#include "BinReader.h" #include /** struct timeval, select() */ inline unsigned int getTime_us(){ unsigned int time_us; struct timeval t1; struct timezone tz; gettimeofday(&t1, &tz); time_us = (t1.tv_sec) * 1000 * 1000 + t1.tv_usec; return time_us; } #include "TFile.h" #include "TTree.h" #include "TMacro.h" #define MAX_TRACE_LENGTH 2000 #define MAX_MULTI 100 #define NMINARG 4 #define debug 0 // for > 1 number of hit to debug //^############################################################# //^############################################################# int main(int argc, char **argv) { printf("=========================================\n"); printf("=== CoMPASS Binary to root ===\n"); printf("=========================================\n"); if (argc < NMINARG) { printf("Incorrect number of arguments:\n"); printf("%s [timeWindow] [withTrace] [inFile1] [inFile2] .... \n", argv[0]); printf(" timeWindow : in ns, -1 = no event building \n"); printf(" withTrace : 0 for no trace, 1 for trace \n"); printf("\n"); printf(" Example: %s -1 0 '\\ls -1 *001*.bin' (no event build, no trace, no verbose)\n", argv[0]); printf(" %s 100 0 '\\ls -1 *001*.bin' (event build with 100 ns, no trace, no verbose)\n", argv[0]); printf("\n\n"); return 1; } unsigned int runStartTime = getTime_us(); ///============= read input long timeWindow = atoi(argv[1]); bool traceOn = atoi(argv[2]); const int nFile = argc - NMINARG + 1; TString inFileName[nFile]; for( int i = 0 ; i < nFile ; i++){ inFileName[i] = argv[i + NMINARG -1];} /// Form outFileName; int pos = inFileName[0].Last('_'); TString outFileName = ""; if( pos == -1 ) { if( timeWindow < 0 ) { outFileName ="temp_single.root"; }else{ outFileName = "temp_" + std::to_string(timeWindow) + ".root"; } }else{ TString temp = inFileName[0]; temp.Remove(0, pos+1); int pos = temp.Last('.'); temp.Remove(pos); outFileName = Form("run%03d", atoi(temp)); if( timeWindow < 0 ) { outFileName +="_single.root"; }else{ outFileName += "_" + std::to_string(timeWindow) + ".root"; } } printf("-------> Out file name : %s \n", outFileName.Data()); printf("=========================================\n"); printf(" Time Window = %ld ns = %.1f us\n", timeWindow, timeWindow/1000.); printf(" Include Trace = %s\n", traceOn ? "Yes" : "No"); printf(" Max multiplity = %d hits/event (hard coded)\n", MAX_MULTI); if( traceOn ) printf(" Max Trace Length = %d (hard coded)\n", MAX_TRACE_LENGTH); printf("========================================= Number of Files : %d \n", nFile); unsigned long long int totalHitCount = 0; BinReader reader[nFile]; for(int i = 0; i < nFile; i++ ){ printf(">>>>>>>> %2d | %s \n", i, inFileName[i].Data()); reader[i].OpenFile(inFileName[i]); reader[i].ScanNumHit(); totalHitCount += reader[i].GetNumHit(); } printf("======================= total Hit Count : %llu\n", totalHitCount); printf("========================================= Initializing tree...\n"); unsigned long long evID = 0; unsigned int multi = 0; unsigned short sn[MAX_MULTI] = {0}; unsigned short ch[MAX_MULTI] = {0}; unsigned short e[MAX_MULTI] = {0}; unsigned short e2[MAX_MULTI] = {0}; unsigned long long e_t[MAX_MULTI] = {0}; unsigned short e_f[MAX_MULTI] = {0}; unsigned short traceLength[MAX_MULTI]; short trace[MAX_MULTI][MAX_TRACE_LENGTH]; TFile * outRootFile = new TFile(outFileName, "recreate"); TTree * tree = new TTree("tree", outFileName); tree->Branch("evID", &evID, "event_ID/l"); tree->Branch("multi", &multi, "multi/i"); 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_t[multi]/l"); tree->Branch("e_f", e_f, "e_f[multi]/s"); tree->Branch("traceLength", traceLength, "traceLength[multi]/s"); if( traceOn ) { tree->Branch("trace", trace,"trace[multi][MAX_TRACE_LENGTH]/S"); tree->GetBranch("trace")->SetCompressionSettings(205); } printf("========================================= Event Building ...\n"); //set TimeWindow to ps; timeWindow *= 1000; // record the first time stamp and last time stamp unsigned long long tStart = 0; unsigned long long tEnd = 0; unsigned long long t0 = -1; short g0 = 0 ; int nFileFinished = 0; multi = 0; evID = 0; std::vector events; long long ID[nFile]; // filled hit ID for( int i = 0 ; i < nFile ; i++ ) { reader[i].ReadBlock(); ID[i] = -1; } unsigned long long hitProcessed = 0; do{ if( debug ) printf("################################ ev build %llu \n", evID); events.clear(); // //find earliest time group; t0 = -1; for( short i = 0; i < nFile; i++){ if( debug ) printf("NNNNNNNNNNNNNNN %d | ID: %lld, %lld, %lld \n", i, ID[i], reader[i].GetHitID(), reader[i].GetNumHit() ); if( ID[i] + 1 >= reader[i].GetNumHit()) continue; // if( ID[i] >= reader[i].GetHitID() ) reader[i].ReadBlock(); if( debug ) reader[i].data.Print(); if( reader[i].data.TimeStamp < t0 ) { t0 = reader[i].data.TimeStamp; g0 = i; } } if( evID == 0 ) tStart = t0; if( debug ) printf("First timestamp is %llu, file ID : %u\n", t0, g0); for( short i = 0; i < nFile; i++){ if( ID[i] + 1 >= reader[i].GetNumHit() ) continue; if( timeWindow >= 0 ){ do{ if( (long int)( reader[i].data.TimeStamp - t0) <= timeWindow ){ events.push_back(reader[i].data); ID[i] ++; }else{ break; } }while( reader[i].ReadBlock() == 1 ); }else{ events.push_back(reader[i].data); ID[i] ++; reader[i].ReadBlock(); } if( timeWindow < 0) break; } if( events.size() > 1 ){ std::sort(events.begin(), events.end(), [](const Data& a, const Data& b) { return a.TimeStamp < b.TimeStamp; }); } tEnd = events.back().TimeStamp; hitProcessed += events.size(); if( hitProcessed % (traceOn ? 10000 : 10000) == 0 ) printf("hit Porcessed %llu/%llu hit....%.2f%%\n\033[A\r", hitProcessed, totalHitCount, hitProcessed*100./totalHitCount); multi = events.size() ; if( events.size() >= MAX_MULTI ) { printf("\033[31m event %lld has size = %d > MAX_MULTI = %d \033[0m\n", evID, multi, MAX_MULTI); multi = MAX_MULTI; } if( debug ) printf("=================================== filling data | %u \n", multi); for( size_t p = 0; p < multi ; p ++ ) { if( debug ) {printf("%4zu | ", p); events[p].Print();} sn[p] = events[p].BoardID; ch[p] = events[p].Channel; e[p] = events[p].Energy; e2[p] = events[p].Energy_short; e_t[p] = events[p].TimeStamp / 1000; e_f[p] = events[p].TimeStamp % 1000; traceLength[p] = events[p].NSample; if( traceOn ){ if( traceLength[p] > MAX_TRACE_LENGTH ) { printf("\033[31m event %lld has trace length = %d > MAX_TRACE_LENGTH = %d \033[0m\n", evID, traceLength[p], MAX_TRACE_LENGTH); traceLength[p] = MAX_TRACE_LENGTH; } for( int hh = 0; hh < traceLength[p]; hh++){ trace[p][hh] = events[p].Trace[hh]; } } } outRootFile->cd(); tree->Fill(); // tree->Write(); multi = 0; evID ++; nFileFinished = 0; for( int i = 0; i < nFile; i++ ){ // printf(" %d | %lld %lld \n", i, ID[i], reader[i].GetNumHit() ); if( ID[i] + 1 >= reader[i].GetNumHit() ) nFileFinished ++ ; } if( debug ) printf(" >>>> nFileFinished : %d \n", nFileFinished); if( events.size() == 0 ) break; if( debug > 1 && hitProcessed > debug ) break; }while( nFileFinished < nFile ); tree->Write(); unsigned int runEndTime = getTime_us(); double runTime = (runEndTime - runStartTime) * 1e-6; printf("######################################### finished.\n"); printf(" event building time = %.2f sec = %.2f min\n", runTime, runTime/60.); // printf(" total events built = %llu by event builder (%llu in tree)\n", evID, tree->GetEntriesFast()); printf(" total hit processed = %llu\n", hitProcessed); printf(" total events built = %llu by event builder\n", evID); double tDuration_sec = (tEnd - tStart) * 1e-12; printf(" first timestamp = %20llu ps\n", tStart); printf(" last timestamp = %20llu ps\n", tEnd); printf(" total data duration = %.2f sec = %.2f min\n", tDuration_sec, tDuration_sec/60.); printf("========================================> saved to %s \n", outFileName.Data()); TMacro info; info.AddLine(Form("tStart= %20llu ns",tStart)); info.AddLine(Form(" tEnd= %20llu ns",tEnd)); info.Write("info"); outRootFile->Close(); return 0; }