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source: git/display/DelphesPlotSummary.cc@ 95fbe30

ImprovedOutputFile Timing dual_readout llp
Last change on this file since 95fbe30 was 1fa50c2, checked in by Pavel Demin <pavel.demin@…>, 10 years ago

fix GPLv3 header

  • Property mode set to 100644
File size: 7.5 KB
Line 
1/*
2 * Delphes: a framework for fast simulation of a generic collider experiment
3 * Copyright (C) 2012-2014 Universite catholique de Louvain (UCL), Belgium
4 *
5 * This program is free software: you can redistribute it and/or modify
6 * it under the terms of the GNU General Public License as published by
7 * the Free Software Foundation, either version 3 of the License, or
8 * (at your option) any later version.
9 *
10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
14 *
15 * You should have received a copy of the GNU General Public License
16 * along with this program. If not, see <http://www.gnu.org/licenses/>.
17 */
18
19#include "display/DelphesPlotSummary.h"
20#include "TRootEmbeddedCanvas.h"
21#include <algorithm>
22
23bool vecsorter (TLorentzVector i,TLorentzVector j) { return (i.Pt()>j.Pt()); }
24
25DelphesPlotSummary::DelphesPlotSummary(TEveWindowTab* tab):tab_(tab) {}
26
27DelphesPlotSummary::~DelphesPlotSummary() {}
28
29void DelphesPlotSummary::Progress(Int_t p)
30{
31 Emit("Progress(Int_t)",p);
32}
33
34void DelphesPlotSummary::Init(std::vector<DelphesBranchBase*>& elements) {
35 elements_ = &elements;
36 // loop on the elements, and create tabs
37 for(std::vector<DelphesBranchBase*>::iterator data=elements.begin();data<elements.end();++data) {
38 // the canvas
39 TEveWindowSlot* slot = tab_->NewSlot();
40 TRootEmbeddedCanvas* trec = new TRootEmbeddedCanvas();
41 TCanvas* canvas = trec->GetCanvas();
42 TEveWindowFrame * wf = slot->MakeFrame(trec);
43 wf->SetElementName((*data)->GetName());
44 canvas->Divide(3,3);
45 canvases_[(*data)->GetName()] = canvas;
46 // the histograms
47 TH1F* h;
48 std::vector<TH1F*> histograms;
49 histograms.reserve(9);
50 h = new TH1F(Form("%sPt",(*data)->GetName()),Form("%s Pt",(*data)->GetName()),100,0,-1);
51 histograms.push_back(h);
52 h = new TH1F(Form("%sEta",(*data)->GetName()),Form("%s Eta",(*data)->GetName()),100,0,-1);
53 histograms.push_back(h);
54 h = new TH1F(Form("%sPhi",(*data)->GetName()),Form("%s Phi",(*data)->GetName()),100,0,-1);
55 histograms.push_back(h);
56 h = new TH1F(Form("l%sPt",(*data)->GetName()),Form("leading %s Pt",(*data)->GetName()),100,0,-1);
57 histograms.push_back(h);
58 h = new TH1F(Form("l%sEta",(*data)->GetName()),Form("leading %s Eta",(*data)->GetName()),100,0,-1);
59 histograms.push_back(h);
60 h = new TH1F(Form("l%sPhi",(*data)->GetName()),Form("leading %s Phi",(*data)->GetName()),100,0,-1);
61 histograms.push_back(h);
62 h = new TH1F(Form("sl%sPt",(*data)->GetName()),Form("subleading %s Pt",(*data)->GetName()),100,0,-1);
63 histograms.push_back(h);
64 h = new TH1F(Form("sl%sEta",(*data)->GetName()),Form("subleading %s Eta",(*data)->GetName()),100,0,-1);
65 histograms.push_back(h);
66 h = new TH1F(Form("sl%sPhi",(*data)->GetName()),Form("subleading %s Phi",(*data)->GetName()),100,0,-1);
67 histograms.push_back(h);
68 histograms_[(*data)->GetName()] = histograms;
69 // the event histograms
70 TH1F* h1 = (TH1F*)histograms[0]->Clone(); h1->Reset(); h1->SetLineColor(kBlue);
71 TH1F* h2 = (TH1F*)histograms[1]->Clone(); h2->Reset(); h2->SetLineColor(kBlue);
72 TH1F* h3 = (TH1F*)histograms[2]->Clone(); h3->Reset(); h3->SetLineColor(kBlue);
73 std::vector<TH1F*> hv;
74 hv.push_back(h1);
75 hv.push_back(h2);
76 hv.push_back(h3);
77 eventProfiles_[(*data)->GetName()] = hv;
78 // the event markers
79 TMarker *m;
80 std::vector<TMarker*> mv;
81 m = new TMarker(0,0,29); m->SetMarkerColor(kBlue); m->SetMarkerSize(3);
82 mv.push_back(m);
83 m = new TMarker(0,0,29); m->SetMarkerColor(kBlue); m->SetMarkerSize(3);
84 mv.push_back(m);
85 m = new TMarker(0,0,29); m->SetMarkerColor(kBlue); m->SetMarkerSize(3);
86 mv.push_back(m);
87 m = new TMarker(0,0,29); m->SetMarkerColor(kBlue); m->SetMarkerSize(3);
88 mv.push_back(m);
89 m = new TMarker(0,0,29); m->SetMarkerColor(kBlue); m->SetMarkerSize(3);
90 mv.push_back(m);
91 m = new TMarker(0,0,29); m->SetMarkerColor(kBlue); m->SetMarkerSize(3);
92 mv.push_back(m);
93 eventMarkers_[(*data)->GetName()] = mv;
94 }
95}
96
97void DelphesPlotSummary::FillSample(ExRootTreeReader* treeReader, Int_t event_id) {
98 Int_t entries = treeReader->GetEntries();
99 for(Int_t i=0;i<entries;++i) {
100 treeReader->ReadEntry(i);
101 for(std::vector<DelphesBranchBase*>::iterator element = elements_->begin();element<elements_->end();++element) {
102 std::vector<TLorentzVector> vectors = (*element)->GetVectors();
103 std::sort(vectors.begin(), vectors.end(), vecsorter);
104 std::vector<TH1F*> histograms = histograms_[(*element)->GetName()];
105 for(std::vector<TLorentzVector>::iterator it=vectors.begin(); it<vectors.end();++it) {
106 histograms[0]->Fill(it->Pt());
107 histograms[1]->Fill(it->Eta());
108 histograms[2]->Fill(it->Phi());
109 if(it==vectors.begin()) {
110 histograms[3]->Fill(it->Pt());
111 histograms[4]->Fill(it->Eta());
112 histograms[5]->Fill(it->Phi());
113 }
114 if(it==vectors.begin()+1) {
115 histograms[6]->Fill(it->Pt());
116 histograms[7]->Fill(it->Eta());
117 histograms[8]->Fill(it->Phi());
118 }
119 }
120 }
121 Progress(int(100*i/entries));
122 }
123 treeReader->ReadEntry(event_id);
124 Progress(100);
125}
126
127void DelphesPlotSummary::Draw() {
128 for(std::map< TString, TCanvas* >::iterator it=canvases_.begin(); it!=canvases_.end(); ++it) {
129 TCanvas* c = it->second;
130 std::vector<TH1F*> histograms = histograms_[it->first];
131 std::vector<TH1F*> eventProfiles = eventProfiles_[it->first];
132 std::vector<TMarker*> eventMarkers = eventMarkers_[it->first];
133 for(Int_t i=0;i<9;++i) {
134 c->cd(i+1);
135 if(histograms[i]->GetEntries()==0) continue;
136 histograms[i]->Draw();
137 if(i<3) {
138 eventProfiles[i]->Draw("same");
139 } else {
140 eventMarkers[i-3]->Draw("same");
141 }
142 }
143 c->Update();
144 }
145}
146
147void DelphesPlotSummary::FillEvent() {
148 // clear event histograms and markers
149 for(std::map< TString, std::vector<TH1F*> >::iterator hv = eventProfiles_.begin(); hv!=eventProfiles_.end();++hv) {
150 for(std::vector<TH1F*>::iterator h = hv->second.begin(); h<hv->second.end();++h) {
151 (*h)->Reset();
152 }
153 }
154 for(std::map< TString, std::vector<TMarker*> >::iterator mv = eventMarkers_.begin(); mv!=eventMarkers_.end();++mv) {
155 for(std::vector<TMarker*>::iterator m = mv->second.begin(); m<mv->second.end();++m) {
156 (*m)->SetMarkerSize(0);
157 }
158 }
159 // loop over the elements and fill markers with event data
160 for(std::vector<DelphesBranchBase*>::iterator element = elements_->begin();element<elements_->end();++element) {
161 std::vector<TLorentzVector> vectors = (*element)->GetVectors();
162 std::sort(vectors.begin(), vectors.end(), vecsorter);
163 std::vector<TH1F*> hv = eventProfiles_[(*element)->GetName()];
164 TH1F* h1 = hv[0]; h1->Reset();
165 TH1F* h2 = hv[1]; h1->Reset();
166 TH1F* h3 = hv[2]; h1->Reset();
167 std::vector<TMarker*> mv = eventMarkers_[(*element)->GetName()];
168 for(std::vector<TLorentzVector>::iterator it=vectors.begin(); it<vectors.end();++it) {
169 h1->Fill(it->Pt());
170 h2->Fill(it->Eta());
171 h3->Fill(it->Phi());
172 if(it==vectors.begin()) {
173 mv[0]->SetX(it->Pt()); mv[0]->SetMarkerSize(3);
174 mv[1]->SetX(it->Eta()); mv[1]->SetMarkerSize(3);
175 mv[2]->SetX(it->Phi()); mv[2]->SetMarkerSize(3);
176 }
177 if(it==vectors.begin()+1) {
178 mv[3]->SetX(it->Pt()); mv[3]->SetMarkerSize(3);
179 mv[4]->SetX(it->Eta()); mv[4]->SetMarkerSize(3);
180 mv[5]->SetX(it->Phi()); mv[5]->SetMarkerSize(3);
181 }
182 }
183 }
184}
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