// CCOS.Dev.GEN.CPI.cpp : 定义 DLL 应用程序的导出函数。 // #include "stdafx.h" #include #include using namespace std::placeholders; //#include "logger.temp.h" #include "CCOS.Dev.Generator.CPI.h" #include "Helper.JSON.hpp" using namespace CCOS::Dev::Detail::Generator; namespace nsGEN = CCOS::Dev::Detail::Generator; #pragma warning (disable:4244 4305 4267 4838 4309 4715 26495 26812) static const int msTimeOut_Lock = 500; #ifdef _WIN64 #ifdef _DEBUG static const auto COM_SCFDllName = "Ccos.Dev.SerialSCFX64D.dll"; #else static const auto COM_SCFDllName = "Ccos.Dev.SerialSCFX64.dll"; #endif #endif #ifdef _WIN64 #ifdef _DEBUG static const auto TCP_SCFDllName = "Ccos.Dev.TcpipSCFX64D.dll"; #else static const auto TCP_SCFDllName = "Ccos.Dev.TcpipSCFX64.dll"; #endif #endif //----------------------------------------------------------------------------- // CPIDevice //----------------------------------------------------------------------------- float g_MA_List[] = { 8, 10, 12.5, 16, 20, 25, 32, 40, 50, 64, 80, 100, 125, 160, 200, 250, 320, 400, 500, 640 }; float g_MAS_List[] = { 1, 1.25, 1.6, 2, 2.5, 3.2, 4, 5, 6.4, 8, 10, 12.5, 16, 20, 25, 32, 40, 50, 64, 80, 100, 125, 160, 200, 250, 320, 400, 500, 640, 800, 1000 }; float g_MS_List[] = { 1, 2, 3, 4, 5, 6, 8, 10, 12, 16, 20, 25, 32, 40, 50, 64, 80, 100, 125, 160, 200, 250, 320, 400, 500, 640, 800, 1000, 1250, 1600, 2000, 2500, 3200, 4000, 5000, 6400, 8000, 10000 }; int g_AECFIELD_List[] = { 1, 10, 100, 11, 101, 111 }; std::vector gf_MA_List = { 8, 10, 12.5, 16, 20, 25, 32, 40, 50, 64, 80, 100, 125, 160, 200, 250, 320, 400, 500, 640 }; string GetProcessDirectory() { string ret = ""; char szFilename[MAX_PATH] = { 0 }; DWORD res = GetModuleFileNameA(0, szFilename, MAX_PATH); if (res == 0) { return ret; } string fullpath = szFilename; string::size_type firstHit = fullpath.find_last_of('\\'); if (firstHit == string::npos || firstHit == 0) { return ret; } ret = fullpath.substr(0, firstHit);//kick last \ return ret; } nsGEN::CPIDevice::CPIDevice(std::shared_ptr center, nsSCF::SCF SCF, string configfile) : super(center, SCF) { assert(EventCenter); mLog::Info("version:3.0.0.5"); m_DoseUnit.m_KV.reset(new KVMould(0.0, 40.0, 120.0, 1.0)); m_DoseUnit.m_MA.reset(new MAMould(0.0, 1.0, 1000.0, 0.1)); m_DoseUnit.m_MS.reset(new MSMould(0.0, 1.0, 10000.0, 0.01)); m_DoseUnit.m_MAS.reset(new MASMould(0.0, 0.5, 1000.0, 0.01)); m_DoseUnit.m_Techmode.reset(new TECHMODEMould(0, 0, 2, 1)); m_DoseUnit.m_WS.reset(new WORKSTATIONMould(1, 0, 5, 1)); m_DoseUnit.m_Focus.reset(new FOCUSMould(1, 0, 1, 1)); m_DoseUnit.m_AECField.reset(new AECFIELDMould(0, 0, 111, 1)); m_DoseUnit.m_AECFilm.reset(new AECFILMMould(0, 0, 2, 1)); m_DoseUnit.m_AECDensity.reset(new AECDENSITYMould(0, -4, 4, 1)); m_DoseUnit.m_HE.reset(new TUBEHEATMould(0, 0, 100, 1)); m_DoseUnit.m_PostKV.reset(new POSTKVMould(0.0, 40.0, 120.0, 1.0)); m_DoseUnit.m_PostMA.reset(new POSTMAMould(0.0, 1.0, 1000.0, 0.1)); m_DoseUnit.m_PostMS.reset(new POSTMSMould(0.0, 1.0, 10000.0, 0.01)); m_DoseUnit.m_PostMAS.reset(new POSTMASMould(0.0, 0.5, 1000.0, 0.01)); m_DoseUnit.m_GenSynState.reset(new GENSYNSTATEMould(0, AttrKey::GENERATOR_SYNC_ERR, AttrKey::GENERATOR_SYNC_MAX, 1)); m_DoseUnit.m_GenState.reset(new GENSTATEMould(0, AttrKey::GENERATOR_STATUS_SHUTDOWN, AttrKey::GENERATOR_STATUS_MAX, 1)); m_DoseUnit.m_GenTotalExpNumber.reset(new TOTALEXPNUMMould(0, 0, 9999, 1)); m_DoseUnit.m_GenTotalAcqTimes.reset(new TOTALACQTIMESMould(0, 0, 9999, 1)); m_DoseUnit.m_GenTubeCoolWaitTimes.reset(new TUBECOOLTIMEMould(0, 0, 9999, 1)); m_DoseUnit.m_GenTubeOverLoadNumber.reset(new TUBEOVERLOADNUMMould(0, 0, 9999, 1)); m_DoseUnit.m_GenCurrentExpNumber.reset(new CUREXPNUMMould(0, 0, 9999, 1)); m_DoseUnit.m_ExpMode.reset(new EXPMODEMould(AttrKey::EXPMODE_TYPE::Single)); m_DoseUnit.m_FrameRate.reset(new FRAMERATEMould(0, 0, 16, 1)); m_DoseUnit.m_FLMode.reset(new FLUModeMould(AttrKey::GENERATOR_FLUMode::GENERATOR_FLMODE_NOTFLU)); m_MSGUnit.reset(new nsDetail::MSGUnit(center, nsGEN::GeneratorUnitType)); m_DAP.reset(new DevDAP::DOSEMould(0.0, 0.0, 1000.0, 0.01)); m_hGenPostEvent = CreateEvent(NULL, TRUE, FALSE, NULL); m_pHardwareStatusThread = NULL; m_bWithCollimator = false; m_nDeviceType = 0; m_fMsLimit = 500; m_strConfigPath = configfile; ResDataObject temp; temp.loadFile(m_strConfigPath.c_str()); m_GenConfig = temp["CONFIGURATION"]; TransJsonText(m_GenConfig); m_nDeviceType = (int)(m_GenConfig["GenType"]);//默认设置为2. 带有coll的。 if (m_nDeviceType == 2) { m_bWithCollimator = true; } m_nAECMode = (int)m_GenConfig["AECMODE"]; m_fMsLimit = (float)m_GenConfig["LIMITMS"];//default 500 m_nCtlMode = (int)m_GenConfig["GenCtrlMode"];//default 2 char strStart1[6] = { 0x01,0x35,0x00,0x01,0x01,0x38 }; char strStart2[7] = { 0x01,0x01,0x00,0x02,0x00,0x64,0x73 }; char strStart0a[7] = { 0x01,0x06,0x00,0x02,0x01,0x00,0x0a }; char strStart1b[7] = { 0x01,0x06,0x00,0x02,0x01,0x01,0x0b }; char strStart2c[7] = { 0x01,0x06,0x00,0x02,0x01,0x02,0x0c }; char strStart3d[7] = { 0x01,0x06,0x00,0x02,0x01,0x03,0x0d }; char strStart4e[7] = { 0x01,0x06,0x00,0x02,0x01,0x04,0x0e }; char strStart5f[7] = { 0x01,0x06,0x00,0x02,0x01,0x05,0x0f }; char strStart00c[8] = { 0x01,0x07,0x00,0x03,0x01,0x00,0x00,0x0c }; char strStart01d[8] = { 0x01,0x07,0x00,0x03,0x01,0x00,0x01,0x0d }; char strStart02e[8] = { 0x01,0x07,0x00,0x03,0x01,0x00,0x02,0x0e }; char strStart03f[8] = { 0x01,0x07,0x00,0x03,0x01,0x00,0x03,0x0f }; char strStart040[8] = { 0x01,0x07,0x00,0x03,0x01,0x00,0x04,0x10 }; char strEnd1[8] = { 0x43,0x41,0x30,0x03,0xb7,0x50,0x52,0x30 }; char strEnd2[8] = { 0x03,0xd5,0x01,0x35,0x00,0x01,0x00,0x37 }; if (m_nCtlMode == 2) { //SendCommands(strStart1, 6); HWSend(strStart1); //::Sleep(50); HWSend(strStart2); //::Sleep(50); HWSend(strStart0a); //::Sleep(50); HWSend(strStart1b); //::Sleep(50); HWSend(strStart2c); //::Sleep(50); HWSend(strStart3d); //::Sleep(50); HWSend(strStart4e); //::Sleep(50); HWSend(strStart5f); //::Sleep(50); HWSend(strStart0a); //::Sleep(50); HWSend(strStart00c); //::Sleep(50); HWSend(strStart01d); //::Sleep(50); HWSend(strStart02e); //::Sleep(50); HWSend(strStart03f); //::Sleep(50); HWSend(strStart040); //::Sleep(50); HWSend(strStart00c); //::Sleep(50); HWSend(strStart01d); //::Sleep(50); HWSend(strStart02e); //::Sleep(50); HWSend(strStart03f); //::Sleep(50); HWSend(strStart040); SetExpEnable(); } m_bDAPEnable = false; m_bSaveMSMA = true; //SynMode default is what? OnCallBack(); Register(); Reset(); Sleep(500); HWSend("DS"); HWSend("ET?"); HWSend("ST"); RefreshData(); HWSend("ATU?");//直到收到ATU1为止。 m_bCheckATUStatus = true; StartHardwareStatusThread(); } nsGEN::CPIDevice::~CPIDevice() { CloseHandle(m_hGenPostEvent); } std::string nsGEN::CPIDevice::GetGUID() const { mLog::Info("\n===============GetGUID : {$} ===================\n", GeneratorUnitType); return GeneratorUnitType; } void nsGEN::CPIDevice::Register() { auto Disp = &Dispatch; superGen::Register(Disp); superGen::RegisterRAD(Disp); superGen::RegisterAEC(Disp); superGen::RegisterExpEnable(Disp); Disp->Get.Push(m_MSGUnit->GetKey().c_str(), [this](std::string& out) { out = m_MSGUnit->JSGet(); return RET_STATUS::RET_SUCCEED; }); auto fun_Clear_DAP = [this](auto a, auto&) { return Clear_DAP(); }; Disp->Action.Push("Clear_DAP", fun_Clear_DAP); auto fun_GetValue_DAP = [this](auto a, auto& b) { float value = 0; RET_STATUS ret = GetValue_DAP(value); b = ToJSON(value); return ret; }; Disp->Action.Push("GetValue_DAP", fun_GetValue_DAP); auto fun_StartMove = [this](auto a,auto& b) { return StartMove(); }; Disp->Action.Push("StartMove", fun_StartMove); auto fun_EndMove = [this](auto a, auto& b) { return EndMove(); }; Disp->Action.Push("EndMove", fun_EndMove); } RET_STATUS nsGEN::CPIDevice::IncKV() { if (!m_DoseUnit.m_KV->CanInc()) return RET_STATUS::RET_SUCCEED; return HWSend("KV+"); } RET_STATUS nsGEN::CPIDevice::DecKV() { if (!m_DoseUnit.m_KV->CanDec()) return RET_STATUS::RET_SUCCEED; return HWSend("KV-"); } RET_STATUS nsGEN::CPIDevice::SetKV(float value) { if (!m_DoseUnit.m_KV->Verify(value)) return RET_STATUS::RET_SUCCEED; char temp[50] = { 0 }; sprintf_s(temp, "KV%03d", (int)value); return HWSend(temp); } RET_STATUS nsGEN::CPIDevice::IncMA() { if (!m_DoseUnit.m_MA->CanInc()) return RET_STATUS::RET_SUCCEED; if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_AEC && m_nAECMode == 1) { mLog::Info("\n In AEC mode, do not allowed INCMA"); return RET_STATUS::RET_FAILED; } return HWSend("MA+"); } RET_STATUS nsGEN::CPIDevice::DecMA() { if (!m_DoseUnit.m_MA->CanDec()) return RET_STATUS::RET_SUCCEED; if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_AEC && m_nAECMode == 1) { mLog::Info("\n In AEC mode, do not allowed DECMA"); return RET_STATUS::RET_FAILED; } return HWSend("MA-"); } RET_STATUS nsGEN::CPIDevice::SetMA(float value) { if (!m_DoseUnit.m_MA->Verify(value)) return RET_STATUS::RET_SUCCEED; if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_AEC && m_nAECMode == 1) { //logfile->WriteLog("In AEC mode, do not allowed SetMA", LOG_INFORMATION, LOG_DEBUG, true); mLog::Info("\n In AEC mode, do not allowed SetMA"); return RET_STATUS::RET_FAILED; } char temp[50] = { 0 }; sprintf_s(temp, "MA%05d", (int)(value * 10)); return HWSend(temp); } RET_STATUS nsGEN::CPIDevice::IncMS() { if (!m_DoseUnit.m_MS->CanInc()) return RET_STATUS::RET_SUCCEED; /* if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_MAS) { PRINTA_INFO("\n Techmode is MAS, can't inc MS"); return RET_STATUS::RET_FAILED; } */ if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_AEC && m_nAECMode != 2) { //logfile->WriteLog("In AEC mode, do not allowed SetMA", LOG_INFORMATION, LOG_DEBUG, true); mLog::Info("\n In AEC mode, do not allowed INCMS"); return RET_STATUS::RET_FAILED; } return HWSend("MS+"); } RET_STATUS nsGEN::CPIDevice::DecMS() { if (!m_DoseUnit.m_MS->CanDec()) return RET_STATUS::RET_SUCCEED; if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_AEC && m_nAECMode != 2) { mLog::Info("\n Techmode is MAS, can't dec MS"); return RET_STATUS::RET_FAILED; } return HWSend("MS-"); } RET_STATUS nsGEN::CPIDevice::SetMS(float value) { if (!m_DoseUnit.m_MA->Verify(value)) return RET_STATUS::RET_SUCCEED; if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_AEC && m_nAECMode != 2) { mLog::Info("\n In AEC mode, do not allowed SetMS"); return RET_STATUS::RET_FAILED; } char temp[50] { 0 }; sprintf_s(temp, "MS%05d", (int)(value * 10)); return HWSend(temp); } RET_STATUS nsGEN::CPIDevice::IncMAS() { if (!m_DoseUnit.m_MAS->CanInc()) return RET_STATUS::RET_SUCCEED; if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_AEC && m_nAECMode != 1) { mLog::Info("\n Techmode is not MAS, can't inc MAS"); return RET_STATUS::RET_FAILED; } return HWSend("MX+"); } RET_STATUS nsGEN::CPIDevice::DecMAS() { if (!m_DoseUnit.m_MAS->CanDec()) return RET_STATUS::RET_SUCCEED; if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_AEC && m_nAECMode != 1) { mLog::Info("\n Techmode is not MAS, can't dec MAS"); return RET_STATUS::RET_FAILED; } return HWSend("MX-"); } RET_STATUS nsGEN::CPIDevice::SetMAS(float value) { if (!m_DoseUnit.m_MA->Verify(value)) return RET_STATUS::RET_SUCCEED; if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_AEC && m_nAECMode != 1) { mLog::Info("\n Techmode is not MAS, can't set MAS"); return RET_STATUS::RET_FAILED; } char temp[50] = { 0 }; sprintf_s(temp, "MX%05d", (int)(value * 10)); return HWSend(temp); } RET_STATUS nsGEN::CPIDevice::SetTechmode(int value) { if (!m_DoseUnit.m_Techmode->Verify(value)) return RET_STATUS::RET_SUCCEED; //char temp[50] = { 0 }; //sprintf_s(temp, "ET%01d", (int)value); //return HWSend(temp); //CPI设置ET mode有点特殊 float fms, fma; m_nPreET = m_DoseUnit.m_Techmode->Get(); char temp[50] = { 0 }; sprintf_s(temp, "ET%01d", (int)value); HWSend(temp); if (!m_bSaveMSMA) return RET_STATUS::RET_FAILED; if (value == AttrKey::TECHMODE_V2TYPE::ET_TIME) { if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_MAS)//NOTE: use m_DoseUnit.m_Techmode->Get() not accurate. m_nPreET more better.!!!! { // mas - time if ((m_fPreMA > 0.1)) { Sleep(50); SetMA(m_fPreMA); } Sleep(50); SetMS(m_PrefMS); } else if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_AEC) { // aec - time if (m_bSaveMSMA) { fms = m_PrefMS; fma = m_fPreMA; Sleep(50); SetMS(fms); Sleep(50); SetMA(fma); } } } else if (value == AttrKey::TECHMODE_V2TYPE::ET_MAS) //mas { if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_TIME) { // time - mas save if (m_bSaveMSMA) { m_PrefMS = m_DoseUnit.m_MS->Get(); m_fPreMA = m_DoseUnit.m_MA->Get(); } } else if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_AEC) { // aec - mas if (m_bSaveMSMA) { fms = m_PrefMS; fma = m_fPreMA; } SetMAS(m_PrefMS * m_fPreMA / 1000); //mas mode : set dose to ma * ms } } else if (value == AttrKey::TECHMODE_V2TYPE::ET_AEC) //aec { if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_TIME) { // time - aec save if (m_bSaveMSMA) { m_PrefMS = m_DoseUnit.m_MS->Get(); m_fPreMA = m_DoseUnit.m_MA->Get(); } } else if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_MAS) { // mas - aec if ((m_fPreMA > 0.1)) { Sleep(50); if (m_nAECMode != 1) SetMA(m_fPreMA); } } Sleep(50); if (m_nAECMode == 2) SetMS(m_fMsLimit); //ysj++:不知道为什么要这么干,不过此处需要一个设置MS的语句 //if (m_nWS == GEN_WS_TOMO) //{ // if (m_nAECMode == 2) // SetMS(m_PrefMS); //} //else //{ // if (m_nAECMode == 2) // SetMS(m_fMsLimit); //} } } RET_STATUS nsGEN::CPIDevice::SetFocus(int value) { if (!m_DoseUnit.m_Focus->Verify(value)) return RET_STATUS::RET_SUCCEED; char temp[50] = { 0 }; sprintf_s(temp, "FO%01d", (int)value); return HWSend(temp); } RET_STATUS nsGEN::CPIDevice::SetAECDensity(int value) { mLog::Info("Enter SetAECDensity {$}", value); if (!m_DoseUnit.m_AECDensity->Verify(value)) return RET_STATUS::RET_SUCCEED; if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_AEC) return RET_STATUS::RET_FAILED; int nAECDensity = m_DoseUnit.m_AECDensity->Get(); if (value < m_DoseUnit.m_AECDensity->Get()) { if (value < m_DoseUnit.m_AECDensity->Get() - 1) { nAECDensity = (int)value; } else { nAECDensity = nAECDensity - 1; } } else if (value > m_DoseUnit.m_AECDensity->Get()) { if (value > m_DoseUnit.m_AECDensity->Get() + 1) { nAECDensity = (int)value; } else { nAECDensity = nAECDensity + 1; } } char temp[50] = { 0 }; if (nAECDensity >= 0) { sprintf_s(temp, "FN+%01d", (int)nAECDensity); } else { sprintf_s(temp, "FN-%01d", (int)nAECDensity); } return HWSend(temp); } RET_STATUS nsGEN::CPIDevice::SetAECField(int value) { if (!m_DoseUnit.m_AECField->Verify(value)) return RET_STATUS::RET_SUCCEED; if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_MAS) return RET_STATUS::RET_FAILED; char temp[50] = { 0 }; sprintf_s(temp, "FI%03d", (int)value); return HWSend(temp); } RET_STATUS nsGEN::CPIDevice::SetAECFilm(int value) { if (!m_DoseUnit.m_AECFilm->Verify(value)) return RET_STATUS::RET_SUCCEED; if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_MAS) return RET_STATUS::RET_FAILED; char temp[50] = { 0 }; sprintf_s(temp, "FS%03d", (int)value); return HWSend(temp); } RET_STATUS nsGEN::CPIDevice::SetWS(const string value) { mLog::Info("Enter SetWS {$}", value); int tempws = 0; if (value == "Table") tempws = (int)m_GenConfig["WSTable"]; else if (value == "Wall") tempws = (int)m_GenConfig["WSWall"]; else if (value == "Direct") tempws = (int)m_GenConfig["WSConventional"]; else if (value == "Free") tempws = (int)m_GenConfig["WSFree"]; else if (value == "Tomo") tempws = (int)m_GenConfig["WSTomo"]; char temp[50] = { 0 }; sprintf_s(temp, "WS%01d", tempws); return HWSend(temp); } RET_STATUS nsGEN::CPIDevice::SetAPR(const _tAPRArgs& t) { m_t = t; mLog::Info("*********************Enter SetAPR**********************"); mLog::Info("APR:t.fKV={$}, t.fMA={$}, t.fMAS={$}, t.fMS={$}, t.nAECDensity={$}, t.nAECField={$}, t.nAECFilm={$}, t.nFocus={$}, t.nTechmode={$}", t.fKV, t.fMA, t.fMAS, t.fMS, t.nAECDensity, t.nAECField, t.nAECFilm, t.nFocus, t.nTechmode); /// //////////////////////////////////////////////begin //SetWS(); //ysj++:缺少传递ws的apr结构体 //GetTechMode(); //ysj++:理论上，init时，RR指令已经获取ET了。 HWSend("ET?"); if (m_DoseUnit.m_Focus->Get() == 0) { SetFocus(t.nFocus); } /* * //not add this logic: because struct _tAPRArgs ,not include WS item. if ((nWS != GEN_WS_TABLE) && (nWS != GEN_WS_WALL) && (nET == GEN_ET_AEC)) { if (m_nET != GEN_ET_AEC) { nET = m_nET; } else { nET = GEN_ET_MATIME; } } */ m_PrefMS = t.fMS; m_fPreMA = t.fMA; m_bSaveMSMA = false; if (t.nTechmode == AttrKey::TECHMODE_V2TYPE::ET_AEC) { // aec SetTechmode(t.nTechmode); SetAECField(t.nAECField); SetAECDensity(t.nAECDensity); if (t.nAECFilm == 0) { SetAECFilm(10); } else { SetAECFilm(t.nAECFilm); } if (m_nAECMode == 2) { if (t.fKV > m_DoseUnit.m_KV->Get()) { SetMA(t.fMA); SetKV(t.fKV); } else { if (t.fMA < m_DoseUnit.m_MA->Get()) { SetMA(t.fMA); SetKV(t.fKV); } else { SetKV(t.fKV); SetMA(t.fMA); } } Sleep(50); SetMS(m_fMsLimit);//int V2 mode.m_fMsLimit is set by UI.but in CCOS2.0 it set by config file. } else if (m_nAECMode == 1) { if (t.fKV > m_DoseUnit.m_KV->Get()) { SetMA(t.fMA); Sleep(50); SetKV(t.fKV); } else { if (t.fMA < m_DoseUnit.m_MA->Get()) { SetMA(t.fMA); Sleep(50); SetKV(t.fKV); } else { SetKV(t.fKV); Sleep(50); SetMA(t.fMA); } } Sleep(50); SetMAS(t.fMAS); } else { if (t.fMA < m_DoseUnit.m_MA->Get()) { SetMA(t.fMA); Sleep(50); SetKV(t.fKV); } else { SetKV(t.fKV); Sleep(50); SetMA(t.fMA); } } } else if (t.nTechmode == AttrKey::TECHMODE_V2TYPE::ET_MAS) { // mas SetTechmode(t.nTechmode); SetKV(t.fKV); const float EPSINON = 0.000001; if ((t.fMAS >= -EPSINON) && (t.fMAS <= EPSINON)) { SetMAS(t.fMA * t.fMS / 1000); } else { SetMAS(t.fMAS); } } else if(t.nTechmode == AttrKey::TECHMODE_V2TYPE::ET_TIME) { // time SetTechmode(t.nTechmode); Sleep(50); if (t.fKV > m_DoseUnit.m_KV->Get()) { SetMA(t.fMA); Sleep(50); SetKV(t.fKV); } else { if (t.fMA < m_DoseUnit.m_MA->Get()) { SetMA(t.fMA); Sleep(50); SetKV(t.fKV); } else { SetKV(t.fKV); Sleep(50); SetMA(t.fMA); } } Sleep(80); SetMS(t.fMS); } if (m_DoseUnit.m_Focus->Get() == 1) { SetFocus(t.nFocus); } m_bSaveMSMA = true; ///////////////////////end return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::QueryDAP() { if (m_bDAPEnable) { return HWSend("DA"); } return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::QueryHE(int& value) { value = m_DoseUnit.m_HE->Get(); return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::QueryPostKV(float& value) { value = m_DoseUnit.m_PostKV->Get(); return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::QueryPostMA(float& value) { value = m_DoseUnit.m_PostMA->Get(); return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::QueryPostMS(float& value) { value = m_DoseUnit.m_PostMS->Get(); return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::QueryPostMAS(float& value) { value = m_DoseUnit.m_PostMAS->Get(); return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::Clear_DAP() { if (m_bDAPEnable) { return HWSend("DZ"); } else return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::GetValue_DAP(float& value) { value = m_DAP->Get(); return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::StartMove() { mLog::Info("Enter startMove"); mLog::Info("end startmove"); return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::EndMove() { mLog::Info("Enter endmove"); mLog::Info("end EndMove"); return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::SetCollimatorSize(int height, int width) { if (!m_bWithCollimator) { return RET_STATUS::RET_SUCCEED; } char temp[50] = { 0 }; sprintf_s(temp, "ACH%05d", (int)(height * 100)); HWSend(temp); sprintf_s(temp, "ACW%05d", (int)(width * 100)); HWSend(temp); return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::SetFilter(int filterType) { if (!m_bWithCollimator) { return RET_STATUS::RET_SUCCEED; } if (filterType > 3) { filterType -= 3; } char temp[50] = { 0 }; sprintf_s(temp, "FIL%02d", (int)(filterType)); return HWSend(temp); } RET_STATUS nsGEN::CPIDevice::SetGenSynState(int value) { if (AttrKey::GENERATOR_RAD_XRAYON == value) //软同步,收到XR1时，子系统会变为XRAYON状态，并调用此处，然后我立刻回复XR1至发生器，然后才真正出线。 { mLog::Info("SetGenSynState be call.this is soft syn mode."); HWSend("XR1"); m_DoseUnit.m_GenSynState->Update(AttrKey::GENERATOR_RAD_XRAYON); FireNotify(m_DoseUnit.m_GenSynState->GetKey(), m_DoseUnit.m_GenSynState->JSGet()); } return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::SetGenState(int value) { return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::SetExpMode(std::string value) { mLog::Info("Enter SetExpMode...{$}",value); m_DoseUnit.m_ExpMode->Update(value); return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::SetFLFMode(std::string value) { return RET_STATUS::RET_SUCCEED; //char temp[50]{ 0 }; //sprintf_s(temp, "RTS%s",value.c_str()); //return HWSend(temp); } RET_STATUS nsGEN::CPIDevice::SetEXAMMode(std::string value) { return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::SetFrameRate(FLOAT frameRate) { m_DoseUnit.m_FrameRate->Update(frameRate); return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::SetRPS(int rps) { return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::RefreshData() { if (m_nDeviceType == 1) { HWSend("RRX"); } else { //HWSend("RR"); HWSend("KV?"); HWSend("MA?"); HWSend("MS?"); HWSend("MX?"); } return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::SetExpEnable() { m_bExpEnable = true; return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::SetExpDisable() { m_bExpEnable = false; return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::Reset() { return HWSend("RE"); } RET_STATUS nsGEN::CPIDevice::SetCollimatorDev(OemCollimator* dev) { if (dev) m_pCollDev.reset(dev); return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::SetMechDev(OemMechanical* dev) { //if (dev) //m_pMechDev.reset(dev); return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::SetDapDev(OemDap* dev) { if (dev) m_pDapDev.reset(dev); return RET_STATUS::RET_SUCCEED; } RET_STATUS nsGEN::CPIDevice::HWSend(char* strCommand, int nTimeOut) { if (!m_SCF) return RET_STATUS::RET_FAILED; char strSendCommand[100] = { 0 }; int len = strlen(strCommand); int tmpSum = 0; for (int i = 0; i < len; i++) { tmpSum += (int)strCommand[i]; } char checkSum = char(tmpSum + 3); //strSendCommand[0] = 0x02; memcpy(strSendCommand , strCommand, len); strSendCommand[len + 0] = 0x03; strSendCommand[len + 1] = checkSum; printf("==OUT==: %s \n", strSendCommand); mLog::Info("==OUT==: {$} \n", strSendCommand); int retLength; m_SCF.Lock(msTimeOut_Lock) .SendPacket(strSendCommand, strlen(strSendCommand), nTimeOut, retLength); Sleep(nTimeOut); return RET_STATUS::RET_SUCCEED; } //----------------------------------------------------------------------------- // ProcessCmd //----------------------------------------------------------------------------- void nsGEN::CPIDevice::FireNotify(std::string key, std::string content) { EventCenter->OnNotify(1, key, content); } struct tFrameMapping { static const int MaxLen = 5; // 前缀不能超超过 5 个字符 ! using cbFun = std::function ; char strHead[MaxLen]; int NbOfCharOfHead; cbFun fun; tFrameMapping(char* str, int len, cbFun f) { assert(len < MaxLen); //len最大只能是4 //strHead[0] = 0x02; //STX //for (int i = 0; i < len; i++) //给strHead赋值 // strHead[i + 1] = str[i]; //NbOfCharOfHead = len + 1; //fun = f; //assert(len < MaxLen); for (int i = 0; i < len; i++) strHead[i] = str[i]; NbOfCharOfHead = len; fun = f; } }; static std::list arFrame; static bool DecodeFrame(const char* strFrame, int length); //KV075 MA05000 MS00800 MX00400 // ==IN==:KV075 MA05000 MS00800 MX00400 void nsGEN::CPIDevice::OnCallBack() { auto HWNotProcess = [](const char* value, int length) -> void { mLog::Info("\n This commands didn't need to process!\n"); }; auto HWKV = [this](const char* value, int length) -> void { assert(value); if (m_DoseUnit.m_KV->Update(atof(value))) FireNotify(AttrKey::KV, m_DoseUnit.m_KV->JSGet()); }; auto HWMAS = [this](const char* value, int length) { assert(value); float fmas = atof(value) / 10.0; //if (m_DoseUnit.m_Techmode->Get() == AttrKey::TECHMODE_V2TYPE::ET_TIME) //{ // //if (m_DoseUnit.m_MAS->Update(0)) // // FireNotify(AttrKey::MAS, m_DoseUnit.m_MAS->JSGet()); //} //else //{ // if (m_DoseUnit.m_MAS->Update(fmas)) // FireNotify(AttrKey::MAS, m_DoseUnit.m_MAS->JSGet()); //} if (m_DoseUnit.m_MAS->Update(fmas)) FireNotify(AttrKey::MAS, m_DoseUnit.m_MAS->JSGet()); }; auto HWMA = [this](const char* value, int length) { assert(value); float fma = atof(value) / 10.0; if (m_DoseUnit.m_MA->Update(fma)) FireNotify(AttrKey::MA, m_DoseUnit.m_MA->JSGet()); }; auto HWMS = [this](const char* value, int length) { assert(value); if (m_DoseUnit.m_MS->Update(atof(value) / 10.0)) FireNotify(AttrKey::MS, m_DoseUnit.m_MS->JSGet()); }; auto HWFocus = [this](const char* value, int length) { assert(value); if (m_DoseUnit.m_Focus->Update(atoi(value))) FireNotify(AttrKey::FOCUS, m_DoseUnit.m_Focus->JSGet()); }; auto HWTechmode = [this](const char* value, int length) { assert(value); if (m_DoseUnit.m_Techmode->Update(atoi(value))) FireNotify(AttrKey::TECHMODE, m_DoseUnit.m_Techmode->JSGet()); }; auto HWAECField = [this](const char* value, int length) { assert(value); int nvalue = atoi(value); if (m_DoseUnit.m_AECField->Update(nvalue)) FireNotify(AttrKey::AECFIELD, m_DoseUnit.m_AECField->JSGet()); }; auto HWAECFilm = [this](const char* value, int length) { assert(value); if (m_DoseUnit.m_AECFilm->Update(atoi(value))) FireNotify(AttrKey::AECFILM, m_DoseUnit.m_AECFilm->JSGet()); }; auto HWAECDensity = [this](const char* value, int length) { assert(value); if (m_DoseUnit.m_AECDensity->Update(atoi(value))) FireNotify(AttrKey::AECDENSITY, m_DoseUnit.m_AECDensity->JSGet()); }; auto HWWS = [this](const char* value, int length) { assert(value); //ysj++:理论上此处得到WS的值，需要转为对应的数字，转换后的数字，能给UI一致，从而得出正确的ws并显示出来。 int nValue = atoi(value); if (m_DoseUnit.m_WS->Update(nValue)) { FireNotify(m_DoseUnit.m_WS->GetKey(), m_DoseUnit.m_WS->JSGet()); } }; auto HWPR = [this](const char* value, int length) { assert(value); int nValue = atoi(value); if (nValue == 2) { m_bInExpState = true; m_DoseUnit.m_GenSynState->Update(AttrKey::GENERATOR_RAD_READY); ResetEvent(m_hGenPostEvent); HWSend("PR2"); } else if (nValue == 1) { m_bInExpState = true; m_DoseUnit.m_GenSynState->Update(AttrKey::GENERATOR_RAD_PREPARE); HWSend("PR1"); } else if (nValue == 0) { m_bInExpState = false;; m_DoseUnit.m_GenSynState->Update(AttrKey::GENERATOR_RAD_OFF); HWSend("PR0"); } FireNotify(m_DoseUnit.m_GenSynState->GetKey(), m_DoseUnit.m_GenSynState->JSGet()); }; auto HWXR = [this](const char* value, int length) { assert(value); int nValue = atoi(value); if (nValue == 1) { if ((this->m_nCtlMode == 2) && m_bExpEnable) { if (EXPOSURE_SOFTWARE_NOSYNBOX == (int)m_GenConfig["SynMode"] || EXPOSURE_NOSYNBOX_DIRCETCONNECT_DETECTOR_GEN == (int)m_nCtlMode["SynMode"]) { mLog::Info("recv XR1 ,in nosynbox or in derect mode ,do nothing,and wait invoke be call,then send XR1,and send XRAYON msg."); //m_DoseUnit.m_GenSynState->Update(AttrKey::GENERATOR_RAD_XRAYON);// ysj++ 我们认为此处不应该发这个消息，准确的时机应该是invoke被调用的时候， } if (EXPOSURE_SOFTWARE_NOSYNBOX != (int)m_GenConfig["SynMode"]) { mLog::Info("recv XR1 ,in hardware or in derect mode ,so response XR1."); HWSend("XR1"); } } else { if (2 != this->m_nCtlMode) { if (EXPOSURE_SOFTWARE_NOSYNBOX == (int)m_GenConfig["SynMode"] || EXPOSURE_NOSYNBOX_DIRCETCONNECT_DETECTOR_GEN == (int)m_nCtlMode["SynMode"]) { //::SendMessage(this->m_hWnd, MSG_SYN_STATUS, SYN_GEN_EIPON, 1); //------------------------------------------------貌似没有软同步的消息 mLog::Info("recv XR1 : ctrlmode !=2, in No SYNbox or in directly mode, Send Msg SYN_GEN_EIPON"); } } } } else if (nValue == 0) { if (m_nCtlMode == 2) { HWSend("XR0"); } HWSend("DA"); HWSend("AP?"); HWSend("AT?"); m_DoseUnit.m_GenSynState->Update(AttrKey::GENERATOR_RAD_OFF); } FireNotify(m_DoseUnit.m_GenSynState->GetKey(), m_DoseUnit.m_GenSynState->JSGet()); }; auto HWAPDOSE = [this](const char* value, int length)//post mas { assert(value); if(m_DoseUnit.m_PostMAS->Update(atof(value) / 10.0)) FireNotify(m_DoseUnit.m_PostMAS->GetKey(), m_DoseUnit.m_PostMAS->JSGet()); //SetEvent(m_hGenPostEvent); }; auto HWKW = [this](const char* value, int length) { assert(value); mLog::Info("Recv KW={$}", atoi(value)); }; auto HWATDOSE = [this](const char* value, int length) { assert(value); if(m_DoseUnit.m_PostMS->Update(atof(value)/10.0)) FireNotify(m_DoseUnit.m_PostMS->GetKey(), m_DoseUnit.m_PostMS->JSGet()); //SetEvent(m_hGenPostEvent); }; auto HWDAP = [this](const char* value, int length) { assert(value); mLog::Info("Recv DAP ={$}", atof(value) / 100.0); //ysj++:理论上此处应该调用DAP设备。 if (m_pDapDev) { m_pDapDev->UpdateMammo_DAP(atof(value) / 100.0); } }; auto HWERROR = [this](const char* value, int length) { assert(value); int nValue = atoi(value); if (nValue != 0) { char ErrorCode[10]{ "" }; sprintf_s(ErrorCode, "CPI_ERR_%d", nValue); int level = 1; m_MSGUnit->AddErrorMessage(ErrorCode, level, ""); //去配置文件中找error对应的信息 } else { int level = 1; char ErrorCode[10]{ "" }; m_MSGUnit->DelErrorMessage(ErrorCode, level, ""); } }; auto HWWARN = [this](const char* value, int length) { assert(value); int nValue = atoi(value); if (nValue != 0) { char WarnCode[10]{ "" }; sprintf_s(WarnCode, "CPI_WARN_%d", nValue); int level = 1; m_MSGUnit->AddWarnMessage(WarnCode, level, ""); } else { int level = 1; char WarnCode[10]{ "" }; m_MSGUnit->AddWarnMessage(WarnCode, level, ""); } }; auto HWEHE = [this](const char* value, int length) { assert(value); if(m_DoseUnit.m_HE->Update(atoi(value))) FireNotify(m_DoseUnit.m_HE->GetKey(), m_DoseUnit.m_HE->JSGet()); }; auto HWFLK = [this](const char* value, int length) { assert(value); if (m_DoseUnit.m_KV->Update(atof(value))) FireNotify(AttrKey::KV, m_DoseUnit.m_KV->JSGet()); }; auto HWFLM = [this](const char* value, int length) { assert(value); if (m_DoseUnit.m_MA->Update(atof(value)/10.0)) FireNotify(AttrKey::MA, m_DoseUnit.m_MA->JSGet()); }; auto HWFLS = [this](const char* value, int length) { assert(value); if (m_DoseUnit.m_FrameRate->Update(atof(value)/10.0)) FireNotify(AttrKey::FRAMERATE, m_DoseUnit.m_FrameRate->JSGet()); }; auto HWFLX = [this](const char* value, int length) { assert(value); int nValue = atoi(value); if (nValue == 1) { m_DoseUnit.m_GenSynState->Update(AttrKey::GENERATOR_FLU_XRAYON); } else if (nValue == 0) { m_DoseUnit.m_GenSynState->Update(AttrKey::GENERATOR_FLU_XRAYOFF); } FireNotify(m_DoseUnit.m_GenSynState->GetKey(), m_DoseUnit.m_GenSynState->JSGet()); }; auto HWFLP = [this](const char* value, int length) { assert(value); int nValue = atoi(value); if (nValue == 1) { //PRINTA_INFO("\n recv FLP1\n"); //FLP1尚未真正的ready. } else if (nValue == 4) { m_DoseUnit.m_GenSynState->Update(AttrKey::GENERATOR_FLU_READY); //根据全新定义 FLP4 才表示 ready。 } else if (nValue == 0) { m_DoseUnit.m_GenSynState->Update(AttrKey::GENERATOR_FLU_OFF); } FireNotify(m_DoseUnit.m_GenSynState->GetKey(), m_DoseUnit.m_GenSynState->JSGet()); }; auto HWACH = [this](const char* value, int length) { assert(value); if (m_pCollDev) { m_pCollDev->UpdateCollimatorXSize(atoi(value) / 100.0); } }; auto HWACW = [this](const char* value, int length) { assert(value); if (m_pCollDev) { m_pCollDev->UpdateCollimatorYSize(atoi(value) / 100.0); } }; auto HWFIL = [this](const char* value, int length) { assert(value); if (m_pCollDev) { m_pCollDev->SetCollimatorFilter(atoi(value)); } }; auto HWATU = [this](const char* value, int length) { assert(value); if (1 == atoi(value)) { m_bCheckATUStatus = false;//not need continue check status } else if (0 == atoi(value)) { m_bCheckATUStatus = true; } }; auto HWDS = [this](const char* value, int length) { assert(value); m_bDAPEnable = (bool)atoi(value); }; arFrame.clear(); arFrame.push_back(tFrameMapping("KV", 2, HWKV)); arFrame.push_back(tFrameMapping("MX", 2, HWMAS)); arFrame.push_back(tFrameMapping("MA", 2, HWMA)); arFrame.push_back(tFrameMapping("MS", 2, HWMS)); arFrame.push_back(tFrameMapping("ET", 2, HWTechmode)); arFrame.push_back(tFrameMapping("FO", 2, HWFocus)); arFrame.push_back(tFrameMapping("FI", 2, HWAECField)); arFrame.push_back(tFrameMapping("FS", 2, HWAECFilm)); arFrame.push_back(tFrameMapping("FN", 2, HWAECDensity)); arFrame.push_back(tFrameMapping("WS", 2, HWWS)); arFrame.push_back(tFrameMapping("PR", 2, HWPR)); arFrame.push_back(tFrameMapping("XR", 2, HWXR)); arFrame.push_back(tFrameMapping("AP", 2, HWAPDOSE)); arFrame.push_back(tFrameMapping("AT", 2, HWATDOSE)); arFrame.push_back(tFrameMapping("EL", 2, HWERROR)); arFrame.push_back(tFrameMapping("ER", 2, HWWARN)); arFrame.push_back(tFrameMapping("HE", 2, HWEHE)); arFrame.push_back(tFrameMapping("DA", 2, HWDAP)); arFrame.push_back(tFrameMapping("DV", 2, HWDAP)); arFrame.push_back(tFrameMapping("DS", 2, HWDS)); arFrame.push_back(tFrameMapping("ACH", 3, HWACH)); arFrame.push_back(tFrameMapping("ACW", 3, HWACW)); arFrame.push_back(tFrameMapping("FIL", 3, HWFIL)); arFrame.push_back(tFrameMapping("ATU", 3, HWATU)); } bool nsGEN::CPIDevice::StartHardwareStatusThread() { mLog::Info("enter Start HardwareStatus Thread "); if (m_pHardwareStatusThread == NULL) { DWORD m_HardwareStatusID; m_pHardwareStatusThread = CreateThread(0, 0, HardwareStatusThread, this, 0, &m_HardwareStatusID); if (m_pHardwareStatusThread == NULL) { mLog::Fatal("Start HardwareStatus Thread Failed"); return false; } } return true; } DWORD nsGEN::CPIDevice::HardwareStatusThread(LPVOID pParam) { CPIDevice* pCurGen = (CPIDevice*)pParam; if (pCurGen == NULL) { return false; } mLog::Info("HardwareStatusThread start"); while (true) { Sleep(2000); pCurGen->HWSend("HE?"); static int cnt = 0; if (pCurGen->m_bCheckATUStatus) { cnt++; if (cnt == 10) { pCurGen->HWSend("ATU?"); cnt = 0; } } else { cnt = 0; } } mLog::Info("HardwareStatusThread stop"); return true; } //----------------------------------------------------------------------------- // CPIDriver //----------------------------------------------------------------------------- nsGEN::CPIDriver::CPIDriver() { m_bDemoConnected = false; m_pDriGenDev = nullptr; m_pDriCollDev = nullptr; m_pDriDapDev = nullptr; m_pAttribute.reset(new ResDataObject()); m_pDescription.reset(new ResDataObject()); } nsGEN::CPIDriver::~CPIDriver() { } auto nsGEN::CPIDriver::CreateDevice(int index) -> std::unique_ptr { if (!m_SCF.isConnected()) return nullptr; // auto dev = std::unique_ptr (new IODevice(new CPIDevice(EventCenter, m_SCF, m_ConfigFileName))); if (index == 0) { m_pDriGenDev = new CPIDevice(EventCenter, m_SCF, m_ConfigFileName); auto dev = std::unique_ptr(new IODevice(m_pDriGenDev)); return dev; } else if (index == 1) { mLog::Info("Enter CreateDevice COLL"); m_pDriCollDev = new OemCollimator(std::shared_ptr(new IOEventCenter())); auto dev = std::unique_ptr (new IODevice(m_pDriCollDev)); m_pDriCollDev->SetCtrlDev(m_pDriGenDev); m_pDriGenDev->SetCollimatorDev(m_pDriCollDev); mLog::Info("Leave CreateDevice COLL"); return dev; } //else if (index == 2) //------------------------------因为改发生器没有关于机架的信息，所以此处不必创建机架设备的对象 //{ // mLog::Info("Enter CreateDevice Mech"); // m_pDriMechDev = new OemMechanical(std::shared_ptr(new IOEventCenter())); // auto dev = std::unique_ptr (new IODevice(m_pDriMechDev)); // m_pDriMechDev->SetCtrlDev(m_pDriGenDev); // m_pDriGenDev->SetMechDev(m_pDriMechDev); // mLog::Info("Leave CreateDevice Mech"); // return dev; //} else if (index == 2)//----------------------------------maybe DAP设备也不是必须的 { mLog::Info("Enter CreateDevice DAP"); m_pDriDapDev = new OemDap(std::shared_ptr(new IOEventCenter())); auto dev = std::unique_ptr (new IODevice(m_pDriDapDev)); m_pDriDapDev->SetCtrlDev(m_pDriGenDev); m_pDriGenDev->SetDapDev(m_pDriDapDev); mLog::Info("Leave CreateDevice DAP"); return dev; } } void nsGEN::CPIDriver::FireNotify(int code, std::string key, std::string content) { EventCenter->OnNotify(code, key, content); } Log4CPP::Logger* mLog::gLogger = nullptr; void nsGEN::CPIDriver::Prepare() { string strLogPath = GetProcessDirectory() + R"(\OEMDrivers\Generator\Conf\Log4CPP.Config.GEN.xml)"; //Log4CPP::ThreadContext::Map::Set("LogFileName", "GEN.CPI"); Log4CPP::GlobalContext::Map::Set(ECOM::Utility::Hash("LogFileName"), "GEN.CPI"); auto rc = Log4CPP::LogManager::LoadConfigFile(strLogPath.c_str()); mLog::gLogger = Log4CPP::LogManager::GetLogger("GEN.CPI"); m_SCFDllName = GetConnectDLL(m_ConfigFileName); super::Prepare(); } bool DATA_ACTION nsGEN::CPIDriver::Connect() { ResDataObject Connection = GetConnectParam(m_ConfigFileName); mLog::Info("connections:{$} \n", Connection.encode()); auto erCode = m_SCF.Connect(Connection.encode(), &nsGEN::CPIDriver::callbackPackageProcess, SCF_PACKET_TRANSFER, 3000); if (erCode != SCF_ERR::SCF_SUCCEED) return false; auto rc = super::Connect(); if (!rc) return false; //return (erCode == SCF_ERR::SCF_SUCCEED); return true; } void nsGEN::CPIDriver::Disconnect() { super::Disconnect(); m_SCF.Disconnect(); m_bDemoConnected = false; } bool nsGEN::CPIDriver::isConnected() const { return super::isConnected(); } std::string nsGEN::CPIDriver::DriverProbe() { ResDataObject r_config, HardwareInfo; if (r_config.loadFile(m_ConfigFileName.c_str())) { HardwareInfo.add("MajorID", r_config["CONFIGURATION"]["MajorID"]); HardwareInfo.add("MinorID", r_config["CONFIGURATION"]["MinorID"]); HardwareInfo.add("VendorID", r_config["CONFIGURATION"]["VendorID"]); HardwareInfo.add("ProductID", r_config["CONFIGURATION"]["ProductID"]); HardwareInfo.add("SerialID", r_config["CONFIGURATION"]["SerialID"]); } else { HardwareInfo.add("MajorID", "Generator"); HardwareInfo.add("MinorID", "Dr"); HardwareInfo.add("VendorID", "CPI"); HardwareInfo.add("ProductID", "HF"); HardwareInfo.add("SerialID", "Drv"); } string ret = HardwareInfo.encode(); return ret; } std::string nsGEN::CPIDriver::DeviceProbe() { ResDataObject r_config, HardwareInfo; if (r_config.loadFile(m_ConfigFileName.c_str())) { HardwareInfo.add("MajorID", r_config["CONFIGURATION"]["MajorID"]); HardwareInfo.add("MinorID", r_config["CONFIGURATION"]["MinorID"]); HardwareInfo.add("VendorID", r_config["CONFIGURATION"]["VendorID"]); HardwareInfo.add("ProductID", r_config["CONFIGURATION"]["ProductID"]); HardwareInfo.add("SerialID", r_config["CONFIGURATION"]["SerialID"]); } else { HardwareInfo.add("MajorID", "Generator"); HardwareInfo.add("MinorID", "Dr"); HardwareInfo.add("VendorID", "CPI"); HardwareInfo.add("ProductID", "HF"); HardwareInfo.add("SerialID", "Drv"); } string ret = HardwareInfo.encode(); return ret; } bool nsGEN::CPIDriver::GetDeviceConfig(std::string& Cfg) { Cfg = m_DeviceConfigSend.encode(); //printf("GetDeviceConfig over"); printf("GetDeviceConfig over , %s", Cfg.c_str()); return true; } bool nsGEN::CPIDriver::SetDeviceConfig(std::string Cfg) { mLog::Info("--Func-- SetDeviceConfig {$}\n", Cfg.c_str()); ResDataObject DeviceConfig; DeviceConfig.decode(Cfg.c_str()); ResDataObject DescriptionTempEx; DescriptionTempEx = DeviceConfig["DeviceConfig"]["Attribute"]; mLog::Debug("Attribute:{$}", DescriptionTempEx.encode()); bool bSaveFile = false; //true:重新保存配置文件 string strAccess = ""; for (int i = 0; i < DescriptionTempEx.size(); i++) { string strKey = DescriptionTempEx.GetKey(i); mLog::Info("{$}", strKey.c_str()); try { if (m_pAttribute->GetFirstOf(strKey.c_str()) >= 0) { strAccess = (string)(*m_pDescription)[strKey.c_str()]["Access"]; if ("RW" == strAccess) { //修改对应配置，在其他单元的配置项要同时调用其修改函数修改真实值 //1. 修改内存中的值，用于给上层发消息 (*m_pAttribute)[strKey.c_str()] = DescriptionTempEx[i]; //2. 拿到Innerkey int nConfigInfoCount = (int)m_Configurations["ConfigToolInfo"].GetKeyCount("AttributeInfo"); mLog::Info("nConfigInfoCount {$}", nConfigInfoCount); string strTemp = ""; //存储AttributeKey for (int nInfoIndex = 0; nInfoIndex < nConfigInfoCount; nInfoIndex++) { strTemp = (string)m_Configurations["ConfigToolInfo"][nInfoIndex]["AttributeKey"]; if (strTemp == strKey) { strTemp = (string)m_Configurations["ConfigToolInfo"][nInfoIndex]["InnerKey"]; break; } } //3. 修改配置文件中的值 if (SetDeviceConfigValue(m_Configurations, strTemp.c_str(), 1, DescriptionTempEx[i])) { mLog::Debug("SetDeviceConfigValue over"); bSaveFile = true; } } else { mLog::Info("{$} is not a RW configuration item", strKey.c_str()); } } else { mLog::Info("without this attribute {$}", strKey.c_str()); } } catch (ResDataObjectExption& e) { mLog::Error("SetDriverConfig crashed: {$}", e.what()); return false; } } if (bSaveFile) { //3. 重新保存配置文件 SaveConfigFile(true); } return true; } bool nsGEN::CPIDriver::SaveConfigFile(bool bSendNotify) { m_ConfigAll["CONFIGURATION"] = m_Configurations; bool bRt = m_ConfigAll.SaveFile(m_ConfigFileName.c_str()); mLog::Info("SaveConfigFile over {$}", bRt); return true; } bool nsGEN::CPIDriver::GetDeviceConfigValue(ResDataObject config, const char* pInnerKey, int nPathID, string& strValue) { strValue = ""; string strTemp = pInnerKey; if (1 == nPathID) //从DriverConfig路径下每个DPC自己的配置文件读取 { int pos = 0; ResDataObject resTemp = config; while ((pos = strTemp.find_first_of(',')) != string::npos) { string Key = strTemp.substr(0, pos); string TempValue = resTemp[Key.c_str()].encode(); // printf("-TempValue=== %s", TempValue.c_str()); resTemp.clear(); resTemp.decode(TempValue.c_str()); strTemp = strTemp.substr(pos + 1, strTemp.length() - pos - 1); //printf("-************--%s", strTemp.c_str()); } if (strTemp != "") { strValue = (string)resTemp[strTemp.c_str()]; } else { strValue = (string)resTemp; } } //printf("------------%s", strValue.c_str()); return true; } bool nsGEN::CPIDriver::SetDeviceConfigValue(ResDataObject& config, const char* pInnerKey, int nPathID, const char* szValue) { string strTemp = pInnerKey; mLog::Debug("Begin to change {$} item value to {$}", pInnerKey, szValue); if (1 == nPathID) //从DriverConfig路径下每个DPC自己的配置文件读取 { try { int pos = 0; ResDataObject* resTemp = &config; while ((pos = strTemp.find_first_of(',')) != string::npos) { string Key = strTemp.substr(0, pos); resTemp = &(*resTemp)[Key.c_str()]; strTemp = strTemp.substr(pos + 1, strTemp.length() - pos - 1); } if (strTemp != "") { (*resTemp)[strTemp.c_str()] = szValue; //if ((strTemp.compare("WSTable") == 0) || // (strTemp.compare("WSWall") == 0) || // (strTemp.compare("WSFree") == 0) || // (strTemp.compare("WSTomo") == 0) || // (strTemp.compare("WSConventional") == 0) // ) //{ // int sum = (*szValue) + 1; // (*resTemp)[strTemp.c_str()] = (char*)(&sum); //} //else // (*resTemp)[strTemp.c_str()] = szValue; } else { *resTemp = szValue; } } catch (ResDataObjectExption& e) { mLog::Error("SetDriverConfigvalue crashed: {$}", e.what()); return false; } } return true; } std::string nsGEN::CPIDriver::GetResource() { ResDataObject r_config, temp; if (!temp.loadFile(m_ConfigFileName.c_str())) { return ""; } m_ConfigAll = temp; r_config = temp["CONFIGURATION"]; m_Configurations = r_config; ResDataObject DescriptionTemp; ResDataObject DescriptionSend; ResDataObject m_DescriptionSend; ResDataObject ListTemp; string strTemp = ""; //用于读取字符串配置信息 string strIndex = ""; //用于读取配置信息中的List项 int nTemp = -1; //用于读取整型配置信息 char sstream[10] = { 0 }; //用于转换值 string strValue = ""; //用于存储配置的值 string strType = ""; //用于存储配置的类型 int/float/string... /*** * 1. 通过循环，将所有配置项写到pDeviceConfig * 2. 记录配置项的内部key以及配置类型，类型对应了不同配置文件路径，用于读写真实值 ***/ try { //便利ConfigToolInfo 中所有的AttributeInfo 属性段 int nConfigInfoCount = (int)m_Configurations["ConfigToolInfo"].GetKeyCount("AttributeInfo"); m_pAttribute->clear(); m_pDescription->clear(); for (int nInfoIndex = 0; nInfoIndex < nConfigInfoCount; nInfoIndex++) { DescriptionTemp.clear(); DescriptionSend.clear(); ListTemp.clear(); //AttributeType strTemp = (string)m_Configurations["ConfigToolInfo"][nInfoIndex]["AttributeDescripition"]["Type"]; DescriptionTemp.add(ConfKey::CcosType, strTemp.c_str());//CcosGeneratorAttribute DescriptionSend.add(ConfKey::CcosType, strTemp.c_str());//CcosGeneratorAttribute strType = strTemp; //记录配置项的类型 //AttributeKey //1. 根据AttributeType，内部key和配置路径，拿到当前的真实值 strTemp = (string)m_Configurations["ConfigToolInfo"][nInfoIndex]["InnerKey"]; nTemp = (int)m_Configurations["ConfigToolInfo"][nInfoIndex]["PathID"]; GetDeviceConfigValue(r_config, strTemp.c_str(), nTemp, strValue); //得到strValue的值 //printf("********************************innerkey=%s --strValue = %s\n", strTemp.c_str(), strValue.c_str()); //2. 赋值 strTemp = (string)m_Configurations["ConfigToolInfo"][nInfoIndex]["AttributeKey"]; if ("int" == strType) { (*m_pAttribute).add(strTemp.c_str(), atoi(strValue.c_str())); } else if ("float" == strType) { (*m_pAttribute).add(strTemp.c_str(), atoi(strValue.c_str())); } else //其它先按string类型处理 { (*m_pAttribute).add(strTemp.c_str(), strValue.c_str()); } //printf("********************************outkey =%s --strValue = %s\n", strTemp.c_str(), strValue.c_str()); //AttributeAccess strTemp = (string)m_Configurations["ConfigToolInfo"][nInfoIndex]["AttributeDescripition"]["Access"]; DescriptionTemp.add(ConfKey::CcosAccess, strTemp.c_str()); DescriptionSend.add(ConfKey::CcosAccess, strTemp.c_str()); /* //AttributeRangeMin strTemp = (string)m_Configurations["ConfigToolInfo"][nInfoIndex]["AttributeDescripition"]["RangeMin"]; if (strTemp != "") //不需要的配置项为空 { DescriptionTemp.add(ConfKey::CcosRangeMin, strTemp.c_str()); } //AttributeRangeMax strTemp = (string)m_Configurations["ConfigToolInfo"][nInfoIndex]["AttributeDescripition"]["RangeMax"]; if (strTemp != "") //不需要的配置项为空 { DescriptionTemp.add(ConfKey::CcosRangeMax, strTemp.c_str()); } */ //AttributeList nTemp = m_Configurations["ConfigToolInfo"][nInfoIndex]["AttributeDescripition"]["ListNum"]; if (nTemp > 0) //ListNum不大于0时说明不需要list配置 { for (int nListIndex = 0; nListIndex < nTemp; nListIndex++) { strTemp = (string)m_Configurations["ConfigToolInfo"][nInfoIndex]["AttributeDescripition"]["ListInfo"][nListIndex]; auto temKey = std::to_string(nListIndex); ListTemp.add(temKey.c_str(), strTemp.c_str()); } DescriptionTemp.add(ConfKey::CcosList, ListTemp); DescriptionSend.add(ConfKey::CcosList, ListTemp.encode()); } //AttributeRequired strTemp = (string)m_Configurations["ConfigToolInfo"][nInfoIndex]["AttributeDescripition"]["Required"]; DescriptionTemp.add(ConfKey::CcosRequired, strTemp.c_str()); DescriptionSend.add(ConfKey::CcosRequired, strTemp.c_str()); //AttributeDefaultValue strTemp = (string)m_Configurations["ConfigToolInfo"][nInfoIndex]["AttributeDescripition"]["DefaultValue"]; if (strTemp != "") //不需要的配置项为空 { DescriptionTemp.add(ConfKey::CcosDefaultValue, strTemp.c_str()); DescriptionSend.add(ConfKey::CcosDefaultValue, strTemp.c_str()); } strTemp = (string)m_Configurations["ConfigToolInfo"][nInfoIndex]["AttributeKey"]; (*m_pDescription).add(strTemp.c_str(), DescriptionTemp); m_DescriptionSend.add(strTemp.c_str(), DescriptionSend.encode()); } } catch (ResDataObjectExption& e) { mLog::Error("Get config error: {$}", e.what()); return ""; } ResDataObject resDeviceResource; resDeviceResource.add(ConfKey::CcosGeneratorAttribute, (*m_pAttribute)); resDeviceResource.add(ConfKey::CcosGeneratorDescription, (*m_pDescription)); ResDataObject DescriptionTempEx; DescriptionTempEx.add(ConfKey::CcosGeneratorConfig, resDeviceResource); m_DeviceConfig.clear(); m_DeviceConfig = DescriptionTempEx; mLog::Error("local ************* get resource over {$}", DescriptionTempEx.encode()); printf("local ************* get resource over %s \n", DescriptionTempEx.encode()); resDeviceResource.clear(); resDeviceResource.add(ConfKey::CcosGeneratorAttribute, (*m_pAttribute)); resDeviceResource.add(ConfKey::CcosGeneratorDescription, m_DescriptionSend); DescriptionTempEx.clear(); DescriptionTempEx.add(ConfKey::CcosGeneratorConfig, resDeviceResource); m_DeviceConfigSend.clear(); m_DeviceConfigSend = DescriptionTempEx; string res = m_DeviceConfigSend.encode(); //printf("%s", res.c_str()); mLog::Debug("get resource over {$}", DescriptionTempEx.encode()); printf("************* get resource over %s \n", DescriptionTempEx.encode()); return res; } void nsGEN::CPIDriver::Dequeue(const char* Packet, DWORD Length) { DecodeFrame(Packet, Length); } PACKET_RET nsGEN::CPIDriver::callbackPackageProcess(const char* RecData, DWORD nLength, DWORD& PacketLength) { if (nLength < 1) { printf("nLength < 1, nLength==%d \n", nLength); mLog::Info("nLength < 1, nLength=={$} \n", nLength); return PACKET_USELESS; } for (DWORD i = 0; i < nLength - 1; i++) { //1 首先寻找包头 if (RecData[i]==0x02) { if (i!=0) { PacketLength = i; //i之前的数据，全部扔掉 char strtemp[100] = { 0 }; memcpy(strtemp, RecData, i); strtemp[PacketLength + 1] = 0; printf("==IN error data ==:%s,PacketLength=%d,nLength=%d\n", strtemp, PacketLength, nLength); //for test //for (int j = 0; j < nLength; j++) //{ // printf("%2X,", RecData[j]); //} //printf("\n"); return PACKET_USELESS; } } if (RecData[i] == 0x03) { PacketLength = i + 2; //+2 because index + ETX + sum. char strtemp[100] = { 0 }; memcpy(strtemp, RecData, i); //RKC005(not include 03 + sum); //only 复制 0x03之前的数据，这样解析时，后面的03 ，sum 都不要了。 strtemp[PacketLength + 1] = 0; printf("==IN==:%s\n", strtemp); mLog::Info("==IN==:{$}\n", strtemp); return PACKET_ISPACKET; } } return PACKET_NOPACKET; } //----------------------------------------------------------------------------- // DecodeFrame //----------------------------------------------------------------------------- static bool DecodeFrame(const char* strFrame, int length) { auto pr = [strFrame, length](const tFrameMapping& Item) { for (int i = 0; i < Item.NbOfCharOfHead; i++) { if (strFrame[i] != Item.strHead[i]) { return false; } } return true; }; auto found = std::find_if(arFrame.begin(), arFrame.end(), pr);//此处pr，是上面定义的 lambda表达式，用来在list中找到对于的包头。 if (found == arFrame.end()) { return false; } const auto& Item = *found; auto pc = strFrame; char data[100] = { 0 }; memcpy(data, strFrame + Item.NbOfCharOfHead, length - Item.NbOfCharOfHead); Item.fun(data, length - Item.NbOfCharOfHead);//第二个参数不重要 return true; } //----------------------------------------------------------------------------- // GetIODriver & CreateIODriver //----------------------------------------------------------------------------- static nsGEN::CPIDriver gIODriver; extern "C" CCOS::Dev::IODriver * __cdecl GetIODriver() // 返回静态对象的引用, 调用者不能删除 ! { return &gIODriver; } extern "C" CCOS::Dev::IODriver * __cdecl CreateIODriver() // 返回新对象, 调用者必须自行删除此对象 ! { return new nsGEN::CPIDriver(); }