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Inclusive Kinematics JB DA

Merged Inclusive Kinematics JB DA
inclusive-kinematics-jb-da into master
Merged Wouter Deconinck requested to merge inclusive-kinematics-jb-da into master
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benchmarks/dis/analysis/dis_electrons.cxx
+ 49
17
@@ -73,26 +73,42 @@ int dis_electrons(const std::string& config_name)
};
auto d0 = d.Define("Q2_sim", "InclusiveKinematicsTruth.Q2")
.Define("Q2_rec", "InclusiveKinematicsElectron.Q2")
.Define("Q2_res", combinatorial_diff_ratio, {"Q2_sim", "Q2_rec"})
.Define("Q2_el", "InclusiveKinematicsElectron.Q2")
.Define("Q2_jb", "InclusiveKinematicsJB.Q2")
.Define("Q2_da", "InclusiveKinematicsDA.Q2")
.Define("Q2_el_res", combinatorial_diff_ratio, {"Q2_sim", "Q2_el"})
.Define("Q2_jb_res", combinatorial_diff_ratio, {"Q2_sim", "Q2_jb"})
.Define("Q2_da_res", combinatorial_diff_ratio, {"Q2_sim", "Q2_da"})
.Define("x_sim", "InclusiveKinematicsTruth.x")
.Define("x_rec", "InclusiveKinematicsElectron.x")
.Define("x_res", combinatorial_diff_ratio, {"x_sim", "x_rec"})
.Define("x_el", "InclusiveKinematicsElectron.x")
.Define("x_jb", "InclusiveKinematicsJB.x")
.Define("x_da", "InclusiveKinematicsDA.x")
.Define("x_el_res", combinatorial_diff_ratio, {"x_sim", "x_el"})
.Define("x_jb_res", combinatorial_diff_ratio, {"x_sim", "x_jb"})
.Define("x_da_res", combinatorial_diff_ratio, {"x_sim", "x_da"})
;
//Q2
auto h_Q2_sim = d0.Histo1D({"h_Q2_sim", "; GeV^2; counts", 100, -5, 25}, "Q2_sim");
auto h_Q2_rec = d0.Histo1D({"h_Q2_rec", "; GeV^2; counts", 100, -5, 25}, "Q2_rec");
auto h_Q2_res = d0.Histo1D({"h_Q2_res", "; ; counts", 100, -1, 1}, "Q2_res");
auto h_Q2_el = d0.Histo1D({"h_Q2_el", "; GeV^2; counts", 100, -5, 25}, "Q2_el");
auto h_Q2_jb = d0.Histo1D({"h_Q2_jb", "; GeV^2; counts", 100, -5, 25}, "Q2_jb");
auto h_Q2_da = d0.Histo1D({"h_Q2_da", "; GeV^2; counts", 100, -5, 25}, "Q2_da");
auto h_Q2_el_res = d0.Histo1D({"h_Q2_el_res", "; ; counts", 100, -1, 1}, "Q2_el_res");
auto h_Q2_jb_res = d0.Histo1D({"h_Q2_jb_res", "; ; counts", 100, -1, 1}, "Q2_jb_res");
auto h_Q2_da_res = d0.Histo1D({"h_Q2_da_res", "; ; counts", 100, -1, 1}, "Q2_da_res");
//x
auto h_x_sim = d0.Histo1D({"h_x_sim", "; ; counts", 100, 0, +1}, "x_sim");
auto h_x_rec = d0.Histo1D({"h_x_rec", "; ; counts", 100, 0, +1}, "x_rec");
auto h_x_res = d0.Histo1D({"h_x_res", "; ; counts", 100, -1, 1}, "x_res");
TFitResultPtr f_Q2_res = h_Q2_res->Fit("gaus", "S");
if (f_Q2_res == 0) f_Q2_res->Print("V");
TFitResultPtr f_x_res = h_x_res->Fit("gaus", "S");
if (f_x_res == 0) f_x_res->Print("V");
auto h_x_el = d0.Histo1D({"h_x_el", "; ; counts", 100, 0, +1}, "x_el");
auto h_x_jb = d0.Histo1D({"h_x_jb", "; ; counts", 100, 0, +1}, "x_jb");
auto h_x_da = d0.Histo1D({"h_x_da", "; ; counts", 100, 0, +1}, "x_da");
auto h_x_el_res = d0.Histo1D({"h_x_el_res", "; ; counts", 100, -1, 1}, "x_el_res");
auto h_x_jb_res = d0.Histo1D({"h_x_jb_res", "; ; counts", 100, -1, 1}, "x_jb_res");
auto h_x_da_res = d0.Histo1D({"h_x_da_res", "; ; counts", 100, -1, 1}, "x_da_res");
TFitResultPtr f_Q2_el_res = h_Q2_el_res->Fit("gaus", "S");
if (f_Q2_el_res == 0) f_Q2_el_res->Print("V");
TFitResultPtr f_x_el_res = h_x_el_res->Fit("gaus", "S");
if (f_x_el_res == 0) f_x_el_res->Print("V");
// Plot our histograms.
// TODO: to start I'm explicitly plotting the histograms, but want to
@@ -105,7 +121,9 @@ int dis_electrons(const std::string& config_name)
gPad->SetLogx(false);
gPad->SetLogy(true);
auto& h1 = *h_Q2_sim;
auto& h2 = *h_Q2_rec;
auto& h2 = *h_Q2_el;
auto& h3 = *h_Q2_jb;
auto& h4 = *h_Q2_da;
// histogram style
h1.SetLineColor(common_bench::plot::kMpBlue);
h1.SetLineWidth(2);
@@ -117,6 +135,8 @@ int dis_electrons(const std::string& config_name)
// draw everything
h1.DrawClone("hist");
h2.DrawClone("hist same");
h3.DrawClone("hist same");
h4.DrawClone("hist same");
// FIXME hardcoded beam configuration
common_bench::plot::draw_label(18, 275, detector);
TText* tptr1;
@@ -138,7 +158,9 @@ int dis_electrons(const std::string& config_name)
c.cd();
gPad->SetLogx(false);
gPad->SetLogy(true);
auto& h1 = *h_Q2_res;
auto& h1 = *h_Q2_el_res;
auto& h2 = *h_Q2_jb_res;
auto& h3 = *h_Q2_da_res;
// histogram style
h1.SetLineColor(common_bench::plot::kMpBlue);
h1.SetLineWidth(2);
@@ -147,6 +169,8 @@ int dis_electrons(const std::string& config_name)
h1.GetYaxis()->CenterTitle();
// draw everything
h1.DrawClone("hist");
h2.DrawClone("hist same");
h3.DrawClone("hist same");
// FIXME hardcoded beam configuration
common_bench::plot::draw_label(18, 275, detector);
c.Print(fmt::format("{}Q2resolution.png", output_prefix).c_str());
@@ -159,7 +183,9 @@ int dis_electrons(const std::string& config_name)
gPad->SetLogx(true);
gPad->SetLogy(true);
auto& h1 = *h_x_sim;
auto& h2 = *h_x_rec;
auto& h2 = *h_x_el;
auto& h3 = *h_x_jb;
auto& h4 = *h_x_da;
// histogram style
h1.SetLineColor(common_bench::plot::kMpBlue);
h1.SetLineWidth(2);
@@ -171,6 +197,8 @@ int dis_electrons(const std::string& config_name)
// draw everything
h1.DrawClone("hist");
h2.DrawClone("hist same");
h3.DrawClone("hist same");
h4.DrawClone("hist same");
// FIXME hardcoded beam configuration
common_bench::plot::draw_label(18, 275, detector);
TText* tptr1;
@@ -192,7 +220,9 @@ int dis_electrons(const std::string& config_name)
c.cd();
gPad->SetLogx(false);
gPad->SetLogy(true);
auto& h1 = *h_x_res;
auto& h1 = *h_x_el_res;
auto& h2 = *h_x_jb_res;
auto& h3 = *h_x_da_res;
// histogram style
h1.SetLineColor(common_bench::plot::kMpBlue);
h1.SetLineWidth(2);
@@ -201,6 +231,8 @@ int dis_electrons(const std::string& config_name)
h1.GetYaxis()->CenterTitle();
// draw everything
h1.DrawClone("hist");
h2.DrawClone("hist same");
h3.DrawClone("hist same");
// FIXME hardcoded beam configuration
common_bench::plot::draw_label(18, 275, detector);
c.Print(fmt::format("{}xresolution.png", output_prefix).c_str());