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AraSim.cc
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AraSim.cc
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// ROOT includes
#include "TFile.h"
#include "TRandom3.h"
#include "TTree.h"
// AraSim includes
//vector and position must be first
#include "Vector.h"
#include "Position.h"
#include "Constants.h"
#include "counting.hh"
#include "Detector.h"
#include "EarthModel.h"
#include "Efficiencies.h"
#include "Event.h"
#include "IceModel.h"
#include "Primaries.h"
#include "Ray.h"
#include "Report.h"
#include "RaySolver.h"
#include "secondaries.hh"
#include "Settings.h"
#include "signal.hh"
#include "Spectra.h"
#include "Tools.h"
#include "Trigger.h"
using namespace std;
#ifdef ARA_UTIL_EXISTS
#include "UsefulIcrrStationEvent.h"
ClassImp(UsefulIcrrStationEvent);
#include "UsefulAtriStationEvent.h"
ClassImp(UsefulAtriStationEvent);
#endif
class EarthModel; //class
void test();
string outputdir="outputs";
int main(int argc, char **argv) { // read setup.txt file
Settings *settings1 = new Settings();
cout<<"\n\tDefault values!"<<endl;
cout<<"NNU : "<<settings1->NNU<<endl;
cout<<"ICE_MODEL : "<<settings1->ICE_MODEL<<endl;
cout<<"NOFZ : "<<settings1->NOFZ<<endl;
cout<<"CONSTANTICETHICKNESS : "<<settings1->CONSTANTICETHICKNESS<<endl;
cout<<"FIXEDELEVATION : "<<settings1->FIXEDELEVATION<<endl;
cout<<"MOOREBAY : "<<settings1->MOOREBAY<<endl;
cout<<"EXPONENT : "<<settings1->EXPONENT<<endl;
cout<<"DETECTOR : "<<settings1->DETECTOR<<endl;
//string setupfile = "setup.txt";
string setupfile;
string run_no;
if (argc<2) { // no setup file input, use default
setupfile = "setup.txt";
cout<<"setupfile : "<<setupfile<<endl;
}
else if (argc > 1) { // read file!!
setupfile = string( argv[1] );
cout<<"setupfile : "<<setupfile<<endl;
}
if (argc > 2) { // read file!!
run_no = string( argv[2] );
cout<<"run number : "<<run_no<<endl;
}
if (argc > 3) { // read file!!
outputdir = string( argv[3] );
if(outputdir[outputdir.size()-1]=='/') outputdir=outputdir.substr(0,outputdir.size()-1); // make sure outputdir doesn't have a / at the end
cout<<"outputdir : "<<outputdir<<endl;
}
// else { // no mode for argc > 2!
// cout<<"too many info! just use default setup.txt file!"<<endl;
// setupfile = "setup.txt";
// }
settings1->ReadFile(setupfile);
cout<<"Read "<<setupfile<<" file!"<<endl;
int settings_compatibility_error = settings1->CheckCompatibilitiesSettings();
if (settings_compatibility_error > 0) {
cerr<<"There are "<< settings_compatibility_error<<" errors from settings. Check error messages."<<endl;
return -1;
}
cout<<"\n\tNew values!"<<endl;
cout<<"NNU : "<<settings1->NNU<<endl;
cout<<"ICE_MODEL : "<<settings1->ICE_MODEL<<endl;
cout<<"NOFZ : "<<settings1->NOFZ<<endl;
cout<<"CONSTANTICETHICKNESS : "<<settings1->CONSTANTICETHICKNESS<<endl;
cout<<"FIXEDELEVATION : "<<settings1->FIXEDELEVATION<<endl;
cout<<"MOOREBAY : "<<settings1->MOOREBAY<<endl;
cout<<"EXPONENT : "<<settings1->EXPONENT<<endl;
cout<<"DETECTOR : "<<settings1->DETECTOR<<endl;
cout<<"POSNU_RADIUS : "<<settings1->POSNU_RADIUS<<endl;
cout << "EVENT_GENERATION_MODE: " << settings1->EVENT_GENERATION_MODE << endl;
// cout << "EVENT_NUM: " << settings1->EVENT_NUM << endl;
if (settings1->EVENT_GENERATION_MODE == 1){
// string evtfile = "eventReadIn.txt";
string evtfile = string(argv[argc - 1]);
settings1->ReadEvtFile(evtfile);
cout<<"Read "<< evtfile <<" file!"<<endl;
cout << "EVID NUFLAVORINT NUBAR PNU CURRENTINT IND_POSNU_R IND_POSNU_THETA IND_POSNU_PHI IND_NNU_THETA IND_NNU_PHI ELAST" << endl;
for (int i = 0; i < settings1->NNU; i++){
cout << settings1->EVID[i] << " " << settings1->NUFLAVORINT[i] << " " << settings1->NUBAR[i] << " " << settings1->PNU[i] << " " << settings1->CURRENTINT[i] << " " << settings1->IND_POSNU_R[i] << " " << settings1->IND_POSNU_THETA[i] << " " << settings1->IND_POSNU_PHI[i] << " " << settings1->IND_NNU_THETA[i] << " " << settings1->IND_NNU_PHI[i] << " " << settings1->ELAST[i] << endl;
}
}
// set gRandom as TRandom3 when settings1->RANDOM_MODE = 1
if (settings1->RANDOM_MODE == 1) {
// test TRandom3
TRandom3 *test_randm3 = new TRandom3 (0);
gRandom = test_randm3;
} else {
gRandom->SetSeed(settings1->SEED + atoi(run_no.c_str() ) );
}
//cout<<"first random from TRandom3 : "<<test_randm3->Rndm()<<"\n";
cout<<"first random : "<<gRandom->Rndm()<<"\n";
// IceModel *icemodel=new IceModel(ICE_MODEL + NOFZ*10,CONSTANTICETHICKNESS * 1000 + CONSTANTCRUST * 100 + FIXEDELEVATION * 10 + 0,MOOREBAY);// creates Antarctica ice model
IceModel *icemodel=new IceModel(settings1->ICE_MODEL + settings1->NOFZ*10,settings1->CONSTANTICETHICKNESS * 1000 + settings1->CONSTANTCRUST * 100 + settings1->FIXEDELEVATION * 10 + 0,settings1->MOOREBAY);// creates Antarctica ice model
// IceModel inherits from EarthModel
cout<<endl;
cout<<"Surface at (log:0, lat:0) : "<<icemodel->Surface(0., 0.)<<endl;
cout<<"SurfaceAboveGeoid at (log:0, lat:0) : "<<icemodel->SurfaceAboveGeoid(0., 0.)<<endl;
// Detector *detector=new Detector(settings1, icemodel); // builds antenna array, 0 for testbed
Detector *detector=new Detector(settings1, icemodel, setupfile ); // builds antenna array, 0 for testbed
cout<<"end calling detector"<<endl;
// Detector *detector=new Detector(settings1->DETECTOR); // builds antenna array, 0 for testbed
Trigger *trigger=new Trigger(detector, settings1); // builds the trigger
// Efficiencies *efficiencies=new Efficiencies(detector->getnRx(),outputdir); // keeps track of efficiencies at each stage of the simulation
Efficiencies *efficiencies=new Efficiencies(100,outputdir); // keeps track of efficiencies at each stage of the simulation
cout<<"called Efficiencies"<<endl;
Spectra *spectra=new Spectra(settings1->EXPONENT); // gets library (or whatever) of neutrino spectra
cout<<"called Spectra"<<endl;
Ray *ray = new Ray(); // construct Ray class
cout<<"called Ray"<<endl;
// test PickUnbiased in IceModel.
Counting *count1 = new Counting();
cout<<"called Counting"<<endl;
Primaries *primary1 = new Primaries();
cout<<"called Primaries"<<endl;
int whichray = 0; // for test
//--------------------------------------------------
// Interaction *interaction1=new Interaction("nu",primary1,settings1,whichray,count1);
// cout<<"called Interaction1"<<endl;
//--------------------------------------------------
Event *event = new Event();
cout<<"called Event"<<endl;
//Report *report = new Report(detector, settings1);
Report *report = new Report();
cout<<"called Evt"<<endl;
TFile *AraFile;
if (argc > 2) {
AraFile=new TFile((outputdir+"/AraOut."+setupfile.substr(setupfile.find_last_of("/")+1)+".run"+run_no+".root").c_str(),"RECREATE","ara");
}
else {
AraFile=new TFile((outputdir+"/AraOut.root").c_str(),"RECREATE","ara");
}
TTree *AraTree=new TTree("AraTree","AraTree"); // for single entry
TTree *AraTree2=new TTree("AraTree2","AraTree2"); //for many entries
cout<<"assign AraFile, AraTrees"<<endl;
AraTree->Branch("detector",&detector);
cout<<"branch detector"<<endl;
AraTree->Branch("icemodel",&icemodel);
cout<<"branch icemodel"<<endl;
AraTree->Branch("trigger",&trigger);
cout<<"branch trigger"<<endl;
AraTree->Branch("settings",&settings1);
cout<<"branch settings"<<endl;
AraTree->Branch("spectra",&spectra);
cout<<"branch spectra"<<endl;
AraTree2->Branch("event",&event);
cout<<"branch Evt"<<endl;
AraTree2->Branch("report",&report);
cout<<"branch report"<<endl;
cout<<"finish tree assign"<<endl;
RaySolver *raysolver = new RaySolver();
cout<<"called RaySolver"<<endl;
cout << "Make output file that is readable by AraRoot" << endl;
#ifdef ARA_UTIL_EXISTS
UsefulIcrrStationEvent *theIcrrEvent =0;
UsefulAtriStationEvent *theAtriEvent =0;
TTree *eventTree;
double weight = 0.;
eventTree = new TTree("eventTree","Tree of ARA Events");
eventTree->Branch("UsefulIcrrStationEvent", &theIcrrEvent);
eventTree->Branch("UsefulAtriStationEvent",&theAtriEvent);
eventTree->Branch("weight", &weight);
/*
UsefulIcrrStationEvent *theIcrrEventArray[3];
for (int i = 0; i < 3; i++){
theIcrrEvent[i] = 0;
}
UsefulAtriStationEvent *theAtriEventArray[38];
for (int i = 0; i < 38; i++){
theAtriEvent[i] = 0;
}
*/
/*
TTree *eventTree0;
eventTree0 = new TTree("eventTree0","Tree of Station 0 ARA Events");
eventTree0->Branch("UsefulIcrrStationEvent",&theIcrrEventArray[0]);
TTree *eventTree1;
eventTree1 = new TTree("eventTree1","Tree of Station 1 ARA Events");
eventTree1->Branch("UsefulAtriStationEvent",&theAtriEventArray[1]);
TTree *eventTree2;
eventTree2 = new TTree("eventTree2","Tree of Station 2 ARA Events");
eventTree2->Branch("UsefulAtriStationEvent",&theAtriEventArray[2]);
TTree *eventTree3;
eventTree3 = new TTree("eventTree3","Tree of Station 3 ARA Events");
eventTree3->Branch("UsefulAtriStationEvent",&theAtriEventArray[3]);
*/
#endif
cout<<"will call secondaries"<<endl;
Secondaries *sec1 = new Secondaries (settings1);
cout<<"will call signal"<<endl;
// Signal *signal = new Signal;
Signal *signal = new Signal (settings1);
signal->SetMedium(0); // set medium as ice
cout<<"finish calling secondaries and signal"<<endl;
// before start looping events set noise values (this case, thermal)
trigger->SetMeanRmsDiode(settings1, detector, report);
if (settings1->NOISE_WAVEFORM_GENERATE_MODE == 0) {// noise waveforms will be generated for each evts
trigger->ClearNoiseWaveforms();
}
// now in Trigger class, there will be meandiode, rmsdiode values for noise (we need this for trigger later)
double max_dt = 0.; // max arrival time difference
int Total_Global_Pass = 0; // total global trigger passed number
double Total_Weight = 0.;
double Total_Probability = 0.;
/*
TCanvas *cFull_window = new TCanvas("cFull_window","A Simple Graph Example",200,10,10000,11200);
cFull_window->Divide(1,16);
TGraph *g_Full_window;
TGraph *G_V_threshold_diode;
G_V_threshold_diode = new TGraph(2, threshold_x, threshold_y);
TCanvas *cFull_window_V = new TCanvas("cFull_window_V","A Simple Graph Example",200,10,3200,2400);
cFull_window_V->Divide(4,4);
TGraph *g_Full_window_V;
*/
double x_V[settings1->NFOUR/2];
double y_V[settings1->NFOUR/2];
double xbin[settings1->DATA_BIN_SIZE];
for (int i=0; i<settings1->DATA_BIN_SIZE; i++) {
xbin[i] = i;
}
double threshold_y[2];
double threshold_x[2];
threshold_x[0] = 0.;
threshold_x[1] = (double)settings1->DATA_BIN_SIZE-1.;
threshold_y[0] = (trigger->rmsdiode) * (trigger->powerthreshold);
threshold_y[1] = (trigger->rmsdiode) * (trigger->powerthreshold);
cout<<"powerthreshold : "<<trigger->powerthreshold<<endl;
int check_station_DC;
ofstream TrigWind;
TrigWind.open("outputs/TrigWindowStudy.txt");
// for (int iTrigWind = 10; iTrigWind < 201; iTrigWind = iTrigWind+10){
// double TRIG_WINDOW_Size = double (iTrigWind * 1.0E-9);
// settings1->TRIG_WINDOW = TRIG_WINDOW_Size;
Total_Global_Pass = 0;
cout<<"begin looping events!!"<<endl;
double pre_posnu_x;
double pre_posnu_y;
double pre_posnu_z;
double cur_posnu_x;
double cur_posnu_y;
double cur_posnu_z;
cout << "Calpulser_on: " << settings1->CALPULSER_ON << endl;
// test Detector set correctly
cout<<"number of stations : "<<detector->params.number_of_stations << endl;
cout<<"total number of antennas : "<<detector->params.number_of_antennas << endl;
int ch_count = 0;
for (int i=0; i<detector->params.number_of_stations; i++) {
for (int j=0; j<detector->stations[i].strings.size(); j++) {
for (int k=0; k<detector->stations[i].strings[j].antennas.size(); k++) {
ch_count++;
cout<<"station["<<i<<"].strings["<<j<<"].antennas["<<k<<"] no_ch:"<<ch_count<<endl;
}
}
}
// check if settings have to compatibility problems
// if there's any, stop AraSim
settings_compatibility_error = settings1->CheckCompatibilitiesDetector(detector);
if (settings_compatibility_error > 0) {
cerr<<"There are "<< settings_compatibility_error<<" errors from settings after Detector class instance is initialized. Check error messages."<<endl;
return -1;
}
#ifndef ARA_UTIL_EXISTS
if (settings1->DETECTOR == 3 && settings1->READGEOM == 1){
cerr << "ERROR::InstalledStation geometry not available without AraRoot installation!" << endl;
return -1;
}
#endif
// test autoflush
// AraTree2->SetAutoFlush(0);
// reset accumulative trig search bin info
settings1->ACCUM_TRIG_SEARCH_BINS_STATION0 = 0.;
int nuLimit =0;
if (settings1->EVENT_GENERATION_MODE == 1){ //event mode read in different single events
nuLimit = settings1->NNU;
}
else if (settings1->ONLY_PASSED_EVENTS == 1){
nuLimit = settings1->NNU_PASSED;
}
else {
nuLimit = settings1->NNU;
}
// cout << "nuLimit: " << nuLimit << endl;
int inu = 0;
int Events_Thrown = 0;
int Events_Passed = 0;
// for (int inu=0;inu<settings1->NNU;inu++) { // loop over neutrinos
while (inu < nuLimit){
// cout << "inu: " << inu << endl;
check_station_DC = 0;
check_station_DC = 0;
if ( settings1->DEBUG_MODE_ON==0 ) {
std::cerr<<"*";
if ( Events_Thrown%100 == 0 )
cout<<"Thrown "<<Events_Thrown<<endl;
}
// event = new Event ( settings1, spectra, primary1, icemodel, detector, signal, sec1 );
event = new Event ( settings1, spectra, primary1, icemodel, detector, signal, sec1, Events_Thrown );
if(event->Nu_Interaction.size()<1){
// If for some reason no interactions were placed into the event holder, continue.
// This should be exceedingly rare, but could happen if something
// goes wrong with interaction generation.
// BAC added this specifically because if the neutrino is generated
// with a higher energy than is available in the sigma parameterization
// then no interaction will be added and Nu_Interaction will be empty.
// But also, it's bad practice to assume the size of a vector anyway
// so this is just better generically.
cout<<"Warning! The interaction vector is empty!"<<endl;
cout<<"Continuing on to the next event."<<endl;
continue;
}
event->inu_passed = -1;
report = new Report(detector, settings1);
#ifdef ARA_UTIL_EXISTS
theIcrrEvent = new UsefulIcrrStationEvent();
theAtriEvent = new UsefulAtriStationEvent();
#endif
// go further only if we picked up usable posnu
if (event->Nu_Interaction[0].pickposnu>0) {
/*
if (settings1->NOISE_WAVEFORM_GENERATE_MODE == 0) {// noise waveforms will be generated for each evts
trigger->GetNewNoiseWaveforms(settings1, detector, report);
}
*/
//--------------------------------------------------
// cout<<"inu : "<<inu<<endl;
// cout<<"event->pnu : "<<event->pnu<<endl;
// cout<<"posnu : ";
// event->Nu_Interaction[0].posnu.Print();
// cout<<"nnu : ";
// event->Nu_Interaction[0].nnu.Print();
// cout<<"event->n_interactions : "<<event->n_interactions<<endl;
// cout<<"nu_flavor : "<<event->nuflavor<<endl;
// cout<<"event->Nu_Interaction[0].vmmhz1m[0] : "<<event->Nu_Interaction[0].vmmhz1m[0]<<endl;
// cout<<"pickposnu : "<<event->Nu_Interaction[0].pickposnu<<endl;
//--------------------------------------------------
// connect Interaction class (nu interaction with ice) and Detector class (detector properties and layout)
// save signal, noise at each antennas to Report class
//report->Connect_Interaction_Detector (event, detector, raysolver, signal, icemodel, settings1, trigger);
//report->Connect_Interaction_Detector (event, detector, raysolver, signal, icemodel, settings1, trigger, theEvent);
report->Connect_Interaction_Detector_V2 (event, detector, raysolver, signal, icemodel, settings1, trigger, Events_Thrown);
//report->Connect_Interaction_Detector (event, detector, raysolver, signal, icemodel, settings1, trigger, theEvent, Events_Thrown);
#ifdef ARA_UTIL_EXISTS
if (settings1->DATA_LIKE_OUTPUT !=0){
int stationID;
int stationIndex;
if (settings1->DETECTOR == 4){
stationID = settings1->DETECTOR_STATION;
stationIndex = 0;
} else {
stationID = 0;
stationIndex = 0;
}
if (report->stations[stationIndex].Global_Pass) {
// report->MakeUsefulEvent(detector, settings1, trigger, stationID, stationIndex, theIcrrEvent);
cout << endl << "Making useful event" << endl;
report->MakeUsefulEvent(detector, settings1, trigger, stationID, stationIndex, theAtriEvent);
/*
for (int i_chan = 0; i_chan< 16; i_chan++){
int elecChan = AraGeomTool::Instance()->getElecChanFromRFChan(i_chan, stationID);
int string_i = detector->getStringfromArbAntID( stationIndex, i_chan);
int antenna_i = detector->getAntennafromArbAntID( stationIndex, i_chan);
cout << "Output: " << elecChan << " : " << theAtriEvent->fTimes[elecChan][1] << " : " << report->stations[stationIndex].strings[string_i].antennas[antenna_i].time_mimic[1] << endl;
}
*/
}
weight = event->Nu_Interaction[0].weight;
}
// cout << "weight: " << weight <<endl;
#endif
report->ClearUselessfromConnect(detector, settings1, trigger);
for(int i=0;i<event->Nu_Interaction.size(); i++)
event->Nu_Interaction[i].clear_useless(settings1);
// test if posnu is exactly same in calpulser mode
if (settings1->CALPULSER_ON == 1) {
cur_posnu_x = event->Nu_Interaction[0].posnu.GetX();
cur_posnu_y = event->Nu_Interaction[0].posnu.GetY();
cur_posnu_z = event->Nu_Interaction[0].posnu.GetZ();
// cout<<"posnu x:"<<cur_posnu_x<<" y:"<<cur_posnu_y<<" z:"<<cur_posnu_z<<endl;
if (inu>0) {
if (pre_posnu_x==cur_posnu_x && pre_posnu_y==cur_posnu_y && pre_posnu_z==cur_posnu_z) {
}
else cout<<"posnu location changed!"<<endl;
}
pre_posnu_x = event->Nu_Interaction[0].posnu.GetX();
pre_posnu_y = event->Nu_Interaction[0].posnu.GetY();
pre_posnu_z = event->Nu_Interaction[0].posnu.GetZ();
}
for (int i=0; i<detector->params.number_of_stations; i++) {
#ifdef ARA_UTIL_EXISTS
if (settings1->DATA_LIKE_OUTPUT != 0){
if (settings1->DETECTOR == 3 && i == 0)
{ theIcrrEvent->numRFChans = 14; }
else if (settings1->DETECTOR == 4 && settings1->DETECTOR_STATION == 0)
{ theIcrrEvent->numRFChans = 14; }
else {
theAtriEvent->fNumChannels = 20;
theIcrrEvent->numRFChans = 16;
}
}
#endif
if (max_dt < report->stations[i].max_arrival_time - report->stations[i].min_arrival_time)
max_dt = report->stations[i].max_arrival_time - report->stations[i].min_arrival_time;
// check the total global trigger passed
if (report->stations[i].Global_Pass) {
cout<<"\nGlobal_Pass : "<<report->stations[i].Global_Pass<<" evt : "<<inu<<" added weight : "<<event->Nu_Interaction[0].weight<<endl;
if ( check_station_DC == 0) { // count trigger pass only once per event
Total_Global_Pass ++;
Total_Weight += event->Nu_Interaction[0].weight;
Total_Probability += event->Nu_Interaction[0].probability;
// test increment weight
if (settings1->INTERACTION_MODE==1) {
count1->incrementEventsFound( event->Nu_Interaction[0].weight, event );
}
else if (settings1->INTERACTION_MODE==0) {
count1->incrementEventsFound( event->Nu_Interaction[0].probability, event );
}
else if (settings1->INTERACTION_MODE==3) {
count1->incrementEventsFound( event->Nu_Interaction[0].probability, event );
}
else if (settings1->INTERACTION_MODE==4) {
count1->incrementEventsFound( event->Nu_Interaction[0].weight, event );
}
}
check_station_DC++;
event->inu_passed = Events_Passed;
}
}
/*
AraTree2->Fill(); //fill interaction every events
// for 1, save all events whether passed trigger or not
if (settings1->DATA_LIKE_OUTPUT==2) {
//theEvent = &report->theUsefulEvent;
eventTree->Fill();
}
// for 0, save events which passed trigger
else if (settings1->DATA_LIKE_OUTPUT==1) {
//if ( Global_Pass_Flag == 1 ) {
if ( check_station_DC > 0 ) {
//theEvent = &report->theUsefulEvent;
eventTree->Fill();
}
}
theEvent = NULL;
delete theEvent;
*/
settings1->ACCUM_TRIG_SEARCH_BINS_STATION0 += report->stations[0].total_trig_search_bin;
} // if pickposnu > 0
else {
//cout<<"pickposnu : "<<event->Nu_Interaction[0].pickposnu<<endl;
report->delete_all();
event->delete_all();
}
// test FILL_TREE_MODE
if (settings1->FILL_TREE_MODE==0) { // fill event event
AraTree2->Fill(); //fill interaction every events
#ifdef ARA_UTIL_EXISTS
// for 1, save all events whether passed trigger or not
if (settings1->DATA_LIKE_OUTPUT==2) {
// theEvent = &report->theUsefulEvent;
eventTree->Fill();
}
// for 0, save events which passed trigger
else if (settings1->DATA_LIKE_OUTPUT==1) {
if ( check_station_DC > 0 ) {
// theEvent = &report->theUsefulEvent;
eventTree->Fill();
}
}
#endif
}
else if (settings1->FILL_TREE_MODE==1) { // fill only usable posnu event
if (event->Nu_Interaction[0].pickposnu>0) {
AraTree2->Fill(); //fill interaction every events
#ifdef ARA_UTIL_EXISTS
// for 1, save all events whether passed trigger or not
if (settings1->DATA_LIKE_OUTPUT==2) {
// theEvent = &report->theUsefulEvent;
eventTree->Fill();
}
// for 0, save events which passed trigger
else if (settings1->DATA_LIKE_OUTPUT==1) {
if ( check_station_DC > 0 ) {
//theEvent = &report->theUsefulEvent;
eventTree->Fill();
}
}
#endif
}
}
else if (settings1->FILL_TREE_MODE==2) { // fill only triggered event
if (check_station_DC>0) {
AraTree2->Fill(); //fill interaction every events
#ifdef ARA_UTIL_EXISTS
// for 1, save all events whether passed trigger or not
if (settings1->DATA_LIKE_OUTPUT==2) {
//theEvent = &report->theUsefulEvent;
eventTree->Fill();
}
// for 0, save events which passed trigger
else if (settings1->DATA_LIKE_OUTPUT==1) {
if ( check_station_DC > 0 ) {
//theEvent = &report->theUsefulEvent;
eventTree->Fill();
}
}
#endif
}
}
if (settings1->EVENT_GENERATION_MODE == 1){
inu++;
}
else if (settings1->ONLY_PASSED_EVENTS == 1){
if (check_station_DC > 0){
inu++;
}
}
else {
inu++;
}
if (check_station_DC > 0){
Events_Passed++;
}
Events_Thrown++;
//theEvent = NULL;
/*
if (settings1->NOISE_WAVEFORM_GENERATE_MODE == 0) {// noise waveforms will be generated for each evts
// remove noise waveforms for next evt
rigger->ClearNoiseWaveforms();
}
*/
// if(inu==nuLimit){
// cout<<endl<<"sizeof: Report= "<<sizeof(*report)<<" station= "<<sizeof(report->stations[0])<<" antenna= "<<sizeof(report->stations[0].strings[0].antennas[0])<<endl;
// cout<<"sizeof: Event= "<<sizeof(*event)<<" Interaction= "<<sizeof(event->Nu_Interaction[0])<<" TOTAL SIZE= "<<sizeof(*report)+sizeof(*event)+sizeof(report->stations[0])+16*sizeof(report->stations[0].strings[0].antennas[0])+sizeof(event->Nu_Interaction[0])<<endl;
// }
delete event;
delete report;
#ifdef ARA_UTIL_EXISTS
delete theIcrrEvent;
delete theAtriEvent;
#endif
} // end loop over neutrinos
settings1->NNU = Events_Thrown;
settings1->NNU_PASSED = Total_Global_Pass;
// TrigWind << TRIG_WINDOW_Size << "\t" << Total_Global_Pass << endl;
// cout << "TRIG_WINDOW_Size:Total_Global_Pass:: " << TRIG_WINDOW_Size << " : " << Total_Global_Pass << endl;
// }// end trigger window loop
TrigWind.close();
//--------------------------------------------------
// cFull_window_V->Print("test_V_mimic.pdf");
//--------------------------------------------------
ofstream weight_file;
//weight_file.open(("./weight_output/weight_"+setupfile).c_str());
if (argc == 3) {
weight_file.open(("./weight_output/weight_"+setupfile+".run"+run_no).c_str());
}
else if (argc >3 ){ // add the subdirectory for outputs
weight_file.open((outputdir+"/weight_output/weight_"+setupfile+".run"+run_no).c_str());
}
else {
weight_file.open(("./weight_output/weight_"+setupfile).c_str());
}
cout<<" end loop"<<endl;
// cout << "Total Events Thrown: " << settings1->NNU << endl;
cout << "Total Events Thrown: " << Events_Thrown << endl;
cout<<"Total_Global_Pass : "<<Total_Global_Pass<<endl;
cout<<"Total_Weight : "<<Total_Weight<<endl;
cout<<"Total_Probability : "<<Total_Probability<<endl;
if (settings1->INTERACTION_MODE==1) {
weight_file << "Total_Weight="<<Total_Weight<<endl;
}
else if (settings1->INTERACTION_MODE==0) {
weight_file << "Total_Probability="<<Total_Probability<<endl;
}
cout<<"weight bin values : ";
for (int i=0; i<count1->NBINS-1; i++) {
cout<<count1->eventsfound_binned[i]<<", ";
weight_file << count1->eventsfound_binned[i]<<" ";
}
cout<<count1->eventsfound_binned[count1->NBINS-1];
weight_file << count1->eventsfound_binned[count1->NBINS-1]<<"\n";
weight_file.close();
cout<<"\n\n";
// if using picknear_cylinder method
if (settings1->INTERACTION_MODE==1) {
double IceVolume;
IceVolume = PI * (settings1->POSNU_RADIUS) * (settings1->POSNU_RADIUS) * icemodel->IceThickness( detector->stations[0] );
cout << "Radius: " << settings1->POSNU_RADIUS << " [m]" << endl;
cout<<"IceVolume : "<<IceVolume<<endl;
double Veff_test_we; // effective volume water equivalent
double Veff_test; // effective volume ice
// error bar for weight
double error_plus = 0;
double error_minus = 0;
Counting::findErrorOnSumWeights( count1->eventsfound_binned, error_plus, error_minus );
/*
Veff_test = IceVolume * 4. * PI * signal->RHOICE / signal->RHOH20 * Total_Weight / (double)(settings1->NNU);
// account all factors to error
error_plus = IceVolume * 4. * PI * signal->RHOICE / signal->RHOH20 * error_plus / (double)(settings1->NNU);
error_minus = IceVolume * 4. * PI * signal->RHOICE / signal->RHOH20 * error_minus / (double)(settings1->NNU);
*/
Veff_test_we = IceVolume * 4. * PI * signal->RHOICE / signal->RHOH20 * Total_Weight / (double)(settings1->NNU);
Veff_test = IceVolume * 4. * PI * Total_Weight / (double)(settings1->NNU);
error_plus = IceVolume * 4. * PI * signal->RHOICE / signal->RHOH20 * error_plus / (double)(settings1->NNU);
error_minus = IceVolume * 4. * PI * signal->RHOICE / signal->RHOH20 * error_minus / (double)(settings1->NNU);
cout<<"test Veff(ice) : "<<Veff_test<<" m3sr, "<<Veff_test*1.E-9<<" km3sr"<<endl;
cout<<"test Veff(water eq.) : "<<Veff_test_we<<" m3sr, "<<Veff_test_we*1.E-9<<" km3sr"<<endl;
cout<<"And Veff(water eq.) error plus : "<<error_plus*1.E-9<<" and error minus : "<<error_minus*1.E-9<<endl;
}
// if using picknear_sphere method
//
else if (settings1->INTERACTION_MODE==0) {
double IceArea;
IceArea = PI * (settings1->POSNU_RADIUS) * (settings1->POSNU_RADIUS);
cout << endl;
cout<<"IceArea : "<< IceArea <<endl;
double Aeff;
Aeff = IceArea * Total_Probability / (double)(settings1->NNU);
cout << "Aeff : " << Aeff << " [m^2]" << endl;
// error bar for weight
double error_plus = 0;
double error_minus = 0;
Counting::findErrorOnSumWeights( count1->eventsfound_binned, error_plus, error_minus );
// account all factors to error
error_plus = IceArea * error_plus / (double)(settings1->NNU);
error_minus = IceArea * error_minus / (double)(settings1->NNU);
cout<<"And Aeff error plus : "<<error_plus<<" and error minus : "<<error_minus<<" [m^2]"<<endl;
// Aeff*sr
cout<<"and Aeff*sr values are"<<endl;
cout << "Aeff*sr : " << Aeff * 4.* PI << " [m^2sr]" <<", "<< Aeff * 4.* PI *1.e-6<<" [km^2sr]"<< endl;
}
//--------------------------------------------------
// cout<<"Total NNU : "<<settings1->NNU<<", PickUnbiased passed NNU : "<<nnu_pass<<endl;
//--------------------------------------------------
// remove noisewaveform info if DATA_SAVE_MODE == 2
// remove noisewaveform info if DATA_SAVE_MODE is not 0
if (settings1->DATA_SAVE_MODE != 0) {
trigger->v_noise_timedomain.clear();
trigger->v_noise_timedomain_diode.clear();
}
if (settings1->DATA_SAVE_MODE == 2) {// in DATA_SAVE_MODE==2, remove noise spectrum before Rayleigh dist.
trigger->Vfft_noise_before.clear();
}
AraTree->Fill(); // fill tree for one entry
AraFile->Write();
// AraFile->Close();
efficiencies->summarize(); // summarize the results in an output file
double freq[detector->GetFreqBin()], Filter[detector->GetFreqBin()];
double Filter_E[detector->GetFreqBin()];
for (int i=0; i<detector->GetFreqBin(); i++) {
freq[i] = detector->GetFreq(i); // in Hz
Filter[i] = detector->GetFilterGain(i); // in dB
Filter_E[i] = pow(10., (detector->GetFilterGain(i))/20.);
}
cout<<"max_dt : "<<max_dt<<endl;
cout<<"rmsdiode= "<<trigger->rmsdiode<<endl;
delete raysolver;
delete icemodel;
delete efficiencies;
delete ray;
delete detector;
delete settings1;
delete count1;
delete primary1;
delete trigger;
delete spectra;
delete sec1;
delete signal;
cout<<"outputdir= "<<outputdir<<endl;
// Please do not delete this test line
// Please leave 'test(); return 0;' as the last lines in
// AraSim.cc before '} //end main'
// These test lines are used to verify that AraSim completed properly.
test();
return 0;
} //end main
void test() {
cout << "test is " << 0 << "\n";
}