#include "display/DelphesPlotSummary.h" #include "TRootEmbeddedCanvas.h" #include bool vecsorter (TLorentzVector i,TLorentzVector j) { return (i.Pt()>j.Pt()); } DelphesPlotSummary::DelphesPlotSummary(TEveWindowTab* tab):tab_(tab) {} DelphesPlotSummary::~DelphesPlotSummary() {} //TODO: sort the vectors before filling. void DelphesPlotSummary::Init(std::vector& elements) { elements_ = &elements; // loop on the elements, and create tabs for(std::vector::iterator data=elements.begin();dataNewSlot(); TRootEmbeddedCanvas* trec = new TRootEmbeddedCanvas(); TCanvas* canvas = trec->GetCanvas(); TEveWindowFrame * wf = slot->MakeFrame(trec); wf->SetElementName((*data)->GetName()); canvas->Divide(3,3); canvases_[(*data)->GetName()] = canvas; // the histograms TH1F* h; std::vector histograms; histograms.reserve(9); h = new TH1F(Form("%sPt",(*data)->GetName()),Form("%s Pt",(*data)->GetName()),100,0,-1); histograms.push_back(h); h = new TH1F(Form("%sEta",(*data)->GetName()),Form("%s Eta",(*data)->GetName()),100,0,-1); histograms.push_back(h); h = new TH1F(Form("%sPhi",(*data)->GetName()),Form("%s Phi",(*data)->GetName()),100,0,-1); histograms.push_back(h); h = new TH1F(Form("l%sPt",(*data)->GetName()),Form("leading %s Pt",(*data)->GetName()),100,0,-1); histograms.push_back(h); h = new TH1F(Form("l%sEta",(*data)->GetName()),Form("leading %s Eta",(*data)->GetName()),100,0,-1); histograms.push_back(h); h = new TH1F(Form("l%sPhi",(*data)->GetName()),Form("leading %s Phi",(*data)->GetName()),100,0,-1); histograms.push_back(h); h = new TH1F(Form("sl%sPt",(*data)->GetName()),Form("subleading %s Pt",(*data)->GetName()),100,0,-1); histograms.push_back(h); h = new TH1F(Form("sl%sEta",(*data)->GetName()),Form("subleading %s Eta",(*data)->GetName()),100,0,-1); histograms.push_back(h); h = new TH1F(Form("sl%sPhi",(*data)->GetName()),Form("subleading %s Phi",(*data)->GetName()),100,0,-1); histograms.push_back(h); histograms_[(*data)->GetName()] = histograms; } } void DelphesPlotSummary::FillSample(ExRootTreeReader* treeReader, Int_t event_id) { for(Int_t i=0;iGetEntries();++i) { treeReader->ReadEntry(i); for(std::vector::iterator element = elements_->begin();elementend();++element) { std::vector vectors = (*element)->GetVectors(); std::sort(vectors.begin(), vectors.end(), vecsorter); std::vector histograms = histograms_[(*element)->GetName()]; for(std::vector::iterator it=vectors.begin(); itFill(it->Pt()); histograms[1]->Fill(it->Eta()); histograms[2]->Fill(it->Phi()); if(it==vectors.begin()) { histograms[3]->Fill(it->Pt()); histograms[4]->Fill(it->Eta()); histograms[5]->Fill(it->Phi()); } if(it==vectors.begin()+1) { histograms[6]->Fill(it->Pt()); histograms[7]->Fill(it->Eta()); histograms[8]->Fill(it->Phi()); } } } } treeReader->ReadEntry(event_id); } void DelphesPlotSummary::Draw() { for(std::map< TString, TCanvas* >::iterator it=canvases_.begin(); it!=canvases_.end(); ++it) { TCanvas* c = it->second; std::vector histograms = histograms_[it->first]; std::vector eventProfiles = eventProfiles_[it->first]; std::vector eventMarkers = eventMarkers_[it->first]; for(Int_t i=0;i<9;++i) { c->cd(i+1); histograms[i]->Draw(); if(i<3) { eventProfiles[i]->Draw("same"); } else { if(eventMarkers.size()>(unsigned int)(i-3)) { eventMarkers[i-3]->Draw("same"); } } } c->Update(); } } void DelphesPlotSummary::FillEvent() { // clear previous markers for(std::map< TString, std::vector >::iterator mv = eventMarkers_.begin(); mv!=eventMarkers_.end();++mv) { for(std::vector::iterator m = mv->second.begin(); msecond.end();++m) { delete *m; } } eventMarkers_.clear(); for(std::map< TString, std::vector >::iterator hv = eventProfiles_.begin(); hv!=eventProfiles_.end();++hv) { for(std::vector::iterator h = hv->second.begin(); hsecond.end();++h) { delete *h; } } eventProfiles_.clear(); // loop over the elements and fill markers with event data TMarker *m; for(std::vector::iterator element = elements_->begin();elementend();++element) { std::vector mv; std::vector vectors = (*element)->GetVectors(); std::sort(vectors.begin(), vectors.end(), vecsorter); std::vector histograms = histograms_[(*element)->GetName()]; TH1F* h1 = (TH1F*)histograms[0]->Clone(); h1->Reset(); h1->SetLineColor(kBlue); TH1F* h2 = (TH1F*)histograms[1]->Clone(); h2->Reset(); h2->SetLineColor(kBlue); TH1F* h3 = (TH1F*)histograms[2]->Clone(); h3->Reset(); h3->SetLineColor(kBlue); for(std::vector::iterator it=vectors.begin(); itFill(it->Pt()); h2->Fill(it->Eta()); h3->Fill(it->Phi()); if(it==vectors.begin()) { m = new TMarker(it->Pt(),0,29); m->SetMarkerColor(kBlue); m->SetMarkerSize(3); mv.push_back(m); m = new TMarker(it->Eta(),0,29); m->SetMarkerColor(kBlue); m->SetMarkerSize(3); mv.push_back(m); m = new TMarker(it->Phi(),0,29); m->SetMarkerColor(kBlue); m->SetMarkerSize(3); mv.push_back(m); } if(it==vectors.begin()+1) { m = new TMarker(it->Pt(),0,29); m->SetMarkerColor(kBlue); m->SetMarkerSize(3); mv.push_back(m); m = new TMarker(it->Eta(),0,29); m->SetMarkerColor(kBlue); m->SetMarkerSize(3); mv.push_back(m); m = new TMarker(it->Phi(),0,29); m->SetMarkerColor(kBlue); m->SetMarkerSize(3); mv.push_back(m); } } std::vector hv; hv.push_back(h1); hv.push_back(h2); hv.push_back(h3); eventProfiles_[(*element)->GetName()] = hv; eventMarkers_[(*element)->GetName()] = mv; } }