void xrootdTestVanderbilt(const int iOption=0) {
TDatime *dateTime = new TDatime;
int iDate = dateTime->GetDate();
int iTime = dateTime->GetTime();
cout << " Begin Vanderbilt access testing " << iDate << " at " << iTime << endl;
if(iOption == 0 || iOption == 1) {
TFile *f = TFile::Open("root://cmsxrootd.fnal.gov//store/test/xrootd/T2_US_Vanderbilt//store/mc/SAM/GenericTTbar/GEN-SIM-RECO/CMSSW_5_3_1_START53_V5-v1/0013/CE4D66EB-5AAE-E111-96D6-003048D37524.root");
if(f) {
cout << "\n cmsxrootd.fnal.gov successful access to Vanderbilt" << endl;
f->ls();
f->Close();
}
else {
cout << "\n cmsxrootd.fnal.gov unsuccessful access to Vanderbilt" << endl;
}
dateTime->Set(); // set to system date/time
iDate = dateTime->GetDate();
iTime = dateTime->GetTime();
cout << " Completed Vanderbilt access test from FNAL on " << iDate << " at " << iTime << endl;
} // check on iOption = 0 or iOption = 1
if(iOption == 0 || iOption == 2) {
TFile *g = TFile::Open("root://cms-xrd-global.cern.ch//store/test/xrootd/T2_US_Vanderbilt//store/mc/SAM/GenericTTbar/GEN-SIM-RECO/CMSSW_5_3_1_START53_V5-v1/0013/CE4D66EB-5AAE-E111-96D6-003048D37524.root");
if(g) {
cout << "\n cms-xrd-global.cern.ch successful access to Vanderbilt" << endl;
g->ls();
g->Close();
}
else {
cout << "\n cms-xrd-global.cern.ch unsuccessful access to Vanderbilt" << endl;
}
dateTime->Set(); // set to system date/time
iDate = dateTime->GetDate();
iTime = dateTime->GetTime();
cout << " Completed Vanderbilt access test from CERN on " << iDate << " at " << iTime << endl;
} // check on iOption = 0 or iOption = 2
dateTime->Set(); // set to system date/time
cout << "\n Completed Vanderbilt access testing " << iDate << " at " << iTime << endl;
return;
}
//================================================
void toyMC_Cent()
{
gStyle->SetOptStat(0);
gStyle->SetOptFit(1);
gStyle->SetStatY(0.9);
gStyle->SetStatX(0.9);
gStyle->SetStatW(0.2);
gStyle->SetStatH(0.2);
myRandom = new TRandom3();
TDatime *clock = new TDatime();
myRandom->SetSeed(clock->GetTime());
// Get true refMult vs Ncoll distribution
TH2F *hRefMultVsNcoll = 0x0;
// Get different efficiency curve vs. refMult
const int nEff = 2;
const int nMult = 2;
TF1 *funcEff[nEff];
funcEff[0] = new TF1("funcEff_0", "pol1",0,1000);
funcEff[0]->SetParameters(0.9, -2e-4);
funcEff[1] = new TF1("funcEff_1", "pol0",0,1000);
funcEff[1]->SetParameter(0,0.6);
TCanvas *c = new TCanvas("cEff","cEff",800,600);
TH1F *hplot = new TH1F("hplot",";Mult;",100,0,1000);
hplot->SetYTitle("Efficiency");
hplot->DrawCopy();
for(int i=0; i<2; i++)
{
funcEff[i]->SetLineColor(i+1);
funcEff[i]->SetLineWidth(1.5);
funcEff[i]->Draw("sames");
}
TPaveText *title = GetTitleText("TPC tracking efficiency");
title->Draw();
TLegend *leg = new TLegend(0.4,0.2,0.7,0.4);
leg->SetBorderSize(0);
leg->SetFillColor(0);
leg->SetTextSize(0.04);
leg->AddEntry(funcEff[0], "Efficiency 1", "L");
leg->AddEntry(funcEff[1], "Efficiency 2", "L");
leg->Draw();
// Get ngTrack distribution to mimic efficiency distribution
TH1F *hMcMult[nMult];
}
/**
* This is an alternative to bfcMixer_pythia() allowing the user to explicitly
* specify BFC options for all three chains.
*
* Sample input values:
*
* daqFileList = "@run10148002.list"
* fzdFile = "/path/to/my_pythia.fzd"
* flag = "W"
*
*/
void EmbeddingReco(const int nEvents, const std::string daqFileList, const std::string fzdFile,
const std::string bfcOptionsChain1, const std::string bfcOptionsChain2, const std::string bfcOptionsChain3,
const std::string flag)
{
// Dynamically link some shared libs
gROOT->LoadMacro("bfc.C");
if (gClassTable->GetID("StBFChain") < 0) Load();
//______________Create the main chain object______________________________________
Chain = new StChain("Embedding");
//________________________________________________________________________________
bfc(-1, bfcOptionsChain1.c_str(), daqFileList.c_str());
chain1 = chain;
chain1->SetName("One");
chain1->SetAttr(".call", "SetActive(0)", "St_db_Maker::"); // Use DB cache to reduce overhead
Chain->cd();
//________________________________________________________________________________
bfc(-1, bfcOptionsChain2.c_str(), fzdFile.c_str());
chain2 = chain;
chain2->SetName("Two");
Chain->cd();
if (chain2->GetOption("TRS")) {
StTrsMaker *trsMk = (StTrsMaker *) chain2->GetMaker("Trs");
if (!trsMk) {
cout << "Cannot find Trs in chain2" << endl;
return;
}
trsMk->setNormalFactor(1.32);
trsMk->SetMode(0);
}
//________________________________________________________________________________
// gSystem->Load("StFtpcMixerMaker");
// StFtpcMixerMaker *ftpcmixer = new StFtpcMixerMaker("FtpcMixer","daq","trs");
//________________________________________________________________________________
TString OutputFileName(gSystem->BaseName(fzdFile.c_str()));
OutputFileName.ReplaceAll("*", "");
OutputFileName.ReplaceAll(".fzd", "");
// OutputFileName.Append("_emb.root");
OutputFileName.Append(".root");
bfc(-1, bfcOptionsChain3.c_str(), 0, OutputFileName);
chain3 = chain;
chain3->SetName("Three");
Chain->cd();
//________________________________________________________________________________
StTpcMixerMaker *mixer = (StTpcMixerMaker *) chain3->Maker("TpcMixer");
mixer->SetInput("Input1", "TpxRaw/.data/Event");
if (bfcOptionsChain2.find("TpcRS") != std::string::npos) {
mixer->SetInput("Input2", "TpcRS/Event");
}
else {
mixer->SetInput("Input2", "Trs/.const/Event");
}
Chain->cd();
if (flag == "W") {
// blacklist some detectors to save DB load
St_db_Maker *dbMk = (St_db_Maker *)chain3->GetMaker("db");
dbMk->SetAttr("blacklist", "svt");
dbMk->SetAttr("blacklist", "ssd");
// dbMk->SetAttr("blacklist", "ftpc"); // S.F.
}
//------------------------------------ EMC MIXERS ------------------------------------
// Add BEMC mixer to chain3
StEmcRawMaker *emcRaw = (StEmcRawMaker *)chain3->GetMaker("emcRaw");
emcRaw->getBemcRaw()->saveAllStEvent(true); // use all 4800 BEMC towers
gSystem->Load("StEmcMixerMaker");
StEmcMixerMaker *bemcMixer = new StEmcMixerMaker;
chain3->AddAfter("EmcSimulator", bemcMixer);
// Set EEMC fast and slow simulator in embedding mode
StEEmcFastMaker *eefs = (StEEmcFastMaker *)chain3->GetMaker("eefs");
eefs->SetEmbeddingMode(); // Use local StEmcCollection
eefs->UseFullTower(true); // Use full ETOW detector
StEEmcSlowMaker *eess = new StEEmcSlowMaker;
eess->setEmbeddingMode(true);
// Add EEMC mixer to chain3
StEEmcMixerMaker *eemcMixer = new StEEmcMixerMaker;
//------------------------------------------------------------------------------------
//----------------------------- TRIGGER FILTER -----------------------------
// We want to achieve the following ordering for makers:
// 1. BBC simulator
// 2. BEMC simulator
// 3. BEMC mixer
// 4. EEMC fast simulator
// 5. EEMC slow simulator
// 6. EEMC mixer
// 7. Pythia event maker
// 8. Trigger simulator
// 9. Trigger filter
// 10. TPC maker
// Place TPC chain after EMC makers
chain3->AddAfter("eefs", chain3->GetMaker("tpcChain"));
chain3->AddAfter("eefs", eemcMixer);
chain3->AddAfter("eefs", eess);
if (flag == "Jet") {
// Place Pythia maker after GEANT maker
// and trigger filter after EMC makers
gSystem->Load("StJetSkimEvent");
gSystem->Load("StMCAsymMaker");
gSystem->Load("StBfcTriggerFilterMaker");
StPythiaEventMaker *pythia = new StPythiaEventMaker;
TString pyfile = gSystem->BaseName(fzdFile.c_str());
pyfile.ReplaceAll(".fzd", ".pythia.root");
pythia->SetPythiaFile(pyfile);
chain3->AddAfter("geant", pythia);
// Place trigger simulator after EMC makers
gSystem->Load("StTriggerUtilities");
StTriggerSimuMaker *trgsim = new StTriggerSimuMaker;
trgsim->setMC(1);
// BBC was not used in Run 9 jet triggers
//trgsim->useBbc();
//trgsim->bbc->setSource("StEvent");
trgsim->useBemc();
trgsim->bemc->setConfig(StBemcTriggerSimu::kOnline);
trgsim->useEemc();
trgsim->eemc->setSource("StEvent");
/*
trgsim->bemc->setBarrelJetPatchTh0(32);
trgsim->bemc->setBarrelJetPatchTh1(43);
trgsim->bemc->setBarrelJetPatchTh2(64);
*/
trgsim->setBarrelJetPatchTh(0, 32); // set for Run-11 based on trigger versioning page 20130728
trgsim->setBarrelJetPatchTh(1, 43);
trgsim->setBarrelJetPatchTh(2, 64);
trgsim->setOverlapJetPatchTh(0, 32);
trgsim->setOverlapJetPatchTh(1, 43);
trgsim->setOverlapJetPatchTh(2, 64);
trgsim->setEndcapJetPatchTh(0, 32);
trgsim->setEndcapJetPatchTh(1, 43);
trgsim->setEndcapJetPatchTh(2, 64);
trgsim->setBarrelHighTowerTh(0, 11);
trgsim->setBarrelHighTowerTh(1, 18);
trgsim->setBarrelHighTowerTh(2, 25);
trgsim->setBarrelHighTowerTh(3, 31);
trgsim->setEndcapHighTowerTh(0, 25);
trgsim->setEndcapHighTowerTh(1, 31);
// StBfcTriggerFilterMaker* trgfilt = new StBfcTriggerFilterMaker;
// no trigger filter for Run-11 VPDMB
// trgfilt->SetOkAllEvents(1);
// The BFC trigger filter will select only JP1, AJP and BHT3 events
// trgfilt->SetJP1();
// trgfilt->SetAJP();
// trgfilt->SetBHT3();
// Lower all jet patch thresholds by one unit from
// their values obtained from the database using
// the current timestamp.
//trgfilt->changeJPThresh(-1);
chain3->AddBefore("tpcChain", trgsim);
// chain3->AddBefore("tpcChain",trgfilt); // no trigger filter for Run-11 VPDMB
// Move these makers after trigger decision
// *** VERY IMPORTANT ***
// The order of TpxRaw and TpcRS *must* be preserved
// or the embedding will *not* work. [RT# 2299]
// http://www.star.bnl.gov/rt2/Ticket/Display.html?id=2299
StTpcRSMaker *TpcRS = (StTpcRSMaker *)chain2->GetMaker("TpcRS");
StTpcHitMaker *TpxRaw = (StTpcHitMaker *)chain1->GetMaker("TpxRaw");
chain3->AddBefore("TpcMixer", TpxRaw);
chain3->AddBefore("TpcMixer", TpcRS);
#if 0
// Turn on debugging of DB maker
St_db_Maker *db = (St_db_Maker *)chain1->GetMaker("db");
db->SetDebug(2);
#endif
//--------------------------------------------------------------------------
TString trgfile = gSystem->BaseName(fzdFile.c_str());
trgfile.ReplaceAll(".fzd", ".trig.root");
TFile *ofile = TFile::Open(trgfile, "recreate");
assert(ofile);
TH2F *hBarrelHighTowerSimu = new TH2F("hBarrelHighTowerSimu", "BEMC high tower simu;trigger patch;high tower", 300, 0, 300, 64, 0, 64);
TH2F *hBarrelPatchSumSimu = new TH2F("hBarrelPatchSumSimu", "BEMC patch sum simu;trigger patch;patch sum", 300, 0, 300, 64, 0, 64);
TH2F *hEndcapHighTowerSimu = new TH2F("hEndcapHighTowerSimu", "EEMC high tower simu;trigger patch;high tower", 90, 0, 90, 64, 0, 64);
TH2F *hEndcapPatchSumSimu = new TH2F("hEndcapPatchSumSimu", "EEMC patch sum simu;trigger patch;patch sum", 90, 0, 90, 64, 0, 64);
TH2F *hBarrelJetPatchSimu = new TH2F("hBarrelJetPatchSimu", "BEMC jet patch;jet patch;adc", 18, 0, 18, 160, 0, 160);
TH2F *hEndcapJetPatchSimu = new TH2F("hEndcapJetPatchSimu", "EEMC jet patch;jet patch;adc", 6, 0, 6, 160, 0, 160);
TH2F *hOverlapJetPatchSimu = new TH2F("hOverlapJetPatchSimu", "BEMC-EEMC-overlap;jet patch;adc", 6, 0, 6, 160, 0, 160);
}
//--------------------------------------------------------------------------
// Initialize chain
Chain->Init();
PrintTimer(Chain);
puts("Order of makers in BFCMIXER:");
StMaker::lsMakers(Chain);
// Event loop
int mNTotal = 0;
int mNFailed = 0;
TBenchmark evnt;
StIOMaker *inputStream = (StIOMaker *)chain1->GetMaker("inputStream");
for (int iEvent = 1; iEvent <= nEvents; ++iEvent) {
evnt.Reset();
evnt.Start("QAInfo:");
Chain->Clear();
int iMake = Chain->Make(iEvent);
if (iMake == kStErr) ++mNFailed;
if (inputStream->GetMakeReturn() % 10 == kStEOF) {
inputStream->Rewind();
--iEvent;
continue;
}
//if (iMake == kStSkip) continue;
if (iMake % 10 == kStEOF || iMake % 10 == kStFatal) break;
++mNTotal;
PrintTimer(Chain);
//--------------------------------------------------------------------------
if (flag == "Jet") {
// BEMC high towers and trigger patches
for (int triggerpatch = 0; triggerpatch < 300; ++triggerpatch) {
hBarrelHighTowerSimu->Fill(triggerpatch, trgsim->bemc->getBEMC_FEE_HT_ADC()[triggerpatch]);
hBarrelPatchSumSimu->Fill(triggerpatch, trgsim->bemc->getBEMC_FEE_TP_ADC()[triggerpatch]);
} // for triggerpatch
// BEMC jet patches
for (int jetpatch = 0; jetpatch < 18; ++jetpatch) {
hBarrelJetPatchSimu->Fill(jetpatch, trgsim->bemc->barrelJetPatchAdc(jetpatch));
} // for jetpatch
// EEMC high towers and trigger patches
for (int triggerpatch = 0; triggerpatch < 90; ++triggerpatch) {
hEndcapHighTowerSimu->Fill(triggerpatch, trgsim->eemc->getEndcapHighTower(triggerpatch));
hEndcapPatchSumSimu->Fill(triggerpatch, trgsim->eemc->getEndcapPatchSum(triggerpatch));
} // for triggerpatch
// EEMC jet patches
for (int jetpatch = 0; jetpatch < 6; ++jetpatch) {
hEndcapJetPatchSimu->Fill(jetpatch, trgsim->eemc->endcapJetPatchAdc(jetpatch));
} // for jetpatch
// BEMC-EEMC-overlap jet patches
for (int i = 0; i < 2; ++i) {
int jetpatch, adc;
trgsim->emc->getOverlapJetPatchAdc(i, jetpatch, adc);
hOverlapJetPatchSimu->Fill(jetpatch, adc);
} // for i
} //end of if("jet")
//--------------------------------------------------------------------------
evnt.Stop("QAInfo:");
printf("QAInfo: Done with Event [no. %d/run %d/evt. %d/Date.Time %d.%d/sta %d] Real Time = %10.2f seconds Cpu Time = %10.2f seconds\n", iEvent, Chain->GetRunNumber(), Chain->GetEventNumber(), Chain->GetDate(), Chain->GetTime(), chain3->GetMakeReturn(), evnt.GetRealTime("QAInfo:"), evnt.GetCpuTime("QAInfo:"));
} // End event loop
printf("QAInfo:EventLoop completed code %d\n", iMake);
gSystem->Exec("date");
TDatime t;
printf("QAInfo:Run is finished at Date/Time %i/%i; Total events processed: %i and not completed: %i\n", t.GetDate(), t.GetTime(), mNTotal, mNFailed);
//--------------------------------------------------------------------------
if (flag == "Jet") {
ofile->Write();
ofile->Close();
}
}
//_____________________________________________________________________
void bfcMixer_Ftpc(const Int_t Nevents=20,
const Char_t *daqfile="/star/rcf/test/daq/2008/emb/st_fmsslow_adc_9069059_raw_1520001.daq",
const Char_t *tagfile="/star/rcf/test/daq/2008/emb/daqtags/st_fmsslow_adc_9069059_raw_1520001.tags.root",
const Double_t pt_low=0.2,
const Double_t pt_high=0.5,
const Double_t eta_low=2.25,
const Double_t eta_high=4.45,
const Double_t vzlow = -50.0,
const Double_t vzhigh = 50.0,
const Int_t pid=8,
const Double_t mult=1,
const std::vector<Int_t> triggers = 0,
const Char_t *prodName = "P08iepp",
const Char_t* type = "FlatPt") {
// production chains for P08ic - p+p, Au+Au 9 GeV and d+Au
TString prodP08iepp("DbV20081117 B2008a ITTF IAna ppOpt l3onl emcDY2 fpd ftpc trgd ZDCvtx NosvtIT NossdIT Corr4 OSpaceZ2 OGridLeak3D VFMCE -hitfilt");
// TString prodP08icpp("DbV20080712,pp2008,ITTF,OSpaceZ2,OGridLeak3D,beamLine,VFMCE,TpxClu -VFPPV -hitfilt");
// TString prodP08icAuAu9("DbV20080709 P2008 ITTF VFMCE -hitfilt");
// TString prodP08icAuAu200("DbV20070101 P2008 ITTF VFMCE -hitfilt");
// TString prodP08icdAu("DbV20080712 P2008 ITTF OSpaceZ2 OGridLeak3D beamLine, VFMCE TpxClu -VFMinuit -hitfilt");
TString prodP08iedAu("DbV20090213 P2008 ITTF OSpaceZ2 OGridLeak3D beamLine VFMCE TpxClu -VFMinuit -hitfilt");
TString prodP10iapp("DbV20091001 pp2009c TpcRS ITTF OSpaceZ2 OGridLeak3D beamLine, VFMCE TpcRS -VFMinuit -hitfilt");
TString geomP08ic("ry2008");
TString chain1Opt("in,magF,tpcDb,NoDefault,TpxRaw,-ittf,NoOutput");
// TString chain2Opt("NoInput,PrepEmbed,gen_T,geomT,sim_T,TpcRS,-ittf,-tpc_daq,nodefault");
TString chain2Opt("NoInput,PrepEmbed,gen_T,geomT,sim_T,ftpcT,trs,fss,-ittf,-tpc_daq,nodefault");
chain2Opt += " ";
chain2Opt += geomP08ic;
TString chain3Opt("");
if (prodName == "P08icpp") {
chain3Opt = prodP08icpp;
}
else if (prodName == "P08iepp") {
chain3Opt = prodP08iepp;
}
else if (prodName == "P08icAuAu9") {
chain3Opt = prodP08icAuAu9;
}
else if (prodName == "P08icdAu") {
chain3Opt = prodP08icdAu;
}
else if (prodName == "P08iedAu") {
chain3Opt = prodP08iedAu;
}
else if (prodName == "P08icAuAu200") {
chain3Opt = prodP08icAuAu200;
}
else if (prodName == "P10iapp") {
chain3opt = prodP10iapp;
}
else {
cout << "Choice prodName does not correspond to known chain. Processing impossible. " << endl;
return;
}
chain3Opt += ",Embedding,TpcMixer,GeantOut,MiniMcMk,McAna,-in,NoInput,useInTracker";
chain3Opt += ",";
chain3Opt += geomP08ic;
// Dynamically link some shared libs
gROOT->LoadMacro("bfc.C");
if (gClassTable->GetID("StBFChain") < 0) Load();
//______________Create the main chain object______________________________________
Chain = new StChain("Embedding");
//________________________________________________________________________________
bfc(-1,chain1Opt,daqfile);
chain1 = chain;
chain1->SetName("One");
Chain->cd();
//________________________________________________________________________________
bfc(-1,chain2Opt);
chain2 = chain;
chain2->SetName("Two");
Chain->cd();
#if 1
if (chain2->GetOption("TRS")) {
StTrsMaker *trsMk = (StTrsMaker *) chain2->GetMaker("Trs");
if (! trsMk) {
cout << "Cannot find Trs in chain2" << endl;
return;
}
trsMk->setNormalFactor(1.32);
trsMk->SetMode(0);
}
#endif
//________________________________________________________________________________
gSystem->Load("StFtpcMixerMaker");
StFtpcMixerMaker *ftpcmixer = new StFtpcMixerMaker("FtpcMixer","daq","fss");
ftpcmixer->SetInput("Input1","StDAQReader");
ftpcmixer->SetInput("Input2","Event");
//________________________________________________________________________________
TString OutputFileName(gSystem->BaseName(daqfile));
OutputFileName.ReplaceAll("*","");
OutputFileName.ReplaceAll(".daq","");
// OutputFileName.Append("_emb.root");
OutputFileName.Append(".root");
bfc(-1,chain3Opt,0,OutputFileName);
chain3 = chain;
chain3->SetName("Three");
Chain->cd();
//________________________________________________________________________________
StTpcMixerMaker *mixer = (StTpcMixerMaker *) chain3->Maker("TpcMixer");
if( prodName == "P08icAuAu200")
{
mixer->SetInput("Input1","MixerEvent");
}
else
{
mixer->SetInput("Input1","TpxRaw/.data/Event");
}
mixer->SetInput("Input2","Trs/.const/Event");
Chain->cd();
#if 0
//............. begin of EMC embedding makers................
//.............. Add BEmc stuff here ....................
gSystem->Load("StEmcSimulatorMaker");
gSystem->Load("StEmcMixerMaker");
gSystem->Load("StEEmcSimulatorMaker");
StMcEventMaker* mcEventMaker = new StMcEventMaker();
StEmcSimulatorMaker *bemcSim = new StEmcSimulatorMaker();
StEmcMixerMaker *bemcMixer = new StEmcMixerMaker();
chain3->AddAfter("emcRaw",bemcMixer);
chain3->AddAfter("emcRaw",bemcSim);
chain3->AddAfter("emcRaw",mcEventMaker);
bemcMixer->SetDebug(0); // set it to 1 for more printouts
// note, Barrel slow sim is always ON, said Adam
//........... Add EEmc Stuff ( Simu, and Mixer) here ..............
StEEmcFastMaker *eemcFastSim = new StEEmcFastMaker();
StEEmcMixerMaker *eemcMixer = new StEEmcMixerMaker();
/* position B+E EMC makers in the chain
(order is reverse because 'After' is used - looks funny but is right)
*/
chain3->AddAfter("emcRaw",eemcMixer);
chain3->AddAfter("emcRaw",eemcFastSim);
eemcFastSim->SetEmbeddingMode();
// eemcFastSim->SetDebug();
// eemcMixer->SetDebug();
bool useEndcapSlowSim = true;
if(useEndcapSlowSim) { // turn Endcap slow simu On/Off
StEEmcSlowMaker *slowSim=new StEEmcSlowMaker();
chain3->AddAfter("EEmcFastSim",slowSim);
slowSim->setEmbeddingMode();
}
#endif
//________________________________________________________________________________
{
TDatime t;
gMessMgr->QAInfo() << Form("Run is started at Date/Time %i/%i",t.GetDate(),t.GetTime()) << endm;
}
gMessMgr->QAInfo() << Form("Run on %s in %s",gSystem->HostName(),gSystem->WorkingDirectory()) << endm;
gMessMgr->QAInfo() << Form("with %s", Chain->GetCVS()) << endm;
// embedded particle set
StPrepEmbedMaker *embMk = (StPrepEmbedMaker *) Chain->Maker("PrepEmbed");
if (! embMk) return;
cout << "bfcMixer: Setting PID: "<<pid<<endl;
embMk->SetTagFile(tagfile);
// pTlow,ptHigh,etaLow,etaHigh,phiLow,phiHigh
embMk->SetOpt( pt_low, pt_high, eta_low, eta_high, 0., 6.283185, type);
// pid, mult
embMk->SetPartOpt( pid,mult);
// Default is no event selections
embMk->SetSkipMode(kTRUE);
// Make trigger and z-vertex cuts (only if SkipMode is true)
// Trigger cut
// Can put multiple trigger id's
if ( !triggers.empty() ) {
for(std::vector<Int_t>::iterator iter = triggers.begin(); iter != triggers.end(); iter++) {
embMk->SetTrgOpt((*iter)) ;
}
}
// z-vertex cuts
embMk->SetZVertexCut(vzlow, vzhigh) ;
TAttr::SetDebug(0);
Chain->SetAttr(".Privilege",0,"*" ); //All makers are NOT priviliged
Chain->SetAttr(".Privilege",1,"StBFChain::*" ); //StBFChain is priviliged
Chain->SetAttr(".Privilege",1,"StIOInterFace::*" ); //All IO makers are priviliged
Chain->SetAttr(".Privilege",1,"St_geant_Maker::*"); //It is also IO maker
Chain->SetAttr(".Privilege",1,"StPrepEmbedMaker::*"); //It is also IO maker
// Chain->SetDEBUG(0);
if (Nevents < 0) return;
Int_t iInit = Chain->Init();
if (iInit >= kStEOF) {
Chain->FatalErr(iInit,"on init");
return;
}
StMaker *treeMk = Chain->GetMaker("outputStream");
Chain->EventLoop(Nevents,treeMk);
gMessMgr->QAInfo() << "Run completed " << endm;
gSystem->Exec("date");
}
//_____________________________________________________________________
void bfcMixer_pp2006( Int_t Nevents=10,
Char_t *file1="star/data03/daq/2006/120/7120049/st_physics_adc_7120049_raw_1050001.daq", // probably ppLong 2006 run, NOT for real embedding - just for testing
//Char_t *file1="st_zerobias_7118049_raw_1110001.daq",// contains 127 events, good foor real embedding
// Char_t *file2="eleB.fzd", // one-particle events from Naresh
Char_t *file2="mcpi0_hipt_run140_gid7_1000evts.fzd",
Int_t useEndcapSlowSim=1
// note, Barrel slow sim is always ON, said Adam
){
TString path1="/";
//TString path2="/star/data04/sim/subbanly/electron2006/oneTrack2Keve/fzd/";
TString path2="/star/u/wzhang/links/gc2002/EEmc/embedData/fzd/";
// Dynamically link some shared libs
if (gClassTable->GetID("StBFChain") < 0) Load();
// Create the main chain object
chain = new StBFChain("Embedding");
StMaker *saveMk = 0;
chain->SetFlags("-ittf,NoDefault");
// Create chain1 object
chain1 = new StBFChain("One");
saveMk = chain1->cd();
chain1->SetFlags("in Physics NoDefault -ittf -trg"); //Akio said OK for '-trg'.
chain1->Set_IO_Files(path1+file1);
chain1->Load();
chain1->Instantiate();
saveMk->cd();
// Create chain2 object
chain2 = new StBFChain("Two");
saveMk = chain2->cd();
chain2->SetFlags("fzin gen_T geomT sim_T tpc trs -tcl -tpt -PreVtx -tpc_daq -ittf ");
chain2->Set_IO_Files(path2+file2);
chain2->Load();
chain2->Instantiate();
St_geant_Maker *geantMk = chain2->GetMaker("geant");
if (geantMk) geantMk->SetMode(1); // Mixer mode - do not modify EvtHddr
// do not rescale dEdx in TRS, it leads to wrong cluster formation, from Jamie
saveMk->cd();
// Mixer for TPC
gSystem->Load("StMixerMaker");
StMixerMaker *mixer = new StMixerMaker("Mixer","daq","trs");
chain1->SetInput("Input1","StDAQReader");
chain2->SetInput("Input2","Event");
mixer->writeFile("mixer.trs",Nevents);
// Create chain3 object
chain3 = new StBFChain("Three");
saveMk = chain3->cd();
// options for 2006pp, production=DbV20060915,pp2006b,ITTF,hitfilt
chain3->SetFlags("Simu NoDefault NoInput onlraw -onlcl ry2006,tpc_daq,tpcI,svt_daq,SvtD,Physics,Idst,l0,Tree,evout l3onl fcf emcDY2 fpd trgd ZDCvtx useCDV ITTF tofDat -SvtIT MuDST -trg VFPPVnoCTB beamline GeantOut CMuDst dEdxY2 -EventQA");
// Note, do not freez the DB time stamp or you will not see the latest gains/peds/stat
TString tt1=file1;
TString tt2=file2;
tt1.ReplaceAll(".daq","");
tt2.ReplaceAll(".fzd","");
TString OutputFileName=tt1+"_"+tt2+".root";
cout <<"BFC: Setting file output to: " <<OutputFileName.Data()<<endl;
chain3->Set_IO_Files(0,OutputFileName.Data());
chain3->Load();
chain3->Instantiate();
//............. begin of EMC embedding makers................
//.............. Add BEmc stuff here ....................
StMcEventMaker* mcEventMaker = new StMcEventMaker();
StEmcSimulatorMaker *bemcSim = new StEmcSimulatorMaker();
StEmcMixerMaker *bemcMixer = new StEmcMixerMaker();
chain3->AddAfter("emcRaw",bemcMixer);
chain3->AddAfter("emcRaw",bemcSim);
chain3->AddAfter("emcRaw",mcEventMaker);
bemcMixer->SetDebug(0); // set it to 1 for more printouts
// note, Barrel slow sim is always ON, said Adam
//........... Add EEmc Stuff ( Simu, and Mixer) here ..............
StEEmcFastMaker *eemcFastSim = new StEEmcFastMaker();
StEEmcMixerMaker *eemcMixer = new StEEmcMixerMaker();
/* position B+E EMC makers in the chain
(order is reverse because 'After' is used - looks funny but is right)
*/
chain3->AddAfter("emcRaw",eemcMixer);
chain3->AddAfter("emcRaw",eemcFastSim);
eemcFastSim->SetEmbeddingMode();
// eemcFastSim->SetDebug();
// eemcMixer->SetDebug();
if(useEndcapSlowSim) { // turn Endcap slow simu On/Off
StEEmcSlowMaker *slowSim=new StEEmcSlowMaker();
chain3->AddAfter("EEmcFastSim",slowSim);
slowSim->setEmbeddingMode();
}
//............. end of EMC embedding makers................
St_geant_Maker *geantMk = (St_geant_Maker *) chain->GetMaker("geant");
geantMk->SetActive(kTRUE);
StMaker *tpcdaqMk = chain3->GetMaker("tpc_raw");
if(!tpcdaqMk ) {
cout <<" Error: no tpc daq maker. End. "<<endl;
return;
}
tpcdaqMk->SetMode(1); // Trs
tpcdaqMk->SetInput("Event","MixerEvent");
saveMk->cd(); {
TDatime t;
printf ("QAInfo:Run is started at Date/Time%i/%i\n",t.GetDate(),t.GetTime());
}
printf ("QAInfo:Run on %s in %s\n",
gSystem->HostName(),
gSystem->WorkingDirectory());
printf ("QAInfo: with %s\n", chain->GetCVS());
// Init the chain and all its makers
if (Nevents >= 0) {
Int_t iInit = chain->Init();
chain->ls(5); // list the final chain
}
// chain->SetDEBUG();
treeMk = chain->GetMaker("tree");
TBenchmark evnt;
Int_t iMake = 0, i = 1, iBad = 0;
StIOMaker *inpMk = (StIOMaker *)chain1->GetMaker("inputStream");
Int_t ncols, eventnumber, mult, skip=0, oldskip = 0, skiptest=0;
cout <<"BFC - Entering Event Loop"<<endl;
EventLoop: if (i <= Nevents && iMake != kStEOF && iMake != kStFatal) {
evnt.Reset();
evnt.Start("QAInfo:");
chain->Clear();
iMake = chain->Make(i);
if (treeMk && iMake == kStErr) {treeMk->Make(i); iBad++;}
StEvtHddr *fEvtHddr = (StEvtHddr*)chain->GetDataSet("EvtHddr");
StEvtHddr *fEvtHddrDaq = (StEvtHddr*)chain1->GetDataSet("EvtHddr");
*fEvtHddr = *fEvtHddrDaq;
// gSystem->Exec("ps ux");
evnt.Stop("QAInfo:");
// evnt->Show("QAInfo:");
printf ("QAInfo: Done with Event [no. %d/run %d/evt. %d/Date.Time%d.%d/sta %d] Real Time = %10.2f seconds Cpu Time = %10.2f seconds \n", i,chain->GetRunNumber(),chain->GetEventNumber(),chain->GetDate(), chain->GetTime(),
iMake,evnt.GetRealTime("QAInfo:"),evnt.GetCpuTime("QAInfo:"));
i++;
goto EventLoop;
}
fflush(stdout);
printf ("QAInfo:Run completed ");
gSystem->Exec("date");
}
//
// main function
//
void DoOneProcess(TString InputCfAName, TString ProcessName, float weight) {
//
// Get tree
//
TChain * chainA = new TChain("/configurableAnalysis/eventA");
TChain * chainB = new TChain("/configurableAnalysis/eventB");
chainA->Add(InputCfAName);
chainB->Add(InputCfAName);
InitializeA(chainA);
InitializeB(chainB);
//
// histograms
//
TH1F *h1_result = new TH1F("h1_result","h1_result", 1, 0, 1);
//
// main event loop
//
Int_t nentries = (Int_t)chainA->GetEntries();
cout<<"The number of entries is: "<<nentries<<endl;
// Progress tracking
int i_permille_old = 0;
TDatime DTStart;
int StartDate = DTStart.GetDate();
int StartTime = DTStart.GetTime();
cout << "Start time : " << StartTime << endl;
for(int i = 0; i<nentries; i++) {
// Progress tracking begin --------------------------------
int i_permille = (int)floor(1000 * i / float(nentries));
TDatime DTCurrent;
int CurrentDate = DTCurrent.GetDate();
int CurrentTime = DTCurrent.GetTime();
int TimeLaps = (CurrentDate-StartDate)*1000000+(CurrentTime-StartTime);
int TimeToRun = (float)nentries/(float)i*TimeLaps;
if (i_permille != i_permille_old) {
// xterm magic from L. Vacavant and A. Cerri
if (isatty(1)) {
printf("\015\033[32m Processed :: \033[1m\033[31m%4.1f %%"
"\033[0m\033[32m Expected processing time :: \033[1m\033[31m%i:%i:%i \033[0m\015",
i_permille/10., (TimeToRun/10000)%100<60 ? (TimeToRun/10000)%100 : (TimeToRun/10000)%100-40,
(TimeToRun/100)%100<60 ? (TimeToRun/100)%100 : (TimeToRun/100)%100-40,
(TimeToRun%100)<60 ? (TimeToRun)%100 : (TimeToRun)%100-40 );
fflush(stdout);
}
i_permille_old = i_permille;
}
// Progress tracking end ----------------------------------
// get an entry of an event
chainA->GetEntry(i);
chainB->GetEntry(i);
//
// Core analysis
//
// Getting good muons
vector<int> RA4MuonVeto; RA4MuonVeto.clear();
vector<int> RA4Muon = GetRA4Muon(RA4MuonVeto);
// Getting good electrons
vector<int> RA4ElecVeto; RA4ElecVeto.clear();
vector<int> RA4Elec = GetRA4Elec(RA4ElecVeto, "", 0, true);
// Containers for B-tagged jets
vector<int> LooseBJet;
vector<int> MediumBJet;
// HT
double HT=-999.;
// MJ
vector<float> Vector_mj; // mj
double MJ=-999.;
// Getting good skinny jets
vector<int> GoodJets_AK5PFclean = GetJets(RA4Muon,RA4Elec,RA4MuonVeto,RA4ElecVeto,
HT,LooseBJet,MediumBJet,
2.4, 30, 0.3);
for(int i=0; i<GoodJets_AK5PFclean.size(); i++) cout << event << " :: " << GoodJets_AK5PFclean.at(i) << endl;
h1_result->Fill(0.5);
/*
// variables
vector<float> Vector_mj; // mj
float MJ=0;
int Nfastjets=0;
for(int ifastjet=0; ifastjet<(int)fastjets_AK5PF_px_->size(); ifastjet++) {
// Number of jets
float pT = TMath::Sqrt( fastjets_AK5PF_px_->at(ifastjet)*fastjets_AK5PF_px_->at(ifastjet)
+fastjets_AK5PF_py_->at(ifastjet)*fastjets_AK5PF_py_->at(ifastjet));
float temp_mj = Getmj(fastjets_AK5PF_px_->at(ifastjet), fastjets_AK5PF_py_->at(ifastjet),
fastjets_AK5PF_pz_->at(ifastjet), fastjets_AK5PF_energy_->at(ifastjet));
Vector_mj.push_back(temp_mj);
if(Npv_ > 25) {
h1_mj_fastjets_Npv26toInf->Fill(temp_mj);
} else if(Npv_>15) {
h1_mj_fastjets_Npv16to25->Fill(temp_mj);
} else {
h1_mj_fastjets_Npv0to15->Fill(temp_mj);
}
Nfastjets++;
}
// Get MJ
MJ = GetMJ(Vector_mj);
// fill histogram for MJ and Njets
if(Npv_ > 25) {
h1_njets_fastjets_Npv26toInf->Fill( TMath::Min((Float_t)Nfastjets,(Float_t)29.499) );
h1_MJ_fastjets_Npv26toInf->Fill(MJ);
} else if(Npv_>15) {
h1_njets_fastjets_Npv16to25->Fill( TMath::Min((Float_t)Nfastjets,(Float_t)29.499) );
h1_MJ_fastjets_Npv16to25->Fill(MJ);
} else {
h1_njets_fastjets_Npv0to15->Fill( TMath::Min((Float_t)Nfastjets,(Float_t)29.499) );
h1_MJ_fastjets_Npv0to15->Fill(MJ);
}
*/
} // event loop
cout << endl;
cout << "... Looping events done" << endl;
//
// Write the result
//
TString ResultFileName = ProcessName+".root";
//TString ResultFileName = InputCfAName;
//ResultFileName.ReplaceAll(".root", "");
//ResultFileName.ReplaceAll("/", "_");
//ResultFileName = "Result_"+ResultFileName+".root";
//ResultFileName.ReplaceAll("__", "_");
cout << "Writing " << ResultFileName << endl;
TFile *ResultFile = new TFile(ResultFileName, "RECREATE");
gROOT->cd();
ResultFile->cd();
h1_result->SetDirectory(0); h1_result->Write();
ResultFile->Close();
TDatime DTEnd;
int EndTime = DTEnd.GetTime();
cout << "End time : " << EndTime << endl;
// cleanup
delete chainA;
delete chainB;
delete ResultFile;
}
//gStyle->SetTitleFontSize(0.2);
//gStyle->SetTitleSize(0.8,"t");
gStyle->SetTitleH(0.22);
gStyle->SetTitleW(0.4);
gStyle->SetTitleX(0.25);
gStyle->SetTitleY(1.020);
gStyle->SetPadLeftMargin(0.2);
gStyle->SetPadRightMargin(0.15);
gStyle->SetPadTopMargin(0.18);
gStyle->SetPadBottomMargin(0.2);
//gStyle->SetLabelOffset(0.025,"Y");
//gStyle->SetStripDecimals(kFALSE);
Int_t nn=20;
TDatime tt;
Int_t time=tt.GetTime();
Double_t xx[nn],yy[nn],ex[nn],ey[nn];
for(Int_t i=0;i<nn;i++){
xx[i]=10000.+i*10;
yy[i]=time+i*60;
//yy[i]=i*60;
ex[i]=xx[i]/10.;
ey[i]=0;
}
Int_t ncd=1, i=1;
Int_t NCD=7;
TGraphErrors *f1= new TGraphErrors(nn,xx,yy,ex,ey);
f1->GetXaxis()->SetLabelSize(0.1);
f1->GetYaxis()->SetLabelSize(0.1);
f1->GetXaxis()->SetNdivisions(401,kFALSE);
f1->GetYaxis()->SetNdivisions(-410,kFALSE);
//_____________________________________________________________________
void bfcMixer_TpcSvtSsd(const Int_t Nevents=500,Int_t isSvtIn=1, Int_t isSsdIn=1,
const Char_t *daqfile="/star/rcf/test/daq/2007/113/8113044/st_physics_8113044_raw_1040042.daq",
const Char_t *tagfile="/star/rcf/test/embedding/2007ProductionMinBias/FullField/P08if/2007/113/8113044/st_physics_8113044_raw_1040042.tags.root",
const Double_t pt_low=0.1,
const Double_t pt_high=5.0,
const Double_t eta_low=-1.1,
const Double_t eta_high=1.1,
const Double_t vzlow=-175.0,
const Double_t vzhigh=175.0,
const Int_t pid=8,
const Double_t mult = 100.,
const std::vector<Int_t> triggers = 0,
const Char_t* prodName = "P08icAuAu",
const Char_t* mode="flatpt"
) {
// Separate DB timestamp to add it in both chain1 and chain3
TString DbVP06idpp("DbV20060729 ");
TString DbVP07icCuCu("DbV20070518 ");
TString DbVP08icAuAu("DbV20080418 ");
// production chains for P06id - p+p 200 GeV (Run6)
TString prodP06idpp("pp2006b ITTF OSpaceZ2 OGridLeak3D VFMCE -VFPPVnoCTB -hitfilt");
// production chain for P07ib
// TString prodP07ib("P2005b DbV20070518 MakeEvent ITTF Iana ToF spt SsdIt SvtIt pmdRaw SCEbyE OGridLeak OShortR OSpaceZ2 ssd_daq");// KeepSvtHit hitfilt skip1row");
// production chain for P07ic - Cu+Cu 200 GeV (Run5)
TString prodP07icCuCu("P2005b DbV20070518 MakeEvent ITTF ToF ssddat spt SsdIt SvtIt pmdRaw OGridLeak OShortR OSpaceZ2 KeepSvtHit skip1row VFMCE -VFMinuit -hitfilt");
// production chain for P08if
// TString prodP08if("B2007g DbV20080418 adcOnly MakeEvent ITTF Iana ToF spt SsdIt SvtIt pmdRaw SCEbyE OShortR trgd Corr5 OSpaceZ2 ssd_daq KeepSvtHit -hitfilt VFMCE");// KeepSvtHit hitfilt skip1row");
// Production chain for P08ic Au+Au 200 GeV (Run7)
TString prodP08icAuAu("B2007g ITTF adcOnly IAna KeepSvtHit VFMCE -hitfilt l3onl emcDY2 fpd ftpc trgd ZDCvtx svtIT ssdIT Corr5 -dstout");
TString geomP06id("ry2006");
TString geomP07ic("ry2005f");
TString geomP08ic("ry2007g");
// TString chain1Opt("in magF tpcDb adcOnly NoDefault -ittf NoOutput");
TString chain1Opt("in magF tpcDb NoDefault -ittf NoOutput");
TString chain2Opt("NoInput PrepEmbed gen_T geomT sim_T trs -ittf -tpc_daq nodefault");
TString chain3Opt("");
if( prodName == "P06idpp") {
chain1Opt.Prepend(DbVP06idpp);
chain2Opt += " "; chain2Opt += geomP06id;
chain3Opt = prodP06idpp ;
}
else if( prodName == "P07ic" ){
chain1Opt.Prepend(DbVP07icCuCu);
chain2Opt += " "; chain2Opt += geomP07ic;
chain3Opt = prodP07icCuCu;
}
else if ( prodName == "P08icAuAu" ){
chain1Opt.Prepend(DbVP08icAuAu);
chain2Opt += " "; chain2Opt += geomP08ic;
chain3Opt = prodP08icAuAu ;
}
else{
cout << "Choice prodName does not correspond to known chain. Processing impossible. " << endl;
return;
}
// chain3Opt += " Embedding onlraw GeantOut MiniMcMk McAna IdTruth -in NoInput,useInTracker EmbeddingShortCut";
// chain3Opt += " Embedding onlraw McEvent McEvOut GeantOut MiniMcMk McAna IdTruth -in NoInput,useInTracker -hitfilt EmbeddingShortCut";
chain3Opt += " TpcMixer Embedding onlraw McEvent McEvOut GeantOut MiniMcMk McAna IdTruth -in NoInput,useInTracker -hitfilt -TrsPileUp -TrsToF";
// chain3Opt += " Embedding onlraw McEvent McEvOut GeantOut IdTruth -in NoInput -hitfilt EmbeddingShortCut";
if (isSvtIn) chain3Opt += " SvtEmbed";
if (isSsdIn) {
chain1Opt += ",ssddat";
chain2Opt += ",ssd,McEvent,-spt";
chain3Opt += ",SsdEmbed";
}
if( prodName == "P06idpp") {
chain3Opt.Prepend(DbVP06idpp);
chain3Opt += " "; chain3Opt += geomP06id;
}
else if( prodName == "P07ic" ){
chain3Opt.Prepend(DbVP07icCuCu);
chain3Opt += " "; chain3Opt += geomP07ic;
}
else if ( prodName == "P08icAuAu" ){
chain3Opt.Prepend(DbVP08icAuAu);
chain3Opt += " "; chain3Opt += geomP08ic;
}
else{
cout << "Choice prodName does not correspond to known chain. Processing impossible. " << endl;
return;
}
// Dynamically link some shared libs
gROOT->LoadMacro("bfc.C");
if (gClassTable->GetID("StBFChain") < 0) Load();
//______________Create the main chain object______________________________________
Chain = new StChain("Embedding");
//________________________________________________________________________________
bfc(-1,chain1Opt,daqfile);
chain1 = chain;
chain1->SetName("One");
Chain->cd();
//________________________________________________________________________________
bfc(-1,chain2Opt);
chain2 = chain;
chain2->SetName("Two");
Chain->cd();
if (chain2->GetOption("TRS")){
StTrsMaker *trsMk = (StTrsMaker *) chain2->GetMaker("Trs");
if (! trsMk) {
cout << "Cannot find Trs in chain2" << endl;
return;
}
trsMk->setNormalFactor(1.05);
trsMk->SetMode(0);
}
//________________________________________________________________________________
// gSystem->Load("StFtpcMixerMaker");
// StFtpcMixerMaker *ftpcmixer = new StFtpcMixerMaker("FtpcMixer","daq","trs");
//________________________________________________________________________________
TString OutputFileName(gSystem->BaseName(daqfile));
OutputFileName.ReplaceAll("*","");
OutputFileName.ReplaceAll(".daq","");
// OutputFileName.Append("_emb.root");
OutputFileName.Append(".root");
bfc(-1,chain3Opt,0,OutputFileName);
chain3 = chain;
chain3->SetName("Three");
Chain->cd();
Chain->cd();
//________________________________________________________________________________
{
TDatime t;
gMessMgr->QAInfo() << Form("Run is started at Date/Time %i/%i",t.GetDate(),t.GetTime()) << endm;
}
gMessMgr->QAInfo() << Form("Run on %s in %s",gSystem->HostName(),gSystem->WorkingDirectory()) << endm;
gMessMgr->QAInfo() << Form("with %s", Chain->GetCVS()) << endm;
// embedded particle set
StPrepEmbedMaker *embMk = (StPrepEmbedMaker *) Chain->Maker("PrepEmbed");
if (! embMk) return;
embMk->SetTagFile(tagfile);
// pTlow,ptHigh,etaLow,etaHigh,phiLow,phiHigh
embMk->SetOpt( pt_low, pt_high, eta_low, eta_high, 0., 6.283185, mode);
// pid, mult
embMk->SetPartOpt( pid,mult);
// Set Skip mode (default is OFF)
embMk->SetSkipMode(kFALSE) ;
// Make trigger and z-vertex cuts (only if SkipMode is true)
// Trigger cut
// Can put multiple trigger id's
if ( !triggers.empty() ){
for(std::vector<Int_t>::iterator iter = triggers.begin(); iter != triggers.end(); iter++){
embMk->SetTrgOpt((*iter)) ;
}
}
// z-vertex cuts
embMk->SetZVertexCut(vzlow, vzhigh) ;
TAttr::SetDebug(0);
Chain->SetAttr(".Privilege",0,"*" ); //All makers are NOT priviliged
Chain->SetAttr(".Privilege",1,"StBFChain::*" ); //StBFChain is priviliged
Chain->SetAttr(".Privilege",1,"StIOInterFace::*" ); //All IO makers are priviliged
Chain->SetAttr(".Privilege",1,"St_geant_Maker::*"); //It is also IO maker
Chain->SetAttr(".Privilege",1,"StPrepEmbedMaker::*"); //It is also IO maker
StMaker *SsdEmbed = Chain->Maker("SsdEmbed");
if (SsdEmbed) {
cout << "SsdEmbed has been found ----------------------------------------" << endl;
SsdEmbed->SetInput("SsdRealData","One/.make/SpaStrip/.data/spa_strip");
SsdEmbed->SetInput("SsdSimuData","Two/.make/SpaStrip/.data/spa_strip");
StMaker *SsdPoint = Chain->Maker("SsdPoint");
if (SsdPoint) {
cout << "SsdPoint has been found----------------------------------------" << endl;
SsdPoint->SetInput("SpaStrip","SsdEmbed");
}
}
// Chain->SetDEBUG(0);
if (Nevents < 0) return;
Int_t iInit = Chain->Init();
if (iInit >= kStEOF) {Chain->FatalErr(iInit,"on init"); return;}
StMaker *treeMk = Chain->GetMaker("outputStream");
Chain->EventLoop(Nevents,treeMk);
gMessMgr->QAInfo() << "Run completed " << endm;
gSystem->Exec("date");
}
//_____________________________________________________________________
void bfcMixer_TpcSvtSsd2005(const Int_t Nevents=100,Int_t isSvtIn=1, Int_t isSsdIn=1,
const Char_t *daqfile="/star/rcf/test/daq/2005/051/st_physics_adc_6051006_raw_1050001.daq",
const Char_t *tagfile="/star/rcf/test/embedding/cuProductionMinBias/FullField/P07ic/2005/051/st_physics_adc_6051006_raw_1050001.tags.root",
const Double_t pt_low=0.1,
const Double_t pt_high=5.0,
const Double_t eta_low=-1.0,
const Double_t eta_high=1.0,
const Int_t pid=9,
const Double_t mult = 0.1) {
// production chain for P07ib
TString prodP07ib("P2005b DbV20070518 MakeEvent ITTF Iana ToF spt SsdIt SvtIt pmdRaw SCEbyE OGridLeak OShortR OSpaceZ2 ssd_daq");// KeepSvtHit hitfilt skip1row");
TString geomP07ib("ry2005f");
TString chain1Opt("in magF tpcDb NoDefault -ittf NoOutput");
TString chain2Opt("NoInput PrepEmbed gen_T geomT sim_T trs -ittf -tpc_daq nodefault");
chain2Opt += " "; chain2Opt += geomP07ib;
TString chain3Opt = prodP07ib;
chain3Opt += " TpcMixer Embedding onlraw GeantOut MiniMcMk McAna IdTruth -in NoInput,useInTracker EmbeddingShortCut";
if (isSvtIn) chain3Opt += " SvtEmbed";
if (isSsdIn) {
chain1Opt += ",ssddat";
chain2Opt += ",ssd,McEvent,-spt";
chain3Opt += ",SsdEmbed";
}
chain3Opt += " "; chain3Opt += geomP07ib;
// Dynamically link some shared libs
gROOT->LoadMacro("bfc.C");
if (gClassTable->GetID("StBFChain") < 0) Load();
//______________Create the main chain object______________________________________
Chain = new StChain("Embedding");
//________________________________________________________________________________
bfc(-1,chain1Opt,daqfile);
chain1 = chain;
chain1->SetName("One");
Chain->cd();
//________________________________________________________________________________
bfc(-1,chain2Opt);
chain2 = chain;
chain2->SetName("Two");
Chain->cd();
if (chain2->GetOption("TRS")){
StTrsMaker *trsMk = (StTrsMaker *) chain2->GetMaker("Trs");
if (! trsMk) {
cout << "Cannot find Trs in chain2" << endl;
return;
}
trsMk->setNormalFactor(2.67);
}
//________________________________________________________________________________
// gSystem->Load("StFtpcMixerMaker");
// StFtpcMixerMaker *ftpcmixer = new StFtpcMixerMaker("FtpcMixer","daq","trs");
//________________________________________________________________________________
TString OutputFileName(gSystem->BaseName(daqfile));
OutputFileName.ReplaceAll("*","");
OutputFileName.ReplaceAll(".daq","");
// OutputFileName.Append("_emb.root");
OutputFileName.Append(".root");
bfc(-1,chain3Opt,0,OutputFileName);
chain3 = chain;
chain3->SetName("Three");
Chain->cd();
Chain->cd();
//________________________________________________________________________________
{
TDatime t;
gMessMgr->QAInfo() << Form("Run is started at Date/Time %i/%i",t.GetDate(),t.GetTime()) << endm;
}
gMessMgr->QAInfo() << Form("Run on %s in %s",gSystem->HostName(),gSystem->WorkingDirectory()) << endm;
gMessMgr->QAInfo() << Form("with %s", Chain->GetCVS()) << endm;
// embedded particle set
StPrepEmbedMaker *embMk = (StPrepEmbedMaker *) Chain->Maker("PrepEmbed");
if (! embMk) return;
embMk->SetTagFile(tagfile);
// pTlow,ptHigh,etaLow,etaHigh,phiLow,phiHigh
embMk->SetOpt( pt_low, pt_high, eta_low, eta_high, 0., 6.283185);
// pid, mult
embMk->SetPartOpt( pid,mult);
TAttr::SetDebug(0);
Chain->SetAttr(".Privilege",0,"*" ); //All makers are NOT priviliged
Chain->SetAttr(".Privilege",1,"StBFChain::*" ); //StBFChain is priviliged
Chain->SetAttr(".Privilege",1,"StIOInterFace::*" ); //All IO makers are priviliged
Chain->SetAttr(".Privilege",1,"St_geant_Maker::*"); //It is also IO maker
Chain->SetAttr(".Privilege",1,"StPrepEmbedMaker::*"); //It is also IO maker
StMaker *SsdEmbed = Chain->Maker("SsdEmbed");
if (SsdEmbed) {
cout << "SsdEmbed has been found ----------------------------------------" << endl;
SsdEmbed->SetInput("SsdRealData","One/.make/SpaStrip/.data/spa_strip");
SsdEmbed->SetInput("SsdSimuData","Two/.make/SpaStrip/.data/spa_strip");
StMaker *SsdPoint = Chain->Maker("SsdPoint");
if (SsdPoint) {
cout << "SsdPoint has been found----------------------------------------" << endl;
SsdPoint->SetInput("SpaStrip","SsdEmbed");
}
}
// Chain->SetDEBUG(0);
if (Nevents < 0) return;
Int_t iInit = Chain->Init();
if (iInit >= kStEOF) {Chain->FatalErr(iInit,"on init"); return;}
StMaker *treeMk = Chain->GetMaker("outputStream");
Chain->EventLoop(Nevents,treeMk);
gMessMgr->QAInfo() << "Run completed " << endm;
gSystem->Exec("date");
}
bool Exact_comparator::root_file_cmp (char *fn1, char *fn2)
{
TFile f1(fn1), f2(fn2);
TIter next_1(f1.GetListOfKeys()),
next_2(f2.GetListOfKeys());
TKey *k_1, *k_2;
bool is_equal = true;
char *obj_buf_1 = NULL, *obj_buf_2 = NULL;
while (true) {
k_1=(TKey*)next_1();
k_2=(TKey*)next_2();
// If there is no more keys
if(!k_1 && !k_2) {
break;
}
// If the size of two lists are not equal
// then two root files are not equal
if((k_1 && !k_2) || (!k_1 && k_2)) {
is_equal = false;
break;
}
if (!logic_compare(k_1, k_2)) {
is_equal = false;
break;
}
// compare buffer byte by byte
Int_t obj_len = k_1->GetObjlen();
obj_buf_1 = read_obj_buf(&f1, k_1, obj_len);
obj_buf_2 = read_obj_buf(&f2, k_2, obj_len);
if (!cmp_obj_buf(obj_buf_1, obj_buf_2, obj_len)) {
is_equal = false;
break;
}
// compare the timestamp of two object
const TDatime time_1 = k_1->GetDatime(),
time_2 = k_2->GetDatime();
if((time_1.GetDate() != time_2.GetDate())
|| (time_1.GetTime() != time_2.GetTime())) {
is_equal = false;
break;
}
}
if(obj_buf_1 != NULL) {
delete obj_buf_1;
}
if(obj_buf_2 != NULL) {
delete obj_buf_2;
}
return is_equal;
}
//_____________________________________________________________________
void bfcZ(const Int_t First,
const Int_t Last,
const Char_t *Chain="gstar Cy2b tfs -NoHits TpcHitFilter",
const Char_t *infile=0,
const Double_t zmin=-200, const Double_t zmax=-100,
const Char_t *outfile=0,
const Char_t *TreeFile=0){
gROOT->LoadMacro("bfc.C");
bfc(-1,Chain,infile,outfile,TreeFile);
if (chain->GetOption("TpcHitFilter")) {
StTpcHitFilterMaker *filtMk = (StTpcHitFilterMaker *) chain->GetMaker("tpc_hit_filter");
if (filtMk) {
// St_tcl_Maker *tclMk= (St_tcl_Maker *) chain->GetMaker("tpc_hits");
if (zmin < 0 && zmax < 0) filtMk->WestOff();
if (zmin > 0 && zmax > 0) filtMk->EastOff();
filtMk->SetZrange(zmin,zmax);
}
}
{
TDatime t;
printf ("QAInfo:Run is started at Date/Time %i/%i\n",t.GetDate(),t.GetTime());
printf ("QAInfo:Run on %s in %s\n",
gSystem->HostName(),
gSystem->WorkingDirectory());
printf ("QAInfo: with %s\n", chain->GetCVS());
}
// Init the chain and all its makers
Int_t iTotal = 0, iBad = 0;
St_XDFFile *xdf_out = 0;
TBenchmark evnt;
Int_t iMake = 0, i = First;
if (Last >= 0) {
Int_t iInit = chain->Init();
if (iInit >= kStEOF) {
chain->Fatal(iInit,"on init");
goto END;
}
StEvtHddr *hd = (StEvtHddr*)chain->GetDataSet("EvtHddr");
if (hd) hd->SetRunNumber(-2); // to be sure that InitRun calls at least once
// skip if any
if (First > 1) {
if (chain->GetOption("fzin")) {
geant = (St_geant_Maker *) chain->GetMaker("geant");
if (geant) {
if (geant->IsActive()) geant->Skip(First-1);
}
}
else {
StIOMaker *inpMk = (StIOMaker *) chain->GetMaker("inputStream");
if (inpMk) {printf ("Skip %i Events\n",First-1);inpMk->Skip(First-1);}
}
}
}
xdf_out = chain->GetXdfOut();
if (chain->GetOption("Event")) evMk = (StEventMaker *) chain->GetMaker("StEventMaker");
treeMk = chain->GetMaker("OutputStream");
EventLoop: if (i <= Last && iMake != kStEOF && iMake != kStFatal) {
evnt.Reset();
evnt.Start("QAInfo:");
chain->Clear();
iMake = chain->Make(i);
if (iMake <kStEOF) {
if (xdf_out){
St_DataSet *dstSet = chain->GetInputDS("dst");
if (dstSet) xdf_out->NextEventPut(dstSet); // xdf output
}
iTotal++;
if (treeMk && iMake == kStErr) {treeMk->Make(i); iBad++;}
// gSystem->Exec("ps ux");
evnt.Stop("QAInfo:");
// evnt.Show("QAInfo:");
printf ("QAInfo: Done with Event [no. %d/run %d/evt. %d/Date.Time %d.%d/sta %d] Real Time = %10.2f seconds Cpu Time = %10.2f seconds \n",
i,chain->GetRunNumber(),chain->GetEventNumber(),chain->GetDate(), chain->GetTime(),
iMake,evnt.GetRealTime("QAInfo:"),evnt.GetCpuTime("QAInfo:"));
}
i++; goto EventLoop;
}
END:
fflush(stdout);
printf ("QAInfo:Run completed ");
gSystem->Exec("date");
if (evMk) Event = (StEvent *) chain->GetInputDS("StEvent");
{
TDatime t;
printf ("\nQAInfo:Run is finished at Date/Time %i/%i; Total events processed :%i and not completed: %i\n",
t.GetDate(),t.GetTime(),iTotal,iBad);
}
}
void fitPtOverMCJLST(int mass = 125, int LHCsqrts = 7, int whichtype = 1,
bool correctErrors = false, /* string changeParName = "", */
bool showErrorPDFs = false, string systString = "Default")
// whichtype
// 0 - gg Signal
// 1 - VBF Signal
// 2 - ZZ
// 3 - ZX
// 4 - ggZZ
// 5 - WH
// 6 - ZH
// 7 - ttH
{
string changeParName = "";
if (systString == "Default") changeParName = "up";
string nameSample[8] = {"gg","vbf","zz","zx","ggzz","wh","zh","tth"};
float maxType[8] = {2.4,3.2,1.6,1.6,1.6,3.2,3.2,3.2};
float rebinType[8] = {1,2,1,1,4,10,10,40};
for (int t = 0; t < 8; t++) {
if (mass > 150) maxType[t] = int(117.90*maxType[t]/sqrt(mass-10.91))/10.;
}
char fileToOpen[200];
sprintf(fileToOpen,"selRootFiles/PToverM_%s%d_SEL_%dTeV.root",nameSample[whichtype].c_str(),mass,LHCsqrts);
// if (whichtype == 3) sprintf(fileToOpen,"PTOVERM_%s_SEL_allTeV.root",nameSample[whichtype].c_str());
RooRealVar* ptoverm = new RooRealVar("ptoverm","p_{T}/M^{4l}",0.,maxType[whichtype],"GeV/c");
TFile input(fileToOpen);
// if (systString == "Mass" || systString == "Mela") {
// sprintf(fileToOpen,"ptovermH_%sUp",systString.c_str());
// } else {
sprintf(fileToOpen,"ptovermH_%s",systString.c_str());
//}
TH1F* ptovermH = (TH1F*)input.Get(fileToOpen);
if (rebinType[whichtype] > 1) ptovermH->Rebin(rebinType[whichtype]);
if (maxType[whichtype] < ptovermH->GetBinLowEdge(ptovermH->GetNbinsX() + 1) - ptovermH->GetBinWidth(1)) {
int theBin = ptovermH->FindBin(maxType[whichtype]);
ptovermH->GetXaxis()->SetRange(1,theBin-1);
}
gROOT->ProcessLine(".L mytdrstyle.C");
gROOT->ProcessLine("setTDRStyle()");
// cout << endl << "Signal " << endl;
ptoverm->setBins(ptovermH->GetNbinsX());
RooDataHist* rdh = new RooDataHist("rdh","Some dataset",RooArgList(*ptoverm),Import(*ptovermH,kFALSE));
// fit definitions
// RooWorkspace *ws = new RooWorkspace("ws");
RooRealVar m("m","emme", 1.,0.01, 40.);
RooRealVar n("n","enne", 0.93, 0.05, 15.);
RooRealVar n2("n2","enne2", 0.75, 0.5, 15.);
RooRealVar bb("bb","bibi",0.02, 0.000005, 20.0);
RooRealVar T("T","tti",0.2,0.00000005,1.);
RooRealVar bb2("bb2","bibi2",0.02, 0.0005, 10.0);
RooRealVar fexp("fexp","f_exp",0.02, 0.0, 1.0);
if (whichtype == 0) {
if (LHCsqrts == 8) {
m.setVal(3.319); // m.setConstant(kTRUE);
n.setVal(0.7606); if (systString != "Default" || mass != 125) n.setConstant(kTRUE);
n2.setVal(0.8061); n2.setConstant(kTRUE);
bb.setVal(3.728); // bb.setConstant(kTRUE);
T.setVal(0.00333); // T.setConstant(kTRUE);
bb2.setVal(1.7172); // bb2.setConstant(kTRUE);
fexp.setVal(0.002144); if (systString != "Default" || mass != 125) fexp.setConstant(kTRUE);
} else {
m.setVal(0.061); // m.setConstant(kTRUE);
n.setVal(1.6141); if (systString == "Resummation" || systString == "TopMass") n.setConstant(kTRUE);
n2.setVal(1.3294); n2.setConstant(kTRUE);
bb.setVal(4.2761); // bb.setConstant(kTRUE);
T.setVal(0.0361); // T.setConstant(kTRUE);
bb2.setVal(1.6643); bb2.setConstant(kTRUE);
fexp.setVal(0.0004); // fexp.setConstant(kTRUE);
}
} else if (whichtype == 1) {
m.setVal(1.006); // m.setConstant(kTRUE);
n.setVal(10.939); n.setConstant(kTRUE);
n2.setVal(1.1448); n2.setConstant(kTRUE);
bb.setVal(0.02048); bb.setConstant(kTRUE);
T.setVal(0.16115); if (systString.find("Mela") != string::npos) T.setConstant(kTRUE); // T.setConstant(kTRUE);
bb2.setVal(1.0024); bb2.setConstant(kTRUE);
fexp.setVal(0.005); fexp.setConstant(kTRUE);
if (mass > 300) {
fexp.setVal(0.0); fexp.setConstant(kFALSE);
}
if (mass > 500) {
bb2.setVal(5.0); // bb2.setConstant(kFALSE);
}
if (mass > 500) {
bb.setVal(15.0); // bb.setConstant(kFALSE);
}
} else if (whichtype == 2) {
if (LHCsqrts == 8) {
m.setVal(1.0476); // m.setConstant(kTRUE);
bb.setVal(3.3088); // if (mass != 140) bb.setConstant(kTRUE);
n2.setVal(0.7146); n2.setConstant(kTRUE);
n.setVal(0.9518); n.setConstant(kTRUE);
bb2.setVal(100000.); bb2.setConstant(kTRUE);
T.setVal(0.0021889); if (systString.find("Mela") != string::npos || mass != 140) T.setConstant(kTRUE);
fexp.setVal(0.0); fexp.setConstant(kTRUE);
} else {
m.setVal(1.028); // m.setConstant(kTRUE);
bb.setVal(2.91); // bb.setConstant(kTRUE);
n2.setVal(0.7146); n2.setConstant(kTRUE);
n.setVal(0.9518); n.setConstant(kTRUE);
bb2.setVal(100000.); bb2.setConstant(kTRUE);
T.setVal(0.002248); if (systString.find("Mela") != string::npos) T.setConstant(kTRUE);
fexp.setVal(0.0); fexp.setConstant(kTRUE);
}
} else if (whichtype == 3) {
m.setVal(1.411); // m.setConstant(kTRUE);
n.setVal(3.4523); n.setConstant(kTRUE);
n2.setVal(0.6910); n2.setConstant(kTRUE);
bb.setVal(0.00039); // bb.setConstant(kTRUE);
T.setVal(0.118); // T.setConstant(kTRUE);
bb2.setVal(0.0224); bb2.setConstant(kTRUE);
fexp.setVal(0.0); fexp.setConstant(kTRUE);
} else if (whichtype == 4) {
m.setVal(1.411); // m.setConstant(kTRUE);
n.setVal(5.756); // n.setConstant(kTRUE);
n2.setVal(0.8738); // n2.setConstant(kTRUE);
bb.setVal(0.00039); // bb.setConstant(kTRUE);
T.setVal(0.118); // T.setConstant(kTRUE);
bb2.setVal(0.0224); bb2.setConstant(kTRUE);
fexp.setVal(0.0); fexp.setConstant(kTRUE);
} else if (whichtype == 5 && LHCsqrts == 8) {
m.setVal(1.006); // m.setConstant(kTRUE);
n.setVal(10.939); n.setConstant(kTRUE);
n2.setVal(1.1448); n2.setConstant(kTRUE);
bb.setVal(3.897); bb.setConstant(kTRUE);
T.setVal(0.1009); // T.setConstant(kTRUE);
bb2.setVal(1.0224); bb2.setConstant(kTRUE);
fexp.setVal(0.01); fexp.setConstant(kTRUE);
} else {
// cout << "Entro qui" << endl;
m.setVal(1.006); // m.setConstant(kTRUE);
n.setVal(10.939); n.setConstant(kTRUE);
n2.setVal(1.1448); n2.setConstant(kTRUE);
bb.setVal(0.0129); bb.setConstant(kTRUE);
T.setVal(0.1009); // T.setConstant(kTRUE);
bb2.setVal(1.0224); bb2.setConstant(kTRUE);
fexp.setVal(0.01); fexp.setConstant(kTRUE);
}
RooModifTsallis* rt3 = new RooModifTsallis("rt3","rt3",*ptoverm,m,n,n2,bb,bb2,T,fexp);
// ws->import(*rt3);
// fit
RooFitResult* fit = rt3->fitTo(*rdh,Minos(0),Save(1),SumW2Error(kTRUE),NumCPU(1));
float mVal = m.getVal();
float nVal = n.getVal();
float n2Val = n2.getVal();
float bbVal = bb.getVal();
float bb2Val = bb2.getVal();
float fexpVal = fexp.getVal();
float TVal = T.getVal();
if (correctErrors) {
// Tsallis errors not reliable, use toy MC
TH1F* mHist = new TH1F("mHist","m",21,-0.5*mVal,0.5*mVal);
TH1F* nHist = new TH1F("nHist","n",21,-0.2*nVal,0.2*nVal);
TH1F* n2Hist = new TH1F("n2Hist","n2",21,-0.2*n2Val,0.2*n2Val);
TH1F* bbHist = new TH1F("bbHist","bb",21,-0.2*bbVal,0.2*bbVal);
TH1F* bb2Hist = new TH1F("bb2Hist","bb2",21,-0.2*bb2Val,0.2*bb2Val);
TH1F* fexpHist = new TH1F("fexpHist","fexp",21,-0.2*fexpVal-0.000001,0.2*fexpVal+0.000001);
TH1F* THist = new TH1F("THist","T",21,-0.5*TVal,0.5*TVal);
mHist->GetXaxis()->SetTitle("m-m_{gen}");
nHist->GetXaxis()->SetTitle("n-n_{gen}");
n2Hist->GetXaxis()->SetTitle("n2-n2_{gen}");
bbHist->GetXaxis()->SetTitle("bb-bb_{gen}");
bb2Hist->GetXaxis()->SetTitle("bb2-bb2_{gen}");
THist->GetXaxis()->SetTitle("T-T_{gen}");
fexpHist->GetXaxis()->SetTitle("fexp-fexp_{gen}");
for (unsigned int iToy = 0; iToy < 200; iToy++) {
cout << endl << "####" << endl;
cout << "Generating toy experiment n. " << iToy+1 << endl;
m.setVal(mVal);
n.setVal(nVal);
n2.setVal(n2Val);
bb.setVal(bbVal);
bb2.setVal(bb2Val);
fexp.setVal(fexpVal);
T.setVal(TVal);
TDatime *now = new TDatime();
Int_t seed = now->GetDate() + now->GetTime();
cout << "RooFit Generation Seed = " << seed+iToy << endl;
RooRandom::randomGenerator()->SetSeed(seed+iToy);
cout << "####" << endl << endl;
RooDataSet *dataToy = rt3->generate(RooArgSet(*ptoverm),ptovermH->GetEntries());
RooDataHist *dataToyH = new RooDataHist("dataToyH","toy",RooArgSet(*ptoverm),*dataToy);
rt3->fitTo(*dataToyH,Minos(0),SumW2Error(kTRUE),NumCPU(1));
if (fit->floatParsFinal().find("m")) mHist->Fill(m.getVal()-mVal);
if (fit->floatParsFinal().find("n")) nHist->Fill(n.getVal()-nVal);
if (fit->floatParsFinal().find("n2")) n2Hist->Fill(n2.getVal()-n2Val);
if (fit->floatParsFinal().find("bb")) bbHist->Fill(bb.getVal()-bbVal);
if (fit->floatParsFinal().find("bb2")) bb2Hist->Fill(bb2.getVal()-bb2Val);
if (fit->floatParsFinal().find("fexp")) fexpHist->Fill(fexp.getVal()-fexpVal);
if (fit->floatParsFinal().find("T")) THist->Fill(T.getVal()-TVal);
}
TCanvas cant("cant","Test canvas",5.,5.,900.,500.);
cant.Divide(4,2);
cant.cd(1); mHist->Draw();
cant.cd(2); nHist->Draw();
cant.cd(3); n2Hist->Draw();
cant.cd(4); bbHist->Draw();
cant.cd(5); bb2Hist->Draw();
cant.cd(6); fexpHist->Draw();
cant.cd(7); THist->Draw();
// cant.SaveAs("figs/testToys.pdf");
cant.SaveAs("newfigs/testToys.pdf");
if (fit->floatParsFinal().find("m")) m.setError(mHist->GetRMS());
if (fit->floatParsFinal().find("n")) n.setError(nHist->GetRMS());
if (fit->floatParsFinal().find("n2")) n2.setError(n2Hist->GetRMS());
if (fit->floatParsFinal().find("bb")) bb.setError(bbHist->GetRMS());
if (fit->floatParsFinal().find("bb2")) bb2.setError(bb2Hist->GetRMS());
if (fit->floatParsFinal().find("fexp")) fexp.setError(fexpHist->GetRMS());
if (fit->floatParsFinal().find("T")) T.setError(THist->GetRMS());
}
m.setVal(mVal);
n.setVal(nVal);
n2.setVal(n2Val);
bb.setVal(bbVal);
bb2.setVal(bb2Val);
fexp.setVal(fexpVal);
T.setVal(TVal);
char fileToSave[200];
// if (changeParName != "")
// sprintf(fileToSave,"text/paramsPTOverMCJLST_%s_%dTeV_%s_%s.txt",nameSample[whichtype].c_str(),LHCsqrts,systString.c_str(),changeParName.c_str());
// else
sprintf(fileToSave,"text/paramsPTOverMCJLST_%s%d_%dTeV_%s.txt",nameSample[whichtype].c_str(),mass,LHCsqrts,systString.c_str());
ofstream os1(fileToSave);
if (changeParName != "") {
sprintf(fileToSave,"m%s",changeParName.c_str()); m.SetName(fileToSave);
sprintf(fileToSave,"n%s",changeParName.c_str()); n.SetName(fileToSave);
sprintf(fileToSave,"n2%s",changeParName.c_str()); n2.SetName(fileToSave);
sprintf(fileToSave,"bb%s",changeParName.c_str()); bb.SetName(fileToSave);
sprintf(fileToSave,"bb2%s",changeParName.c_str()); bb2.SetName(fileToSave);
sprintf(fileToSave,"fexp%s",changeParName.c_str()); fexp.SetName(fileToSave);
sprintf(fileToSave,"T%s",changeParName.c_str()); T.SetName(fileToSave);
}
(RooArgSet(m,n,n2,bb,bb2,fexp,T)).writeToStream(os1,false);
os1.close();
RooRealVar mup("mup","emme", 1.,0.01, 30.);
RooRealVar nup("nup","enne", 0.93, 0.5, 15.);
RooRealVar n2up("n2up","enne2", 0.75, 0.5, 15.);
RooRealVar bbup("bbup","bibi",0.02, 0.00005, 20.0);
RooRealVar Tup("Tup","tti",0.2,0.00000005,1.);
RooRealVar bb2up("bb2up","bibi2",0.02, 0.0005, 10.0);
RooRealVar fexpup("fexpup","f_exp",0.02, 0.0, 1.0);
RooModifTsallis* rt3up = new RooModifTsallis("rt3up","rt3up",*ptoverm,mup,nup,n2up,bbup,bb2up,Tup,fexpup);
// ws->import(*rt3up);
RooRealVar mdown("mdown","emme", 1.,0.01, 30.);
RooRealVar ndown("ndown","enne", 0.93, 0.5, 15.);
RooRealVar n2down("n2down","enne2", 0.75, 0.5, 15.);
RooRealVar bbdown("bbdown","bibi",0.02, 0.00005, 20.0);
RooRealVar Tdown("Tdown","tti",0.2,0.00000005,1.);
RooRealVar bb2down("bb2down","bibi2",0.02, 0.0005, 10.0);
RooRealVar fexpdown("fexpdown","f_exp",0.02, 0.0, 1.0);
RooModifTsallis* rt3down = new RooModifTsallis("rt3down","rt3down",*ptoverm,mdown,ndown,n2down,bbdown,bb2down,Tdown,fexpdown);
// ws->import(*rt3down);
RooPlot *frame = ptoverm->frame();
char reducestr[300];
sprintf(reducestr,"ptoverm > %f && ptoverm < %f",ptoverm->getMin(),ptoverm->getMax());
rdh->plotOn(frame,DataError(RooAbsData::SumW2),Cut(reducestr));
static RooHist *hpull;
float chi2 = 0.;
if (changeParName == "") {
sprintf(fileToSave,"text/paramsPTOverMCJLST_%s%d_%dTeV_Default.txt",nameSample[whichtype].c_str(),mass,LHCsqrts);
ifstream is1(fileToSave);
(RooArgSet(mup,nup,n2up,bbup,bb2up,fexpup,Tup)).readFromStream(is1,false);
mdown.setVal(fabs(3*mup.getVal() - 2*m.getVal()));
ndown.setVal(fabs(3*nup.getVal() - 2*n.getVal()));
n2down.setVal(fabs(3*n2up.getVal() - 2*n2.getVal()));
bbdown.setVal(fabs(3*bbup.getVal() - 2*bb.getVal()));
Tdown.setVal(fabs(3*Tup.getVal() - 2*T.getVal()));
bb2down.setVal(fabs(3*bb2up.getVal() - 2*bb2.getVal()));
fexpdown.setVal(fabs(3*fexpup.getVal() - 2*fexp.getVal()));
if (showErrorPDFs) {
rt3->plotOn(frame,LineColor(kRed),LineStyle(kDashed),Normalization(rdh->sumEntries(),RooAbsReal::NumEvent));
hpull = frame->pullHist();
rt3up->plotOn(frame,LineColor(kBlue),Normalization(rdh->sumEntries(),RooAbsReal::NumEvent));
if (systString.find("Mela") == string::npos) rt3down->plotOn(frame,LineColor(kRed),LineStyle(kDashed),Normalization(rdh->sumEntries(),RooAbsReal::NumEvent));
} else {
rt3->plotOn(frame,LineColor(kBlue),Normalization(rdh->sumEntries(),RooAbsReal::NumEvent));
hpull = frame->pullHist();
}
} else {
mup.setVal(m.getVal() + m.getError()); cout << "mup = " << mup.getVal() << endl;
nup.setVal(n.getVal() + n.getError());
n2up.setVal(n2.getVal() + n2.getError());
bbup.setVal(bb.getVal() + bb.getError());
Tup.setVal(T.getVal() + T.getError());
bb2up.setVal(bb2.getVal() + bb2.getError());
fexpup.setVal(fexp.getVal() + fexp.getError());
mdown.setVal(m.getVal() - m.getError()); cout << "mdown = " << mdown.getVal() << endl;
ndown.setVal(n.getVal() - n.getError());
n2down.setVal(n2.getVal() - n2.getError());
bbdown.setVal(bb.getVal() - bb.getError());
Tdown.setVal(T.getVal() - T.getError());
bb2down.setVal(bb2.getVal() - bb2.getError());
fexpdown.setVal(fexp.getVal() - fexp.getError());
rt3->plotOn(frame,LineColor(kBlue),Normalization(rdh->sumEntries(),RooAbsReal::NumEvent));
hpull = frame->pullHist();
if (showErrorPDFs) {
rt3up->plotOn(frame,LineColor(kRed),LineStyle(kDashed),Normalization(rdh->sumEntries(),RooAbsReal::NumEvent));
rt3down->plotOn(frame,LineColor(kRed),LineStyle(kDashed),Normalization(rdh->sumEntries(),RooAbsReal::NumEvent));
}
}
double *ypulls = hpull->GetY();
unsigned int nBins = rdh->numEntries();
unsigned int nFullBins = 0;
for (unsigned int i = 0; i < nBins; i++) {
cout << "Pull of bin " << i << " = " << ypulls[i] << endl;
if (fabs(ypulls[i]) < 5.0) chi2 += ypulls[i]*ypulls[i];
cout << "Partial chi2 = " << chi2 << endl;
if (fabs(ypulls[i]) > 0.0001 && fabs(ypulls[i]) < 5.0) nFullBins++;
}
for (unsigned int i = 0; i < nBins; i++) {
if (fabs(ypulls[i]) < 0.0001) ypulls[i] = 999.;
hpull->SetPointError(i,0.,0.,0.,0.);
}
int nFitPar = fit->floatParsFinal().getSize() - 1;
TCanvas can("can","The canvas",5.,5.,500.,900.);
can.Divide(1,3);
TLatex *t = new TLatex();
t->SetNDC();
t->SetTextAlign(22);
t->SetTextSize(0.06);
can.cd(1);
gPad->SetBottomMargin(0.0);
frame->Draw();
// gPad->SetLogy();
// Htest->Draw();
sprintf(fileToSave,"%s %d GeV at %d TeV",nameSample[whichtype].c_str(),mass,LHCsqrts);
t->DrawLatex(0.6,0.8,fileToSave);
can.cd(2);
gPad->SetLogy();
gPad->SetTopMargin(0.0);
frame->Draw();
RooPlot* pull = ptoverm->frame(Title("Pull Distribution")) ;
pull->GetYaxis()->SetTitle("Pull");
/* pull->SetLabelSize(0.08,"XYZ");
pull->SetTitleSize(0.08,"XYZ");
pull->SetTitleOffset(0.6,"Y");
pull->SetTitleOffset(1.0,"X"); */
pull->addPlotable(hpull,"P") ;
pull->SetMinimum(-6.);
pull->SetMaximum(6.);
can.cd(3);
gPad->SetGridy();
pull->Draw();
sprintf(fileToSave,"#chi^{2}/n_{DoF} = %4.1f/%d",chi2,nFullBins - nFitPar);
if (chi2 < 1000.) t->DrawLatex(0.80,0.86,fileToSave);
// sprintf(fileToSave,"figs/fitPTOverMCJLST_%s%d_%dTeV_%s.pdf",nameSample[whichtype].c_str(),mass,LHCsqrts,systString.c_str());
sprintf(fileToSave,"newfigs/fitPTOverMCJLST_%s%d_%dTeV_%s.pdf",nameSample[whichtype].c_str(),mass,LHCsqrts,systString.c_str());
can.SaveAs(fileToSave);
}
