m_Stat.midTempHighSetValue = FLOATDATA(false, &pchar[166]).fValue; ppw->m_Stat.midTempUltraSetValue = FLOATDATA(false, &pchar[170]).fValue; ppw->m_Stat.oxygenAlarmValue = FLOATDATA(false, &pchar[190]).fValue; //ppw->m_RunCfg->SetOxygenAlarmValue(ppw->m_Stat.oxygenAlarmValue); //ppw->m_RunCfg->SetOxygenTargeValue(ppw->m_Stat.printCleanOxygenSetValue); ppw->m_RunCfg->m_AlarmOxygen = ppw->m_Stat.oxygenAlarmValue; ppw->m_RunCfg->m_TargeOxygen = ppw->m_Stat.printCleanOxygenSetValue + 50; FanFit* al = ppw->m_ExtCfg->m_FanWindFit[ppw->m_ExtCfg->m_SelectedFanWindFit]; al->alarmWind = (ppw->m_Stat.windSetValue > 10.0f) ? (ppw->m_Stat.windSetValue - 10.0f) : 0.0f; ppw->m_Stat.filterTotalUseTime = ((pchar[194] & 0xff) << 8) + (pchar[195] & 0xff); ppw->m_Stat.usedTimeFromlastBowBack = ((pchar[196] & 0xff) << 8) + (pchar[197] & 0xff); ppw->m_Stat.bowBackTimes = ((pchar[198] & 0xff) << 8) + (pchar[199] & 0xff); ppw->m_Stat.hopperTimeLastClean = ((pchar[204] & 0xff) << 8) + (pchar[205] & 0xff); if (ppw->m_AlarmCfgWrapper->m_PurifierOxygenAlarm) { if (ppw->m_Stat.filterOxygenValue > ppw->m_RunCfg->m_FilterOxygenAlarmValue) { if (ppw->m_AlarmCfgWrapper->m_PurifierOxygenAlarm->m_AlarmContinueTick > ppw->m_AlarmCfgWrapper->m_PurifierOxygenAlarm->m_CheckAlarmSetTick) { ppw->m_AlarmCfgWrapper->m_PurifierOxygenAlarm->m_AlarmInfo = to_string(ppw->m_Stat.filterOxygenValue); SignalService::GetInstance().SetAlarm(ppw->m_AlarmCfgWrapper->m_PurifierOxygenAlarm, true); } else { ppw->m_AlarmCfgWrapper->m_PurifierOxygenAlarm->m_AlarmContinueTick++; } } else { ppw->m_AlarmCfgWrapper->m_PurifierOxygenAlarm->m_AlarmContinueTick = 0; SignalService::GetInstance().SetAlarm(ppw->m_AlarmCfgWrapper->m_PurifierOxygenAlarm, false); } } } if (pAlarm.Result == 0) { unsigned char* arr = (unsigned char*)pAlarm.pdata; unsigned char pdata1 = arr[0]; unsigned char pdata2 = arr[1]; ppw->m_Stat.midTempOverLimitAlarm = ((pdata1 & 0x1) > 0 ? true : false); ppw->m_Stat.midHighTempOverLimitAlarm = ((pdata1 & 0x2) > 0 ? true : false); ppw->m_Stat.hopperUseLongTimeAlarm = ((pdata1 & 0x4) > 0 ? true : false); ppw->m_Stat.highPressureLackValveAlarm = ((pdata1 & 0x8) > 0 ? true : false); ppw->m_Stat.inverterPowerBreak = ((pdata1 & 0x10) > 0 ? true : false); ppw->m_Stat.inverterAlarm = ((pdata1 & 0x20) > 0 ? true : false); ppw->m_Stat.innerfilterOpenAlarm = ((pdata1 & 0x40) > 0 ? true : false); ppw->m_Stat.inverterComException = ((pdata1 & 0x80) > 0 ? true : false); ppw->m_Stat.cycleInValveOpenAlarm = ((pdata2 & 0x1) > 0 ? true : false); ppw->m_Stat.cycleOutValueOpenAlarm = ((pdata2 & 0x2) > 0 ? true : false); ppw->m_Stat.midHighValveOpenAlarm = ((pdata2 & 0x4) > 0 ? true : false); ppw->m_Stat.innerFilterInValveException = ((pdata2 & 0x8) > 0 ? true : false); ppw->m_Stat.midUnionValveException = ((pdata2 & 0x10) > 0 ? true : false); ppw->m_Stat.innerFilterOutValveException = ((pdata2 & 0x20) > 0 ? true : false); ppw->m_Stat.midFilterBlockAlarm = ((pdata2 & 0x40) > 0 ? true : false); ppw->m_Stat.highFilterBlockAlarm = ((pdata2 & 0x80) > 0 ? true : false); if (ppw->m_AlarmCfgWrapper->m_PurifierMidTempAlarm) SignalService::GetInstance().SetAlarm(ppw->m_AlarmCfgWrapper->m_PurifierMidTempAlarm, ppw->m_Stat.midTempOverLimitAlarm); /*ppw->m_Stat.d1Alarm = ((pdata2 & 0x1)>0?true:false); ppw->m_Stat.d2Alarm = ((pdata2 & 0x2)>0 ? true : false); ppw->m_Stat.d3Alarm = ((pdata2 & 0x4)>0 ? true : false); ppw->m_Stat.b1Alarm = ((pdata2 & 0x8)>0 ? true : false); ppw->m_Stat.b2Alarm = ((pdata2 & 0x10)>0 ? true : false); ppw->m_Stat.b3Alarm = ((pdata2 & 0x20)>0 ? true : false); ppw->m_Stat.midBlockAlarm = ((pdata2 & 0x40)>0 ? true : false); ppw->m_Stat.highBlockAlarm = ((pdata2 & 0x80)>0 ? true : false); ppw->m_Stat.midHighTempAlarm = ((pdata1 & 0x1)>0 ? true : false); ppw->m_Stat.midUtralHighTempAlarm = ((pdata1 & 0x2)>0 ? true : false); ppw->m_Stat.highHighTempAlarm = ((pdata1 & 0x4)>0 ? true : false); // ppw->m_Stat.highUtralHighTempAlarm = ((pdata1 & 0x8)>0 ? true : false); ppw->m_Stat.freqConvBreakerAlarm = ((pdata1 & 0x10)>0 ? true : false); ppw->m_Stat.fanAlarm = ((pdata1 & 0x20)>0 ? true : false);*/ } LeaveCriticalSection(&ppw->m_ValueCS); } void PurifierClient::ProcReadInfoXT2(void *pobject, Command* pcommand) { S7Command* s7Command = (S7Command*)pcommand; TS7DataItem* pdataItems = s7Command->getDataItems(); int itemcount = s7Command->getItemCount(); if (pobject == NULL || itemcount != READ_ITEM_COUNT2)return; PurifierClient* ppw = (PurifierClient*)pobject; TS7DataItem pAlarm = pdataItems[0]; TS7DataItem pMaxWind = pdataItems[1]; TS7DataItem pSignal = pdataItems[2]; TS7DataItem pType = pdataItems[3]; TS7DataItem pCoverWindOffset = pdataItems[4]; TS7DataItem pFreq = pdataItems[5]; EnterCriticalSection(&ppw->m_ValueCS); if (pAlarm.Result == 0) { unsigned char* arr = (unsigned char*)pAlarm.pdata; unsigned char pdata1 = arr[0]; unsigned char pdata2 = arr[1]; ppw->m_Stat.midTempOverLimitAlarm = ((pdata1 & 0x1) > 0 ? true : false); ppw->m_Stat.midHighTempOverLimitAlarm = ((pdata1 & 0x2) > 0 ? true : false); ppw->m_Stat.hopperUseLongTimeAlarm = ((pdata1 & 0x4) > 0 ? true : false); ppw->m_Stat.highPressureLackValveAlarm = ((pdata1 & 0x8) > 0 ? true : false); ppw->m_Stat.inverterPowerBreak = ((pdata1 & 0x10) > 0 ? true : false); ppw->m_Stat.inverterAlarm = ((pdata1 & 0x20) > 0 ? true : false); ppw->m_Stat.innerfilterOpenAlarm = ((pdata1 & 0x40) > 0 ? true : false); ppw->m_Stat.inverterComException = ((pdata1 & 0x80) > 0 ? true : false); ppw->m_Stat.cycleInValveOpenAlarm = ((pdata2 & 0x1) > 0 ? true : false); ppw->m_Stat.cycleOutValueOpenAlarm = ((pdata2 & 0x2) > 0 ? true : false); ppw->m_Stat.midHighValveOpenAlarm = ((pdata2 & 0x4) > 0 ? true : false); ppw->m_Stat.innerFilterInValveException = ((pdata2 & 0x8) > 0 ? true : false); ppw->m_Stat.midUnionValveException = ((pdata2 & 0x10) > 0 ? true : false); ppw->m_Stat.innerFilterOutValveException = ((pdata2 & 0x20) > 0 ? true : false); ppw->m_Stat.midFilterBlockAlarm = ((pdata2 & 0x40) > 0 ? true : false); ppw->m_Stat.highFilterBlockAlarm = ((pdata2 & 0x80) > 0 ? true : false); } if (pMaxWind.Result == 0) { unsigned char* pchar = (unsigned char*)pMaxWind.pdata; ppw->m_Stat.maxWindSetValue = FLOATDATA(false, &pchar[0]).fValue; ppw->m_Stat.useArgon = ((pchar[7] & 0x2) > 0 ? true : false); ppw->m_ExtCfg->m_SelectedFanWindFit = ppw->m_Stat.useArgon ? 1 : 0; ppw->m_Stat.isCoverWind = ((pchar[7] & 0x40) > 0 ? true : false); } if (pSignal.Result == 0) { unsigned char* pchar = (unsigned char*)pSignal.pdata; ppw->m_Stat.coverWindSlowFinish = ((pchar[0] & 0x40) > 0 ? true : false); ppw->m_Stat.coverWindResumeFinish = ((pchar[0] & 0x80) > 0 ? true : false); } if (pType.Result == 0) { unsigned char* pchar = (unsigned char*)pType.pdata; ppw->m_Stat.purifierType = ((pchar[0] & 0xff) << 8) + (pchar[1] & 0xff); ppw->m_Stat.keepAlive = ((pchar[2] & 0xff) << 8) + (pchar[3] & 0xff); } if (pCoverWindOffset.Result == 0) { unsigned char* pchar = (unsigned char*)pCoverWindOffset.pdata; ppw->m_Stat.coverWindSpeedOffset = FLOATDATA(false, &pchar[0]).fValue; } if (pFreq.Result == 0) { unsigned char* pchar = (unsigned char*)pFreq.pdata; ppw->m_Stat.fanFreq = FLOATDATA(false, &pchar[0]).fValue; } LeaveCriticalSection(&ppw->m_ValueCS); } void PurifierClient::ProcWriteValueXT(void *pobject, Command* pcommand) { } void PurifierClient::ProcSetOxygenValue(void *pobject, Command* pcommand) { if (pobject == NULL)return; PurifierClient* ppw = (PurifierClient*)pobject; S7FLOATDATA fdata; S7FLOATDATA fpressuredata; EnterCriticalSection(&g_SystemInfo->m_InfoCs); fdata.fValue = (g_SystemInfo->m_ComPrintOxygen1>g_SystemInfo->m_ComPrintOxygen2? g_SystemInfo->m_ComPrintOxygen1: g_SystemInfo->m_ComPrintOxygen2); fpressuredata.fValue = g_SystemInfo->m_EnvState.m_PrintPressureAnalog; LeaveCriticalSection(&g_SystemInfo->m_InfoCs); ppw->m_OxygenWriteValue[0] = fdata.data[3]; ppw->m_OxygenWriteValue[1] = fdata.data[2]; ppw->m_OxygenWriteValue[2] = fdata.data[1]; ppw->m_OxygenWriteValue[3] = fdata.data[0]; ppw->m_PressureWriteValue[0] = fpressuredata.data[3]; ppw->m_PressureWriteValue[1] = fpressuredata.data[2]; ppw->m_PressureWriteValue[2] = fpressuredata.data[1]; ppw->m_PressureWriteValue[3] = fpressuredata.data[0]; } void PurifierClient::SetMKBit(int dindex, unsigned int waittime) { EnterCriticalSection(&m_RtcCS); S7Command* pcommand = new S7Command(S7_COMMAND_WRITE, 1); TS7DataItem* items = pcommand->getDataItems(); items[0].Area = S7AreaMK; items[0].DBNumber = 1; items[0].Start = dindex; items[0].WordLen = S7WLBit; items[0].Amount = 1; bool* tempv = new bool[1]; tempv[0] = false; items[0].pdata = tempv; pcommand->m_Ref = this; pcommand->m_waitTime = waittime; pcommand->m_Fun = &PurifierClient::ProcWriteValueXT; S7Command* pcommand2 = new S7Command(S7_COMMAND_WRITE, 1); TS7DataItem* items2 = pcommand2->getDataItems(); items2[0].Area = S7AreaMK; items2[0].DBNumber = 1; items2[0].Start = dindex; items2[0].WordLen = S7WLBit; items2[0].Amount = 1; bool* tempv2 = new bool[1]; tempv2[0] = true; items2[0].pdata = tempv2; pcommand2->m_Ref = this; pcommand2->m_Fun = &PurifierClient::ProcWriteValueXT; m_RTCommands.push(pcommand2); m_RTCommands.push(pcommand); LeaveCriticalSection(&m_RtcCS); } void PurifierClient::SetDedust(bool bvalue) { if (g_isDebug) { m_Stat.isDedusting = bvalue; } if (!IsServerConnected())return; if (bvalue)SetMKBit(10 * 8 + 0,500); else SetMKBit(10 * 8 + 1, 500); } void PurifierClient::SetBlowBack(bool bvalue) { if (!IsServerConnected())return; if (bvalue)SetMKBit(10 * 8 + 2, 500); else SetMKBit(10 * 8 + 3, 500); } void PurifierClient::SetFilterDiscard(bool bvalue) { if (!IsServerConnected())return; if (bvalue)SetMKBit(10 * 8 + 4, 500); else SetMKBit(10 * 8 + 5, 500); } void PurifierClient::SetBoxClean(bool bvalue) { if (!IsServerConnected())return; if (bvalue)SetMKBit(4, 500); else SetMKBit(5, 500); } void PurifierClient::SetFilterClean(bool bvalue) { if (!IsServerConnected())return; if (bvalue)SetMKBit(10 * 8 + 6, 500); else SetMKBit(10 * 8 + 7, 500); } void PurifierClient::SetHopperClean(bool bvalue) { if (!IsServerConnected())return; if (bvalue)SetMKBit(11 * 8 + 0, 500); else SetMKBit(11 * 8 + 1, 500); } void PurifierClient::SetPurify(bool bvalue) { if (g_isDebug) { m_Stat.isPurifying = bvalue; } if (!IsServerConnected())return; if (bvalue)SetMKBit(4 * 8 + 6, 3000); else SetMKBit(4 * 8 + 7, 3000); } void PurifierClient::ResetFilterTime() { if (!IsServerConnected())return; SetMKBit(4 * 8 , 500); } void PurifierClient::ClearHopperAlarm() { if (!IsServerConnected())return; SetMKBit(2 * 8, 500); } void PurifierClient::SetDBFloat(int dindex, float fvalue) { EnterCriticalSection(&m_RtcCS); S7Command* pcommand = new S7Command(S7_COMMAND_WRITE, 1); TS7DataItem* items = pcommand->getDataItems(); items[0].Area = S7AreaDB; items[0].DBNumber = 1; items[0].Start = dindex; items[0].WordLen = S7WLByte; items[0].Amount = 4; unsigned char* pfloat = new unsigned char[4]; S7FLOATDATA fdata; fdata.fValue = fvalue; pfloat[0] = fdata.data[3]; pfloat[1] = fdata.data[2]; pfloat[2] = fdata.data[1]; pfloat[3] = fdata.data[0]; items[0].pdata = pfloat; pcommand->m_Ref = this; pcommand->m_Fun = &PurifierClient::ProcWriteValueXT; m_RTCommands.push(pcommand); LeaveCriticalSection(&m_RtcCS); } void PurifierClient::SetBit(int dindex, bool v) { EnterCriticalSection(&m_RtcCS); S7Command* pcommand = new S7Command(S7_COMMAND_WRITE, 1); TS7DataItem* items = pcommand->getDataItems(); items[0].Area = S7AreaDB; items[0].DBNumber = 1; items[0].Start = dindex; items[0].WordLen = S7WLBit; items[0].Amount = 1; bool* tempv = new bool[1]; tempv[0] = v; items[0].pdata = tempv; pcommand->m_Ref = this; pcommand->m_waitTime = 0; pcommand->m_Fun = &PurifierClient::ProcWriteValueXT; m_RTCommands.push(pcommand); LeaveCriticalSection(&m_RtcCS); } void PurifierClient::SetBoxPressureUpLimit(float fvalue) { if (!IsServerConnected())return; SetDBFloat(28, fvalue); } void PurifierClient::SetBoxPressureDownLimit(float fvalue) { if (!IsServerConnected())return; SetDBFloat(32, fvalue); } void PurifierClient::SetMidPressureDifAlarmValue(float fvalue) { if (!IsServerConnected())return; SetDBFloat(64, fvalue); } void PurifierClient::SetHighPressureDifAlarmValue(float fvalue) { if (!IsServerConnected())return; SetDBFloat(68, fvalue); } void PurifierClient::SetPrintCleanOxygenSetValue(float fvalue) { if (!IsServerConnected())return; SetDBFloat(142, fvalue); } void PurifierClient::SetWindValue(float fvalue) { if (g_isDebug)m_Stat.windActualValue = fvalue; if (!IsServerConnected())return; SetDBFloat(146, fvalue); } void PurifierClient::SetPrintOxygenDownSetValue(float fvalue) { if (!IsServerConnected())return; SetDBFloat(154, fvalue); } void PurifierClient::SetPrintOxygenUpSetValue(float fvalue) { if (!IsServerConnected())return; SetDBFloat(76, fvalue); } void PurifierClient::SetfilterCleanOxygenSetValue(float fvalue) { if (!IsServerConnected())return; SetDBFloat(158, fvalue); } void PurifierClient::SetMidTempHighSetValue(float fvalue) { if (!IsServerConnected())return; SetDBFloat(166, fvalue); } void PurifierClient::SetMidTempUltraSetValue(float fvalue) { if (!IsServerConnected())return; SetDBFloat(170, fvalue); } void PurifierClient::SetHighTempHighSetValue(float fvalue) { if (!IsServerConnected())return; SetDBFloat(174, fvalue); } void PurifierClient::SetMaxWindValue(float fvalue) { if (!IsServerConnected())return; SetDBFloat(550, fvalue); } /*void PurifierClient::SetHighTempUltraSetValue(float fvalue) { SetDBFloat(178, fvalue); }*/ void PurifierClient::SetHopperCleanRemind(unsigned short value) { if (!IsServerConnected())return; EnterCriticalSection(&m_RtcCS); S7Command* pcommand = new S7Command(S7_COMMAND_WRITE, 1); TS7DataItem* items = pcommand->getDataItems(); items[0].Area = S7AreaDB; items[0].DBNumber = 1; items[0].Start = 118; items[0].WordLen = S7WLByte; items[0].Amount = 2; unsigned char* pdata= new unsigned char[2]; pdata[0] = (unsigned char)(value >> 8); pdata[1] = (unsigned char)value; items[0].pdata = pdata; pcommand->m_Ref = this; pcommand->m_Fun = &PurifierClient::ProcWriteValueXT; m_RTCommands.push(pcommand); LeaveCriticalSection(&m_RtcCS); } void PurifierClient::SetBoxWashDelayTime(unsigned short value) { if (!IsServerConnected())return; EnterCriticalSection(&m_RtcCS); S7Command* pcommand = new S7Command(S7_COMMAND_WRITE, 1); TS7DataItem* items = pcommand->getDataItems(); items[0].Area = S7AreaDB; items[0].DBNumber = 1; items[0].Start = 114; items[0].WordLen = S7WLByte; items[0].Amount = 2; unsigned char* pdata = new unsigned char[2]; pdata[0] = (unsigned char)(value >> 8); pdata[1] = (unsigned char)value; items[0].pdata = pdata; pcommand->m_Ref = this; pcommand->m_Fun = &PurifierClient::ProcWriteValueXT; m_RTCommands.push(pcommand); LeaveCriticalSection(&m_RtcCS); } void PurifierClient::SetDedustingWashDelayTime(unsigned short value) { if (!IsServerConnected())return; EnterCriticalSection(&m_RtcCS); S7Command* pcommand = new S7Command(S7_COMMAND_WRITE, 1); TS7DataItem* items = pcommand->getDataItems(); items[0].Area = S7AreaDB; items[0].DBNumber = 1; items[0].Start = 116; items[0].WordLen = S7WLByte; items[0].Amount = 2; unsigned char* pdata = new unsigned char[2]; pdata[0] = (unsigned char)(value >> 8); pdata[1] = (unsigned char)value; items[0].pdata = pdata; pcommand->m_Ref = this; pcommand->m_Fun = &PurifierClient::ProcWriteValueXT; m_RTCommands.push(pcommand); LeaveCriticalSection(&m_RtcCS); } void PurifierClient::GetStat(Purifierstat_XT& stat) { EnterCriticalSection(&m_ValueCS); memcpy_s(&stat, sizeof(Purifierstat_XT), &m_Stat, sizeof(Purifierstat_XT)); memcpy_s(&stat.baseStat, sizeof(BaseStat), &m_BaseStat, sizeof(BaseStat)); LeaveCriticalSection(&m_ValueCS); } void PurifierClient::SetPressureRangeUpLimit(float value) { if (!IsServerConnected())return; SetDBFloat(182, value); } void PurifierClient::SetPressureRangeDownLimit(float value) { if (!IsServerConnected())return; SetDBFloat(186, value); } void PurifierClient::SetOxygenAlarmValue(float value) { if (!IsServerConnected())return; SetDBFloat(190, value); } void PurifierClient::SetUseArgon(bool buse) { if (!IsServerConnected())return; SetBit(557 * 8 + 1, buse); } void PurifierClient::SetCoverWind(bool bvalue) { if (!IsServerConnected())return; EnterCriticalSection(&m_RtcCS); S7Command* pcommand = new S7Command(S7_COMMAND_WRITE, 1); TS7DataItem* items = pcommand->getDataItems(); items[0].Area = S7AreaDB; items[0].DBNumber = 1; items[0].Start = 557 * 8 + 6; items[0].WordLen = S7WLBit; items[0].Amount = 1; bool* tempv = new bool[1]; tempv[0] = bvalue; items[0].pdata = tempv; pcommand->m_Ref = this; pcommand->m_waitTime = 0; pcommand->m_Fun = &PurifierClient::ProcWriteValueXT; m_RTCommands.push(pcommand); LeaveCriticalSection(&m_RtcCS); } void PurifierClient::SetCoverWindOffset(float offset) { if (!IsServerConnected())return; SetDBFloat(812, offset); } void PurifierClient::SetShieldMonitorPrintPressure(bool bvalue) { if (g_isDebug)m_Stat.shieldMonitorPrintPressure = bvalue; if (!IsServerConnected())return; SetBit(557 * 8, bvalue); } void PurifierClient::SetWindSlowFinishSignal(bool bvalue) { if (!IsServerConnected())return; EnterCriticalSection(&m_RtcCS); S7Command* pcommand = new S7Command(S7_COMMAND_WRITE, 1); TS7DataItem* items = pcommand->getDataItems(); items[0].Area = S7AreaDB; items[0].DBNumber = 1; items[0].Start = 594 * 8 + 6; items[0].WordLen = S7WLBit; items[0].Amount = 1; bool* tempv = new bool[1]; tempv[0] = bvalue; items[0].pdata = tempv; pcommand->m_Ref = this; pcommand->m_waitTime = 0; pcommand->m_Fun = &PurifierClient::ProcWriteValueXT; m_RTCommands.push(pcommand); LeaveCriticalSection(&m_RtcCS); } void PurifierClient::SetWindResumeFinishSignal(bool bvalue) { if (!IsServerConnected())return; EnterCriticalSection(&m_RtcCS); S7Command* pcommand = new S7Command(S7_COMMAND_WRITE, 1); TS7DataItem* items = pcommand->getDataItems(); items[0].Area = S7AreaDB; items[0].DBNumber = 1; items[0].Start = 594 * 8 + 7; items[0].WordLen = S7WLBit; items[0].Amount = 1; bool* tempv = new bool[1]; tempv[0] = bvalue; items[0].pdata = tempv; pcommand->m_Ref = this; pcommand->m_waitTime = 0; pcommand->m_Fun = &PurifierClient::ProcWriteValueXT; m_RTCommands.push(pcommand); LeaveCriticalSection(&m_RtcCS); } void PurifierClient::SetBlowBackBlowTime(unsigned short value) { if (!IsServerConnected())return; EnterCriticalSection(&m_RtcCS); S7Command* pcommand = new S7Command(S7_COMMAND_WRITE, 1); TS7DataItem* items = pcommand->getDataItems(); items[0].Area = S7AreaDB; items[0].DBNumber = 1; items[0].Start = 430; items[0].WordLen = S7WLByte; items[0].Amount = 2; unsigned char* pdata = new unsigned char[2]; pdata[0] = (unsigned char)(value >> 8); pdata[1] = (unsigned char)value; items[0].pdata = pdata; pcommand->m_Ref = this; pcommand->m_Fun = &PurifierClient::ProcWriteValueXT; m_RTCommands.push(pcommand); LeaveCriticalSection(&m_RtcCS); } void PurifierClient::SetBlowBackSetTimes(unsigned short value) { if (!IsServerConnected())return; EnterCriticalSection(&m_RtcCS); S7Command* pcommand = new S7Command(S7_COMMAND_WRITE, 1); TS7DataItem* items = pcommand->getDataItems(); items[0].Area = S7AreaDB; items[0].DBNumber = 1; items[0].Start = 434; items[0].WordLen = S7WLByte; items[0].Amount = 2; unsigned char* pdata = new unsigned char[2]; pdata[0] = (unsigned char)(value >> 8); pdata[1] = (unsigned char)value; items[0].pdata = pdata; pcommand->m_Ref = this; pcommand->m_Fun = &PurifierClient::ProcWriteValueXT; m_RTCommands.push(pcommand); LeaveCriticalSection(&m_RtcCS); } void PurifierClient::SetProtectionPressureSetTime(unsigned short value) { if (!IsServerConnected())return; EnterCriticalSection(&m_RtcCS); S7Command* pcommand = new S7Command(S7_COMMAND_WRITE, 1); TS7DataItem* items = pcommand->getDataItems(); items[0].Area = S7AreaDB; items[0].DBNumber = 1; items[0].Start = 658; items[0].WordLen = S7WLByte; items[0].Amount = 2; unsigned char* pdata = new unsigned char[2]; pdata[0] = (unsigned char)(value >> 8); pdata[1] = (unsigned char)value; items[0].pdata = pdata; pcommand->m_Ref = this; pcommand->m_Fun = &PurifierClient::ProcWriteValueXT; m_RTCommands.push(pcommand); LeaveCriticalSection(&m_RtcCS); } void PurifierClient::SetUnLock() { if (!IsServerConnected())return; EnterCriticalSection(&m_RtcCS); S7Command* pcommand = new S7Command(S7_COMMAND_WRITE, 1); TS7DataItem* items = pcommand->getDataItems(); items[0].Area = S7AreaDB; items[0].DBNumber = 1; items[0].Start = 660; items[0].WordLen = S7WLByte; items[0].Amount = 2; unsigned char* pdata = new unsigned char[2]; pdata[0] = 0; pdata[1] = 0; items[0].pdata = pdata; pcommand->m_Ref = this; pcommand->m_Fun = &PurifierClient::ProcWriteValueXT; m_RTCommands.push(pcommand); LeaveCriticalSection(&m_RtcCS); }