FSUDAQ_Qt6/Aux/EventBuilder2.cpp
2024-01-18 18:55:37 -05:00

405 lines
13 KiB
C++

#include "fsuReader.h"
#include "AggSeparator.h"
#include "../MultiBuilder.h"
#include <chrono>
#include "TROOT.h"
#include "TSystem.h"
#include "TClonesArray.h"
#include "TGraph.h"
#include "TFile.h"
#include "TTree.h"
#define MAX_MULTI 100
#define ORDERSHIFT 100000
struct FileInfo {
TString fileName;
unsigned int fileSize;
unsigned int SN;
unsigned long hitCount;
unsigned short DPPType;
unsigned short tick2ns;
unsigned short order;
unsigned short readerID;
int chMask;
long ID;
void CalOrder(){ ID = ORDERSHIFT * SN + 10 * order + (chMask == -1 ? 0 : chMask); }
void Print(){
printf("%6ld | %3d | %30s | %2d | %6lu | %u Bytes = %.2f MB\n",
ID, DPPType, fileName.Data(), tick2ns, hitCount, fileSize, fileSize/1024./1024.);
}
};
struct GroupInfo{
std::vector<unsigned short> readerIDList;
uInt sn;
int chMask;
unsigned short currentID ; // the ID of the readerIDList;
ulong hitCount ; // this is the hitCount for the currentID;
ulong hitID ; // this is the ID for the reader->GetHit(hitID);
uShort DPPType;
bool finished;
};
unsigned long long getTime_ns(){
std::chrono::high_resolution_clock::time_point currentTime = std::chrono::high_resolution_clock::now();
std::chrono::nanoseconds nanoseconds = std::chrono::duration_cast<std::chrono::nanoseconds>(currentTime.time_since_epoch());
return nanoseconds.count();
}
//^#############################################################
//^#############################################################
int main(int argc, char **argv) {
printf("=========================================\n");
printf("=== *.fsu Events Builder ===\n");
printf("=========================================\n");
if (argc <= 3) {
printf("Incorrect number of arguments:\n");
printf("%s [timeWindow] [withTrace] [verbose] [tempFolder] [inFile1] [inFile2] .... \n", argv[0]);
printf(" timeWindow : in ns \n");
printf(" withTrace : 0 for no trace, 1 for trace \n");
printf(" verbose : > 0 for debug \n");
printf(" tempFolder : temperary folder for file breakdown \n");
printf(" Output file name is contructed from inFile1 \n");
printf("\n");
printf("=========================== Working flow\n");
printf(" 1) Break down the fsu files into dual channel, save in tempFolder as *.fsu.X\n");
printf(" 2) Load the *.fsu.X files and do the event building\n");
printf("\n\n");
return 1;
}
/// File format must be YYY...Y_runXXX_AAA_BBB_TT_CCC.fsu
/// YYY...Y = prefix
/// XXX = runID, 3 digits
/// AAA = board Serial Number, 3 digits
/// BBB = DPPtype, 3 digits
/// TT = tick2ns, any digits
/// CCC = over size index, 3 digits
///============= read input
unsigned int timeWindow = atoi(argv[1]);
bool traceOn = atoi(argv[2]);
unsigned int debug = atoi(argv[3]);
std::string tempFolder = argv[4];
int nFile = argc - 5;
TString inFileName[nFile];
for( int i = 0 ; i < nFile ; i++){ inFileName[i] = argv[i+5];}
/// Form outFileName;
TString outFileName = inFileName[0];
int pos = outFileName.Index("_");
pos = outFileName.Index("_", pos+1);
outFileName.Remove(pos);
outFileName += ".root";
printf("-------> Out file name : %s \n", outFileName.Data());
printf(" Number of Files : %d \n", nFile);
for( int i = 0; i < nFile; i++) printf("%2d | %s \n", i, inFileName[i].Data());
printf("=====================================\n");
printf(" Time Window = %u ns = %.1f us\n", timeWindow, timeWindow/1000.);
//printf(" Buffer size = %.0f event/channel\n", MaxNData * bufferSize);
printf("===================================== Breaking down files\n");
std::vector<std::string> tempFileList;
for( int i = 0; i < nFile; i++){
std::vector<std::string> haha = AggSeperator(inFileName[i].Data(), tempFolder);
tempFileList.insert(tempFileList.end(), haha.begin(), haha.end()) ;
}
///========================================
printf("===================================== Load the files\n");
nFile = tempFileList.size();
///============= sorting file by the serial number & order
std::vector<FileInfo> fileInfo;
FSUReader ** reader = new FSUReader*[nFile];
// file name format is expName_runID_SN_DPP_tick2ns_order.fsu
for( int i = 0; i < nFile; i++){
printf("Processing %s (%d/%d) ..... \n\033[A\r", tempFileList[i].c_str(), i+1, nFile);
reader[i] = new FSUReader(tempFileList[i], false);
if( !reader[i]->isOpen() ) continue;
reader[i]->ScanNumBlock(false, 0); //not saving data
// reader[i]->FillHitList();
FileInfo tempInfo;
tempInfo.fileName = tempFileList[i];
tempInfo.readerID = i;
tempInfo.SN = reader[i]->GetSN();
tempInfo.hitCount = reader[i]->GetHitCount();
tempInfo.fileSize = reader[i]->GetFileByteSize();
tempInfo.tick2ns = reader[i]->GetTick2ns();
tempInfo.DPPType = reader[i]->GetDPPType();
tempInfo.order = reader[i]->GetFileOrder();
tempInfo.chMask = reader[i]->GetChMask();
tempInfo.CalOrder();
fileInfo.push_back(tempInfo);
}
std::sort(fileInfo.begin(), fileInfo.end(), [](const FileInfo& a, const FileInfo& b) {
return a.ID < b.ID;
});
unsigned int totHitCount = 0;
for( int i = 0 ; i < nFile; i++){
printf("%d |", i);
fileInfo[i].Print();
totHitCount += fileInfo[i].hitCount;
//printf(" %30s | ID %10ld \n", fileInfo[i].fileName.Data(), fileInfo[i].ID);
}
printf("----- total number of hit : %u.\n", totHitCount);
//*======================================= Sort files into groups
std::vector<GroupInfo> group; // group by SN and chMask
for( int i = 0; i < nFile; i++){
if( i == 0 || group.back().sn != fileInfo[i].SN || group.back().chMask != fileInfo[i].chMask ){
group.push_back(GroupInfo());
group.back().readerIDList.push_back(fileInfo[i].readerID); // an empty struct
group.back().currentID = 0;
group.back().hitCount = fileInfo[i].hitCount;
group.back().hitID = 0;
group.back().sn = fileInfo[i].SN;
group.back().chMask = fileInfo[i].chMask;
group.back().DPPType = fileInfo[i].DPPType;
group.back().finished = false;
}else{
group.back().readerIDList.push_back(fileInfo[i].readerID);
}
}
int nGroup = group.size();
printf("===================================== number of file Group by digitizer %d.\n", nGroup);
for( int i = 0; i < nGroup; i++){
printf(" Digi-%d, chMask-%d, DPPType: %d \n", group[i].sn, group[i].chMask, reader[group[i].readerIDList[0]]->GetDPPType());
for( int j = 0; j< (int) group[i].readerIDList.size(); j++){
uShort rID = group[i].readerIDList[j];
printf(" %s \n", reader[rID]->GetFileName().c_str());
//uLong hitCount = reader[rID]->GetHitCount();
//for( uLong k = 0; k < (hitCount < 5 ? hitCount : 5); k++){ reader[rID]->GetHit(k).Print();}
}
}
// //*====================================== create tree
TFile * outRootFile = new TFile(outFileName, "recreate");
TTree * tree = new TTree("tree", outFileName);
unsigned long long evID = -1;
unsigned short multi = 0;
unsigned short sn[MAX_MULTI] = {0}; /// board SN
unsigned short ch[MAX_MULTI] = {0}; /// chID
unsigned short e[MAX_MULTI] = {0}; /// 15 bit
unsigned short e2[MAX_MULTI] = {0}; /// 15 bit
unsigned long long e_t[MAX_MULTI] = {0}; /// timestamp 47 bit
unsigned short e_f[MAX_MULTI] = {0}; /// fine time 10 bit
tree->Branch("evID", &evID, "event_ID/l");
tree->Branch("multi", &multi, "multi/s");
tree->Branch("sn", sn, "sn[multi]/s");
tree->Branch("ch", ch, "ch[multi]/s");
tree->Branch("e", e, "e[multi]/s");
tree->Branch("e2", e2, "e2[multi]/s");
tree->Branch("e_t", e_t, "e_timestamp[multi]/l");
tree->Branch("e_f", e_f, "e_timestamp[multi]/s");
TClonesArray * arrayTrace = nullptr;
unsigned short traceLength[MAX_MULTI];
TGraph * trace = nullptr;
if( traceOn ) {
arrayTrace = new TClonesArray("TGraph");
tree->Branch("traceLength", traceLength, "traceLength[multi]/s");
tree->Branch("trace", arrayTrace, 2560000);
arrayTrace->BypassStreamer();
}
//*====================================== build events
printf("================= Building events....\n");
uInt hitProcessed = 0;
std::vector<int> snList;
std::vector<int> typeList;
Data ** data = nullptr;
data = new Data * [nGroup];
for( int i = 0; i < nGroup; i++){
uShort rID = group[i].readerIDList[group[i].currentID];
data[i] = reader[rID]->GetData();
data[i]->ClearData();
reader[i]->ClearHitListandCount();
snList.push_back(group[i].sn);
typeList.push_back(group[i].DPPType);
}
MultiBuilder * mb = new MultiBuilder(data, typeList, snList);
mb->SetTimeWindow(timeWindow);
mb->SetTimeJump(-1);
do{
// use reader to fill Data,
for(int gpID = 0; gpID < nGroup; gpID++){
if( group[gpID].finished ) continue;
uShort rID = group[gpID].readerIDList[group[gpID].currentID];
int preLoad = 100; // #. pre-read block
for( int i = 0; i < preLoad; i++ ) reader[rID]->ReadNextBlock(false, 0, 0);
group[gpID].hitID = reader[rID]->GetHitCount();
if( debug){
printf(" %lu / %lu \n", group[gpID].hitID , group[gpID].hitCount);
data[gpID]->PrintAllData();
}
//when all hit are used, go to next file or make the group.finished = true
if( group[gpID].hitID >= group[gpID].hitCount) {
printf(" group ID : %d, reader ID : %d is finished. \n", gpID, group[gpID].readerIDList[group[gpID].currentID]);
group[gpID].currentID ++;
if( group[gpID].currentID >= group[gpID].readerIDList.size() ) {
group[gpID].finished = true;
printf("-----> no more file for this group, S/N : %d.\n", group[gpID].sn);
continue;
}else{
group[gpID].hitID = 0;
group[gpID].hitCount = reader[rID]->GetHitCount();
data[gpID] = reader[rID]->GetData();
printf("-----> go to the next file, %s \n", fileInfo[rID].fileName.Data() );
}
}
}
mb->BuildEvents(false, !traceOn, debug);
if( debug ) mb->PrintStat();
///----------- save to tree;
long startIndex = mb->eventIndex - mb->eventBuilt + 1;
//printf("startIndex : %6ld -> %6ld, %6ld, %6ld, %ld | %llu\n", startIndex, startIndex < 0 ? startIndex + MaxNEvent : startIndex, mb->eventIndex, mb->eventBuilt, mb->totalEventBuilt, tree->GetEntries());
if (startIndex < 0 ) startIndex += MaxNEvent;
for( long p = startIndex; p < startIndex + mb->eventBuilt; p++){
int k = p % MaxNEvent;
multi = mb->events[k].size();
if( multi > MAX_MULTI) {
printf("!!!!! MAX_MULTI %d reached.\n", MAX_MULTI);
break;
}
evID ++;
for( int j = 0; j < multi; j ++){
sn[j] = mb->events[k][j].sn;
ch[j] = mb->events[k][j].ch;
e[j] = mb->events[k][j].energy;
e2[j] = mb->events[k][j].energy2;
e_t[j] = mb->events[k][j].timestamp;
e_f[j] = mb->events[k][j].fineTime;
if( traceOn ){
traceLength[j] = mb->events[k][j].trace.size();
trace = (TGraph *) arrayTrace->ConstructedAt(j, "C");
trace->Clear();
for( int hh = 0; hh < traceLength[j]; hh++){
trace->SetPoint(hh, hh, mb->events[k][j].trace[hh]);
}
}
hitProcessed ++;
}
outRootFile->cd();
tree->Fill();
}
int gpCount = 0;
for( size_t i = 0; i < group.size(); i++){
if( group[i].finished ) gpCount ++;
}
if( gpCount == (int) group.size() ) break;
}while(true);
if( timeWindow > 0 ){
printf("------------------- build the last data\n");
mb->BuildEvents(1, 0, debug);
//mb->PrintStat();
///----------- save to tree;
long startIndex = mb->eventIndex - mb->eventBuilt + 1;
//printf("startIndex : %ld -> %ld, %ld, %ld, %ld\n", startIndex, startIndex < 0 ? startIndex + MaxNEvent : startIndex, mb->eventIndex, mb->eventBuilt, mb->totalEventBuilt);
if( startIndex < 0 ) startIndex += MaxNEvent;
for( long p = startIndex; p < startIndex + mb->eventBuilt; p++){
int k = p % MaxNEvent;
multi = mb->events[k].size();
if( multi > MAX_MULTI) {
printf("!!!!! MAX_MULTI %d reached.\n", MAX_MULTI);
break;
}
evID ++;
for( int j = 0; j < multi; j ++){
sn[j] = mb->events[k][j].sn;
ch[j] = mb->events[k][j].ch;
e[j] = mb->events[k][j].energy;
e2[j] = mb->events[k][j].energy2;
e_t[j] = mb->events[k][j].timestamp;
e_f[j] = mb->events[k][j].fineTime;
if( traceOn ){
traceLength[j] = mb->events[k][j].trace.size();
trace = (TGraph *) arrayTrace->ConstructedAt(j, "C");
trace->Clear();
for( int hh = 0; hh < traceLength[j]; hh++){
trace->SetPoint(hh, hh, mb->events[k][j].trace[hh]);
}
}
hitProcessed ++;
}
outRootFile->cd();
tree->Fill();
}
}
tree->Write();
printf("========================= finished.\n");
printf("total events built = %llu(%llu)\n", evID + 1, tree->GetEntriesFast());
printf("=======> saved to %s \n", outFileName.Data());
outRootFile->Close();
for( int i = 0 ; i < nFile; i++) delete reader[i];
delete [] reader;
delete [] data;
}