/// \file /// \ingroup tutorial_hist /// \notebook -js /// This tutorial illustrates how to create an histogram with polygonal /// bins (TH2Poly), fill it and draw it. The initial data are stored /// in TMultiGraphs. They represent the european countries. /// The histogram filling is done according to a Mercator projection, /// therefore the bin contains should be proportional to the real surface /// of the countries. /// /// The initial data have been downloaded from: http://www.maproom.psu.edu/dcw/ /// This database was developed in 1991/1992 and national boundaries reflect /// political reality as of that time. /// /// The script is shooting npoints (script argument) randomly over the Europe area. /// The number of points inside the countries should be proportional to the country surface /// The estimated surface is compared to the surfaces taken from wikipedia. /// /// \macro_image /// \macro_output /// \macro_code /// /// \author Olivier Couet void th2polyEurope(Int_t npoints=500000) { Int_t i,j; Double_t lon1 = -25; Double_t lon2 = 35; Double_t lat1 = 34; Double_t lat2 = 72; Double_t R = (lat2-lat1)/(lon2-lon1); Int_t W = 800; Int_t H = (Int_t)(R*800); gStyle->SetStatX(0.28); gStyle->SetStatY(0.45); gStyle->SetStatW(0.15); // Canvas used to draw TH2Poly (the map) TCanvas *ce = new TCanvas("ce", "ce",0,0,W,H); ce->ToggleEventStatus(); ce->SetGridx(); ce->SetGridy(); // Real surfaces taken from Wikipedia. const Int_t nx = 36; // see http://en.wikipedia.org/wiki/Area_and_population_of_European_countries const char *countries[nx] = { "france", "spain", "sweden", "germany", "finland", "norway", "poland", "italy", "yugoslavia", "united_kingdom", "romania", "belarus","greece", "czechoslovakia","bulgaria", "iceland", "hungary","portugal","austria", "ireland", "lithuania", "latvia", "estonia", "denmark", "netherlands", "switzerland","moldova","belgium", "albania", "cyprus", "luxembourg", "andorra","malta", "liechtenstein", "san_marino", "monaco" }; Float_t surfaces[nx] = { 547030, 505580, 449964, 357021, 338145, 324220, 312685, 301230, 255438, 244820, 237500, 207600, 131940, 127711, 110910, 103000, 93030, 89242, 83870, 70280, 65200, 64589, 45226, 43094, 41526, 41290, 33843, 30528, 28748, 9250, 2586, 468, 316, 160, 61, 2}; TH1F *h = new TH1F("h","Countries surfaces (in km^{2})",3,0,3); for (i=0; iFill(countries[i], surfaces[i]); h->LabelsDeflate(); TFile::SetCacheFileDir("."); TFile *f; f = TFile::Open("http://root.cern.ch/files/europe.root","cacheread"); if (!f) { printf("Cannot access europe.root. Is internet working ?\n"); return; } TH2Poly *p = new TH2Poly( "Europe", "Europe (bin contents are normalized to the surfaces in km^{2})", lon1,lon2,lat1,lat2); p->GetXaxis()->SetNdivisions(520); p->GetXaxis()->SetTitle("longitude"); p->GetYaxis()->SetTitle("latitude"); p->SetContour(100); TMultiGraph *mg; TKey *key; TIter nextkey(gDirectory->GetListOfKeys()); while ((key = (TKey*)nextkey())) { TObject *obj = key->ReadObj(); if (obj->InheritsFrom("TMultiGraph")) { mg = (TMultiGraph*)obj; p->AddBin(mg); } } TRandom r; Double_t longitude, latitude; Double_t x, y, pi4 = TMath::Pi()/4, alpha = TMath::Pi()/360; gBenchmark->Start("Partitioning"); p->ChangePartition(100, 100); gBenchmark->Show("Partitioning"); // Fill TH2Poly according to a Mercator projection. gBenchmark->Start("Filling"); for (i=0; iFill(x,y); } gBenchmark->Show("Filling"); Int_t nbins = p->GetNumberOfBins(); Double_t maximum = p->GetMaximum(); // h2 contains the surfaces computed from TH2Poly. TH1F *h2 = (TH1F *)h->Clone("h2"); h2->Reset(); for (j=0; jGetBinName(i+1))) { h2->Fill(countries[j],p->GetBinContent(i+1)); h2->SetBinError(j, p->GetBinError(i+1)); } } } // Normalize the TH2Poly bin contents to the real surfaces. Double_t scale = surfaces[0]/maximum; for (i=0; iSetBinContent(i+1, scale*p->GetBinContent(i+1)); gStyle->SetOptStat(1111); p->Draw("COLZ"); TCanvas *c1 = new TCanvas("c1", "c1",W+10,0,W-20,H); c1->SetRightMargin(0.047); scale = h->GetMaximum()/h2->GetMaximum(); h->SetStats(0); h->SetLineColor(kRed-3); h->SetLineWidth(2); h->SetMarkerStyle(20); h->SetMarkerColor(kBlue); h->SetMarkerSize(0.8); h->Draw("LP"); h->GetXaxis()->SetLabelFont(42); h->GetXaxis()->SetLabelSize(0.03); h->GetYaxis()->SetLabelFont(42); h2->Scale(scale); Double_t scale2=TMath::Sqrt(scale); for (i=0; iSetBinError(i+1, scale2*h2->GetBinError(i+1)); h2->Draw("E SAME"); h2->SetMarkerStyle(20); h2->SetMarkerSize(0.8); TLegend *leg = new TLegend(0.5,0.67,0.92,0.8,nullptr,"NDC"); leg->SetTextFont(42); leg->SetTextSize(0.025); leg->AddEntry(h,"Real countries surfaces from Wikipedia (in km^{2})","lp"); leg->AddEntry(h2,"Countries surfaces from TH2Poly (with errors)","lp"); leg->Draw(); leg->Draw(); Double_t wikiSum = h->Integral(); Double_t polySum = h2->Integral(); Double_t error = TMath::Abs(wikiSum-polySum)/wikiSum; printf("THPoly Europe surface estimation error wrt wikipedia = %f per cent when using %d points\n",100*error,npoints); }