124 lines
4.5 KiB
C++
124 lines
4.5 KiB
C++
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#include "TempCtrlClient.h"
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#include "Aibus.h"
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#include <bitset>
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#include "../SystemInfo.h"
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TempCtrlClient::TempCtrlClient(void* pconfig):TcpClient(pconfig)
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{
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size_t ptrSize = sizeof(nullptr); //指针大小
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void* startPtr = &m_Stat.m_startFlag + 1;
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size_t count = ((size_t)&m_Stat.m_endFlag - (size_t)startPtr) / ptrSize;
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InsertMp(startPtr, count);
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startPtr = &m_Stat.alarm.m_startFlag + 1;
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count = ((size_t)&m_Stat.alarm.m_endFlag - (size_t)startPtr) / ptrSize;
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InsertMp(startPtr, count);
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}
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TempCtrlClient::~TempCtrlClient()
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{
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Shutdown();
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}
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//void TempCtrlClient::InitCommand()
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//{
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// Command* pCommand = new Aibus(READ_FLOAT_POINT, /*m_Config->m_Addr*/-1, 0x0c, 0, true); //wxxtest
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// pCommand->m_Fun = &TempCtrlClient::ProcTempInfo;
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// pCommand->m_Ref = this;
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// pCommand->isNeedDel = false;
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// m_CycleCommands.push_back(pCommand);
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//}
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//void TempCtrlClient::SetTargeValue(float value)
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//{
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// EnterCriticalSection(&m_RtcCS);
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// float targevalue = value*m_Stat.scale->GetValue();
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// Command* pCommand = new Aibus(SET_TARGE_VALUE, 0x1, 0x0, (short)targevalue, false);
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// pCommand->m_Fun = &TempCtrlClient::ProcSetTemp;
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// pCommand->m_Ref = this;
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// m_RTCommands.push(pCommand);
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// LeaveCriticalSection(&m_RtcCS);
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//}
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//void TempCtrlClient::ProcTempInfo(void* pobject, Command* pcommand)
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//{
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// if (pobject == NULL)return;
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// TempCtrlClient* pTc = (TempCtrlClient*)pobject;
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// unsigned char* rseq = pcommand->m_RespSeq;
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// short floatPoint = (short)(rseq[7] << 8) + rseq[6];
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// if (floatPoint >= 128)floatPoint %= 128;
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// int scale = 1;
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// for (short i = 0; i < floatPoint; ++i) {
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// scale *= 10;
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// }
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// EnterCriticalSection(&pTc->m_ValueCS);
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// pTc->m_Stat.scale->SetValue( scale);
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// pTc->m_Stat.measuredValue->SetValue((float)((short)(rseq[1] << 8) + rseq[0]) / scale);
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// pTc->m_Stat.settingValue->SetValue((float)((short)(rseq[3] << 8) + rseq[2]) / scale);
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// pTc->m_Stat.outputValue->SetValue(rseq[4]);
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// bitset<8> bitStatus(rseq[5]);
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// pTc->m_Stat.alarm.isOverLimit->SetValue(bitStatus[0]);
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// pTc->m_Stat.alarm.isLowerLimit->SetValue(bitStatus[1]);
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// pTc->m_Stat.alarm.isActiveAlarm->SetValue(bitStatus[2]);
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// pTc->m_Stat.alarm.isInactiveAlarm->SetValue(bitStatus[3]);
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// pTc->m_Stat.alarm.isInputLimit->SetValue(bitStatus[4]);
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// pTc->m_Stat.alarm.al1->SetValue(bitStatus[5]);
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// pTc->m_Stat.alarm.al2->SetValue(bitStatus[6]);
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// EnterCriticalSection(&g_SystemInfo->m_InfoCs);
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// g_SystemInfo->m_PlatformTemp = pTc->m_Stat.measuredValue->GetValue();
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// g_SystemInfo->m_PlatformTempSettingValue = pTc->m_Stat.settingValue->GetValue();
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// LeaveCriticalSection(&g_SystemInfo->m_InfoCs);
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// LeaveCriticalSection(&pTc->m_ValueCS);
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//
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//
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//}
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//void TempCtrlClient::ProcSetTemp(void* pobject, Command* pcommand)
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//{
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// if (pobject == NULL)return;
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// TempCtrlClient* pTc = (TempCtrlClient*)pobject;
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// unsigned char* rseq = pcommand->m_RespSeq;
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// float fvalue = 0;
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// EnterCriticalSection(&pTc->m_ValueCS);
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// int scale = (pTc->m_Stat.scale->GetValue() == 0 ? 1 : pTc->m_Stat.scale->GetValue());
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// fvalue = (float)((short)(rseq[7] << 8) + rseq[6]) / scale;
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//
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// pTc->m_Stat.measuredValue->SetValue((float)((short)(rseq[1] << 8) + rseq[0]) / scale);
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// pTc->m_Stat.settingValue->SetValue((float)((short)(rseq[3] << 8) + rseq[2]) / scale);
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// pTc->m_Stat.outputValue->SetValue(rseq[4]);
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// bitset<8> bitStatus(rseq[5]);
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// pTc->m_Stat.alarm.isOverLimit->SetValue(bitStatus[0]);
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// pTc->m_Stat.alarm.isLowerLimit->SetValue(bitStatus[1]);
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// pTc->m_Stat.alarm.isActiveAlarm->SetValue(bitStatus[2]);
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// pTc->m_Stat.alarm.isInactiveAlarm->SetValue(bitStatus[3]);
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// pTc->m_Stat.alarm.isInputLimit->SetValue(bitStatus[4]);
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// pTc->m_Stat.alarm.al1->SetValue(bitStatus[5]);
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// pTc->m_Stat.alarm.al2->SetValue(bitStatus[6]);
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//
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// LeaveCriticalSection(&pTc->m_ValueCS);
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//}
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void TempCtrlClient::GetStat(TempStat& stat)
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{
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EnterCriticalSection(&m_ValueCS);
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stat.baseStat = m_BaseStat;
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stat.measuredValue = m_Stat.measuredValue->GetValue();
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stat.outputValue = m_Stat.outputValue->GetValue();
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stat.scale = m_Stat.scale->GetValue();
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stat.settingValue = m_Stat.settingValue->GetValue();
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stat.alarm.isOverLimit = m_Stat.alarm.isOverLimit->GetValue();
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stat.alarm.isLowerLimit = m_Stat.alarm.isLowerLimit->GetValue();
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stat.alarm.isActiveAlarm = m_Stat.alarm.isActiveAlarm->GetValue();
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stat.alarm.isInactiveAlarm = m_Stat.alarm.isInactiveAlarm->GetValue();
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stat.alarm.isInputLimit = m_Stat.alarm.isInputLimit->GetValue();
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stat.alarm.al1 = m_Stat.alarm.al1->GetValue();
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stat.alarm.al2 = m_Stat.alarm.al2->GetValue();
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LeaveCriticalSection(&m_ValueCS);
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}
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