#include #include #include #include #include // time in nano-sec #include #include #include #include "ClassDigitizer2Gen.h" #include "influxdb.h" #define maxRead 400 std::mutex digiMTX; Digitizer2Gen * digi = new Digitizer2Gen(); InfluxDB * influx = new InfluxDB("https://fsunuc.physics.fsu.edu/influx/", false); unsigned int readCount = 0; timespec ta, tb; static void ReadDataLoop(){ clock_gettime(CLOCK_REALTIME, &ta); //while(digi->IsAcqOn() && readCount < maxRead){ while(true){ digiMTX.lock(); int ret = digi->ReadData(); digiMTX.unlock(); if( ret == CAEN_FELib_Success){ digi->SaveDataToFile(); }else if(ret == CAEN_FELib_Stop){ digi->ErrorMsg("No more data"); break; }else{ digi->ErrorMsg("ReadDataLoop()"); } //if( readCount % 1000 == 0 ) { // clock_gettime(CLOCK_REALTIME, &tb); // double duration = tb.tv_nsec-ta.tv_nsec + tb.tv_sec*1e+9 - ta.tv_sec*1e+9; // printf("%4d, duration : %10.0f, %6.1f\n", readCount, duration, 1e9/duration); // ta = tb; //} //readCount++; } } char cmdStr[100]; static void StatLoop(){ //while(digi->IsAcqOn() && readCount < maxRead){ while(digi->IsAcqOn()){ digiMTX.lock(); digi->ReadStat(); for(int i = 0; i < 64; i++){ sprintf(cmdStr, "/ch/%d/par/SelfTrgRate", i); std::string haha = digi->ReadValue( cmdStr, false); influx->AddDataPoint("Rate,Bd=0,Ch=" + std::to_string(i) + " value=" + haha); } //digi->ReadValue("/ch/4/par/ChRealtimeMonitor", true); //digi->ReadValue("/ch/4/par/ChDeadtimeMonitor", true); //digi->ReadValue("/ch/4/par/ChTriggerCnt", true); //digi->ReadValue("/ch/4/par/ChSavedEventCnt", true); //digi->ReadValue("/ch/4/par/ChWaveCnt", true); digiMTX.unlock(); //influx->PrintDataPoints(); influx->WriteData("testing"); influx->ClearDataPointsBuffer(); digi->PrintStat(); usleep(1000*1000); // every 1000 msec } } int main(int argc, char* argv[]){ printf("##########################################\n"); printf("\t CAEN firmware DPP-PHA testing \n"); printf("##########################################\n"); remove("haha_000.sol"); const char * url = "dig2://192.168.0.100/"; digi->OpenDigitizer(url); digi->Reset(); digi->ProgramPHA(false); //printf("%s \n", digi->ReadValue("/ch/0/par/ChRealtimeMonitor").c_str()); //printf("%s \n", digi->ReadValue("/ch/0/par/Energy_Nbit").c_str()); //printf("%s \n", digi->ReadValue("/par/MaxRawDataSize").c_str()); /*///======================= Play with handle uint64_t parHandle; parHandle = digi->GetHandle("/ch/0/par/ChRealtimeMonitor"); printf("%lu|%lX\n", parHandle, parHandle); parHandle = digi->GetHandle("/ch/1/par/ChRealtimeMonitor"); printf("%lu|%lX\n", parHandle, parHandle); printf("%s\n", digi->GetPath(parHandle).c_str()); parHandle = digi->GetParentHandle(parHandle); printf("%lu|%lX\n", parHandle, parHandle); printf("%s\n", digi->GetPath(parHandle).c_str()); parHandle = digi->GetParentHandle(parHandle); printf("%lu|%lX\n", parHandle, parHandle); printf("%s\n", digi->GetPath(parHandle).c_str()); parHandle = digi->GetParentHandle(parHandle); printf("%lu|%lX\n", parHandle, parHandle); printf("%s\n", digi->GetPath(parHandle).c_str()); parHandle = digi->GetParentHandle(parHandle); printf("%lu|%lX\n", parHandle, parHandle); printf("%s\n", digi->GetPath(parHandle).c_str()); */ digi->ReadDigitizerSettings(); digi->SetPHADataFormat(1); //printf("0x%X \n", atoi(digi->ReadValue("/par/AcquisitionStatus").c_str()) & 0x3F ); digi->OpenOutFile("haha"); digi->StartACQ(); timespec t0, t1; clock_gettime(CLOCK_REALTIME, &t0); std::thread th1 (ReadDataLoop); std::thread th2 (StatLoop); char c; printf("Press q for stop."); do{ c = getchar(); }while( c != 'q'); digiMTX.lock(); digi->StopACQ(); digiMTX.unlock(); th1.join(); th2.join(); clock_gettime(CLOCK_REALTIME, &t1); printf("t1-t0 : %.0f ns = %.2f sec\n", t1.tv_nsec-t0.tv_nsec + t1.tv_sec*1e+9 - t0.tv_sec*1e+9, (t1.tv_nsec-t0.tv_nsec + t1.tv_sec*1e+9 - t0.tv_sec*1e+9)*1.0/1e9); digi->CloseOutFile(); digi->CloseDigitizer(); delete digi; delete influx; }