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modifly to2root.cpp for smaller tree

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This commit is contained in:
Ryan Tang 2022-01-07 13:10:17 -05:00
parent 6b7f165ac2
commit 044ad47bd8
4 changed files with 52 additions and 121 deletions
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19
Analyzer.C
View File

@ -32,12 +32,14 @@ TH2F * hgg[NCRYSTAL][NCRYSTAL];
TH2F * hcoin;
TH2F * hcrystalBGO;
///----- after calibration and BGO veto
TH2F * heCalVID;
TH1F * heCal[NCRYSTAL];
TH2F * hcoinBGO;
TH2F * hcrystalBGO;
TH2F * hcrystalBGO_G;
//############################################ BEGIN
void Analyzer::Begin(TTree * tree){
@ -76,6 +78,7 @@ void Analyzer::Begin(TTree * tree){
hcoinBGO = new TH2F("hcoinBGO", Form("detector coin. (BGO veto > %.1f); det ID; det ID", BGO_threshold), NCRYSTAL, 0, NCRYSTAL, NCRYSTAL, 0 , NCRYSTAL);
hcrystalBGO = new TH2F("hcrystalBGO", Form("crystal vs BGO ; det ID; BGO ID"), NCRYSTAL, 0, NCRYSTAL, NBGO, 0 , NBGO);
hcrystalBGO_G = new TH2F("hcrystalBGO_G", Form("crystal vs BGO (BGO veto); det ID; BGO ID"), NCRYSTAL, 0, NCRYSTAL, NBGO, 0 , NBGO);
printf("======================== Load parameters.\n");
@ -158,6 +161,11 @@ Bool_t Analyzer::Process(Long64_t entry){
heCalVID->Fill( detID[i], eCal[detID[i]]);
heCal[detID[i]]->Fill(eCal[detID[i]]);
for ( int j = i + 1; j < multi; j++){
if( 100 <= detID[j] && detID[j] < 200 ) hcrystalBGO_G->Fill(detID[i], detID[j]-100); /// crystal - BGO coincident
}
}
}
@ -196,10 +204,11 @@ void Analyzer::Terminate(){
hcrystalBGO->Draw("colz");
cCanvas->cd(4);
//cCanvas->cd(4)->SetLogz(1);
he[0]->SetLineColor(2);
he[0]->Draw();
heCal[0]->Draw("same");
cCanvas->cd(4)->SetLogz(1);
hcrystalBGO_G->Draw("colz");
//he[0]->SetLineColor(2);
//he[0]->Draw();
//heCal[0]->Draw("same");
//hcoinBGO->Draw("colz");
printf("=============== loaded AutoFit.C, try showFitMethos()\n");

7
armory/EventBuilder.cpp
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@ -75,17 +75,18 @@ int main(int argn, char **argv){
outFileName.Append(".root");
if( argn >=4 ) outFileName = argv[3];
printf(">>> out File name : \033[1,31m%s\033[m\n", outFileName.Data());
printf(">>> out File name : \033[1;31m%s\033[m\n", outFileName.Data());
printf(">>> Create output tree\n");
TFile * saveFile = new TFile(outFileName, "recreate");
saveFile->cd();
TTree * newtree = new TTree("tree", "tree");
Int_t eventID = 0 ;
Int_t multi = 0; /// this is total multipicilty for all detectors
newtree->Branch("multi", &multi, "multi/I");
Int_t eventID = 0 ;
newtree->Branch("evID", &eventID, "event_ID/l");
Int_t multiCry = 0 ; /// thi is total multiplicity for all crystal
@ -99,7 +100,7 @@ int main(int argn, char **argv){
newtree->Branch("e_t", e_t, "e_timestamp[multi]/l");
printf("================== Start processing....\n");
Float_t Frac = 0.1; ///Progress bar
Float_t Frac = 0.05; ///Progress bar
TStopwatch StpWatch;
StpWatch.Start();

133
armory/to2root.cpp
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@ -31,6 +31,8 @@
#define RAWE_REBIN_FACTOR 2.0 // Rebin 32k pixie16 spectra to something smaller to fit better into 8k.
#define MAXMULTI 100
#include "../mapping.h"
/////////////////////
@ -58,7 +60,6 @@ struct measurement
};
struct measurement data = {0};
int sevtmult=0;
unsigned long long int dataCount=0;
unsigned long long int pileUpCount=0;
unsigned long long int evtCount=0;
@ -106,35 +107,22 @@ int main(int argc, char **argv) {
outRootFile->cd();
TTree * tree = new TTree("tree", "tree");
unsigned long long evID = -1;
unsigned long long evID = 0;
int multi = 0;
int id[MAXMULTI] = {0};
double e[MAXMULTI] = {TMath::QuietNaN()};
unsigned long long e_t[MAXMULTI] = {0};
Int_t multiCry = 0 ; /// this is total multiplicity for all crystal
double e[NCRYSTAL];
unsigned long long e_t[NCRYSTAL];
unsigned short pileup[NCRYSTAL];
unsigned short hit[NCRYSTAL]; // number of hit in an event
double bgo[NBGO];
unsigned long long bgo_t[NBGO];
double other[NOTHER];
int multi; //sum of all crystal hit in an event
//unsigned short pileup[MAXMULTI];
//unsigned short hit[MAXMULTI]; // number of hit in an event
tree->Branch("evID", &evID, "event_ID/l");
//TODO: use TCloneArray to save measurement struc, that can save space and possibly time.
///tree->Branch("detID", detID, Form("det ID[%d]/B", NCRYSTAL));
tree->Branch("e", e, Form("e[%d]/D", NCRYSTAL));
tree->Branch("e_t", e_t, Form("e_timestamp[%d]/l", NCRYSTAL));
tree->Branch("p", pileup, Form("pile_up_flag[%d]/s", NCRYSTAL));
tree->Branch("hit", hit, Form("hit[%d]/s", NCRYSTAL));
tree->Branch("bgo", bgo, Form("BGO_e[%d]/D", NBGO));
tree->Branch("bgo_t", bgo_t, Form("BGO_timestamp[%d]/l", NBGO));
tree->Branch("other", other, Form("other_e[%d]/D", NOTHER));
tree->Branch("multi", &multi, "multiplicity_crystal/I");
tree->Branch("multi", &multi, "multi/I");
tree->Branch("id", id, "id[multi]/I");
tree->Branch("e", e, "e[multi]/D");
tree->Branch("e_t", e_t, "e_timestamp[multi]/l");
tree->Branch("multiCry", &multiCry, "multiplicity_crystal/I");
//open list-mode data file from PXI digitizer
FILE *fpr = fopen(argv[1], "r");
@ -153,8 +141,6 @@ int main(int argc, char **argv) {
gClock.Reset();
gClock.Start("timer");
int hitcrystal[NCRYSTAL] = {0};
/////////////////////
// MAIN WHILE LOOP //
/////////////////////
@ -164,23 +150,6 @@ int main(int argc, char **argv) {
// UNPACK DATA AND EVENT BUILD //
/////////////////////////////////
//data clear
for( int i = 0; i < NCRYSTAL; i++){
e[i] = TMath::QuietNaN();
e_t[i] = 0;
pileup[i] = 0;
hit[i] = 0;
}
for( int i = 0; i < NBGO; i++) {
bgo[i] = TMath::QuietNaN();
bgo_t[i] = 0 ;
}
for( int i = 0; i < NOTHER; i++) {
other[i] = TMath::QuietNaN();
}
multi = 0;
evID++;
long long int etime = -1;
long long int tdif = -1;
int sevtmult=0;
@ -207,24 +176,12 @@ int main(int argc, char **argv) {
tempf = (float)data.e/RAWE_REBIN_FACTOR;// + RAND;
data.e = (int)tempf;
//check lengths (sometimes all of the bits for trace length are turned on ...)
/**if (dataBlock[sevtmult].elen - dataBlock[sevtmult].hlen != dataBlock[sevtmult].trwlen) {
printf("SEVERE ERROR: event, header, and trace length inconsistencies found\n");
printf("event length = %d\n", dataBlock[sevtmult].elen);
printf("header length = %d\n", dataBlock[sevtmult].hlen);
printf("trace length = %d\n", dataBlock[sevtmult].trwlen);
printf("Extra = %d\n", dataBlock[sevtmult].extra);
printf("fcode = %d\n", dataBlock[sevtmult].fcode);
//sleep(1);
//return 0;
} */
//Set reference time for event building
if (etime == -1) {
etime = data.time;
tdif = 0;
}
else {
multi = 0;
}else {
tdif = data.time - etime;
}
@ -235,20 +192,11 @@ int main(int argc, char **argv) {
}else{
//if within time window, fill array;
int detID = mapping[data.id];
if ( 0 <= detID && detID < NCRYSTAL ){
e[detID] = data.e;
e_t[detID] = data.time;
pileup[detID] = data.fcode;
hit[detID] ++;
id[multi] = detID;
e[multi] = data.e;
e_t[multi] = data.time;
multi++ ;
}
if ( 100 <= detID && detID < 100 + NBGO ){
bgo[detID-100] = data.e;
bgo_t[detID-100] = data.time;
}
if ( 200 <= detID && detID < 200 + NOTHER){
other[detID-200] = data.e;
}
if( detID < 100 ) multiCry ++;
}
// total pileups
@ -300,48 +248,25 @@ int main(int argc, char **argv) {
}
}
*/
sevtmult++;
} //end while loop for unpacking sub events and event building for one "event"
if (sevtmult==0) break; //end main WHILE LOOP when out of events
dataCount += sevtmult;
evtCount++; //event-built number
int hit_add = 0;
for ( int i = 0; i < NCRYSTAL; i++){
if( hit[i] > 1 ) {
hit_add = 1;
hitcrystal[i] ++;
}
}
///if( hit_add == 1 ){
/// for ( int i = 0; i < NCRYSTAL; i++){ printf("%d", hit[i]); }
/// printf("------------%d\n", hitcrystal);
///}
///if( evtCount < 40 ) {
/// printf("------------------------------------- %lld \n", evtCount);
/// for( int i = 0; i < NCRYSTAL; i++){
/// if(e[i] > 0 )printf("%2d %6.0f %10llu\n", i, e[i], e_t[i]);
/// }
///
///}
if (multi==0) break; //end main WHILE LOOP when out of events
dataCount += multi;
evID ++;
/////////////////////////////////////
// END UNPACK DATA AND EVENT BUILD //
/////////////////////////////////////
//event stats, print status every 10000 events
if ( evtCount % 10000 == 0 ) {
if ( evID % 10000 == 0 ) {
fprpos = ftell(fpr);
tempf = (float)fprsize/(1024.*1024.*1024.);
gClock.Stop("timer");
double time = gClock.GetRealTime("timer");
gClock.Start("timer");
printf("Total dataBlock: \x1B[32m%llu \x1B[31m(%d%% pileup)\x1B[0m\nTotal Events: \x1B[32m%llu (%.1f <mult>)\x1B[0m\nPercent Complete: \x1B[32m%ld%% of %.3f GB\x1B[0m\nTime used:%3.0f min %5.2f sec\033[3A\r",
dataCount, (int)((100*pileUpCount)/dataCount), evtCount, (float)dataCount/(float)evtCount, (100*fprpos/fprsize), tempf, TMath::Floor(time/60.), time - TMath::Floor(time/60.)*60.);
dataCount, (int)((100*pileUpCount)/dataCount), evID+1, (float)dataCount/((float)evID+1), (100*fprpos/fprsize), tempf, TMath::Floor(time/60.), time - TMath::Floor(time/60.)*60.);
}
@ -356,7 +281,7 @@ int main(int argc, char **argv) {
fprpos = ftell(fpr);
tempf = (float)fprsize/(1024.*1024.*1024.);
printf("Total SubEvents: \x1B[32m%llu \x1B[31m(%d%% pileup)\x1B[0m\nTotal Events: \x1B[32m%llu (%.1f <mult>)\x1B[0m\nPercent Complete: \x1B[32m%ld%% of %.3f GB\x1B[0m\n\033[3A\n",
dataCount, (int)((100*pileUpCount)/dataCount), evtCount, (float)dataCount/(float)evtCount, (100*fprpos/fprsize), tempf);
dataCount, (int)((100*pileUpCount)/dataCount), evID+1, (float)dataCount/((float)evID+1), (100*fprpos/fprsize), tempf);
outRootFile->cd();
@ -370,10 +295,6 @@ int main(int argc, char **argv) {
printf("\n\n==================== finished.\r\n");
printf("Total time spend : %3.0f min %5.2f sec\n", TMath::Floor(time/60.), time - TMath::Floor(time/60.)*60.);
printf("number of hit per crystal per event:\n");
for( int i = 0; i < NCRYSTAL ; i++){
printf("%2d -- %d \n", i, hitcrystal[i]);
}
return 0;
}

2
process_run
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@ -1,4 +1,4 @@
#1/bin/bash
#!/bin/bash
DIR=$(pwd)
DATA_DIR=data