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#include <HcalSiPMShape.h>
Public Member Functions | |
| HcalSiPMShape () | |
| HcalSiPMShape (const HcalSiPMShape &other) | |
| virtual double | operator() (double time) const |
| virtual double | timeToRise () const |
| virtual | ~HcalSiPMShape () |
Protected Member Functions | |
| void | computeShape () |
Private Attributes | |
| int | nBins_ |
| std::vector< double > | nt_ |
Definition at line 8 of file HcalSiPMShape.h.
| HcalSiPMShape::HcalSiPMShape | ( | ) |
Definition at line 5 of file HcalSiPMShape.cc.
References computeShape().
: CaloVShape(), nBins_(512), nt_(nBins_, 0.) { computeShape(); }
| HcalSiPMShape::HcalSiPMShape | ( | const HcalSiPMShape & | other | ) |
Definition at line 9 of file HcalSiPMShape.cc.
: CaloVShape(other), nBins_(other.nBins_), nt_(other.nt_) { }
| virtual HcalSiPMShape::~HcalSiPMShape | ( | ) | [inline, virtual] |
Definition at line 14 of file HcalSiPMShape.h.
{}
| void HcalSiPMShape::computeShape | ( | ) | [protected] |
Definition at line 236 of file TShapeAnalysis.cc.
References alpha, beta, debug, TFParams::fitpj(), i, getHLTprescales::index, createXMLFile::iphi, gen::k, TFParams::set_const(), and tablePrinter::width.
Referenced by HcalSiPMShape().
{
double tm_atmax[200];
double parout[3];
double chi2_all=0.;
double **dbi ;
dbi = new double *[200];
for(int k=0;k<200;k++) dbi[k] = new double[2];
double **signalu ;
signalu = new double *[200];
for(int k=0 ;k<200;k++) signalu[k] = new double[10];
TFParams *pjf = new TFParams() ;
for(int i=0;i<nchsel;i++) {
if(index[i] >= 0) {
if(npass[i] <= 10) {
putalphaVal(i, alpha_init[i]);
putbetaVal(i, beta_init[i]);
putwidthVal(i,width_init[i]);
putchi2Val(i,chi2_init[i]);
putflagVal(i,0);
} else {
pjf->set_const(nsamplecristal, sampbmax, sampamax, alpha_init[i], beta_init[i], npass[i]);
for(int pass=0;pass<npass[i];pass++){
double ped=0;
for(int k=0;k<presample;k++) {
ped+= rawsglu[i][pass][k];
}
ped/=double(presample);
for(int k=0;k<nsamplecristal;k++) {
signalu[pass][k]= rawsglu[i][pass][k]-ped;
}
}
int debug=0;
chi2_all= pjf->fitpj(signalu,&parout[0],dbi,noise, debug);
if(parout[0]>=0.0 && parout[1]>=0.0 && chi2_all<=chi2cut && chi2_all>0.0){
putalphaVal(i,parout[0]);
putbetaVal(i,parout[1]);
putchi2Val(i,chi2_all);
putflagVal(i,1);
}else{
putalphaVal(i,alpha_init[i]);
putbetaVal(i,beta_init[i]);
putwidthVal(i,width_init[i]);
putchi2Val(i,chi2_init[i]);
putflagVal(i,0);
}
for(int kj=0;kj<npass[i];kj++) { // last event wrong here
tm_atmax[kj]= dbi[kj][1];
}
computetmaxVal(i,&tm_atmax[0]);
}
}
}
if(tAB) tABinit=tAB->CloneTree();
// Declaration of leaf types
Int_t sidei;
Int_t iphii;
Int_t ietai;
Int_t dccIDi;
Int_t towerIDi;
Int_t channelIDi;
Double_t alphai;
Double_t betai;
Double_t widthi;
Double_t chi2i;
Int_t flagi;
// List of branches
TBranch *b_iphi;
TBranch *b_ieta;
TBranch *b_side;
TBranch *b_dccID;
TBranch *b_towerID;
TBranch *b_channelID;
TBranch *b_alpha;
TBranch *b_beta;
TBranch *b_width;
TBranch *b_chi2;
TBranch *b_flag;
if(tABinit){
tABinit->SetBranchAddress("iphi", &iphii, &b_iphi);
tABinit->SetBranchAddress("ieta", &ietai, &b_ieta);
tABinit->SetBranchAddress("side", &sidei, &b_side);
tABinit->SetBranchAddress("dccID", &dccIDi, &b_dccID);
tABinit->SetBranchAddress("towerID", &towerIDi, &b_towerID);
tABinit->SetBranchAddress("channelID", &channelIDi, &b_channelID);
tABinit->SetBranchAddress("alpha", &alphai, &b_alpha);
tABinit->SetBranchAddress("beta", &betai, &b_beta);
tABinit->SetBranchAddress("width", &widthi, &b_width);
tABinit->SetBranchAddress("chi2", &chi2i, &b_chi2);
tABinit->SetBranchAddress("flag", &flagi, &b_flag);
}
TFile *fABout = new TFile(namefile.c_str(), "RECREATE");
tABout=new TTree("ABCol0","ABCol0");
// Declaration of leaf types
Int_t side;
Int_t iphi;
Int_t ieta;
Int_t dccID;
Int_t towerID;
Int_t channelID;
Double_t alpha;
Double_t beta;
Double_t width;
Double_t chi2;
Int_t flag;
tABout->Branch( "iphi", &iphi, "iphi/I" );
tABout->Branch( "ieta", &ieta, "ieta/I" );
tABout->Branch( "side", &side, "side/I" );
tABout->Branch( "dccID", &dccID, "dccID/I" );
tABout->Branch( "towerID", &towerID, "towerID/I" );
tABout->Branch( "channelID", &channelID, "channelID/I" );
tABout->Branch( "alpha", &alpha, "alpha/D" );
tABout->Branch( "beta", &beta, "beta/D" );
tABout->Branch( "width", &width, "width/D" );
tABout->Branch( "chi2", &chi2, "chi2/D" );
tABout->Branch( "flag", &flag, "flag/I" );
tABout->SetBranchAddress( "ieta", &ieta );
tABout->SetBranchAddress( "iphi", &iphi );
tABout->SetBranchAddress( "side", &side );
tABout->SetBranchAddress( "dccID", &dccID );
tABout->SetBranchAddress( "towerID", &towerID );
tABout->SetBranchAddress( "channelID", &channelID );
tABout->SetBranchAddress( "alpha", &alpha );
tABout->SetBranchAddress( "beta", &beta );
tABout->SetBranchAddress( "width", &width );
tABout->SetBranchAddress( "chi2", &chi2 );
tABout->SetBranchAddress( "flag", &flag );
for(int i=0;i<nchsel;i++) {
if(tABinit){
tABinit->GetEntry(i);
iphi=iphii;
ieta=ietai;
side=sidei;
dccID=dccIDi;
towerID=towerIDi;
channelID=channelIDi;
}else{
iphi=phi_init[i];
ieta=eta_init[i];
side=side_init[i];
dccID=dcc_init[i];
towerID=tower_init[i];
channelID=ch_init[i];
}
alpha=alpha_val[i];
beta=beta_val[i];
width=width_val[i];
chi2=chi2_val[i];
flag=flag_val[i];
tABout->Fill();
}
tABout->Write();
fABout->Close();
delete pjf;
}
| double HcalSiPMShape::operator() | ( | double | time | ) | const [virtual] |
Implements CaloVShape.
Definition at line 13 of file HcalSiPMShape.cc.
| virtual double HcalSiPMShape::timeToRise | ( | ) | const [inline, virtual] |
int HcalSiPMShape::nBins_ [private] |
Definition at line 24 of file HcalSiPMShape.h.
Referenced by operator()().
std::vector<double> HcalSiPMShape::nt_ [private] |
Definition at line 25 of file HcalSiPMShape.h.
Referenced by operator()().
1.7.3