50 const double residual = (*resiter)[
kResidual];
55 if (fabs(residual) < 10.) {
57 sum_xx += residual * residual;
74 const double residual = (*resiter)[
kResidual];
77 sum_xx += residual * residual;
88 const double residual = (*resiter)[
kResidual];
91 sum_xx += residual * residual;
98 std::vector<int> parNum;
99 std::vector<std::string> parName;
100 std::vector<double>
start;
101 std::vector<double>
step;
102 std::vector<double>
low;
103 std::vector<double>
high;
111 parNum.push_back(
kZpos);
117 parNum.push_back(
kPhiz);
126 step.push_back(0.1 * 1000.);
148 std::stringstream raw_name, narrowed_name, angleerror_name, trackangle_name, trackposition_name;
149 raw_name <<
name <<
"_raw";
150 narrowed_name <<
name <<
"_narrowed";
151 angleerror_name <<
name <<
"_angleerror";
152 trackangle_name <<
name <<
"_trackangle";
153 trackposition_name <<
name <<
"_trackposition";
156 dir->make<TH1F>(raw_name.str().c_str(), (raw_name.str() +
std::string(
" (mm)")).c_str(), 100, -100., 100.);
157 TH1F *narrowed_hist =
dir->make<TH1F>(
158 narrowed_name.str().c_str(), (narrowed_name.str() +
std::string(
" (mm)")).c_str(), 100, -100., 100.);
159 TProfile *angleerror_hist =
dir->make<TProfile>(
160 angleerror_name.str().c_str(), (angleerror_name.str() +
std::string(
" (mm)")).c_str(), 100, -30., 30.);
161 TProfile *trackangle_hist =
dir->make<TProfile>(
162 trackangle_name.str().c_str(), (trackangle_name.str() +
std::string(
" (mm)")).c_str(), 100, -0.5, 0.5);
163 TProfile *trackposition_hist =
dir->make<TProfile>(
164 trackposition_name.str().c_str(), (trackposition_name.str() +
std::string(
" (mm)")).c_str(), 100, -300., 300.);
166 angleerror_hist->SetAxisRange(-100., 100.,
"Y");
167 trackangle_hist->SetAxisRange(-10., 10.,
"Y");
168 trackposition_hist->SetAxisRange(-10., 10.,
"Y");
170 narrowed_name <<
"fit";
171 angleerror_name <<
"fit";
172 trackangle_name <<
"fit";
173 trackposition_name <<
"fit";
175 double scale_factor = double(
numResiduals()) * (100. - -100.) / 100;
177 TF1 *narrowed_fit =
nullptr;
181 narrowed_fit->Write();
185 narrowed_fit->Write();
189 narrowed_fit->Write();
193 narrowed_fit->Write();
196 TF1 *angleerror_fit =
new TF1(angleerror_name.str().c_str(),
"[0]+x*[1]", -30., 30.);
198 angleerror_fit->Write();
200 TF1 *trackangle_fit =
new TF1(trackangle_name.str().c_str(),
"[0]+x*[1]", -0.5, 0.5);
202 trackangle_fit->Write();
204 TF1 *trackposition_fit =
new TF1(trackposition_name.str().c_str(),
"[0]+x*[1]", -300., 300.);
206 trackposition_fit->Write();
209 const double raw_residual = (*resiter)[
kResidual];
215 double trackangle_correction =
value(
kZpos) * trackangle;
216 double trackposition_correction =
value(
kPhiz) * trackposition;
218 double corrected_residual = raw_residual - angleerror_correction - trackangle_correction - trackposition_correction;
220 raw_hist->Fill(raw_residual * 10.);
221 narrowed_hist->Fill(corrected_residual * 10.);
223 angleerror_hist->Fill(angleerror * 1000., (raw_residual - trackangle_correction - trackposition_correction) * 10.);
224 trackangle_hist->Fill(trackangle, (raw_residual - angleerror_correction - trackposition_correction) * 10.);
225 trackposition_hist->Fill(trackposition, (raw_residual - angleerror_correction - trackangle_correction) * 10.);