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#ifndef vDriftHistos_H
#define vDriftHistos_H
#include "TH1.h"
#include "TString.h"
#include "TFile.h"
#include "DTTMax.h"
#include <string>
// A set of histograms on chamber angle and position
class h4DSegm {
public:
h4DSegm(std::string name_) {
TString N = name_.c_str();
name = name_.c_str();
h4DSegmXPosInCham = new TH1F(N + "_h4DSegmXPosInCham", "4D Segment x position (cm) in Chamber RF", 200, -200, 200);
h4DSegmYPosInCham = new TH1F(N + "_h4DSegmYPosInCham", "4D Segment y position (cm) in Chamber RF", 200, -200, 200);
h4DSegmPhiAngleInCham =
new TH1F(N + "_h4DSegmPhiAngleInCham", "4D Segment phi angle (rad) in Chamber RF", 180, -180, 180);
h4DSegmThetaAngleInCham =
new TH1F(N + "_h4DSegmThetaAngleInCham", "4D Segment theta angle (rad) in Chamber RF", 180, -180, 180);
h4DSegmImpactAngleInCham =
new TH1F(N + "_h4DSegmImpactAngleInCham", "4D Segment impact angle (rad) in Chamber RF", 180, -180, 180);
}
h4DSegm(const TString &name_, TFile *file) {
name = name_;
h4DSegmXPosInCham = (TH1F *)file->Get(name + "_h4DSegmXPosInCham");
h4DSegmYPosInCham = (TH1F *)file->Get(name + "_h4DSegmYPosInCham");
h4DSegmPhiAngleInCham = (TH1F *)file->Get(name + "_h4DSegmPhiAngleInCham");
h4DSegmThetaAngleInCham = (TH1F *)file->Get(name + "_h4DSegmThetaAngleInCham");
h4DSegmImpactAngleInCham = (TH1F *)file->Get(name + "_h4DSegmImpactAngleInCham");
}
~h4DSegm() {
delete h4DSegmXPosInCham;
delete h4DSegmYPosInCham;
delete h4DSegmPhiAngleInCham;
delete h4DSegmThetaAngleInCham;
delete h4DSegmImpactAngleInCham;
}
void Fill(float x, float y, float phi, float theta, float impact) {
h4DSegmXPosInCham->Fill(x);
h4DSegmYPosInCham->Fill(y);
h4DSegmPhiAngleInCham->Fill(phi);
h4DSegmThetaAngleInCham->Fill(theta);
h4DSegmImpactAngleInCham->Fill(impact);
}
void Fill(float x, float phi) {
h4DSegmXPosInCham->Fill(x);
h4DSegmPhiAngleInCham->Fill(phi);
}
void Write() {
h4DSegmXPosInCham->Write();
h4DSegmYPosInCham->Write();
h4DSegmPhiAngleInCham->Write();
h4DSegmThetaAngleInCham->Write();
h4DSegmImpactAngleInCham->Write();
}
public:
TH1F *h4DSegmXPosInCham;
TH1F *h4DSegmYPosInCham;
TH1F *h4DSegmPhiAngleInCham;
TH1F *h4DSegmThetaAngleInCham;
TH1F *h4DSegmImpactAngleInCham;
TString name;
};
// A set of histograms on SL angle and position
class h2DSegm {
public:
h2DSegm(std::string name_) {
TString N = name_.c_str();
name = name_.c_str();
h2DSegmPosInCham = new TH1F(N + "_h2DSegmPosInCham", "2D Segment position (cm) in Chamber RF", 200, -200, 200);
h2DSegmAngleInCham = new TH1F(N + "_h2DSegmAngleInCham", "2D Segment angle (rad) in Chamber RF", 200, -2, 2);
h2DSegmCosAngleInCham = new TH1F(N + "_h2DSegmCosAngleInCham", "2D Segment cos(angle) in Chamber RF", 200, -2, 2);
}
h2DSegm(const TString &name_, TFile *file) {
name = name_;
h2DSegmPosInCham = (TH1F *)file->Get(name + "_h2DSegmPosInCham");
h2DSegmAngleInCham = (TH1F *)file->Get(name + "_h2DSegmAngleInCham");
h2DSegmCosAngleInCham = (TH1F *)file->Get(name + "_h2DSegmCosAngleInCham");
}
~h2DSegm() {
delete h2DSegmPosInCham;
delete h2DSegmAngleInCham;
delete h2DSegmCosAngleInCham;
}
void Fill(float pos, float localAngle) {
h2DSegmPosInCham->Fill(pos);
h2DSegmAngleInCham->Fill(atan(localAngle));
h2DSegmCosAngleInCham->Fill(cos(atan(localAngle)));
}
void Write() {
h2DSegmPosInCham->Write();
h2DSegmAngleInCham->Write();
h2DSegmCosAngleInCham->Write();
}
public:
TH1F *h2DSegmPosInCham;
TH1F *h2DSegmAngleInCham;
TH1F *h2DSegmCosAngleInCham;
TString name;
};
// A set of histograms on SL Tmax
class hTMaxCell {
public:
hTMaxCell(const TString &name_) {
name = name_;
// book TMax histograms
hTmax123 = new TH1F(name + "_Tmax123", "Tmax123 value", 2000, -1000., 1000.);
hTmax124s72 = new TH1F(name + "_Tmax124_s72", "Tmax124 sigma=sqrt(7/2) value", 2000, -1000., 1000.);
hTmax124s78 = new TH1F(name + "_Tmax124_s78", "Tmax124 sigma=sqrt(7/8) value", 2000, -1000., 1000.);
hTmax134s72 = new TH1F(name + "_Tmax134_s72", "Tmax134 sigma=sqrt(7/2) value", 2000, -1000., 1000.);
hTmax134s78 = new TH1F(name + "_Tmax134_s78", "Tmax134 sigma=sqrt(7/8) value", 2000, -1000., 1000.);
hTmax234 = new TH1F(name + "_Tmax234", "Tmax234 value", 2000, -1000., 1000.);
hTmax_3t0 = new TH1F(name + "_3t0", "Tmax+3*Delta(t0)", 2000, -1000., 1000.);
hTmax_3t0_0 = new TH1F(name + "_3t0_0", "Tmax+3*Delta(t0); 3 hits", 2000, -1000., 1000.);
hTmax_3t0_1 = new TH1F(name + "_3t0_1", "Tmax+3*Delta(t0); one t<5ns", 2000, -1000., 1000.);
hTmax_3t0_2 = new TH1F(name + "_3t0_2", "Tmax+3*Delta(t0); one t<10ns", 2000, -1000., 1000.);
hTmax_3t0_3 = new TH1F(name + "_3t0_3", "Tmax+3*Delta(t0); one t<20ns", 2000, -1000., 1000.);
hTmax_3t0_4 = new TH1F(name + "_3t0_4", "Tmax+3*Delta(t0); one t<50ns", 2000, -1000., 1000.);
hTmax_3t0_5 = new TH1F(name + "_3t0_5", "Tmax+3*Delta(t0); all t>50ns", 2000, -1000., 1000.);
hTmax_2t0 = new TH1F(name + "_2t0", "Tmax+2*Delta(t0)", 2000, -1000., 1000.);
hTmax_2t0_0 = new TH1F(name + "_2t0_0", "Tmax+2*Delta(t0); 3 hits", 2000, -1000., 1000.);
hTmax_2t0_1 = new TH1F(name + "_2t0_1", "Tmax+2*Delta(t0); one t<5ns", 2000, -1000., 1000.);
hTmax_2t0_2 = new TH1F(name + "_2t0_2", "Tmax+2*Delta(t0); one t<10ns", 2000, -1000., 1000.);
hTmax_2t0_3 = new TH1F(name + "_2t0_3", "Tmax+2*Delta(t0); one t<20ns", 2000, -1000., 1000.);
hTmax_2t0_4 = new TH1F(name + "_2t0_4", "Tmax+2*Delta(t0); one t<50ns", 2000, -1000., 1000.);
hTmax_2t0_5 = new TH1F(name + "_2t0_5", "Tmax+2*Delta(t0); all t>50ns", 2000, -1000., 1000.);
hTmax_t0 = new TH1F(name + "_t0", "Tmax+Delta(t0)", 2000, -1000., 1000.);
hTmax_t0_0 = new TH1F(name + "_t0_0", "Tmax+Delta(t0); 3 hits", 2000, -1000., 1000.);
hTmax_t0_1 = new TH1F(name + "_t0_1", "Tmax+Delta(t0); one t<5ns", 2000, -1000., 1000.);
hTmax_t0_2 = new TH1F(name + "_t0_2", "Tmax+Delta(t0); one t<10ns", 2000, -1000., 1000.);
hTmax_t0_3 = new TH1F(name + "_t0_3", "Tmax+Delta(t0); one t<20ns", 2000, -1000., 1000.);
hTmax_t0_4 = new TH1F(name + "_t0_4", "Tmax+Delta(t0); one t<50ns", 2000, -1000., 1000.);
hTmax_t0_5 = new TH1F(name + "_t0_5", "Tmax+Delta(t0); all t>50ns", 2000, -1000., 1000.);
hTmax_0 = new TH1F(name + "_0", "Tmax", 2000, -1000., 1000.);
}
hTMaxCell(const TString &name_, TFile *file) {
name = name_;
hTmax123 = (TH1F *)file->Get(name + "_Tmax123");
hTmax124s72 = (TH1F *)file->Get(name + "_Tmax124_s72");
hTmax124s78 = (TH1F *)file->Get(name + "_Tmax124_s78");
hTmax134s72 = (TH1F *)file->Get(name + "_Tmax134_s72");
hTmax134s78 = (TH1F *)file->Get(name + "_Tmax134_s78");
hTmax234 = (TH1F *)file->Get(name + "_Tmax234");
hTmax_3t0 = (TH1F *)file->Get(name + "_3t0");
hTmax_3t0_0 = (TH1F *)file->Get(name + "_3t0_0");
hTmax_3t0_1 = (TH1F *)file->Get(name + "_3t0_1");
hTmax_3t0_2 = (TH1F *)file->Get(name + "_3t0_2");
hTmax_3t0_3 = (TH1F *)file->Get(name + "_3t0_3");
hTmax_3t0_4 = (TH1F *)file->Get(name + "_3t0_4");
hTmax_3t0_5 = (TH1F *)file->Get(name + "_3t0_5");
hTmax_2t0 = (TH1F *)file->Get(name + "_2t0");
hTmax_2t0_0 = (TH1F *)file->Get(name + "_2t0_0");
hTmax_2t0_1 = (TH1F *)file->Get(name + "_2t0_1");
hTmax_2t0_2 = (TH1F *)file->Get(name + "_2t0_2");
hTmax_2t0_3 = (TH1F *)file->Get(name + "_2t0_3");
hTmax_2t0_4 = (TH1F *)file->Get(name + "_2t0_4");
hTmax_2t0_5 = (TH1F *)file->Get(name + "_2t0_5");
hTmax_t0 = (TH1F *)file->Get(name + "_t0");
hTmax_t0_1 = (TH1F *)file->Get(name + "_t0_1");
hTmax_t0_2 = (TH1F *)file->Get(name + "_t0_2");
hTmax_t0_3 = (TH1F *)file->Get(name + "_t0_3");
hTmax_t0_4 = (TH1F *)file->Get(name + "_t0_4");
hTmax_t0_5 = (TH1F *)file->Get(name + "_t0_5");
hTmax_0 = (TH1F *)file->Get(name + "_0");
}
~hTMaxCell() {
delete hTmax123;
delete hTmax124s72;
delete hTmax124s78;
delete hTmax134s72;
delete hTmax134s78;
delete hTmax234;
delete hTmax_3t0;
delete hTmax_3t0_0;
delete hTmax_3t0_1;
delete hTmax_3t0_2;
delete hTmax_3t0_3;
delete hTmax_3t0_4;
delete hTmax_3t0_5;
delete hTmax_2t0;
delete hTmax_2t0_0;
delete hTmax_2t0_1;
delete hTmax_2t0_2;
delete hTmax_2t0_3;
delete hTmax_2t0_4;
delete hTmax_2t0_5;
delete hTmax_t0;
delete hTmax_t0_0;
delete hTmax_t0_1;
delete hTmax_t0_2;
delete hTmax_t0_3;
delete hTmax_t0_4;
delete hTmax_t0_5;
delete hTmax_0;
}
void Fill(float tmax123,
float tmax124,
float tmax134,
float tmax234,
dttmaxenums::SigmaFactor s124, // Give the factor relating the width of the TMax distribution
dttmaxenums::SigmaFactor s134, // and the cell resolution (for tmax123 and tmax234 is always= sqrt(3/2)).
unsigned t0_123, // Give the "quantity" of Delta(t0) included in the tmax
unsigned t0_124, // formula used for Tmax123 or Tma124 or Tma134 or Tma234
unsigned t0_134,
unsigned t0_234,
unsigned hSubGroup //different t0 hists(at least one hit within a given distance from the wire)
) {
if (tmax123 > 0.) {
hTmax123->Fill(tmax123);
if (t0_123 == 1) {
hTmax_t0->Fill(tmax123);
switch (hSubGroup) {
case 0:
hTmax_t0_0->Fill(tmax123);
break;
case 1:
hTmax_t0_1->Fill(tmax123);
break;
case 2:
hTmax_t0_2->Fill(tmax123);
break;
case 3:
hTmax_t0_3->Fill(tmax123);
break;
case 4:
hTmax_t0_4->Fill(tmax123);
break;
case 99:
hTmax_t0_5->Fill(tmax123);
break;
}
} else {
hTmax_2t0->Fill(tmax123);
switch (hSubGroup) {
case 0:
hTmax_2t0_0->Fill(tmax123);
break;
case 1:
hTmax_2t0_1->Fill(tmax123);
break;
case 2:
hTmax_2t0_2->Fill(tmax123);
break;
case 3:
hTmax_2t0_3->Fill(tmax123);
break;
case 4:
hTmax_2t0_4->Fill(tmax123);
break;
case 99:
hTmax_2t0_5->Fill(tmax123);
break;
}
}
}
if (tmax124 > 0.) {
(s124 == dttmaxenums::r72) ? hTmax124s72->Fill(tmax124) : hTmax124s78->Fill(tmax124);
if (t0_124 == 0)
hTmax_0->Fill(tmax124);
else if (t0_124 == 1) {
hTmax_t0->Fill(tmax124);
switch (hSubGroup) {
case 0:
hTmax_t0_0->Fill(tmax124);
break;
case 1:
hTmax_t0_1->Fill(tmax124);
break;
case 2:
hTmax_t0_2->Fill(tmax124);
break;
case 3:
hTmax_t0_3->Fill(tmax124);
break;
case 4:
hTmax_t0_4->Fill(tmax124);
break;
case 99:
hTmax_t0_5->Fill(tmax124);
break;
}
} else if (t0_124 == 2) {
hTmax_2t0->Fill(tmax124);
switch (hSubGroup) {
case 0:
hTmax_2t0_0->Fill(tmax124);
break;
case 1:
hTmax_2t0_1->Fill(tmax124);
break;
case 2:
hTmax_2t0_2->Fill(tmax124);
break;
case 3:
hTmax_2t0_3->Fill(tmax124);
break;
case 4:
hTmax_2t0_4->Fill(tmax124);
break;
case 99:
hTmax_2t0_5->Fill(tmax124);
break;
}
} else if (t0_124 == 3) {
hTmax_3t0->Fill(tmax124);
switch (hSubGroup) {
case 0:
hTmax_3t0_0->Fill(tmax124);
break;
case 1:
hTmax_3t0_1->Fill(tmax124);
break;
case 2:
hTmax_3t0_2->Fill(tmax124);
break;
case 3:
hTmax_3t0_3->Fill(tmax124);
break;
case 4:
hTmax_3t0_4->Fill(tmax124);
break;
case 99:
hTmax_3t0_5->Fill(tmax124);
break;
}
}
}
if (tmax134 > 0.) {
(s134 == dttmaxenums::r72) ? hTmax134s72->Fill(tmax134) : hTmax134s78->Fill(tmax134);
if (t0_134 == 0)
hTmax_0->Fill(tmax134);
else if (t0_134 == 1) {
hTmax_t0->Fill(tmax134);
switch (hSubGroup) {
case 0:
hTmax_t0_0->Fill(tmax134);
break;
case 1:
hTmax_t0_1->Fill(tmax134);
break;
case 2:
hTmax_t0_2->Fill(tmax134);
break;
case 3:
hTmax_t0_3->Fill(tmax134);
break;
case 4:
hTmax_t0_4->Fill(tmax134);
break;
case 99:
hTmax_t0_5->Fill(tmax134);
break;
}
} else if (t0_134 == 2) {
hTmax_2t0->Fill(tmax134);
switch (hSubGroup) {
case 0:
hTmax_2t0_0->Fill(tmax134);
break;
case 1:
hTmax_2t0_1->Fill(tmax134);
break;
case 2:
hTmax_2t0_2->Fill(tmax134);
break;
case 3:
hTmax_2t0_3->Fill(tmax134);
break;
case 4:
hTmax_2t0_4->Fill(tmax134);
break;
case 99:
hTmax_2t0_5->Fill(tmax134);
break;
}
} else if (t0_134 == 3) {
hTmax_3t0->Fill(tmax134);
switch (hSubGroup) {
case 0:
hTmax_3t0_0->Fill(tmax134);
break;
case 1:
hTmax_3t0_1->Fill(tmax134);
break;
case 2:
hTmax_3t0_2->Fill(tmax134);
break;
case 3:
hTmax_3t0_3->Fill(tmax134);
break;
case 4:
hTmax_3t0_4->Fill(tmax134);
break;
case 99:
hTmax_3t0_5->Fill(tmax134);
break;
}
}
}
if (tmax234 > 0.) {
hTmax234->Fill(tmax234);
if (t0_234 == 1) {
hTmax_t0->Fill(tmax234);
switch (hSubGroup) {
case 0:
hTmax_t0_0->Fill(tmax234);
break;
case 1:
hTmax_t0_1->Fill(tmax234);
break;
case 2:
hTmax_t0_2->Fill(tmax234);
break;
case 3:
hTmax_t0_3->Fill(tmax234);
break;
case 4:
hTmax_t0_4->Fill(tmax234);
break;
case 99:
hTmax_t0_5->Fill(tmax234);
break;
}
} else {
hTmax_2t0->Fill(tmax234);
switch (hSubGroup) {
case 0:
hTmax_2t0_0->Fill(tmax234);
break;
case 1:
hTmax_2t0_1->Fill(tmax234);
break;
case 2:
hTmax_2t0_2->Fill(tmax234);
break;
case 3:
hTmax_2t0_3->Fill(tmax234);
break;
case 4:
hTmax_2t0_4->Fill(tmax234);
break;
case 99:
hTmax_2t0_5->Fill(tmax234);
break;
}
}
}
}
void Write() {
// write the Tmax histograms
hTmax123->Write();
hTmax124s72->Write();
hTmax124s78->Write();
hTmax134s72->Write();
hTmax134s78->Write();
hTmax234->Write();
hTmax_3t0->Write();
hTmax_3t0_0->Write();
hTmax_3t0_1->Write();
hTmax_3t0_2->Write();
hTmax_3t0_3->Write();
hTmax_3t0_4->Write();
hTmax_3t0_5->Write();
hTmax_2t0->Write();
hTmax_2t0_0->Write();
hTmax_2t0_1->Write();
hTmax_2t0_2->Write();
hTmax_2t0_3->Write();
hTmax_2t0_4->Write();
hTmax_2t0_5->Write();
hTmax_t0->Write();
hTmax_t0_0->Write();
hTmax_t0_1->Write();
hTmax_t0_2->Write();
hTmax_t0_3->Write();
hTmax_t0_4->Write();
hTmax_t0_5->Write();
hTmax_0->Write();
}
int GetT0Factor(TH1F *hist) {
unsigned t0 = 999;
if (hist == hTmax_3t0)
t0 = 3;
else if (hist == hTmax_2t0)
t0 = 2;
else if (hist == hTmax_t0)
t0 = 1;
else if (hist == hTmax_0)
t0 = 0;
return t0;
}
TH1F *hTmax123;
TH1F *hTmax124s72;
TH1F *hTmax124s78;
TH1F *hTmax134s72;
TH1F *hTmax134s78;
TH1F *hTmax234;
TH1F *hTmax_3t0;
TH1F *hTmax_3t0_0;
TH1F *hTmax_3t0_1;
TH1F *hTmax_3t0_2;
TH1F *hTmax_3t0_3;
TH1F *hTmax_3t0_4;
TH1F *hTmax_3t0_5;
TH1F *hTmax_2t0;
TH1F *hTmax_2t0_0;
TH1F *hTmax_2t0_1;
TH1F *hTmax_2t0_2;
TH1F *hTmax_2t0_3;
TH1F *hTmax_2t0_4;
TH1F *hTmax_2t0_5;
TH1F *hTmax_t0;
TH1F *hTmax_t0_0;
TH1F *hTmax_t0_1;
TH1F *hTmax_t0_2;
TH1F *hTmax_t0_3;
TH1F *hTmax_t0_4;
TH1F *hTmax_t0_5;
TH1F *hTmax_0;
TString name;
};
#endif
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