SOLARIS_QT6_DAQ/test.cpp

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#include <cstdlib>
#include <string>
#include <vector>
#include <unistd.h>
#include <time.h> // time in nano-sec
#include <iostream>
#include <thread>
#include <mutex>
#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;
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bool ThreadStop = false;
timespec ta, tb;
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static void ReadDataLoop(){
clock_gettime(CLOCK_REALTIME, &ta);
//while(digi->IsAcqOn() && readCount < maxRead){
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while(!ThreadStop){
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{
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//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();
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// for(int i = 0; i < 64; i++){
// digi->ReadValue( PHA::CH::SelfTrgRate, i, 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();
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//influx->WriteData("testing");
//influx->ClearDataPointsBuffer();
digi->PrintStat();
usleep(1000*1000); // every 1000 msec
}
}
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#include <CAENDig2.h>
int CAENDig2_GetLibVersion(char* version);
int main(int argc, char* argv[]){
printf("##########################################\n");
printf("\t CAEN firmware DPP-PHA testing \n");
printf("##########################################\n");
remove("haha_000.sol");
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char version[16];
CAENDig2_GetLibVersion(version);
puts(version);
char haha[100];
CAEN_FELib_GetLibInfo(haha, 100);
puts(haha);
CAEN_FELib_GetLibVersion(version);
puts(version);
/*
const char * url = "dig2://192.168.0.100/";
//const char * url = "dig2://192.168.0.254/";
digi->OpenDigitizer(url);
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//digi->Reset();
//digi->ReadAllSettings();
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//digi->ProgramBoard();
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//digi->WriteValue(PSD::CH::TriggerThreshold, "1000", -1);
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digi->PrintChannelSettings(0);
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digi->ReadValue(PHA::CH::ADCToVolts, 0, true);
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digi->SetDataFormat(DataFormat::ALL);
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');
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ThreadStop = true;
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);
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digi->CloseOutFile();
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digi->CloseDigitizer();
delete digi;
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*/
delete influx;
}