void setTDRStyle() { TStyle *tdrStyle = new TStyle("tdrStyle","Style for P-TDR"); tdrStyle->SetCanvasBorderMode(0); tdrStyle->SetCanvasColor(kWhite); tdrStyle->SetCanvasDefH(600); tdrStyle->SetCanvasDefW(600); tdrStyle->SetCanvasDefX(0); tdrStyle->SetCanvasDefY(0); tdrStyle->SetPadBorderMode(0); tdrStyle->SetPadColor(kWhite); tdrStyle->SetFrameBorderMode(0); tdrStyle->SetFrameBorderSize(1); tdrStyle->SetFrameFillColor(0); tdrStyle->SetFrameFillStyle(0); tdrStyle->SetFrameLineColor(1); tdrStyle->SetFrameLineStyle(1); tdrStyle->SetFrameLineWidth(1); tdrStyle->SetHistLineColor(1); tdrStyle->SetHistLineStyle(0); tdrStyle->SetHistLineWidth(1); tdrStyle->SetEndErrorSize(2); tdrStyle->SetErrorX(0.); tdrStyle->SetMarkerStyle(20); tdrStyle->SetMarkerSize(2); tdrStyle->SetOptFit(1); tdrStyle->SetFitFormat("5.4g"); tdrStyle->SetFuncColor(2); tdrStyle->SetFuncStyle(1); tdrStyle->SetFuncWidth(1); tdrStyle->SetOptDate(0); tdrStyle->SetOptFile(0); tdrStyle->SetOptStat(0); tdrStyle->SetStatColor(kWhite); tdrStyle->SetStatFont(42); tdrStyle->SetStatFontSize(0.025); tdrStyle->SetStatTextColor(1); tdrStyle->SetStatFormat("6.4g"); tdrStyle->SetStatBorderSize(1); tdrStyle->SetStatH(0.1); tdrStyle->SetStatW(0.15); tdrStyle->SetPadTopMargin(0.05); tdrStyle->SetPadBottomMargin(0.13); tdrStyle->SetPadLeftMargin(0.10); tdrStyle->SetPadRightMargin(0.05); tdrStyle->SetOptTitle(0); tdrStyle->SetTitleFont(42); tdrStyle->SetTitleColor(1); tdrStyle->SetTitleTextColor(1); tdrStyle->SetTitleFillColor(10); tdrStyle->SetTitleFontSize(0.05); // For the axis labels: tdrStyle->SetLabelColor(1, "XYZ"); tdrStyle->SetLabelOffset(0.007, "XYZ"); tdrStyle->SetLabelSize(0.03, "XYZ"); tdrStyle->SetAxisColor(1, "XYZ"); tdrStyle->SetStripDecimals(kTRUE); tdrStyle->SetTickLength(0.03, "XYZ"); tdrStyle->SetNdivisions(510, "XYZ"); tdrStyle->SetPadTickX(1); tdrStyle->SetPadTickY(1); tdrStyle->SetOptLogx(0); tdrStyle->SetOptLogy(0); tdrStyle->SetOptLogz(0); tdrStyle->SetPaperSize(20.,20.); tdrStyle->cd(); }
void TDRStyle() { TStyle *TDRStyle = new TStyle("TDRStyle", "TDR style"); /// helvetica, size absolute // TDRStyle->font = 43 // TDRStyle->titleSize = 33 // TDRStyle->labelSize = 27 // TDRStyle->statSize = 14 /// for the canvas TDRStyle->SetCanvasBorderMode(0); TDRStyle->SetCanvasColor(kWhite); TDRStyle->SetCanvasDefH(600); // Height of canvas TDRStyle->SetCanvasDefW(600); // Width of canvas TDRStyle->SetCanvasDefX(0); // POsition on screen TDRStyle->SetCanvasDefY(0); /// For the Pad: TDRStyle->SetPadBorderMode(0); TDRStyle->SetPadColor(kWhite); TDRStyle->SetPadGridX(false); TDRStyle->SetPadGridY(false); TDRStyle->SetGridColor(0); TDRStyle->SetGridStyle(3); TDRStyle->SetGridWidth(1); /// For the frame: TDRStyle->SetFrameBorderMode(0); TDRStyle->SetFrameBorderSize(1); TDRStyle->SetFrameFillColor(0); TDRStyle->SetFrameFillStyle(0); TDRStyle->SetFrameLineColor(1); TDRStyle->SetFrameLineStyle(1); TDRStyle->SetFrameLineWidth(1); /// For the histo: TDRStyle->SetHistLineColor(1); TDRStyle->SetHistLineStyle(0); TDRStyle->SetHistLineWidth(1); TDRStyle->SetEndErrorSize(2); TDRStyle->SetErrorX(0.5); // needed for uncertainty histograms TDRStyle->SetMarkerStyle(20); /// For the fit/function: TDRStyle->SetOptFit(1); TDRStyle->SetFitFormat("5.4g"); TDRStyle->SetFuncColor(2); TDRStyle->SetFuncStyle(1); TDRStyle->SetFuncWidth(1); /// For the date: TDRStyle->SetOptDate(0);; /// For the statistics box: TDRStyle->SetOptFile(0); TDRStyle->SetOptStat(0); // To display the mean and RMS: SetOptStat("mr");; TDRStyle->SetStatColor(kWhite); TDRStyle->SetStatFont(43); TDRStyle->SetStatFontSize(14); TDRStyle->SetStatTextColor(1); TDRStyle->SetStatFormat("6.4g"); TDRStyle->SetStatBorderSize(1); TDRStyle->SetStatH(0.1); TDRStyle->SetStatW(0.15); /// Margins: TDRStyle->SetPadTopMargin(0.05); // default TDRStyle->SetPadBottomMargin(0.13); TDRStyle->SetPadLeftMargin(0.16); TDRStyle->SetPadRightMargin(0.05); // default /// For the Global title: TDRStyle->SetOptTitle(0); TDRStyle->SetTitleFont(43); TDRStyle->SetTitleColor(1); TDRStyle->SetTitleTextColor(1); TDRStyle->SetTitleFillColor(10); TDRStyle->SetTitleFontSize(27); /// For the axis titles: TDRStyle->SetTitleColor(1, "XYZ"); TDRStyle->SetTitleFont(43, "XYZ"); TDRStyle->SetTitleSize(33, "XYZ"); TDRStyle->SetTitleXOffset(0.9); TDRStyle->SetTitleYOffset(1.25); /// For the axis labels: TDRStyle->SetLabelColor(1, "XYZ"); TDRStyle->SetLabelFont(43, "XYZ"); TDRStyle->SetLabelOffset(0.007, "XYZ"); TDRStyle->SetLabelSize(27, "XYZ"); /// For the axis: TDRStyle->SetAxisColor(1, "XYZ"); TDRStyle->SetStripDecimals(true); TDRStyle->SetTickLength(0.03, "XYZ"); TDRStyle->SetNdivisions(510, "XYZ"); TDRStyle->SetPadTickX(1); /// To get tick marks on the opposite side of the frame TDRStyle->SetPadTickY(1); /// For the text boxes TDRStyle->SetTextFont(43+20); // Bold TDRStyle->SetTextSize(27); /// Change for log plots: TDRStyle->SetOptLogx(0); TDRStyle->SetOptLogy(0); TDRStyle->SetOptLogz(0); /// Postscript options: TDRStyle->SetPaperSize(20,20); TDRStyle->cd(); }
// Create my custom FORMAL style //********************************************************************// void getFormalStyle(void) { // std::cout << " *** void getFormalStyle(void) *** Custom TStyle initialized!" << std::endl; TStyle *formalStyle = new TStyle("formalStyle","Style for AN09"); // For the canvas: //******************** formalStyle->SetCanvasBorderMode(0); formalStyle->SetCanvasColor(kWhite); formalStyle->SetCanvasDefH(600); //Height of canvas formalStyle->SetCanvasDefW(600); //Width of canvas formalStyle->SetCanvasDefX(0); //POsition on screen formalStyle->SetCanvasDefY(0); // For the Pad: //******************** formalStyle->SetPadBorderMode(0); formalStyle->SetOptTitle(0); // delete histogram titles // formalStyle->SetPadBorderSize(Width_t size = 1); formalStyle->SetPadColor(kWhite); formalStyle->SetPadGridX(false); formalStyle->SetPadGridY(false); formalStyle->SetGridColor(0); formalStyle->SetGridStyle(3); formalStyle->SetGridWidth(1); // For the frame: //******************** formalStyle->SetFrameBorderMode(0); formalStyle->SetFrameBorderSize(1); formalStyle->SetFrameFillColor(0); formalStyle->SetFrameFillStyle(0); formalStyle->SetFrameLineColor(1); formalStyle->SetFrameLineStyle(1); formalStyle->SetFrameLineWidth(1); // For the histo: //******************** // formalStyle->SetHistFillColor(1); // formalStyle->SetHistFillStyle(0); formalStyle->SetHistLineColor(1); formalStyle->SetHistLineStyle(0); formalStyle->SetHistLineWidth(1); // formalStyle->SetLegoInnerR(Float_t rad = 0.5); // formalStyle->SetNumberContours(Int_t number = 20); formalStyle->SetEndErrorSize(2); //formalStyle->SetErrorMarker(20); formalStyle->SetErrorX(0.); formalStyle->SetMarkerStyle(20); //For the fit/function: //******************** formalStyle->SetOptFit(1); formalStyle->SetFitFormat("5.4g"); formalStyle->SetFuncColor(2); formalStyle->SetFuncStyle(1); formalStyle->SetFuncWidth(1); //For the date: //******************** formalStyle->SetOptDate(0); // formalStyle->SetDateX(Float_t x = 0.01); // formalStyle->SetDateY(Float_t y = 0.01); // For the statistics box: //******************** formalStyle->SetOptFile(0); formalStyle->SetOptStat(0); // stats box formalStyle->SetOptFit(0000); // fit box formalStyle->SetStatColor(kWhite); formalStyle->SetStatFont(42); formalStyle->SetStatFontSize(0.025); formalStyle->SetStatTextColor(1); formalStyle->SetStatFormat("6.4g"); formalStyle->SetStatBorderSize(1); formalStyle->SetStatH(0.1); formalStyle->SetStatW(0.15); // formalStyle->SetStatStyle(Style_t style = 1001); // formalStyle->SetStatX(Float_t x = 0); // formalStyle->SetStatY(Float_t y = 0); // Margins: //******************** formalStyle->SetPadTopMargin(0.15); formalStyle->SetPadBottomMargin(0.13); formalStyle->SetPadLeftMargin(0.13); formalStyle->SetPadRightMargin(0.15); // For the Global title: //******************** // formalStyle->SetOptTitle(0); formalStyle->SetTitleFont(42); formalStyle->SetTitleColor(1); formalStyle->SetTitleTextColor(1); formalStyle->SetTitleFillColor(10); formalStyle->SetTitleFontSize(0.05); // formalStyle->SetTitleH(0); // Set the height of the title box // formalStyle->SetTitleW(0); // Set the width of the title box // formalStyle->SetTitleX(0); // Set the position of the title box // formalStyle->SetTitleY(0.985); // Set the position of the title box // formalStyle->SetTitleStyle(Style_t style = 1001); // formalStyle->SetTitleBorderSize(2); // For the axis titles: //******************** formalStyle->SetTitleColor(1, "XYZ"); formalStyle->SetTitleFont(42, "XYZ"); formalStyle->SetTitleSize(0.06, "XYZ"); // formalStyle->SetTitleXSize(Float_t size = 0.02); // Another way to set the size? // formalStyle->SetTitleYSize(Float_t size = 0.02); formalStyle->SetTitleXOffset(1.2); formalStyle->SetTitleYOffset(1.2); // For the axis labels: //******************** // formalStyle->SetLabelColor(1, "XYZ"); // formalStyle->SetLabelFont(42, "XYZ"); // formalStyle->SetLabelOffset(0.007, "XYZ"); // formalStyle->SetLabelSize(0.05, "XYZ"); // For the axis: //******************** formalStyle->SetAxisColor(1, "XYZ"); // formalStyle->SetStripDecimals(kTRUE); // formalStyle->SetTickLength(0.03, "XYZ"); // formalStyle->SetNdivisions(510, "XYZ"); // formalStyle->SetPadTickX(1); // To get tick marks on the opposite side of the frame // formalStyle->SetPadTickY(1); // Change for log plots: formalStyle->SetOptLogx(0); formalStyle->SetOptLogy(0); formalStyle->SetOptLogz(0); formalStyle->SetPalette(1,0); formalStyle->cd(); } //end of: void getTStyle(void){
void roc_plot(){ TStyle *tdrStyle = new TStyle("tdrStyle","Style for P-TDR"); // For the canvas: tdrStyle->SetCanvasBorderMode(0); tdrStyle->SetCanvasColor(kWhite); tdrStyle->SetCanvasDefH(600); //Height of canvas tdrStyle->SetCanvasDefW(600); //Width of canvas tdrStyle->SetCanvasDefX(0); //POsition on screen tdrStyle->SetCanvasDefY(0); // For the Pad: tdrStyle->SetPadBorderMode(0); tdrStyle->SetPadColor(kWhite); tdrStyle->SetPadGridX(true); tdrStyle->SetPadGridY(true); tdrStyle->SetGridColor(0); tdrStyle->SetGridStyle(3); tdrStyle->SetGridWidth(1); // For the frame: tdrStyle->SetFrameBorderMode(0); tdrStyle->SetFrameBorderSize(1); tdrStyle->SetFrameFillColor(0); tdrStyle->SetFrameFillStyle(0); tdrStyle->SetFrameLineColor(1); tdrStyle->SetFrameLineStyle(1); tdrStyle->SetFrameLineWidth(1); // For the histo: tdrStyle->SetHistLineColor(1); tdrStyle->SetHistLineStyle(0); tdrStyle->SetHistLineWidth(1); tdrStyle->SetEndErrorSize(2); tdrStyle->SetErrorX(0.); tdrStyle->SetMarkerStyle(20); //For the fit/function: tdrStyle->SetOptFit(1); tdrStyle->SetFitFormat("5.4g"); tdrStyle->SetFuncColor(2); tdrStyle->SetFuncStyle(1); tdrStyle->SetFuncWidth(1); //For the date: tdrStyle->SetOptDate(0); // For the statistics box: tdrStyle->SetOptFile(0); tdrStyle->SetOptStat("emr"); // To display the mean and RMS: SetOptStat("mr"); tdrStyle->SetStatColor(kWhite); tdrStyle->SetStatFont(42); tdrStyle->SetStatFontSize(0.025); tdrStyle->SetStatTextColor(1); tdrStyle->SetStatFormat("6.4g"); tdrStyle->SetStatBorderSize(1); tdrStyle->SetStatH(0.1); tdrStyle->SetStatW(0.15); // Margins: tdrStyle->SetPadTopMargin(0.05); tdrStyle->SetPadBottomMargin(0.13); tdrStyle->SetPadLeftMargin(0.13); tdrStyle->SetPadRightMargin(0.05); // For the Global title: tdrStyle->SetOptTitle(0); tdrStyle->SetTitleFont(42); tdrStyle->SetTitleColor(1); tdrStyle->SetTitleTextColor(1); tdrStyle->SetTitleFillColor(10); tdrStyle->SetTitleFontSize(0.05); // For the axis titles: tdrStyle->SetTitleColor(1, "XYZ"); tdrStyle->SetTitleFont(42, "XYZ"); tdrStyle->SetTitleSize(0.06, "XYZ"); tdrStyle->SetTitleXOffset(0.9); tdrStyle->SetTitleYOffset(1.05); // For the axis labels: tdrStyle->SetLabelColor(1, "XYZ"); tdrStyle->SetLabelFont(42, "XYZ"); tdrStyle->SetLabelOffset(0.007, "XYZ"); tdrStyle->SetLabelSize(0.05, "XYZ"); // For the axis: tdrStyle->SetAxisColor(1, "XYZ"); tdrStyle->SetStripDecimals(kTRUE); tdrStyle->SetTickLength(0.03, "XYZ"); tdrStyle->SetNdivisions(510, "XYZ"); tdrStyle->SetPadTickX(1); // To get tick marks on the opposite side of the frame tdrStyle->SetPadTickY(1); // Change for log plots: tdrStyle->SetOptLogx(0); tdrStyle->SetOptLogy(0); tdrStyle->SetOptLogz(0); // Postscript options: tdrStyle->SetPaperSize(20.,20.); tdrStyle->SetPalette(1); gROOT -> ForceStyle(); tdrStyle->cd(); gStyle->SetOptStat(0111); gStyle->SetOptFit(1111); int bkg = 787623.93; int sig = 9313.; const int n = 5; //minmet //Double_t cut[n] = {10,15,20,25,30,35,40,45,50,55} ; //pvalue //Double_t cut[n] = {0,0.5,1,1.5,2,2.5,3,3.5,4.0}; //metsig Double_t cut[n] = {5,10,15,20,25}; //minmet //Double_t sensitivity_bkg_n[n]={660142.26/bkg,551026.78/bkg,444547.21/bkg,354649.92/bkg,283093.63/bkg ,227934.73/bkg ,187564.23/bkg,158191.46/bkg,103089.49/bkg,68423.49/bkg}; //Double_t sensitivity_sig_n[n]={9274./sig ,9233./sig,9172./sig,9089./sig,8995./sig,8870./sig,8718./sig,8539./sig,7398./sig,6497./sig}; //pvalue //Double_t sensitivity_bkg_n[n]={787623.93/bkg,290416.84/bkg, 166165.65/bkg, 87792.43/bkg, 49447.43/bkg, 30536.76/bkg, 19869.09/bkg, 13705.00/bkg, 10075.21/bkg}; //Double_t sensitivity_sig_n[n]={9313./sig,9005./sig, 8499./sig,7547./sig,6508./sig,5579./sig,4832./sig,4213./sig,3649./sig}; //metsig Double_t sensitivity_bkg_n[n]={579088.98/bkg,94310.14/bkg, 13034.68/bkg,2503.93./bkg,756.13./bkg}; Double_t sensitivity_sig_n[n]={9045./sig,7492./sig,5899./sig,4654./sig,3726./sig}; sensitivity_bkg = new TGraph(n,cut,sensitivity_bkg_n); sensitivity_sig = new TGraph(n,cut,sensitivity_sig_n); //Double_t xdummy[2] = {10,55}; //Double_t xdummy[2] = {-0.1,3}; Double_t xdummy[2] = {0,25}; Double_t ydummy[2] = {0.0,1.0}; dummy = new TGraph(2,xdummy,ydummy); dummy->SetLineColor(0); dummy->SetLineWidth(0); dummy->SetMarkerColor(0); dummy->SetMarkerSize(0); dummy->Draw("AP*"); dummy->GetYaxis()->SetTitle("Efficiency"); //dummy->GetXaxis()->SetTitle("Minimized #slash{E}_{T} Cut [GeV]"); //dummy->GetXaxis()->SetTitle("|Log10(P_{#Chi^{2}})|"); dummy->GetXaxis()->SetTitle("Met Significance"); dummy->GetYaxis()->SetLabelSize(0.04); dummy->GetXaxis()->SetLabelSize(0.04); sensitivity_bkg->SetLineColor(2); sensitivity_bkg->SetMarkerColor(2); sensitivity_sig->SetLineColor(4); sensitivity_sig->SetMarkerColor(4); sensitivity_bkg->Draw("LPSame"); sensitivity_sig->Draw("LPSame"); //legend = new TLegend(.70,.70,.90,.90,"Final Selection e/#mu+jets"); legend = new TLegend(0.1845638,0.2027972,0.3674497,0.3024476,NULL,"brNDC"); legend->AddEntry(sensitivity_bkg, "#gamma + Jets", "lp"); legend->AddEntry(sensitivity_sig, "Z (#nu#nu) #gamma" , "lp"); legend->SetShadowColor(0); legend->SetFillColor(0); legend->SetLineColor(0); legend->Draw("Same"); latex2 = new TLatex(); latex2->SetNDC(); latex2->SetTextSize(0.04); latex2->SetTextAlign(31); latex2->DrawLatex(0.87, 0.96, "CMS Preliminary, #sqrt{s} = 8 TeV"); }
TStyle* createMyStyle() { TStyle *myStyle = new TStyle("myStyle", "myStyle"); // For the canvas: myStyle->SetCanvasBorderMode(0); myStyle->SetCanvasColor(kWhite); myStyle->SetCanvasDefH(800); //Height of canvas myStyle->SetCanvasDefW(800); //Width of canvas myStyle->SetCanvasDefX(0); //POsition on screen myStyle->SetCanvasDefY(0); // For the Pad: myStyle->SetPadBorderMode(0); myStyle->SetPadColor(kWhite); myStyle->SetPadGridX(false); myStyle->SetPadGridY(false); myStyle->SetGridColor(0); myStyle->SetGridStyle(3); myStyle->SetGridWidth(1); // For the frame: myStyle->SetFrameBorderMode(0); myStyle->SetFrameBorderSize(1); myStyle->SetFrameFillColor(0); myStyle->SetFrameFillStyle(0); myStyle->SetFrameLineColor(1); myStyle->SetFrameLineStyle(1); myStyle->SetFrameLineWidth(1); // For the histo: myStyle->SetHistLineStyle(1); myStyle->SetHistLineWidth(2); myStyle->SetEndErrorSize(2); //For the fit/function: myStyle->SetFitFormat("5.4g"); myStyle->SetFuncColor(2); myStyle->SetFuncStyle(1); myStyle->SetFuncWidth(1); // For the statistics box: myStyle->SetOptFile(0); myStyle->SetStatColor(kWhite); //myStyle->SetStatFont(43); //myStyle->SetStatFontSize(0.025); myStyle->SetStatTextColor(1); myStyle->SetStatFormat("6.4g"); myStyle->SetStatBorderSize(1); myStyle->SetStatH(0.12); myStyle->SetStatW(0.3); myStyle->SetStatY(0.92); myStyle->SetStatX(0.94); //For the date: myStyle->SetOptDate(0); // Margins: myStyle->SetPadTopMargin(TOP_MARGIN); myStyle->SetPadBottomMargin(BOTTOM_MARGIN); myStyle->SetPadLeftMargin(LEFT_MARGIN); myStyle->SetPadRightMargin(RIGHT_MARGIN); // For the Global title: myStyle->SetOptTitle(0); myStyle->SetTitleFont(63); myStyle->SetTitleColor(1); myStyle->SetTitleTextColor(1); myStyle->SetTitleFillColor(10); myStyle->SetTitleBorderSize(0); myStyle->SetTitleAlign(33); myStyle->SetTitleX(1); myStyle->SetTitleFontSize(TITLE_FONTSIZE); // For the axis titles: myStyle->SetTitleColor(1, "XYZ"); myStyle->SetTitleFont(43, "XYZ"); myStyle->SetTitleSize(TITLE_FONTSIZE, "XYZ"); myStyle->SetTitleYOffset(2.); myStyle->SetTitleXOffset(1.25); myStyle->SetLabelColor(1, "XYZ"); myStyle->SetLabelFont(43, "XYZ"); myStyle->SetLabelOffset(0.01, "YZ"); myStyle->SetLabelOffset(0.015, "X"); myStyle->SetLabelSize(LABEL_FONTSIZE, "XYZ"); myStyle->SetAxisColor(1, "XYZ"); myStyle->SetStripDecimals(kTRUE); myStyle->SetTickLength(0.03, "XYZ"); myStyle->SetNdivisions(510, "XYZ"); myStyle->SetPadTickX(1); // To get tick marks on the opposite side of the frame myStyle->SetPadTickY(1); myStyle->SetOptLogx(0); myStyle->SetOptLogy(0); myStyle->SetOptLogz(0); myStyle->SetHatchesSpacing(1.3); myStyle->SetHatchesLineWidth(1); myStyle->cd(); return myStyle; }
void Style_Toby_2() { // Add the saved style to the current ROOT session. delete gROOT->GetStyle("Toby_2"); TStyle *tmpStyle = new TStyle("Toby_2", "Style for posters and talks"); tmpStyle->SetNdivisions(510, "x"); tmpStyle->SetNdivisions(510, "y"); tmpStyle->SetNdivisions(510, "z"); tmpStyle->SetAxisColor(1, "x"); tmpStyle->SetAxisColor(1, "y"); tmpStyle->SetAxisColor(1, "z"); tmpStyle->SetLabelColor(1, "x"); tmpStyle->SetLabelColor(1, "y"); tmpStyle->SetLabelColor(1, "z"); tmpStyle->SetLabelFont(42, "x"); tmpStyle->SetLabelFont(42, "y"); tmpStyle->SetLabelFont(42, "z"); tmpStyle->SetLabelOffset(0.005, "x"); tmpStyle->SetLabelOffset(0.005, "y"); tmpStyle->SetLabelOffset(0.005, "z"); tmpStyle->SetLabelSize(0.035, "x"); tmpStyle->SetLabelSize(0.035, "y"); tmpStyle->SetLabelSize(0.035, "z"); tmpStyle->SetTickLength(0.03, "x"); tmpStyle->SetTickLength(0.03, "y"); tmpStyle->SetTickLength(0.03, "z"); tmpStyle->SetTitleOffset(1, "x"); tmpStyle->SetTitleOffset(1, "y"); tmpStyle->SetTitleOffset(1, "z"); tmpStyle->SetTitleSize(0.035, "x"); tmpStyle->SetTitleSize(0.035, "y"); tmpStyle->SetTitleSize(0.035, "z"); tmpStyle->SetTitleColor(1, "x"); tmpStyle->SetTitleColor(1, "y"); tmpStyle->SetTitleColor(1, "z"); tmpStyle->SetTitleFont(42, "x"); tmpStyle->SetTitleFont(42, "y"); tmpStyle->SetTitleFont(42, "z"); tmpStyle->SetBarWidth(1); tmpStyle->SetBarOffset(0); tmpStyle->SetDrawBorder(0); tmpStyle->SetOptLogx(0); tmpStyle->SetOptLogy(0); tmpStyle->SetOptLogz(0); tmpStyle->SetOptDate(0); tmpStyle->SetOptStat(111); tmpStyle->SetOptTitle(kTRUE); tmpStyle->SetOptFit(0); tmpStyle->SetNumberContours(20); tmpStyle->GetAttDate()->SetTextFont(62); tmpStyle->GetAttDate()->SetTextSize(0.025); tmpStyle->GetAttDate()->SetTextAngle(0); tmpStyle->GetAttDate()->SetTextAlign(11); tmpStyle->GetAttDate()->SetTextColor(1); tmpStyle->SetDateX(0.01); tmpStyle->SetDateY(0.01); tmpStyle->SetEndErrorSize(2); tmpStyle->SetErrorX(0.5); tmpStyle->SetFuncColor(2); tmpStyle->SetFuncStyle(1); tmpStyle->SetFuncWidth(2); tmpStyle->SetGridColor(0); tmpStyle->SetGridStyle(3); tmpStyle->SetGridWidth(1); tmpStyle->SetLegendBorderSize(1); tmpStyle->SetLegendFillColor(0); tmpStyle->SetLegendFont(42); tmpStyle->SetHatchesLineWidth(1); tmpStyle->SetHatchesSpacing(1); tmpStyle->SetFrameFillColor(0); tmpStyle->SetFrameLineColor(1); tmpStyle->SetFrameFillStyle(1001); tmpStyle->SetFrameLineStyle(1); tmpStyle->SetFrameLineWidth(1); tmpStyle->SetFrameBorderSize(1); tmpStyle->SetFrameBorderMode(0); tmpStyle->SetHistFillColor(0); tmpStyle->SetHistLineColor(602); tmpStyle->SetHistFillStyle(1001); tmpStyle->SetHistLineStyle(1); tmpStyle->SetHistLineWidth(1); tmpStyle->SetHistMinimumZero(kFALSE); tmpStyle->SetCanvasPreferGL(kFALSE); tmpStyle->SetCanvasColor(0); tmpStyle->SetCanvasBorderSize(2); tmpStyle->SetCanvasBorderMode(0); tmpStyle->SetCanvasDefH(500); tmpStyle->SetCanvasDefW(700); tmpStyle->SetCanvasDefX(10); tmpStyle->SetCanvasDefY(10); tmpStyle->SetPadColor(0); tmpStyle->SetPadBorderSize(2); tmpStyle->SetPadBorderMode(0); tmpStyle->SetPadBottomMargin(0.1); tmpStyle->SetPadTopMargin(0.1); tmpStyle->SetPadLeftMargin(0.1); tmpStyle->SetPadRightMargin(0.1); tmpStyle->SetPadGridX(kFALSE); tmpStyle->SetPadGridY(kFALSE); tmpStyle->SetPadTickX(0); tmpStyle->SetPadTickY(0); tmpStyle->SetPaperSize(20, 26); tmpStyle->SetScreenFactor(1); tmpStyle->SetStatColor(0); tmpStyle->SetStatTextColor(1); tmpStyle->SetStatBorderSize(1); tmpStyle->SetStatFont(42); tmpStyle->SetStatFontSize(0); tmpStyle->SetStatStyle(1001); tmpStyle->SetStatFormat("6.4g"); tmpStyle->SetStatX(0.9); tmpStyle->SetStatY(0.97); tmpStyle->SetStatW(0.15); tmpStyle->SetStatH(0.16); tmpStyle->SetStripDecimals(kTRUE); tmpStyle->SetTitleAlign(23); tmpStyle->SetTitleFillColor(0); tmpStyle->SetTitleTextColor(1); tmpStyle->SetTitleBorderSize(0); tmpStyle->SetTitleFont(42); tmpStyle->SetTitleFontSize(0.05); tmpStyle->SetTitleStyle(0); tmpStyle->SetTitleX(0.5); tmpStyle->SetTitleY(0.995); tmpStyle->SetTitleW(0); tmpStyle->SetTitleH(0); tmpStyle->SetLegoInnerR(0.5); Int_t fPaletteColor[50] = {51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100}; tmpStyle->SetPalette(50, fPaletteColor); TString fLineStyleArrayTmp[30] = {"", " ", " 12 12", " 4 8", " 12 16 4 16", " 20 12 4 12", " 20 12 4 12 4 12 4 12", " 20 20", " 20 12 4 12 4 12", " 80 20", " 80 40 4 40", " ", " ", " ", " ", " ", " ", " ", " ", " ", " ", " ", " ", " ", " ", " ", " ", " ", " ", " "}; for (Int_t i=0; i<30; i++) tmpStyle->SetLineStyleString(i, fLineStyleArrayTmp[i]); tmpStyle->SetHeaderPS(""); tmpStyle->SetTitlePS(""); tmpStyle->SetFitFormat("5.4g"); tmpStyle->SetPaintTextFormat("g"); tmpStyle->SetLineScalePS(3); tmpStyle->SetColorModelPS(0); tmpStyle->SetTimeOffset(788918400); tmpStyle->SetLineColor(1); tmpStyle->SetLineStyle(1); tmpStyle->SetLineWidth(1); tmpStyle->SetFillColor(19); tmpStyle->SetFillStyle(1001); tmpStyle->SetMarkerColor(1); tmpStyle->SetMarkerSize(1); tmpStyle->SetMarkerStyle(1); tmpStyle->SetTextAlign(11); tmpStyle->SetTextAngle(0); tmpStyle->SetTextColor(1); tmpStyle->SetTextFont(62); tmpStyle->SetTextSize(0.05); }
void SetStyle() { TStyle *MYStyle = new TStyle("Style","Style"); gStyle = MYStyle; // Canvas MYStyle->SetCanvasColor (0); MYStyle->SetCanvasBorderSize(10); MYStyle->SetCanvasBorderMode(0); MYStyle->SetCanvasDefH (700); MYStyle->SetCanvasDefW (700); MYStyle->SetCanvasDefX (100); MYStyle->SetCanvasDefY (100); // Pads MYStyle->SetPadColor (0); MYStyle->SetPadBorderSize (10); MYStyle->SetPadBorderMode (0); MYStyle->SetPadBottomMargin(0.13); MYStyle->SetPadTopMargin (0.08); MYStyle->SetPadLeftMargin (0.15); MYStyle->SetPadRightMargin (0.05); MYStyle->SetPadGridX (0); MYStyle->SetPadGridY (0); MYStyle->SetPadTickX (0); MYStyle->SetPadTickY (0); // Frames MYStyle->SetFrameFillStyle ( 0); MYStyle->SetFrameFillColor ( 0); MYStyle->SetFrameLineColor ( 1); MYStyle->SetFrameLineStyle ( 0); MYStyle->SetFrameLineWidth ( 1); MYStyle->SetFrameBorderSize(10); MYStyle->SetFrameBorderMode( 0); // Histograms MYStyle->SetHistFillColor(2); // MYStyle->SetHistFillStyle(0); MYStyle->SetHistLineColor(1); MYStyle->SetHistLineStyle(0); MYStyle->SetHistLineWidth(2); MYStyle->SetNdivisions(505); // Functions MYStyle->SetFuncColor(1); MYStyle->SetFuncStyle(0); MYStyle->SetFuncWidth(2); // Various MYStyle->SetMarkerStyle(20); MYStyle->SetMarkerColor(kBlack); MYStyle->SetMarkerSize (1.2); MYStyle->SetTitleSize (0.055,"X"); MYStyle->SetTitleOffset(1.050,"X"); MYStyle->SetLabelOffset(0.005,"X"); MYStyle->SetLabelSize (0.045,"X"); MYStyle->SetLabelFont (42 ,"X"); MYStyle->SetStripDecimals(kFALSE); MYStyle->SetTitleSize (0.055,"Y"); MYStyle->SetTitleOffset(1.400,"Y"); MYStyle->SetLabelOffset(0.010,"Y"); MYStyle->SetLabelSize (0.045,"Y"); MYStyle->SetLabelFont (42 ,"Y"); MYStyle->SetTextSize (0.055); MYStyle->SetTextFont (42); MYStyle->SetStatFont (42); MYStyle->SetTitleFont (42); MYStyle->SetTitleFont (42,"X"); MYStyle->SetTitleFont (42,"Y"); MYStyle->SetOptStat (0); MYStyle->SetPalette (1); return; }
int main() { gROOT->Reset(); TStyle * Sty = new TStyle("MyStyle","MyStyle"); Sty->SetOptTitle(0); Sty->SetOptStat(0); Sty->SetPalette(8,0); Sty->SetCanvasColor(10); Sty->SetCanvasBorderMode(0); Sty->SetFrameLineWidth(3); Sty->SetFrameFillColor(10); Sty->SetPadColor(10); Sty->SetPadTickX(1); Sty->SetPadTickY(1); Sty->SetPadBottomMargin(.2); Sty->SetPadLeftMargin(.2); Sty->SetHistLineWidth(3); Sty->SetHistLineColor(kRed); Sty->SetFuncWidth(3); Sty->SetFuncColor(kGreen); Sty->SetLineWidth(3); Sty->SetLabelSize(0.06,"xyz"); Sty->SetLabelOffset(0.02,"y"); Sty->SetLabelOffset(0.02,"x"); Sty->SetLabelColor(kBlack,"xyz"); Sty->SetTitleSize(0.06,"xyz"); Sty->SetTitleOffset(1.4,"y"); Sty->SetTitleOffset(1.3,"x"); Sty->SetTitleFillColor(10); Sty->SetTitleTextColor(kBlack); Sty->SetTickLength(.05,"xz"); Sty->SetTickLength(.025,"y"); Sty->SetNdivisions(5,"xyz"); Sty->SetEndErrorSize(0); gROOT->SetStyle("MyStyle"); gROOT->ForceStyle(); line FermiN; line N0s12; line N0p32; line N0p12; line N0d52; line N1s12; line N0d32; line N0f72; line N0f52; line N1p12; line N1p32; line N0g92; line N1d52; line NN0d52; line NN0d32; line NN1s12; line NN0f72; line NN1p12; line NN1p32; line NN0f52; line FermiP; line P0s12; line P0p32; line P0p12; line P0d52; line P1s12; line P0d32; line P0f72; line P0f52; line P1p12; line P1p32; line P0g92; line P1d52; line PP0d52; line PP0d32; line PP1s12; line PP0f72; line PP1p12; line PP1p32; line PP0f52; float z,a,three,Efermi; //TFile *f = new TFile("alev.root","RECREATE"); char stuff[100]; ostringstream outstring; string name; ifstream file; int Nneut = 0; float j,energy,RMS,occup,spect,Delta; float error,RMSerror,spectError,DeltaError; int l,N,colour,Efit,Rfit,Dfit,sfit; // neutrons for (int A=36;A<74;A+=2) { outstring.str(""); outstring << "nca" << A << ".inp"; name = outstring.str(); file.open(name.c_str()); if (file.fail()) { cout << name << " not opened " << endl; file.clear(); continue; } Nneut++; file >> three >> z >> a >> Efermi; file.close(); file.clear(); if (Efermi == 0.) { outstring.str(""); outstring << "nca" << A << ".fermi"; name = outstring.str(); file.open(name.c_str()); if (file.fail()) { cout << name << " not opened " << endl; file.clear(); continue; } file >> Efermi; file.close(); file.clear(); } cout << Efermi << endl; FermiN.add((float)A,Efermi); outstring.str(""); outstring << "nca" << A << ".level"; name = outstring.str(); file.open(name.c_str()); if (file.fail()) { cout << name << " not opened " << endl; file.clear(); continue; } file.getline(stuff,100); for (;;) { file >> N >> j >> l >> energy >> RMS >> occup >> spect >> Delta>> colour; if (file.eof())break; if (l == 0 && j == 0.5 && N ==0 ) N0s12.add((float)A,energy); if (l == 0 && j == 0.5 && N ==1 ) N1s12.add((float)A,energy); if (l == 1 && j == 0.5 && N ==0 ) N0p12.add((float)A,energy); if (l == 1 && j == 1.5 && N ==0 ) N0p32.add((float)A,energy); if (l == 2 && j == 2.5 && N ==0 ) N0d52.add((float)A,energy); if (l == 2 && j == 1.5 && N ==0 ) N0d32.add((float)A,energy); if (l == 3 && j == 3.5 && N ==0 ) N0f72.add((float)A,energy); if (l == 3 && j == 2.5 && N ==0 ) N0f52.add((float)A,energy); if (l == 1 && j == 0.5 && N ==1 ) N1p12.add((float)A,energy); if (l == 1 && j == 1.5 && N ==1 ) N1p32.add((float)A,energy); if (l == 4 && j == 4.5 && N ==0 ) N0g92.add((float)A,energy); if (l == 2 && j == 2.5 && N ==1 ) N1d52.add((float)A,energy); } file.close(); file.clear(); outstring.str(""); outstring << "nca" << A << ".lev"; name = outstring.str(); file.open(name.c_str()); if (file.fail()) { cout << name << " not opened " << endl; file.clear(); continue; } file.getline(stuff,100); file.getline(stuff,100); for (;;) { file >> energy >> error >> N >> j >> l >> colour >>Efit>> RMS >> RMSerror >> Rfit >> Delta>>DeltaError >> Dfit >> spect>>spectError>>sfit; if (file.eof())break; //if (l == 0 && j == 0.5 && N ==0 ) NN0s12.add((float)A,energy); if (l == 0 && j == 0.5 && N ==1 ) NN1s12.add((float)A,energy); //if (l == 1 && j == 0.5 && N ==0 ) NN0p12.add((float)A,energy); //if (l == 1 && j == 1.5 && N ==0 ) NN0p32.add((float)A,energy); if (l == 2 && j == 2.5 && N ==0 ) NN0d52.add((float)A,energy); if (l == 2 && j == 1.5 && N ==0 ) NN0d32.add((float)A,energy); if (l == 3 && j == 3.5 && N ==0 ) NN0f72.add((float)A,energy); if (l == 3 && j == 2.5 && N ==0 ) NN0f52.add((float)A,energy); //if (l == 3 && j == 2.5 && N ==0 ) NN0f52.add((float)A,energy); if (l == 1 && j == 0.5 && N ==1 ) NN1p12.add((float)A,energy); if (l == 1 && j == 1.5 && N ==1 ) NN1p32.add((float)A,energy); //if (l == 4 && j == 4.5 && N ==0 ) NN0g92.add((float)A,energy); } file.close(); file.clear(); }
void SetStyle() { TH1::SetDefaultSumw2(); gROOT->SetStyle("Plain"); TStyle *MITStyle = new TStyle("MIT-Style","The Perfect Style for Plots ;-)"); gStyle = MITStyle; gStyle->SetTitleSize(0.08,"t");// gStyle->SetTitleX(0.8); gStyle->SetTitleW(0.3); gStyle->SetFrameFillColor(2); gStyle->SetFrameLineColor(2); // Canvas MITStyle->SetCanvasColor (0); MITStyle->SetCanvasBorderSize(10); MITStyle->SetCanvasBorderMode(0); MITStyle->SetCanvasDefH (500); MITStyle->SetCanvasDefW (550); // MITStyle->SetCanvasDefX (100); // MITStyle->SetCanvasDefY (100); // Pads MITStyle->SetPadColor (0); // MITStyle->SetPadBorderSize (10); MITStyle->SetPadBorderMode (0); MITStyle->SetPadBottomMargin(0.18); MITStyle->SetPadTopMargin (0.06); MITStyle->SetPadLeftMargin (0.22); MITStyle->SetPadRightMargin (0.06); MITStyle->SetPadGridX (0); MITStyle->SetPadGridY (0); MITStyle->SetPadTickX (1); MITStyle->SetPadTickY (1); // Frames MITStyle->SetFrameFillStyle ( 0); MITStyle->SetFrameFillColor ( 0); MITStyle->SetFrameLineColor ( 1); MITStyle->SetFrameLineStyle ( 0); MITStyle->SetFrameLineWidth ( 1); // MITStyle->SetFrameBorderSize(10); MITStyle->SetFrameBorderMode( 0); // Histograms MITStyle->SetHistLineColor(1); MITStyle->SetHistLineStyle(0); MITStyle->SetHistLineWidth(3); MITStyle->SetNdivisions(505,"X"); MITStyle->SetNdivisions(505,"Y"); MITStyle->SetNdivisions(505,"Z"); // Functions MITStyle->SetFuncColor(1); MITStyle->SetFuncStyle(0); MITStyle->SetFuncWidth(2); // Various MITStyle->SetMarkerStyle(20); MITStyle->SetMarkerColor(kBlack); MITStyle->SetMarkerSize (1.2); // MITStyle->SetTitleSize (0.1,"t"); MITStyle->SetTitleSize (0.070,"X"); MITStyle->SetTitleOffset(1.0,"X"); MITStyle->SetTitleFont (42,"X"); MITStyle->SetLabelOffset(0.005,"X"); MITStyle->SetLabelSize (0.070,"X"); MITStyle->SetLabelFont (42 ,"X"); MITStyle->SetTitleSize (0.070,"Y"); MITStyle->SetTitleOffset(1.0,"Y"); MITStyle->SetTitleFont (42,"Y"); MITStyle->SetLabelOffset(0.005,"Y"); MITStyle->SetLabelSize (0.070,"Y"); MITStyle->SetLabelFont (42 ,"Y"); MITStyle->SetTitleSize (0.06,"Z"); MITStyle->SetTitleOffset(1.640,"Z"); MITStyle->SetTitleFont (42,"Z"); MITStyle->SetLabelOffset(0.005,"Z"); MITStyle->SetLabelSize (0.070,"Z"); MITStyle->SetLabelFont (42 ,"Z"); MITStyle->SetStripDecimals(kFALSE); MITStyle->SetTitleBorderSize(0); MITStyle->SetTitleFillColor(0); // MITStyle->SetTitleAlign(6); MITStyle->SetTextSize (20); MITStyle->SetTextFont (43); MITStyle->SetStatFont (42); MITStyle->SetOptStat (0); MITStyle->SetLegendBorderSize(0); MITStyle->SetEndErrorSize(0); MITStyle->SetErrorX(0); MITStyle->SetPalette (1,0); }
void met(){ TStyle *tdrStyle = new TStyle("tdrStyle","Style for P-TDR"); // For the canvas: tdrStyle->SetCanvasBorderMode(0); tdrStyle->SetCanvasColor(kWhite); tdrStyle->SetCanvasDefH(600); //Height of canvas tdrStyle->SetCanvasDefW(600); //Width of canvas tdrStyle->SetCanvasDefX(0); //POsition on screen tdrStyle->SetCanvasDefY(0); // For the Pad: tdrStyle->SetPadBorderMode(0); // tdrStyle->SetPadBorderSize(Width_t size = 1); tdrStyle->SetPadColor(kWhite); tdrStyle->SetPadGridX(true); tdrStyle->SetPadGridY(true); tdrStyle->SetGridColor(0); tdrStyle->SetGridStyle(3); tdrStyle->SetGridWidth(1); // For the frame: tdrStyle->SetFrameBorderMode(0); tdrStyle->SetFrameBorderSize(1); tdrStyle->SetFrameFillColor(0); tdrStyle->SetFrameFillStyle(0); tdrStyle->SetFrameLineColor(1); tdrStyle->SetFrameLineStyle(1); tdrStyle->SetFrameLineWidth(1); // For the histo: // tdrStyle->SetHistFillColor(1); // tdrStyle->SetHistFillStyle(0); tdrStyle->SetHistLineColor(1); tdrStyle->SetHistLineStyle(0); tdrStyle->SetHistLineWidth(1); // tdrStyle->SetLegoInnerR(Float_t rad = 0.5); // tdrStyle->SetNumberContours(Int_t number = 20); tdrStyle->SetEndErrorSize(2); // tdrStyle->SetErrorMarker(20); tdrStyle->SetErrorX(0.); tdrStyle->SetMarkerStyle(20); //For the fit/function: tdrStyle->SetOptFit(1); tdrStyle->SetFitFormat("5.4g"); tdrStyle->SetFuncColor(2); tdrStyle->SetFuncStyle(1); tdrStyle->SetFuncWidth(1); //For the date: tdrStyle->SetOptDate(0); // tdrStyle->SetDateX(Float_t x = 0.01); // tdrStyle->SetDateY(Float_t y = 0.01); // For the statistics box: tdrStyle->SetOptFile(0); tdrStyle->SetOptStat("emr"); // To display the mean and RMS: SetOptStat("mr"); tdrStyle->SetStatColor(kWhite); tdrStyle->SetStatFont(42); tdrStyle->SetStatFontSize(0.025); tdrStyle->SetStatTextColor(1); tdrStyle->SetStatFormat("6.4g"); tdrStyle->SetStatBorderSize(1); tdrStyle->SetStatH(0.1); tdrStyle->SetStatW(0.15); // tdrStyle->SetStatStyle(Style_t style = 1001); // tdrStyle->SetStatX(Float_t x = 0); // tdrStyle->SetStatY(Float_t y = 0); // Margins: tdrStyle->SetPadTopMargin(0.07); tdrStyle->SetPadBottomMargin(0.13); tdrStyle->SetPadLeftMargin(0.13); tdrStyle->SetPadRightMargin(0.05); // For the Global title: //tdrStyle->SetOptTitle(0); tdrStyle->SetTitleFont(35); tdrStyle->SetTitleColor(1); tdrStyle->SetTitleTextColor(1); tdrStyle->SetTitleFillColor(10); tdrStyle->SetTitleFontSize(0.045); // tdrStyle->SetTitleH(0); // Set the height of the title box // tdrStyle->SetTitleW(0); // Set the width of the title box tdrStyle->SetTitleX(0.15); // Set the position of the title box // tdrStyle->SetTitleY(0.985); // Set the position of the title box // tdrStyle->SetTitleStyle(Style_t style = 1001); tdrStyle->SetTitleBorderSize(0); // For the axis titles: tdrStyle->SetTitleColor(1, "XYZ"); tdrStyle->SetTitleFont(42, "XYZ"); tdrStyle->SetTitleSize(0.04, "XYZ"); // tdrStyle->SetTitleXSize(Float_t size = 0.02); // Another way to set the size? // tdrStyle->SetTitleYSize(Float_t size = 0.02); tdrStyle->SetTitleXOffset(1.05); tdrStyle->SetTitleYOffset(1.45); // tdrStyle->SetTitleOffset(1.1, "Y"); // Another way to set the Offset // For the axis labels: tdrStyle->SetLabelColor(1, "XYZ"); tdrStyle->SetLabelFont(42, "XYZ"); tdrStyle->SetLabelOffset(0.007, "XYZ"); tdrStyle->SetLabelSize(0.03, "XYZ"); // For the axis: tdrStyle->SetAxisColor(1, "XYZ"); tdrStyle->SetStripDecimals(kTRUE); tdrStyle->SetTickLength(0.03, "XYZ"); tdrStyle->SetNdivisions(510, "XYZ"); tdrStyle->SetPadTickX(1); // To get tick marks on the opposite side of the frame tdrStyle->SetPadTickY(1); // Change for log plots: tdrStyle->SetOptLogx(0); tdrStyle->SetOptLogy(0); tdrStyle->SetOptLogz(0); // Postscript options: tdrStyle->SetPaperSize(20.,20.); // tdrStyle->SetLineScalePS(Float_t scale = 3); // tdrStyle->SetLineStyleString(Int_t i, const char* text); // tdrStyle->SetHeaderPS(const char* header); // tdrStyle->SetTitlePS(const char* pstitle); //tdrStyle->SetBarOffset(Float_t baroff = 0.5); //tdrStyle->SetBarWidth(Float_t barwidth = 0.5); //tdrStyle->SetPaintTextFormat(const char* format = "g"); tdrStyle->SetPalette(1); //tdrStyle->SetTimeOffset(Double_t toffset); //tdrStyle->SetHistMinimumZero(kTRUE); const Int_t NRGBs = 5; const Int_t NCont = 255; Double_t stops[NRGBs] = { 0.00, 0.34, 0.61, 0.84, 1.00 }; Double_t red[NRGBs] = { 0.00, 0.00, 0.87, 1.00, 0.51 }; Double_t green[NRGBs] = { 0.00, 0.81, 1.00, 0.20, 0.00 }; Double_t blue[NRGBs] = { 0.51, 1.00, 0.12, 0.00, 0.00 }; TColor::CreateGradientColorTable(NRGBs, stops, red, green, blue, NCont); TColor::CreateGradientColorTable(NRGBs, stops, red, green, blue, NCont); tdrStyle->SetNumberContours(NCont); gROOT -> ForceStyle(); tdrStyle->cd(); gStyle->SetOptStat(kFALSE); TFile *f_sig = new TFile("../../rootFiles/higgsHistograms_susyHiggs.root","READ"); f_sig->cd("Analyzer"); TH1F *h_sig_pf = new TH1F("h_sig_pf","h_sig_pf;Events;MET [GeV]",200,0,200); TH1F *h_sig_gen = new TH1F("h_sig_gen","h_sig_gen;MET [GeV]; Events",200,0,200); TH1F *h_sig_min = new TH1F("h_sig_min","h_sig_min",200,0,200); AnalyzerTree->Draw("sum_genPt>>h_sig_gen","",""); h_sig_gen->SetTitle(""); h_sig_gen->SetLineColor(1); h_sig_gen->SetLineWidth(2); AnalyzerTree->Draw("MET>>h_sig_pf","",""); h_sig_pf->SetLineColor(4); h_sig_pf->SetLineWidth(2); AnalyzerTree->Draw("minMET>>h_sig_min","",""); h_sig_min->SetLineColor(2); h_sig_min->SetLineWidth(2); h_sig_gen->Draw(); h_sig_pf->Draw("sames"); h_sig_min->Draw("sames"); TLegend *leg = new TLegend(0.6879195,0.7482517,0.9496644,0.9300699,NULL,"brNDC"); leg->AddEntry(h_sig_gen,"Generated MET","l"); leg->AddEntry(h_sig_pf,"PFMET","l");//"DM_M10_V x 10000","l"); leg->AddEntry(h_sig_min,"Minimized MET","l"); leg->SetFillColor(0); leg->SetShadowColor(0); leg->Draw(); }
void setEgammaStyle() { TStyle *egammaStyle = new TStyle("egammaStyle","Style for P-TDR"); // For the palette: egammaStyle->SetPalette(1); // For the grid egammaStyle->SetPadGridX(1); egammaStyle->SetPadGridY(1); // For the canvas: egammaStyle->SetCanvasBorderMode(0); egammaStyle->SetCanvasBorderSize(2); egammaStyle->SetCanvasColor(0); //egammaStyle->SetCanvasDefH(600); //egammaStyle->SetCanvasDefW(600); egammaStyle->SetCanvasDefX(0); egammaStyle->SetCanvasDefY(0); // For the pad: egammaStyle->SetPadBorderMode(0); egammaStyle->SetPadColor(kWhite); egammaStyle->SetPadGridX(false); egammaStyle->SetPadGridY(false); egammaStyle->SetGridColor(0); egammaStyle->SetGridStyle(3); egammaStyle->SetGridWidth(1); // For the frame: egammaStyle->SetFrameBorderMode(0); egammaStyle->SetFrameBorderSize(1); egammaStyle->SetFrameFillColor(0); egammaStyle->SetFrameFillStyle(0); egammaStyle->SetFrameLineColor(1); egammaStyle->SetFrameLineStyle(1); egammaStyle->SetFrameLineWidth(1); // For the histos: egammaStyle->SetHistLineColor(1); egammaStyle->SetHistLineStyle(0); egammaStyle->SetHistLineWidth(2); // chiara: era 1 egammaStyle->SetEndErrorSize(2); egammaStyle->SetErrorX(0.); // for the graphs egammaStyle->SetMarkerColor(1); egammaStyle->SetMarkerStyle(20); egammaStyle->SetMarkerSize(1.1); // chiara: era 1.2 // For the fit/function: egammaStyle->SetOptFit(1); egammaStyle->SetFitFormat("5.4g"); egammaStyle->SetFuncColor(2); egammaStyle->SetFuncStyle(1); egammaStyle->SetFuncWidth(2); // chiara: era 1 //For the date: egammaStyle->SetOptDate(0); // For the statistics box: egammaStyle->SetOptFile(0); egammaStyle->SetOptStat(0); // To display the mean and RMS: SetOptStat("mr"); egammaStyle->SetStatColor(kWhite); egammaStyle->SetStatFont(42); egammaStyle->SetStatFontSize(0.025); egammaStyle->SetStatTextColor(1); egammaStyle->SetStatFormat("6.4g"); egammaStyle->SetStatBorderSize(1); egammaStyle->SetStatH(0.1); egammaStyle->SetStatW(0.15); // For the Global title: egammaStyle->SetOptTitle(1); // 0=No Title egammaStyle->SetTitleFont(42); egammaStyle->SetTitleColor(1); egammaStyle->SetTitleTextColor(1); egammaStyle->SetTitleFillColor(10); egammaStyle->SetTitleFontSize(0.05); // For the axis titles: egammaStyle->SetTitleColor(1, "XYZ"); egammaStyle->SetTitleFont(42, "XYZ"); egammaStyle->SetTitleSize(0.05, "XYZ"); // chiara: era 0.06 // egammaStyle->SetTitleXOffset(0.9); // chiara // egammaStyle->SetTitleYOffset(1.25); // chiara // For the axis labels: egammaStyle->SetLabelColor(1, "XYZ"); egammaStyle->SetLabelFont(42, "XYZ"); egammaStyle->SetLabelOffset(0.007, "XYZ"); // chiara egammaStyle->SetLabelSize(0.04, "XYZ"); // chiara: era 0.05 // For the axis: egammaStyle->SetAxisColor(1, "XYZ"); egammaStyle->SetStripDecimals(kTRUE); egammaStyle->SetTickLength(0.03, "XYZ"); egammaStyle->SetNdivisions(510, "XYZ"); egammaStyle->SetPadTickX(0); // 0=Text labels (and tics) only on bottom, 1=Text labels on top and bottom egammaStyle->SetPadTickY(1); // Change for log plots: egammaStyle->SetOptLogx(0); egammaStyle->SetOptLogy(0); egammaStyle->SetOptLogz(0); // Postscript options: egammaStyle->SetPaperSize(20.,20.); egammaStyle->cd(); }
void SetOKStyle() { TStyle* OKStyle = new TStyle("OKStyle", "OK Default Style"); // Colors //set the background color to white OKStyle->SetFillColor(10); OKStyle->SetFrameFillColor(kWhite); OKStyle->SetFrameFillStyle(0); OKStyle->SetFillStyle(0); OKStyle->SetCanvasColor(kWhite); OKStyle->SetPadColor(kWhite); OKStyle->SetTitleFillColor(0); OKStyle->SetStatColor(kWhite); // Get rid of drop shadow on legends // This doesn't seem to work. Call SetBorderSize(1) directly on your TLegends OKStyle->SetLegendBorderSize(1); //don't put a colored frame around the plots OKStyle->SetFrameBorderMode(0); OKStyle->SetCanvasBorderMode(0); OKStyle->SetPadBorderMode(0); //use the primary color palette OKStyle->SetPalette(1, 0); //set the default line color for a histogram to be black OKStyle->SetHistLineColor(kBlack); //set the default line color for a fit function to be red OKStyle->SetFuncColor(kBlue); //make the axis labels black OKStyle->SetLabelColor(kBlack, "xyz"); //set the default title color to be black OKStyle->SetTitleColor(kBlack); //set the margins OKStyle->SetPadBottomMargin(0.15); OKStyle->SetPadLeftMargin(0.1); OKStyle->SetPadTopMargin(0.075); OKStyle->SetPadRightMargin(0.1); //set axis label and title text sizes OKStyle->SetLabelSize(0.035, "xyz"); OKStyle->SetTitleSize(0.05, "xyz"); OKStyle->SetTitleOffset(0.9, "xyz"); OKStyle->SetStatFontSize(0.035); OKStyle->SetTextSize(0.05); OKStyle->SetTitleBorderSize(0); OKStyle->SetTitleStyle(0); OKStyle->SetLegendBorderSize(0); //set line widths OKStyle->SetHistLineWidth(1); OKStyle->SetFrameLineWidth(2); OKStyle->SetFuncWidth(2); // Misc //align the titles to be centered //OKStyle->SetTextAlign(22); //turn off xy grids OKStyle->SetPadGridX(1); OKStyle->SetPadGridY(1); //set the tick mark style OKStyle->SetPadTickX(1); OKStyle->SetPadTickY(1); //don't show the fit parameters in a box OKStyle->SetOptFit(0); //set the default stats shown OKStyle->SetOptStat(1); //marker settings // OKStyle->SetMarkerStyle(8); // OKStyle->SetMarkerSize(0.7); // Fonts OKStyle->SetStatFont(42); OKStyle->SetLabelFont(42, "xyz"); OKStyle->SetTitleFont(42, "xyz"); OKStyle->SetTextFont(42); // Set the paper size for output OKStyle->SetPaperSize(TStyle::kUSLetter); //done OKStyle->cd(); cout << "Using Jin's Style" << endl; }
void FakeRate() { TStyle *tdrStyle = new TStyle("tdrStyle","Style for P-TDR"); // For the canvas: tdrStyle->SetCanvasBorderMode(0); tdrStyle->SetCanvasColor(kWhite); tdrStyle->SetCanvasDefH(600); //Height of canvas tdrStyle->SetCanvasDefW(600); //Width of canvas tdrStyle->SetCanvasDefX(0); //POsition on screen tdrStyle->SetCanvasDefY(0); // For the Pad: tdrStyle->SetPadBorderMode(0); tdrStyle->SetPadColor(kWhite); tdrStyle->SetPadGridX(true); tdrStyle->SetPadGridY(true); tdrStyle->SetGridColor(0); tdrStyle->SetGridStyle(3); tdrStyle->SetGridWidth(1); // For the frame: tdrStyle->SetFrameBorderMode(0); tdrStyle->SetFrameBorderSize(1); tdrStyle->SetFrameFillColor(0); tdrStyle->SetFrameFillStyle(0); tdrStyle->SetFrameLineColor(1); tdrStyle->SetFrameLineStyle(1); tdrStyle->SetFrameLineWidth(1); // For the histo: tdrStyle->SetHistLineColor(1); tdrStyle->SetHistLineStyle(0); tdrStyle->SetHistLineWidth(1); tdrStyle->SetEndErrorSize(2); tdrStyle->SetErrorX(0.); tdrStyle->SetMarkerStyle(20); //For the fit/function: tdrStyle->SetOptFit(1); tdrStyle->SetFitFormat("5.4g"); tdrStyle->SetFuncColor(2); tdrStyle->SetFuncStyle(1); tdrStyle->SetFuncWidth(1); //For the date: tdrStyle->SetOptDate(0); // For the statistics box: tdrStyle->SetOptFile(0); tdrStyle->SetOptStat("emr"); // To display the mean and RMS: SetOptStat("mr"); tdrStyle->SetStatColor(kWhite); tdrStyle->SetStatFont(42); tdrStyle->SetStatFontSize(0.025); tdrStyle->SetStatTextColor(1); tdrStyle->SetStatFormat("6.4g"); tdrStyle->SetStatBorderSize(1); tdrStyle->SetStatH(0.1); tdrStyle->SetStatW(0.15); // Margins: tdrStyle->SetPadTopMargin(0.07); tdrStyle->SetPadBottomMargin(0.13); tdrStyle->SetPadLeftMargin(0.13); tdrStyle->SetPadRightMargin(0.05); // For the Global title: tdrStyle->SetTitleFont(35); tdrStyle->SetTitleColor(1); tdrStyle->SetTitleTextColor(1); tdrStyle->SetTitleFillColor(10); tdrStyle->SetTitleFontSize(0.045); tdrStyle->SetTitleX(0.15); // Set the position of the title box tdrStyle->SetTitleBorderSize(0); // For the axis titles: tdrStyle->SetTitleColor(1, "XYZ"); tdrStyle->SetTitleFont(42, "XYZ"); tdrStyle->SetTitleSize(0.04, "XYZ"); tdrStyle->SetTitleXOffset(0.9); tdrStyle->SetTitleYOffset(1.5); // For the axis labels: tdrStyle->SetLabelColor(1, "XYZ"); tdrStyle->SetLabelFont(42, "XYZ"); tdrStyle->SetLabelOffset(0.007, "XYZ"); tdrStyle->SetLabelSize(0.03, "XYZ"); // For the axis: tdrStyle->SetAxisColor(1, "XYZ"); tdrStyle->SetStripDecimals(kTRUE); tdrStyle->SetTickLength(0.03, "XYZ"); tdrStyle->SetNdivisions(510, "XYZ"); tdrStyle->SetPadTickX(1); // To get tick marks on the opposite side of the frame tdrStyle->SetPadTickY(1); // Change for log plots: tdrStyle->SetOptLogx(0); tdrStyle->SetOptLogy(0); tdrStyle->SetOptLogz(0); // Postscript options: tdrStyle->SetPaperSize(20.,20.); tdrStyle->SetPalette(1); const Int_t NRGBs = 5; const Int_t NCont = 255; Double_t stops[NRGBs] = { 0.00, 0.34, 0.61, 0.84, 1.00 }; Double_t red[NRGBs] = { 0.00, 0.00, 0.87, 1.00, 0.51 }; Double_t green[NRGBs] = { 0.00, 0.81, 1.00, 0.20, 0.00 }; Double_t blue[NRGBs] = { 0.51, 1.00, 0.12, 0.00, 0.00 }; TColor::CreateGradientColorTable(NRGBs, stops, red, green, blue, NCont); TColor::CreateGradientColorTable(NRGBs, stops, red, green, blue, NCont); tdrStyle->SetNumberContours(NCont); gROOT -> ForceStyle(); tdrStyle->cd(); int binsize = 10; int binlow = 30; int binup = 130; TString cut_Iasonas_n = "pfmet_pt < 40. && ph_N_Pt > 0. && ph_N_sinin < 0.011"; TString cut_Iasonas_d = "pfmet_pt < 40. && ph_DLU_Pt > 0. "; TString cut_Zeynep_n = "Num_Pho_Pt > 0. && Num_Pho_SigmaIEtaIEta < 0.011"; TString cut_Zeynep_d = "Den_Pho_Pt > 0."; TString cut_Zeynep_n_new = "passedNum && Pho_Pt > 0. && Pho_SigmaIEtaIEta < 0.011 && muVeto0==0"; TString cut_Zeynep_d_new = "passedDen && Pho_Pt > 0. && muVeto0==0"; TFile *f_Iasonas = new TFile("old_results/dataAll.root","READ"); f_Iasonas->cd("Analyzer"); TH1F *h_num_I = new TH1F("h_num_I","h_num_I" ,binsize ,binlow ,binup); TH1F *h_den_I = new TH1F("h_den_I","h_den_I" ,binsize ,binlow ,binup); AnalyzerTree->Draw("ph_N_Pt>>h_num_I",cut_Iasonas_n,"goff"); AnalyzerTree->Draw("ph_DLU_Pt>>h_den_I",cut_Iasonas_d,"goff"); TH1F *h_raw_I = (TH1F*)h_num_I->Clone("h_raw_I"); h_raw_I->Divide(h_den_I); //TFile *f_Zeynep = new TFile("higgsHistograms_QCD.root","READ"); //TFile *f_Zeynep = new TFile("higgsHistograms_QCD_newHoE.root","READ"); TFile *f_Zeynep = new TFile("n_jetTest2.root","READ"); f_Zeynep->cd("Analyzer"); h_num_Z = new TH1F("h_num_Z","h_num_Z" ,binsize ,binlow ,binup); h_den_Z = new TH1F("h_den_Z","h_den_Z" ,binsize ,binlow ,binup); AnalyzerTree->Draw("Pho_Pt>>h_num_Z",cut_Zeynep_n_new,"goff"); AnalyzerTree->Draw("Pho_Pt>>h_den_Z",cut_Zeynep_d_new,"goff"); TH1F *h_raw_Z = (TH1F*)h_num_Z->Clone("h_raw_Z"); h_raw_Z->Divide(h_den_Z); TFile *f_Zeynep_o = new TFile("old_results/compareDen_Num/ifStatements/testing_simple_1fake.root","READ"); //TFile *f_Zeynep_o = new TFile("higgsHistograms_QCD_newHoE.root","READ"); f_Zeynep_o->cd("Analyzer"); h_num_Z_o = new TH1F("h_num_Z_o","h_num_Z_o" ,binsize ,binlow ,binup); h_den_Z_o = new TH1F("h_den_Z_o","h_den_Z_o" ,binsize ,binlow ,binup); AnalyzerTree->Draw("Num_Pho_Pt>>h_num_Z_o",cut_Zeynep_n,"goff"); AnalyzerTree->Draw("Den_Pho_Pt>>h_den_Z_o",cut_Zeynep_d,"goff"); TH1F *h_raw_Z_o = (TH1F*)h_num_Z_o->Clone("h_raw_Z_o"); h_raw_Z_o->Divide(h_den_Z_o); TCanvas* c1 = new TCanvas("c1","c1",700,600); c1->cd(); h_raw_I->SetTitle("Raw Fake Rate"); h_raw_I->GetYaxis()->SetTitle("Raw Fake Rate"); h_raw_I->GetXaxis()->SetTitle("Offline Photon Pt [GeV]"); h_raw_I->Draw(); h_raw_I->GetYaxis()->SetRangeUser(0.0,15); h_raw_Z->SetLineColor(2); h_raw_Z->Draw("same"); h_raw_Z_o->SetLineColor(4); h_raw_Z_o->Draw("same"); gStyle->SetOptStat(kFALSE); TLegend *leg = new TLegend(0.6879195,0.7482517,0.9496644,0.9300699,NULL,"brNDC"); leg->AddEntry(h_raw_I, "Iasonas Raw Fake Rate" ,"l"); leg->AddEntry(h_raw_Z, "Zeynep Raw Fake Rate" ,"l"); leg->AddEntry(h_raw_Z_o, "Zeynep old Raw Fake Rate" ,"l"); leg->SetFillColor(0); leg->SetShadowColor(0); leg->Draw(); }
void teenyWeenyBtagEffCalculation(){ // TDR style crap - include from Utilities.cc TStyle *tdrStyle = new TStyle("tdrStyle","Style for P-TDR"); // For the canvas: tdrStyle->SetCanvasBorderMode(0); tdrStyle->SetCanvasColor(kWhite); tdrStyle->SetCanvasDefH(600); //Height of canvas tdrStyle->SetCanvasDefW(600); //Width of canvas tdrStyle->SetCanvasDefX(0); //Position on screen tdrStyle->SetCanvasDefY(0); // For the Pad: tdrStyle->SetPadBorderMode(0); // tdrStyle->SetPadBorderSize(Width_t size = 1); tdrStyle->SetPadColor(kWhite); tdrStyle->SetPadGridX(false); tdrStyle->SetPadGridY(false); tdrStyle->SetGridColor(0); tdrStyle->SetGridStyle(3); tdrStyle->SetGridWidth(1); // For the frame: tdrStyle->SetFrameBorderMode(0); tdrStyle->SetFrameBorderSize(1); tdrStyle->SetFrameFillColor(0); tdrStyle->SetFrameFillStyle(0); tdrStyle->SetFrameLineColor(1); tdrStyle->SetFrameLineStyle(1); tdrStyle->SetFrameLineWidth(1); // For the histo: // tdrStyle->SetHistFillColor(1); // tdrStyle->SetHistFillStyle(0); tdrStyle->SetHistLineColor(1); tdrStyle->SetHistLineStyle(0); tdrStyle->SetHistLineWidth(1); // tdrStyle->SetLegoInnerR(Float_t rad = 0.5); // tdrStyle->SetNumberContours(Int_t number = 20); tdrStyle->SetEndErrorSize(2); //tdrStyle->SetErrorMarker(20); tdrStyle->SetErrorX(0.); tdrStyle->SetMarkerStyle(20); //For the fit/function: tdrStyle->SetOptFit(1); tdrStyle->SetFitFormat("5.4g"); tdrStyle->SetFuncColor(2); tdrStyle->SetFuncStyle(1); tdrStyle->SetFuncWidth(1); //For the date: tdrStyle->SetOptDate(0); // tdrStyle->SetDateX(Float_t x = 0.01); // tdrStyle->SetDateY(Float_t y = 0.01); // For the statistics box: tdrStyle->SetOptFile(0); tdrStyle->SetOptStat(0); // To display the mean and RMS: SetOptStat("mr"); tdrStyle->SetStatColor(kWhite); tdrStyle->SetStatFont(42); tdrStyle->SetStatFontSize(0.025); tdrStyle->SetStatTextColor(1); tdrStyle->SetStatFormat("6.4g"); tdrStyle->SetStatBorderSize(1); tdrStyle->SetStatH(0.1); tdrStyle->SetStatW(0.15); // tdrStyle->SetStatStyle(Style_t style = 1001); // tdrStyle->SetStatX(Float_t x = 0); // tdrStyle->SetStatY(Float_t y = 0); // Margins: tdrStyle->SetPadTopMargin(0.05); tdrStyle->SetPadBottomMargin(0.13); tdrStyle->SetPadLeftMargin(0.16); tdrStyle->SetPadRightMargin(0.04); // For the Global title: tdrStyle->SetOptTitle(0); tdrStyle->SetTitleFont(42); tdrStyle->SetTitleColor(1); tdrStyle->SetTitleTextColor(1); tdrStyle->SetTitleFillColor(10); tdrStyle->SetTitleFontSize(0.05); // tdrStyle->SetTitleH(0); // Set the height of the title box // tdrStyle->SetTitleW(0); // Set the width of the title box // tdrStyle->SetTitleX(0); // Set the position of the title box // tdrStyle->SetTitleY(0.985); // Set the position of the title box // tdrStyle->SetTitleStyle(Style_t style = 1001); // tdrStyle->SetTitleBorderSize(2); // For the axis titles: tdrStyle->SetTitleColor(1, "XYZ"); tdrStyle->SetTitleFont(42, "XYZ"); tdrStyle->SetTitleSize(0.05, "XYZ"); // tdrStyle->SetTitleXSize(Float_t size = 0.02); // Another way to set the size? // tdrStyle->SetTitleYSize(Float_t size = 0.02); tdrStyle->SetTitleXOffset(0.9); tdrStyle->SetTitleYOffset(1.25); // tdrStyle->SetTitleOffset(1.1, "Y"); // Another way to set the Offset // tdrStyle->SetTitleOffset(.3, "X"); // Another way to set the Offset // tdrStyle->SetTitleOffset(1., "Y"); // Another way to set the Offset // // For the axis labels: tdrStyle->SetLabelColor(1, "XYZ"); tdrStyle->SetLabelFont(42, "XYZ"); tdrStyle->SetLabelOffset(0.007, "XYZ"); tdrStyle->SetLabelSize(0.05, "XYZ"); // For the axis: tdrStyle->SetAxisColor(1, "XYZ"); tdrStyle->SetStripDecimals(kTRUE); tdrStyle->SetTickLength(0.03, "XYZ"); tdrStyle->SetNdivisions(510, "XYZ"); tdrStyle->SetPadTickX(1); // To get tick marks on the opposite side of the frame tdrStyle->SetPadTickY(1); // Change for log plots: tdrStyle->SetOptLogx(0); tdrStyle->SetOptLogy(0); tdrStyle->SetOptLogz(0); // Postscript options: tdrStyle->SetPaperSize(20.,20.); // tdrStyle->SetLineScalePS(Float_t scale = 3); // tdrStyle->SetLineStyleString(Int_t i, const char* text); // tdrStyle->SetHeaderPS(const char* header); // tdrStyle->SetTitlePS(const char* pstitle); // tdrStyle->SetBarOffset(Float_t baroff = 0.5); // tdrStyle->SetBarWidth(Float_t barwidth = 0.5); // tdrStyle->SetPaintTextFormat(const char* format = "g"); // tdrStyle->SetPalette(Int_t ncolors = 0, Int_t* colors = 0); // tdrStyle->SetTimeOffset(Double_t toffset); // tdrStyle->SetHistMinimumZero(kTRUE); tdrStyle->cd(); // Meat of the stuff // // ned in current scope (tmpfile):1: // (const int)0 //*** Interpreter error recovered *** //root [4] .ls // TFile**/lustre/ncg.ingrid.pt/cmslocal/samples/CMSSW_5_3_7_patch4/chiggs/fakerate_fractionsEstimate/trees/TauFRWMuMCFailing_PFlow.root // TFile*/lustre/ncg.ingrid.pt/cmslocal/samples/CMSSW_5_3_7_patch4/chiggs/fakerate_fractionsEstimate/trees/TauFRWMuMCFailing_PFlow.root //root [5] .q //[vischia@ui-cms01 TopTaus]$ ls /lustre/ncg.ingrid.pt/ //cmslocal/ cmst3/ data1/ data2/ data3/ //[vischia@ui-cms01 TopTaus]$ ls /lustre/ncg.ingrid.pt/cmslocal/vischia/ //MyTMVA_temporaneo/ backupFirstFullRun2012/ myt // // // TFile* ttmutau = new TFile("/lustre/ncg.ingrid.pt/cmslocal/vischia/store/tau/Jan13ReReco/dataRedo/test_preapp2/nomt-2012-V1-mc-MU-20GeV/out-ttbar-mutau.root"); TH1F* btag_eff_fakebs_num = (TH1F*) ttmutau->Get("PFlow/RecoSteps/m_tau/MET/btag_eff_fakebs_num_27" ); TH1F* btag_eff_fakebs_den = (TH1F*) ttmutau->Get("PFlow/RecoSteps/m_tau/MET/btag_eff_fakebs_den_27" ); TH1F* btag_eff_nomatch_num = (TH1F*) ttmutau->Get("PFlow/RecoSteps/m_tau/MET/btag_eff_nomatch_num_27"); TH1F* btag_eff_nomatch_den = (TH1F*) ttmutau->Get("PFlow/RecoSteps/m_tau/MET/btag_eff_nomatch_den_27"); TH1F* btag_eff_fakebs2_num = (TH1F*) ttmutau->Get("PFlow/RecoSteps/m_tau/MET/btag_eff_fakebs2_num_27"); TH1F* btag_eff_fakebs2_den = (TH1F*) ttmutau->Get("PFlow/RecoSteps/m_tau/MET/btag_eff_fakebs2_den_27"); TH1F* btag_eff_realbs_num = (TH1F*) ttmutau->Get("PFlow/RecoSteps/m_tau/MET/btag_eff_realbs_num_27" ); TH1F* btag_eff_realbs_den = (TH1F*) ttmutau->Get("PFlow/RecoSteps/m_tau/MET/btag_eff_realbs_den_27" ); // num= passing // den = non passing double fakesWNonMatchedPassing_over_fakesWNonMatchedNonPassing = ( btag_eff_fakebs_num->Integral()+ btag_eff_nomatch_num->Integral() ) / ( btag_eff_fakebs_den->Integral() + btag_eff_nomatch_den->Integral() ); double fakesWoutNonMatchedPassing_over_fakesWoutNonMatchedNonPassing = btag_eff_fakebs_num->Integral() / btag_eff_fakebs_den->Integral(); double fakesAllNonBsPassing_over_fakesAllNonBsNonPassing = btag_eff_fakebs2_num->Integral() / btag_eff_fakebs2_den->Integral(); double realBsNonPassing_over_fakeAndRealbsNonPassing = btag_eff_realbs_den->Integral() / ( btag_eff_fakebs_den->Integral() +btag_eff_realbs_den->Integral()); double realBsPassing_over_realBsNonPassing = btag_eff_realbs_num->Integral() / btag_eff_realbs_den->Integral(); double realBsPassing_over_realBs = btag_eff_realbs_num->Integral() / ( btag_eff_realbs_num->Integral() + btag_eff_realbs_den->Integral() ); double fakeBsPassing_over_fakeBs = btag_eff_fakebs_num->Integral() / ( btag_eff_fakebs_num->Integral() + btag_eff_fakebs_den->Integral() ); double fakeBsPassing_over_fakeBs_includeNonMatched = btag_eff_fakebs2_num->Integral() / ( btag_eff_fakebs2_num->Integral() + btag_eff_fakebs2_den->Integral() ); cout << "fakesWNonMatchedPassing_over_fakesWNonMatchedNonPassing: " << fakesWNonMatchedPassing_over_fakesWNonMatchedNonPassing <<endl; cout << "fakesWoutNonMatchedPassing_over_fakesWoutNonMatchedNonPassing: " << fakesWoutNonMatchedPassing_over_fakesWoutNonMatchedNonPassing <<endl; cout << "fakesAllNonBsPassing_over_fakesAllNonBsNonPassing: " << fakesAllNonBsPassing_over_fakesAllNonBsNonPassing <<endl; cout << "realBsNonPassing_over_fakeAndRealbsNonPassing: " << realBsNonPassing_over_fakeAndRealbsNonPassing <<endl; cout << "realBsPassing_over_realBsNonPassing: " << realBsPassing_over_realBsNonPassing <<endl; cout << "realBsPassing_over_realBs: " << realBsPassing_over_realBs <<endl; cout << "fakeBsPassing_over_fakeBs: " << fakeBsPassing_over_fakeBs <<endl; cout << "fakeBsPassing_over_fakeBs_includeNonMatched: " << fakeBsPassing_over_fakeBs_includeNonMatched <<endl; // // httllq->Sumw2(); // httllg->Sumw2(); // // httllq->Add(hwjetq,1.); // httllg->Add(hwjetg,1.); // httlla->Add(hwjeta,1.); // // double fqf= httllq->Integral() / (httllq->Integral() + httllg->Integral()); // double fgf= httllg->Integral() / (httllq->Integral() + httllg->Integral()); // // // cout << "Fractions in ttll sample: quarks " << ttllfq << ", gluons " << ttllfg << endl; // cout << "Fractions in wjet sample: quarks " << wjetfq << ", gluons " << wjetfg << endl; // cout << "Combination: quarks " << 0.5*ttllfq + 0.5*wjetfq << ", gluons " << 0.5*ttllfg+0.5*wjetfg << endl; // cout << "Fractions in main anal. sample: quarks " << fqf << ", gluons " << fgf << endl; // cout << "-------------------------------" << endl; // // TFile* wmuP = new TFile("/lustre/ncg.ingrid.pt/cmslocal/samples/CMSSW_5_3_7_patch4/chiggs/fakerate_testPOG/trees/TauFRWMuMCPassing_PFlow.root"); // TFile* wmuF = new TFile("/lustre/ncg.ingrid.pt/cmslocal/samples/CMSSW_5_3_7_patch4/chiggs/fakerate_testPOG/trees/TauFRWMuMCFailing_PFlow.root"); // TFile* qcdP = new TFile("/lustre/ncg.ingrid.pt/cmslocal/samples/CMSSW_5_3_7_patch4/chiggs/fakerate_testPOG/trees/TauFRQCDMCPassing_PFlow.root"); // TFile* qcdF = new TFile("/lustre/ncg.ingrid.pt/cmslocal/samples/CMSSW_5_3_7_patch4/chiggs/fakerate_testPOG/trees/TauFRQCDMCFailing_PFlow.root"); // // std::vector<TH1F*> v_wplusjets_pt; // std::vector<TH1F*> v_wplusjets_pt_unknown; // std::vector<TH1F*> v_wplusjets_pt_quark; // std::vector<TH1F*> v_wplusjets_pt_bquark; // std::vector<TH1F*> v_wplusjets_pt_gluon; // std::vector<TH1F*> v_wplusjets_pt_allquark; // // std::vector<TH1F*> v_qf; // std::vector<TH1F*> v_gf; // // // v_wplusjets_pt .push_back( (TH1F*) ((TH1F*) wmuP->Get("wplusjets_pt") )->Clone("wmuP_wplusjets_pt") ); // v_wplusjets_pt_unknown .push_back( (TH1F*) ((TH1F*) wmuP->Get("wplusjets_pt_unknown") )->Clone("wmuP_wplusjets_pt_unknown") ); // v_wplusjets_pt_quark .push_back( (TH1F*) ((TH1F*) wmuP->Get("wplusjets_pt_quark") )->Clone("wmuP_wplusjets_pt_quark") ); // v_wplusjets_pt_bquark .push_back( (TH1F*) ((TH1F*) wmuP->Get("wplusjets_pt_bquark") )->Clone("wmuP_wplusjets_pt_bquark") ); // v_wplusjets_pt_gluon .push_back( (TH1F*) ((TH1F*) wmuP->Get("wplusjets_pt_gluon") )->Clone("wmuP_wplusjets_pt_gluon") ); // v_wplusjets_pt_allquark.push_back( (TH1F*) ((TH1F*) wmuP->Get("wplusjets_pt_allquark"))->Clone("wmuP_wplusjets_pt_allquark") ); // // v_wplusjets_pt .push_back( (TH1F*) ((TH1F*) wmuF->Get("wplusjets_pt") )->Clone("wmuF_wplusjets_pt") ); // v_wplusjets_pt_unknown .push_back( (TH1F*) ((TH1F*) wmuF->Get("wplusjets_pt_unknown") )->Clone("wmuF_wplusjets_pt_unknown") ); // v_wplusjets_pt_quark .push_back( (TH1F*) ((TH1F*) wmuF->Get("wplusjets_pt_quark") )->Clone("wmuF_wplusjets_pt_quark") ); // v_wplusjets_pt_bquark .push_back( (TH1F*) ((TH1F*) wmuF->Get("wplusjets_pt_bquark") )->Clone("wmuF_wplusjets_pt_bquark") ); // v_wplusjets_pt_gluon .push_back( (TH1F*) ((TH1F*) wmuF->Get("wplusjets_pt_gluon") )->Clone("wmuF_wplusjets_pt_gluon") ); // v_wplusjets_pt_allquark.push_back( (TH1F*) ((TH1F*) wmuF->Get("wplusjets_pt_allquark"))->Clone("wmuF_wplusjets_pt_allquark") ); // // v_wplusjets_pt .push_back( (TH1F*) ((TH1F*) qcdP->Get("wplusjets_pt") )->Clone("qcdP_wplusjets_pt") ); // v_wplusjets_pt_unknown .push_back( (TH1F*) ((TH1F*) qcdP->Get("wplusjets_pt_unknown") )->Clone("qcdP_wplusjets_pt_unknown") ); // v_wplusjets_pt_quark .push_back( (TH1F*) ((TH1F*) qcdP->Get("wplusjets_pt_quark") )->Clone("qcdP_wplusjets_pt_quark") ); // v_wplusjets_pt_bquark .push_back( (TH1F*) ((TH1F*) qcdP->Get("wplusjets_pt_bquark") )->Clone("qcdP_wplusjets_pt_bquark") ); // v_wplusjets_pt_gluon .push_back( (TH1F*) ((TH1F*) qcdP->Get("wplusjets_pt_gluon") )->Clone("qcdP_wplusjets_pt_gluon") ); // v_wplusjets_pt_allquark.push_back( (TH1F*) ((TH1F*) qcdP->Get("wplusjets_pt_allquark"))->Clone("qcdP_wplusjets_pt_allquark") ); // // v_wplusjets_pt .push_back( (TH1F*) ((TH1F*) qcdF->Get("wplusjets_pt") )->Clone("qcdF_wplusjets_pt") ); // v_wplusjets_pt_unknown .push_back( (TH1F*) ((TH1F*) qcdF->Get("wplusjets_pt_unknown") )->Clone("qcdF_wplusjets_pt_unknown") ); // v_wplusjets_pt_quark .push_back( (TH1F*) ((TH1F*) qcdF->Get("wplusjets_pt_quark") )->Clone("qcdF_wplusjets_pt_quark") ); // v_wplusjets_pt_bquark .push_back( (TH1F*) ((TH1F*) qcdF->Get("wplusjets_pt_bquark") )->Clone("qcdF_wplusjets_pt_bquark") ); // v_wplusjets_pt_gluon .push_back( (TH1F*) ((TH1F*) qcdF->Get("wplusjets_pt_gluon") )->Clone("qcdF_wplusjets_pt_gluon") ); // v_wplusjets_pt_allquark.push_back( (TH1F*) ((TH1F*) qcdF->Get("wplusjets_pt_allquark"))->Clone("qcdF_wplusjets_pt_allquark") ); // // std::vector<int> colours; // colours.push_back(1); // colours.push_back(2); // colours.push_back(4); // colours.push_back(5); // // std::vector<TString> labels; // labels.push_back("W+1jet "); // labels.push_back("W+1jet "); // labels.push_back("QCDmulti "); // labels.push_back("QCDmulti "); // // std::vector<TString> fBase; // fBase.push_back("WMu1"); // fBase.push_back("WMu2"); // fBase.push_back("QCD1"); // fBase.push_back("QCD2"); // // for(size_t i=0; i<v_wplusjets_pt.size(); ++i){ // v_wplusjets_pt [i]->SetLineColor(colours[i]); // v_wplusjets_pt_unknown [i]->SetLineColor(colours[i]); // v_wplusjets_pt_quark [i]->SetLineColor(colours[1]); // v_wplusjets_pt_bquark [i]->SetLineColor(colours[i]); // v_wplusjets_pt_gluon [i]->SetLineColor(colours[2]); // v_wplusjets_pt_allquark[i]->SetLineColor(colours[1]); // // v_wplusjets_pt [i]->SetLineWidth(3); // v_wplusjets_pt_unknown [i]->SetLineWidth(3); // v_wplusjets_pt_quark [i]->SetLineWidth(3); // v_wplusjets_pt_bquark [i]->SetLineWidth(3); // v_wplusjets_pt_gluon [i]->SetLineWidth(3); // v_wplusjets_pt_allquark[i]->SetLineWidth(3); // // // v_wplusjets_pt_gluon[i]->Add(v_wplusjets_pt_unknown[i],1.); // // TH1F* numQ = v_wplusjets_pt_allquark[i]->Clone(TString(v_wplusjets_pt_allquark[i]->GetName())+"numQ"); // TH1F* numG = v_wplusjets_pt_gluon[i]->Clone(TString(v_wplusjets_pt_gluon[i]->GetName())+"numG"); // TH1F* den = v_wplusjets_pt_allquark[i]->Clone(TString(v_wplusjets_pt_allquark[i]->GetName())+"den"); // // numQ->GetYaxis()->SetTitle("Jet content"); // numG->GetYaxis()->SetTitle("Jet content"); // // // cout << "Fractions for " << fBase[i] << ": quark " << v_wplusjets_pt_allquark[i]->Integral() / (v_wplusjets_pt_allquark[i]->Integral() + v_wplusjets_pt_gluon[i]->Integral() ) << ", gluon " << v_wplusjets_pt_gluon[i]->Integral() / (v_wplusjets_pt_allquark[i]->Integral() + v_wplusjets_pt_gluon[i]->Integral() ) << endl; // // numQ->Sumw2(); // numG->Sumw2(); // den->Sumw2(); // // den->Add(v_wplusjets_pt_gluon[i],1.); // // numQ->Divide(den); // numG->Divide(den); // cout << "I divided" << endl; // // v_qf.push_back(numQ); // v_gf.push_back(numG); // // // // TLegend* leg_ = new TLegend(0.15,0.65,0.62,0.80,NULL,"brNDC"); // TLegend* leg_ = new TLegend(0.40,0.50,0.80,0.70,NULL,"brNDC"); // leg_->SetTextFont(42); // leg_->SetBorderSize(0); // leg_->SetLineColor(1); // leg_->SetLineStyle(1); // leg_->SetLineWidth(1); // leg_->SetFillColor(0); // leg_->SetFillStyle(0); // leg_->AddEntry(numQ,/*labels[i]+*/"Quark jets fraction","lpf"); // leg_->AddEntry(numG,/*labels[i]+*/"Gluon jets fraction","lpf"); // // TPaveText *pt1 = new TPaveText(0.17,0.45,0.5,0.5, "brNDC"); // pt1->SetBorderSize(1); // pt1->SetFillColor(19); // pt1->SetFillStyle(0); // pt1->SetLineColor(0); // pt1->SetTextFont(132); // pt1->SetTextSize(0.033); // // TText *text = pt1->AddText("#splitline{m_{H^{#pm}} = 120 GeV/c^{2},}{BR(t #rightarrow H^{+}b) = 0.05}"); // TCanvas* myCanva = new TCanvas(labels[i],labels[i],2000,2000); // myCanva->cd(); // // if(i<2){ // numQ->Draw("hist"); // numG->Draw("histsame"); // } // else{ // numG->Draw("hist"); // numQ->Draw("histsame"); // } // leg_->Draw(); // // pt1->Draw("same"); // myCanva->SaveAs(fBase[i]+".pdf"); // myCanva->SaveAs(fBase[i]+".png"); // myCanva->Clear(); // delete myCanva; // delete pt1; // delete numQ; // delete numG; // delete den; // delete leg_; // } }
void set_plot_style() { TStyle* style = new TStyle("style", "Style for P-TDR"); // For the canvas: style->SetCanvasBorderMode(0); style->SetCanvasColor(kWhite); style->SetCanvasDefX(0); //Position on screen style->SetCanvasDefY(0); // For the Pad: style->SetPadBorderMode(0); style->SetPadColor(kWhite); style->SetPadGridX(false); style->SetPadGridY(false); style->SetGridColor(kBlack); style->SetGridStyle(3); style->SetGridWidth(1); // For the frame: style->SetFrameBorderMode(0); style->SetFrameBorderSize(1); style->SetFrameFillColor(kWhite); style->SetFrameFillStyle(0); style->SetFrameLineColor(kBlack); style->SetFrameLineStyle(1); style->SetFrameLineWidth(1); // For the histo: // style->SetHistFillColor(1); style->SetHistFillStyle(0); // style->SetHistLineColor(kBlack); style->SetHistLineStyle(0); style->SetHistLineWidth(1); style->SetEndErrorSize(2); style->SetErrorX(0.); style->SetMarkerStyle(20); //For the fit/function: style->SetOptFit(1); style->SetFitFormat("5.4g"); style->SetFuncColor(kRed); style->SetFuncStyle(1); style->SetFuncWidth(1); //For the date: style->SetOptDate(0); // For the statistics box: style->SetOptFile(0); style->SetOptStat(0); // To display the mean and RMS: SetOptStat("mr"); style->SetStatColor(kWhite); style->SetStatFont(42); style->SetStatFontSize(0.025); style->SetStatTextColor(kBlack); style->SetStatFormat("6.4g"); style->SetStatBorderSize(1); style->SetStatH(0.1); style->SetStatW(0.15); // Margins: style->SetPadTopMargin(1 - 0.95); style->SetPadBottomMargin(0.1); style->SetPadLeftMargin(0.12); style->SetPadRightMargin(1 - 0.96); // For the Global title: style->SetOptTitle(0); style->SetTitleFont(42); style->SetTitleColor(kBlack); style->SetTitleTextColor(kBlack); style->SetTitleFillColor(kWhite); //10 is roughly kWhite, 10% grey? style->SetTitleFontSize(0.05); // For the axis titles: style->SetTitleColor(kBlack, "XYZ"); style->SetTitleFont(42, "XYZ"); style->SetTitleSize(0.06, "XYZ"); style->SetTitleXOffset(0.9); style->SetTitleYOffset(1.25); // For the axis labels: style->SetLabelColor(kBlack, "XYZ"); style->SetLabelFont(42, "XYZ"); style->SetLabelOffset(0.007, "XYZ"); style->SetLabelSize(0.05, "XYZ"); // For the axis: style->SetAxisColor(kBlack, "XYZ"); style->SetStripDecimals(true); style->SetTickLength(0.03, "XYZ"); style->SetNdivisions(510, "XYZ"); style->SetPadTickX(true); // To get tick marks on the opposite side of the frame style->SetPadTickY(true); // Change for log plots: style->SetOptLogx(false); style->SetOptLogy(false); style->SetOptLogz(false); // Set the style style->cd(); }
void setTDRStyle() { TStyle *tdrStyle = new TStyle("tdrStyle","Style for P-TDR"); tdrStyle->SetCanvasColor (0); tdrStyle->SetCanvasBorderSize(10); tdrStyle->SetCanvasBorderMode(0); tdrStyle->SetCanvasDefH (700); tdrStyle->SetCanvasDefW (700); tdrStyle->SetCanvasDefX (100); tdrStyle->SetCanvasDefY (100); // color palette for 2D temperature plots tdrStyle->SetPalette(1,0); // Pads tdrStyle->SetPadColor (0); tdrStyle->SetPadBorderSize (5); tdrStyle->SetPadBorderMode (0); tdrStyle->SetPadBorderMode (0); tdrStyle->SetPadBottomMargin(0.15); tdrStyle->SetPadTopMargin (0.08); tdrStyle->SetPadLeftMargin (0.12); tdrStyle->SetPadRightMargin (0.07); tdrStyle->SetPadGridX (0); tdrStyle->SetPadGridY (0); tdrStyle->SetPadTickX (1); tdrStyle->SetPadTickY (1); // Frames tdrStyle->SetLineWidth(3); tdrStyle->SetFrameFillStyle ( 0); tdrStyle->SetFrameFillColor ( 0); tdrStyle->SetFrameLineColor ( 1); tdrStyle->SetFrameLineStyle ( 0); tdrStyle->SetFrameLineWidth ( 2); tdrStyle->SetFrameBorderSize(5); tdrStyle->SetFrameBorderMode( 0); tdrStyle->SetFillStyle( 0); // Histograms tdrStyle->SetHistFillColor(2); tdrStyle->SetHistFillStyle(0); tdrStyle->SetHistLineColor(1); tdrStyle->SetHistLineStyle(0); tdrStyle->SetHistLineWidth(4); tdrStyle->SetNdivisions(510); // Functions tdrStyle->SetFuncColor(1); tdrStyle->SetFuncStyle(0); tdrStyle->SetFuncWidth(2); // Various tdrStyle->SetMarkerStyle(20); tdrStyle->SetMarkerColor(kBlack); tdrStyle->SetMarkerSize (1.4); tdrStyle->SetTitleBorderSize(0); tdrStyle->SetTitleFillColor (0); tdrStyle->SetTitleX (0.2); tdrStyle->SetTitleSize (0.055,"X"); tdrStyle->SetTitleOffset(1.200,"X"); tdrStyle->SetLabelOffset(0.005,"X"); tdrStyle->SetLabelSize (0.050,"X"); tdrStyle->SetLabelFont (42 ,"X"); tdrStyle->SetStripDecimals(kFALSE); tdrStyle->SetTitleSize (0.055,"Y"); tdrStyle->SetTitleOffset(1.000,"Y"); tdrStyle->SetLabelOffset(0.010,"Y"); tdrStyle->SetLabelSize (0.050,"Y"); tdrStyle->SetLabelFont (42 ,"Y"); tdrStyle->SetTextSize (0.055); tdrStyle->SetTextFont (42); tdrStyle->SetStatFont (42); tdrStyle->SetTitleFont (42); tdrStyle->SetTitleFont (42,"X"); tdrStyle->SetTitleFont (42,"Y"); tdrStyle->SetOptStat (0); tdrStyle->SetOptTitle (0); tdrStyle->SetLineStyleString(11,"20 10"); tdrStyle->SetLegendBorderSize(0); tdrStyle->cd(); }
void setTDRStyle() { TStyle *tdrStyle = new TStyle("tdrStyle","Style for P-TDR"); // For the canvas: tdrStyle->SetCanvasBorderMode(0); tdrStyle->SetCanvasColor(kWhite); tdrStyle->SetCanvasDefH(600); //Height of canvas tdrStyle->SetCanvasDefW(600); //Width of canvas tdrStyle->SetCanvasDefX(0); //POsition on screen tdrStyle->SetCanvasDefY(0); // For the Pad: tdrStyle->SetPadBorderMode(0); tdrStyle->SetPadColor(kWhite); tdrStyle->SetPadGridX(false); tdrStyle->SetPadGridY(false); tdrStyle->SetGridColor(0); tdrStyle->SetGridStyle(3); tdrStyle->SetGridWidth(1); // For the frame: tdrStyle->SetFrameBorderMode(0); tdrStyle->SetFrameBorderSize(1); tdrStyle->SetFrameFillColor(0); tdrStyle->SetFrameFillStyle(0); tdrStyle->SetFrameLineColor(1); tdrStyle->SetFrameLineStyle(1); tdrStyle->SetFrameLineWidth(1); // For the histo: tdrStyle->SetHistLineColor(1); tdrStyle->SetHistLineStyle(0); tdrStyle->SetHistLineWidth(1); tdrStyle->SetEndErrorSize(2); tdrStyle->SetErrorX(0.); tdrStyle->SetMarkerStyle(20); //For the fit/function: tdrStyle->SetOptFit(1); tdrStyle->SetFitFormat("5.4g"); tdrStyle->SetFuncColor(2); tdrStyle->SetFuncStyle(1); tdrStyle->SetFuncWidth(1); //For the date: tdrStyle->SetOptDate(0); // For the statistics box: tdrStyle->SetOptFile(0); tdrStyle->SetOptStat(0); // To display the mean and RMS: SetOptStat("mr"); tdrStyle->SetStatColor(kWhite); tdrStyle->SetStatFont(42); tdrStyle->SetStatFontSize(0.025); tdrStyle->SetStatTextColor(1); tdrStyle->SetStatFormat("6.4g"); tdrStyle->SetStatBorderSize(1); tdrStyle->SetStatH(0.1); tdrStyle->SetStatW(0.15); // Margins: tdrStyle->SetPadTopMargin(0.05); tdrStyle->SetPadBottomMargin(0.13); tdrStyle->SetPadLeftMargin(0.16); tdrStyle->SetPadRightMargin(0.02); // For the Global title: tdrStyle->SetOptTitle(0); tdrStyle->SetTitleFont(42); tdrStyle->SetTitleColor(1); tdrStyle->SetTitleTextColor(1); tdrStyle->SetTitleFillColor(10); tdrStyle->SetTitleFontSize(0.05); // For the axis titles: tdrStyle->SetTitleColor(1, "XYZ"); tdrStyle->SetTitleFont(42, "XYZ"); tdrStyle->SetTitleSize(0.06, "XYZ"); tdrStyle->SetTitleXOffset(0.9); tdrStyle->SetTitleYOffset(1.25); // For the axis labels: tdrStyle->SetLabelColor(1, "XYZ"); tdrStyle->SetLabelFont(42, "XYZ"); tdrStyle->SetLabelOffset(0.007, "XYZ"); tdrStyle->SetLabelSize(0.05, "XYZ"); // For the axis: tdrStyle->SetAxisColor(1, "XYZ"); tdrStyle->SetStripDecimals(kTRUE); tdrStyle->SetTickLength(0.03, "XYZ"); tdrStyle->SetNdivisions(510, "XYZ"); tdrStyle->SetPadTickX(1); // To get tick marks on the opposite side of the frame tdrStyle->SetPadTickY(1); // Change for log plots: tdrStyle->SetOptLogx(0); tdrStyle->SetOptLogy(0); tdrStyle->SetOptLogz(0); // Postscript options: tdrStyle->SetPaperSize(20.,20.); tdrStyle->cd(); }
///// // Set setTDRStyle_modified (from link https://twiki.cern.ch/twiki/pub/CMS/TRK10001/setTDRStyle_modified.C) ///// void setTDRStyle(){ TStyle *tdrStyle = new TStyle("tdrStyle","Style for P-TDR"); // For the canvas: tdrStyle->SetCanvasBorderMode(0); tdrStyle->SetCanvasColor(kWhite); tdrStyle->SetCanvasDefH(600); //Height of canvas tdrStyle->SetCanvasDefW(600); //Width of canvas tdrStyle->SetCanvasDefX(0); //POsition on screen tdrStyle->SetCanvasDefY(0); // For the Pad: tdrStyle->SetPadBorderMode(0); tdrStyle->SetPadColor(kWhite); tdrStyle->SetPadGridX(false); tdrStyle->SetPadGridY(false); tdrStyle->SetGridColor(0); tdrStyle->SetGridStyle(3); tdrStyle->SetGridWidth(1); // For the frame: tdrStyle->SetFrameBorderMode(0); tdrStyle->SetFrameBorderSize(1); tdrStyle->SetFrameFillColor(0); tdrStyle->SetFrameFillStyle(0); tdrStyle->SetFrameLineColor(1); tdrStyle->SetFrameLineStyle(1); tdrStyle->SetFrameLineWidth(1); // For the histo: tdrStyle->SetHistFillColor(0); tdrStyle->SetHistLineColor(1); tdrStyle->SetHistLineStyle(0); tdrStyle->SetHistLineWidth(1); tdrStyle->SetErrorX(0.); tdrStyle->SetMarkerStyle(20); //For the fit/function: tdrStyle->SetOptFit(1); tdrStyle->SetFitFormat("5.4g"); tdrStyle->SetFuncStyle(1); tdrStyle->SetFuncWidth(1); //For the date: tdrStyle->SetOptDate(0); // For the statistics box: tdrStyle->SetOptFile(0); tdrStyle->SetOptStat("e"); tdrStyle->SetStatColor(kGray); tdrStyle->SetStatFont(42); tdrStyle->SetStatTextColor(1); tdrStyle->SetStatFormat("6.4g"); tdrStyle->SetStatBorderSize(0); tdrStyle->SetStatX(1.); //Starting position on X axis tdrStyle->SetStatY(1.); //Starting position on Y axis tdrStyle->SetStatFontSize(0.025); //Vertical Size tdrStyle->SetStatW(0.15); //Horizontal size // tdrStyle->SetStatStyle(Style_t style = 1001); // Margins: tdrStyle->SetPadTopMargin(0.05); tdrStyle->SetPadBottomMargin(0.125); tdrStyle->SetPadLeftMargin(0.105); tdrStyle->SetPadRightMargin(0.1); // For the Global title: // tdrStyle->SetOptTitle(0); tdrStyle->SetTitleFont(42); tdrStyle->SetTitleColor(1); tdrStyle->SetTitleTextColor(1); tdrStyle->SetTitleFillColor(10); tdrStyle->SetTitleFontSize(0.05); // For the axis titles: tdrStyle->SetTitleColor(1, "XYZ"); tdrStyle->SetTitleFont(42, "XYZ"); tdrStyle->SetTitleSize(0.05, "XYZ"); tdrStyle->SetTitleXOffset(0.9); tdrStyle->SetTitleYOffset(0.8); tdrStyle->SetTitleOffset(0.7, "Y"); // Another way to set the Offset // For the axis labels: tdrStyle->SetLabelColor(1, "XYZ"); tdrStyle->SetLabelFont(42, "XYZ"); tdrStyle->SetLabelOffset(0.007, "XYZ"); tdrStyle->SetLabelSize(0.045, "XYZ"); // For the axis: tdrStyle->SetAxisColor(1, "XYZ"); tdrStyle->SetStripDecimals(kTRUE); tdrStyle->SetTickLength(0.03, "XYZ"); tdrStyle->SetNdivisions(510, "XYZ"); tdrStyle->SetPadTickX(1); // To get tick marks on the opposite side of the frame tdrStyle->SetPadTickY(1); // Change for log plots: tdrStyle->SetOptLogx(0); tdrStyle->SetOptLogy(0); tdrStyle->SetOptLogz(0); tdrStyle->cd(); }
void absoluteCS_CSnPb() { TStyle * style = (TStyle*)gROOT->FindObject("graphStyle"); if(!style) { style = new TStyle("graphStyle","graphStyle"); } TCanvas* c = new TCanvas("c1","",1200,1200); style->SetOptStat(0); style->SetOptTitle(0); style->SetPalette(1,0); style->SetCanvasColor(10); style->SetCanvasBorderMode(0); style->SetFrameLineWidth(3); style->SetFrameFillColor(10); style->SetPadColor(10); style->SetHistLineWidth(3); style->SetHistLineColor(kBlue); style->SetMarkerSize(0.9); style->SetMarkerStyle(8); style->SetFuncWidth(3); style->SetFuncColor(kRed); style->SetLabelColor(kBlack,"xyz"); style->SetTitleSize(0.06,"xyz"); style->SetTitleFillColor(10); style->SetTitleTextColor(kBlack); style->SetEndErrorSize(0); gROOT->SetStyle("graphStyle"); gROOT->ForceStyle(); // read graphs string expFileName = "/data2/analysis/total.root"; string litFileName = "/data2/analysis/literatureData.root"; TFile* expFile = new TFile(expFileName.c_str(),"READ"); TFile* litFile = new TFile(litFileName.c_str(),"READ"); string expCGraphName = "CNat"; string expSnGraphName = "SnNat"; string expPbGraphName = "PbNat"; string litCGraphName = "Natural C (n,tot)"; string litSnGraphName = "Natural Sn (n,tot)"; string litPbGraphName = "Natural Pb (n,tot)"; TGraphAsymmErrors* expCGraph = (TGraphAsymmErrors*)expFile->Get(expCGraphName.c_str()); TGraphAsymmErrors* expSnGraph = (TGraphAsymmErrors*)expFile->Get(expSnGraphName.c_str()); TGraphAsymmErrors* expPbGraph = (TGraphAsymmErrors*)expFile->Get(expPbGraphName.c_str()); TGraphAsymmErrors* litCGraph = (TGraphAsymmErrors*)litFile->Get(litCGraphName.c_str()); TGraphAsymmErrors* litSnGraph = (TGraphAsymmErrors*)litFile->Get(litSnGraphName.c_str()); TGraphAsymmErrors* litPbGraph = (TGraphAsymmErrors*)litFile->Get(litPbGraphName.c_str()); // Set graph point and line characteristics expCGraph->SetLineColor(kRed); expCGraph->SetLineWidth(5); expCGraph->SetLineStyle(0); expCGraph->SetMarkerColor(kRed); expSnGraph->SetLineColor(kRed); expSnGraph->SetLineWidth(5); expSnGraph->SetLineStyle(0); expSnGraph->SetMarkerColor(kRed); expPbGraph->SetLineColor(kRed); expPbGraph->SetLineWidth(5); expPbGraph->SetLineStyle(0); expPbGraph->SetMarkerColor(kRed); litCGraph->SetLineColor(kBlack); litCGraph->SetLineWidth(3); litCGraph->SetLineStyle(2); litCGraph->SetMarkerColor(kBlack); litSnGraph->SetLineColor(kBlack); litSnGraph->SetLineWidth(3); litSnGraph->SetLineStyle(2); litSnGraph->SetMarkerColor(kBlack); litPbGraph->SetLineColor(kBlack); litPbGraph->SetLineWidth(3); litPbGraph->SetLineStyle(2); litPbGraph->SetMarkerColor(kBlack); // Pad dimensions and margins gPad->SetPad(0.005, 0.995, 0.995, 0.005); gPad->SetLeftMargin(0.15); gPad->SetRightMargin(0.01); gPad->SetTopMargin(0.03); gPad->SetBottomMargin(0.15); gPad->SetTicky(2); // X-axis parameters expCGraph->GetXaxis()->SetTitle("Energy (MeV)"); expCGraph->GetXaxis()->SetTitleSize(0.05); expCGraph->GetXaxis()->SetTitleFont(2); expCGraph->GetXaxis()->SetTitleOffset(1.4); expCGraph->GetXaxis()->CenterTitle(); expCGraph->GetXaxis()->SetLabelOffset(0.01); expCGraph->GetXaxis()->SetLabelSize(0.05); expCGraph->GetXaxis()->SetLabelFont(2); expCGraph->GetXaxis()->SetNdivisions(10); expCGraph->GetXaxis()->SetTickLength(0.03); // Y-axis parameters expCGraph->GetYaxis()->SetTitle("#sigma_{tot} (barns)"); expCGraph->GetYaxis()->SetTitleSize(0.06); expCGraph->GetYaxis()->SetTitleFont(2); expCGraph->GetYaxis()->SetTitleOffset(0.8); expCGraph->GetYaxis()->CenterTitle(); expCGraph->GetYaxis()->SetLabelOffset(0.01); expCGraph->GetYaxis()->SetLabelSize(0.05); expCGraph->GetYaxis()->SetLabelFont(2); expCGraph->GetYaxis()->SetNdivisions(10); expCGraph->GetYaxis()->SetTickLength(0.02); expCGraph->Draw(""); expSnGraph->Draw("same"); expPbGraph->Draw("same"); litCGraph->Draw("same"); litSnGraph->Draw("same"); litPbGraph->Draw("same"); expCGraph->Draw("same"); expSnGraph->Draw("same"); expPbGraph->Draw("same"); gPad->SetLogx(1); expCGraph->GetYaxis()->SetRangeUser(0,9); TLatex latex; latex.SetNDC(); latex.SetTextSize(0.035); latex.SetTextAlign(13); // align at top latex.DrawLatex(0.65,0.65,"Pb (elem.)"); latex.DrawLatex(0.35,0.52,"Sn (elem.)"); latex.DrawLatex(0.32,0.4,"C (elem.)"); // Define legend format and contents TLegend *legend = new TLegend(0.7,0.8,0.9,0.9); legend->AddEntry(litCGraph,"lit data (analog)","l"); legend->AddEntry(expCGraph,"new data (DSP)","l"); legend->Draw(); expFile->Close(); litFile->Close(); }
void setHHStyle(TStyle& HHStyle) { const int fontstyle=42; HHStyle.SetPalette(1); // ============== // Canvas // ============== HHStyle.SetCanvasBorderMode(0); HHStyle.SetCanvasColor(kWhite); HHStyle.SetCanvasDefH(600); //Height of canvas HHStyle.SetCanvasDefW(600); //Width of canvas HHStyle.SetCanvasDefX(0); //Position on screen HHStyle.SetCanvasDefY(0); // ============== // Pad // ============== HHStyle.SetPadBorderMode(0); // HHStyle.SetPadBorderSize(Width_t size = 1); HHStyle.SetPadColor(kWhite); HHStyle.SetPadGridX(false); HHStyle.SetPadGridY(false); HHStyle.SetGridColor(kGray); HHStyle.SetGridStyle(3); HHStyle.SetGridWidth(1); // ============== // Frame // ============== HHStyle.SetFrameBorderMode(0); HHStyle.SetFrameBorderSize(1); HHStyle.SetFrameFillColor(0); HHStyle.SetFrameFillStyle(0); HHStyle.SetFrameLineColor(1); HHStyle.SetFrameLineStyle(1); HHStyle.SetFrameLineWidth(1); // ============== // Histo // ============== HHStyle.SetErrorX(0.0); HHStyle.SetEndErrorSize(8); // HHStyle.SetHistFillColor(1); // HHStyle.SetHistFillStyle(0); // HHStyle.SetHistLineColor(1); HHStyle.SetHistLineStyle(0); HHStyle.SetHistLineWidth(1); // HHStyle.SetLegoInnerR(Float_t rad = 0.5); // HHStyle.SetNumberContours(Int_t number = 20); // HHStyle.SetErrorMarker(20); HHStyle.SetMarkerStyle(20); // ============== // Fit/function // ============== HHStyle.SetOptFit(0); HHStyle.SetFitFormat("5.4g"); HHStyle.SetFuncColor(2); HHStyle.SetFuncStyle(1); HHStyle.SetFuncWidth(1); // ============== // Date // ============== HHStyle.SetOptDate(0); // HHStyle.SetDateX(Float_t x = 0.01); // HHStyle.SetDateY(Float_t y = 0.01); // ===================== // Statistics Box // ===================== HHStyle.SetOptFile(0); HHStyle.SetOptStat(0); // To display the mean and RMS: SetOptStat("mr"); HHStyle.SetStatColor(kWhite); HHStyle.SetStatFont(fontstyle); HHStyle.SetStatFontSize(0.025); HHStyle.SetStatTextColor(1); HHStyle.SetStatFormat("6.4g"); HHStyle.SetStatBorderSize(1); HHStyle.SetStatH(0.1); HHStyle.SetStatW(0.15); // HHStyle.SetStatStyle(Style_t style = 1001); // HHStyle.SetStatX(Float_t x = 0); // HHStyle.SetStatY(Float_t y = 0); // ============== // Margins // ============== HHStyle.SetPadTopMargin(0.1); HHStyle.SetPadBottomMargin(0.15); HHStyle.SetPadLeftMargin(0.20); HHStyle.SetPadRightMargin(0.05); // ============== // Global Title // ============== HHStyle.SetOptTitle(0); HHStyle.SetTitleFont(fontstyle); HHStyle.SetTitleColor(1); HHStyle.SetTitleTextColor(1); HHStyle.SetTitleFillColor(10); HHStyle.SetTitleFontSize(0.05); // HHStyle.SetTitleH(0); // Set the height of the title box // HHStyle.SetTitleW(0); // Set the width of the title box // HHStyle.SetTitleX(0); // Set the position of the title box // HHStyle.SetTitleY(0.985); // Set the position of the title box // HHStyle.SetTitleStyle(Style_t style = 1001); // HHStyle.SetTitleBorderSize(2); // ============== // Axis titles // ============== HHStyle.SetTitleColor(1, "XYZ"); HHStyle.SetTitleFont(fontstyle, "XYZ"); HHStyle.SetTitleSize(0.05, "XYZ"); // HHStyle.SetTitleXSize(Float_t size = 0.02); // Another way to set the size? // HHStyle.SetTitleYSize(Float_t size = 0.02); HHStyle.SetTitleXOffset(1.0); HHStyle.SetTitleYOffset(1.7); // HHStyle.SetTitleOffset(1.1, "Y"); // Another way to set the Offset // ============== // Axis Label // ============== //HHStyle.SetLabelColor(1, "XYZ"); HHStyle.SetLabelFont(fontstyle, "XYZ"); HHStyle.SetLabelOffset(0.007, "XYZ"); HHStyle.SetLabelSize(0.04, "XYZ"); // ============== // Axis // ============== HHStyle.SetAxisColor(1, "XYZ"); HHStyle.SetStripDecimals(kTRUE); HHStyle.SetTickLength(0.03, "XYZ"); HHStyle.SetNdivisions(510, "XYZ"); HHStyle.SetPadTickX(1); // To get tick marks on the opposite side of the frame HHStyle.SetPadTickY(1); // Change for log plots: HHStyle.SetOptLogx(0); HHStyle.SetOptLogy(0); HHStyle.SetOptLogz(0); // ============== // Text // ============== HHStyle.SetTextAlign(11); HHStyle.SetTextAngle(0); HHStyle.SetTextColor(1); HHStyle.SetTextFont(fontstyle); HHStyle.SetTextSize(0.05); // ===================== // Postscript options: // ===================== HHStyle.SetPaperSize(20.,20.); // HHStyle.SetLineScalePS(Float_t scale = 3); // HHStyle.SetLineStyleString(Int_t i, const char* text); // HHStyle.SetHeaderPS(const char* header); // HHStyle.SetTitlePS(const char* pstitle); // HHStyle.SetBarOffset(Float_t baroff = 0.5); // HHStyle.SetBarWidth(Float_t barwidth = 0.5); // HHStyle.SetPaintTextFormat(const char* format = "g"); // HHStyle.SetPalette(Int_t ncolors = 0, Int_t* colors = 0); // HHStyle.SetTimeOffset(Double_t toffset); // HHStyle.SetHistMinimumZero(kTRUE); }
void blinding_study() { gSystem->CompileMacro("MitGPTree.h"); // First we define MIT Style for the plots. TStyle *MitStyle = gStyle; //gStyle = MitStyle; // Canvas MitStyle->SetCanvasColor (0); MitStyle->SetCanvasBorderSize(10); MitStyle->SetCanvasBorderMode(0); MitStyle->SetCanvasDefH (700); MitStyle->SetCanvasDefW (700); MitStyle->SetCanvasDefX (100); MitStyle->SetCanvasDefY (100); // Pads MitStyle->SetPadColor (0); MitStyle->SetPadBorderSize (10); MitStyle->SetPadBorderMode (0); MitStyle->SetPadBottomMargin(0.13); MitStyle->SetPadTopMargin (0.04); MitStyle->SetPadLeftMargin (0.18); MitStyle->SetPadRightMargin (0.04); MitStyle->SetPadGridX (0); MitStyle->SetPadGridY (0); MitStyle->SetPadTickX (0); MitStyle->SetPadTickY (0); // Frames MitStyle->SetFrameFillStyle ( 0); MitStyle->SetFrameFillColor ( 0); MitStyle->SetFrameLineColor ( 1); MitStyle->SetFrameLineStyle ( 0); MitStyle->SetFrameLineWidth ( 1); MitStyle->SetFrameBorderSize(10); MitStyle->SetFrameBorderMode( 0); // Histograms MitStyle->SetHistFillColor(2); MitStyle->SetHistFillStyle(0); MitStyle->SetHistLineColor(1); MitStyle->SetHistLineStyle(0); MitStyle->SetHistLineWidth(2); MitStyle->SetNdivisions(505); // Functions MitStyle->SetFuncColor(1); MitStyle->SetFuncStyle(0); MitStyle->SetFuncWidth(2); // Various MitStyle->SetMarkerStyle(20); MitStyle->SetMarkerColor(kBlack); MitStyle->SetMarkerSize (1.2); MitStyle->SetTitleSize (0.055,"X"); MitStyle->SetTitleOffset(1.200,"X"); MitStyle->SetLabelOffset(0.005,"X"); MitStyle->SetLabelSize (0.050,"X"); MitStyle->SetLabelFont (42 ,"X"); MitStyle->SetTickLength (-0.03,"X"); MitStyle->SetStripDecimals(kFALSE); MitStyle->SetTitleSize (0.055,"Y"); MitStyle->SetTitleOffset(1.800,"Y"); MitStyle->SetLabelOffset(0.010,"Y"); MitStyle->SetLabelSize (0.050,"Y"); MitStyle->SetLabelFont (42 ,"Y"); MitStyle->SetTickLength (-0.03,"Y"); MitStyle->SetTextSize (0.055); MitStyle->SetTextFont (42); MitStyle->SetStatFont (42); MitStyle->SetTitleFont (42); MitStyle->SetTitleFont (42,"X"); MitStyle->SetTitleFont (42,"Y"); MitStyle->SetOptStat (0); // Here the style section ends and the macro begins. string sig_samples[] = { "s12-dmmpho-v_m1-v7a", "s12-dmmpho-av_m1-v7a", "s12-dmmpho-v_m10-v7a", "s12-dmmpho-av_m10-v7a", "s12-dmmpho-v_m100-v7a", "s12-dmmpho-av_m100-v7a", "s12-dmmpho-v_m200-v7a", "s12-dmmpho-av_m200-v7a", "s12-dmmpho-av_m300-v7a", "s12-dmmpho-v_m500-v7a", "s12-dmmpho-av_m500-v7a", "s12-dmmpho-v_m1000-v7a", "s12-dmmpho-av_m1000-v7a", "s12-addmpho-md1_d2-v7a", "s12-addmpho-md1_d3-v7a", "s12-addmpho-md1_d4-v7a", "s12-addmpho-md1_d5-v7a", "s12-addmpho-md1_d6-v7a", "s12-addmpho-md2_d2-v7a", "s12-addmpho-md2_d3-v7a", "s12-addmpho-md2_d5-v7a", "s12-addmpho-md2_d6-v7a", "s12-addmpho-md3_d2-v7a", "s12-addmpho-md3_d3-v7a", "s12-addmpho-md3_d4-v7a", "s12-addmpho-md3_d5-v7a", "s12-addmpho-md3_d6-v7a" } Int_t signal_num=0; // This macro considers only one signal sample at a time, so the variable signal_num defines // which signal sample to work on (it is the index of the sample in sig_samples). double sig_weights[] = { 4.81E-07, 4.79E-07, 4.80E-07, 4.81E-07, 4.77E-07, 4.26E-07, 4.23E-07, 3.18E-07, 2.19E-07, 2.01E-07, 9.52E-08, 3.00E-08, 8.22E-09, 6.48E-02, 1.73E-01, 6.93E-02, 9.17E-02, 9.63E-01, 5.87E-03, 4.91E-03, 4.37E-03, 4.26E-03, 1.45E-03, 7.93E-04, 5.53E-04, 4.26E-04, 3.24E-04 }; // The signal weights are given by (sigma_MC * lumi)/(N_processed). Background weights are defined similarly below. string bg_samples[] = {"s12-zgptg130-v7c", "s12-wjets-ptw100-v7a", "s12-wgptg130-v7a", "s12-qcdht100-250-v7a", "s12-qcdht250-500-v7a", "s12-qcdht500-1000-v7a", "s12-qcdht1000-v7a", "s12-2pibo10_25-v7a", "s12-2pibo25_250-v7a", "s12-2pibo250-v7a", "s12-2pibx10_25-v7a", "s12-2pibx25_250-v7a", "s12-2pibx250-v7a", "s12-pj50_80-v7a", "s12-pj80_120-v7a", "s12-pj120_170-v7a", "s12-pj170_300-v7a", "s12-pj300_470-v7a", "s12-pj470_800-v7a", "s12-pj800_1400-v7a", "s12-pj1400_1800-v7a", "s12-pj1800-v7a", "s12-zgllgptg130-v7a", "s12-zgllg-v7a"}; double bg_weights[]= { 5.28E-03, 1.14E-01, 1.38E-02, 5.63E+03, 2.34E+02, 9.71E+00, 3.09E-01, 9.21E+00, 9.90E-01, 4.21E-04, 1.66E+01, 6.43E-01, 4.91E-05, 3.30E+01, 5.49E+00, 1.09E+00, 3.01E-01, 2.15E-02, 2.10E-03, 7.11E-05, 4.45E-07, 1.88E-08, 3.18E-03, 5.10E-01 }; string sigLine = sig_samples[signal_num]; Double_t sigWeight = sig_weights[signal_num]; TH1* sig_hist = new TH1F("sig_hist", TString("Phi Between Met and Photon for Signal Events [") + TString(sigLine) + TString("]"), 70, 0, 3.5); TH1* bg_hist = new TH1F("bg_hist", TString("Phi Between Met and Photon for Background Events [") + TString(sigLine) + TString("]"), 70, 0, 3.5); TH1* signifhist = new TH1F("signifhist", TString(" "), 24, 2, 3.2); cout<<"The selected signal sample is: "<<TString(sigLine)<<" "<<endl; TString sigFilename = TString("monoph-2013-July9_") + TString(sigLine) + TString("_noskim.root"); MitGPTree sigEvent; sigEvent.LoadTree(TString("/scratch/cferko/hist/monoph-2013-July9/merged/")+sigFilename, 0); sigEvent.InitTree(0); int nDataSig=sigEvent.tree_->GetEntries(); for (int evt=0; evt<nDataSig; ++evt) { sigEvent.tree_->GetEntry(evt); Double_t pho1Pt = sigEvent.pho1_.Pt(); Double_t jet1Pt = sigEvent.jet1_.Pt(); Double_t met = sigEvent.met_; Double_t metPhi = sigEvent.metPhi_; Double_t nphotons = sigEvent.nphotons_; Double_t ncosmics = sigEvent.ncosmics_; Double_t phoPassEleVeto = sigEvent.phoPassEleVeto_a1_; Double_t jet1Pt = sigEvent.jet1_.Pt(); Double_t nlep = sigEvent.nlep_; Double_t pho1Eta = sigEvent.pho1_.Eta(); Double_t pho1Phi = sigEvent.pho1_.Phi(); Double_t phoIsTrigger = sigEvent.phoIsTrigger_a1_; Double_t phoLeadTimeSpan = sigEvent.phoLeadTimeSpan_a1_; Double_t phoCoviEtaiEta = sigEvent.phoCoviEtaiEta_a1_; Double_t phoCoviPhiiPhi = sigEvent.phoCoviPhiiPhi_a1_; Double_t phoMipIsHalo = sigEvent.phoMipIsHalo_a1_; Double_t phoSeedTime = sigEvent.phoSeedTime_a1_; Double_t deltaPhi = TMath::ACos(TMath::Cos(pho1Phi - metPhi)); if (TMath::Abs(pho1Eta)<1.479 && met>140 && pho1Pt>160 && nphotons>0 && phoPassEleVeto>0 && phoIsTrigger==1 && TMath::Abs(phoLeadTimeSpan) < 8. && phoCoviEtaiEta > 0.001 && phoCoviPhiiPhi > 0.001 && phoMipIsHalo == 0 && phoSeedTime > -1.5 && nlep==0 && ncosmics==0 && jet1Pt<100) sig_hist->Fill(deltaPhi, sigWeight); } for (int i=0; i<24; i++) { string bgLine = bg_samples[i]; Double_t bgWeight = bg_weights[i]; TString bgFilename = TString("monoph-2013-July9_") + TString(bgLine) + TString("_noskim.root"); MitGPTree bgEvent; bgEvent.LoadTree(TString("/scratch/cferko/hist/monoph-2013-July9/merged/") + bgFilename, 0); bgEvent.InitTree(0); int nDataBg=bgEvent.tree_->GetEntries(); for (int evt=0; evt<nDataBg; ++evt) { bgEvent.tree_->GetEntry(evt); Double_t pho1Pt = bgEvent.pho1_.Pt(); Double_t jet1Pt = bgEvent.jet1_.Pt(); Double_t met = bgEvent.met_; Double_t metPhi = bgEvent.metPhi_; Double_t nphotons = bgEvent.nphotons_; Double_t ncosmics = bgEvent.ncosmics_; Double_t phoPassEleVeto = bgEvent.phoPassEleVeto_a1_; Double_t jet1Pt = bgEvent.jet1_.Pt(); Double_t nlep = bgEvent.nlep_; Double_t pho1Eta = bgEvent.pho1_.Eta(); Double_t pho1Phi = bgEvent.pho1_.Phi(); Double_t phoIsTrigger = bgEvent.phoIsTrigger_a1_; Double_t phoLeadTimeSpan = bgEvent.phoLeadTimeSpan_a1_; Double_t phoCoviEtaiEta = bgEvent.phoCoviEtaiEta_a1_; Double_t phoCoviPhiiPhi = bgEvent.phoCoviPhiiPhi_a1_; Double_t phoMipIsHalo = bgEvent.phoMipIsHalo_a1_; Double_t phoSeedTime = bgEvent.phoSeedTime_a1_; Double_t deltaPhi = TMath::ACos(TMath::Cos(pho1Phi - metPhi)); if (TMath::Abs(pho1Eta)<1.479 && met>140 && pho1Pt>160 && nphotons>0 && phoPassEleVeto>0 && phoIsTrigger==1 && TMath::Abs(phoLeadTimeSpan) < 8. && phoCoviEtaiEta > 0.001 && phoCoviPhiiPhi > 0.001 && phoMipIsHalo == 0 && phoSeedTime > -1.5 && nlep==0 && ncosmics==0 && jet1Pt<100) bg_hist->Fill(deltaPhi, bgWeight); } } Double_t sigTot = sig_hist->Integral(); Double_t bgTot = bg_hist->Integral(); Double_t signifTot = sigTot/TMath::Sqrt(bgTot); Double_t signifTarget = 0.25*signifTot; Int_t reduced=0; // The strange limits in the for loop are a messy hack to get the integral to work out. Since hist->Integral(a,b) // integrates from BIN a to BIN b (bin numbers instead of values of the x-axis), I choose to work from bin 64 // (an angle cut of 3.2) to bin 40 (an angle cut of 2). for (int i=64; i>=40; i--) { Double_t sigcount = sig_hist->Integral(0, i); Double_t bgcount = bg_hist->Integral(0, i); if (bgcount>0) { Double_t significance = sigcount/TMath::Sqrt(bgcount); // cout<<"At a phi cut of "<<sig_hist->GetBinCenter(i)+0.025<<" the significance is "<<significance<<", which is a fraction "<<significance/signifTot<<" of max."<<endl; if (significance<signifTarget && reduced==0) { cout<<"The signal significance is reduced to one-fourth of its uncut value at a phi cut of "<<sig_hist->GetBinCenter(i)+0.025<<endl; reduced=1; } signifhist->Fill(sig_hist->GetBinCenter(i), significance); } } signifhist->SetStats(kFALSE); signifhist->GetXaxis()->SetTitle("Maximum #Delta#phi"); signifhist->GetYaxis()->SetTitle("Signal Significance"); signifhist->Draw(); c1->Print(TString("Blinding_") + TString(sigLine) + TString(".pdf")); }
// Create my custom FORMAL style //********************************************************************// void getMyStyle(void) { std::cout << " *** void getMyStyle(void) *** Custom TStyle initialized!" << std::endl; TStyle *myStyle = new TStyle("myStyle","Style for AN09"); // For the canvas: myStyle->SetCanvasBorderMode(0); myStyle->SetCanvasColor(kWhite); myStyle->SetCanvasDefH(600); //Height of canvas myStyle->SetCanvasDefW(600); //Width of canvas myStyle->SetCanvasDefX(0); //POsition on screen myStyle->SetCanvasDefY(0); // For the Pad: myStyle->SetPadBorderMode(0); // myStyle->SetOptTitle(0); // delete histogram titles // myStyle->SetPadBorderSize(Width_t size = 1); myStyle->SetPadColor(kWhite); myStyle->SetPadGridX(true); myStyle->SetPadGridY(true); myStyle->SetGridColor(0); myStyle->SetGridStyle(3); myStyle->SetGridWidth(1); // For the frame: myStyle->SetFrameBorderMode(0); myStyle->SetFrameBorderSize(1); myStyle->SetFrameFillColor(0); myStyle->SetFrameFillStyle(0); myStyle->SetFrameLineColor(1); myStyle->SetFrameLineStyle(1); myStyle->SetFrameLineWidth(1); // For the histo: // myStyle->SetHistFillColor(1); // myStyle->SetHistFillStyle(0); myStyle->SetHistLineColor(1); myStyle->SetHistLineStyle(0); myStyle->SetHistLineWidth(1); // myStyle->SetLegoInnerR(Float_t rad = 0.5); // myStyle->SetNumberContours(Int_t number = 20); myStyle->SetEndErrorSize(2); //myStyle->SetErrorMarker(20); myStyle->SetErrorX(0.); myStyle->SetMarkerStyle(20); //For the fit/function: myStyle->SetOptFit(1); myStyle->SetFitFormat("5.4g"); myStyle->SetFuncColor(2); myStyle->SetFuncStyle(1); myStyle->SetFuncWidth(1); //For the date: myStyle->SetOptDate(1); // myStyle->SetDateX(Float_t x = 0.01); // myStyle->SetDateY(Float_t y = 0.01); // For the statistics box: myStyle->SetOptFile(0); myStyle->SetOptStat("miourne"); // stats box myStyle->SetOptFit(1111); // fit box myStyle->SetStatColor(kWhite); myStyle->SetStatFont(42); myStyle->SetStatFontSize(0.025); myStyle->SetStatTextColor(1); myStyle->SetStatFormat("6.4g"); myStyle->SetStatBorderSize(1); myStyle->SetStatH(0.1); myStyle->SetStatW(0.15); // myStyle->SetStatStyle(Style_t style = 1001); // myStyle->SetStatX(Float_t x = 0); // myStyle->SetStatY(Float_t y = 0); // Margins: myStyle->SetPadTopMargin(0.15); myStyle->SetPadBottomMargin(0.13); myStyle->SetPadLeftMargin(0.13); myStyle->SetPadRightMargin(0.15); // For the Global title: // myStyle->SetOptTitle(0); myStyle->SetTitleFont(42); myStyle->SetTitleColor(1); myStyle->SetTitleTextColor(1); myStyle->SetTitleFillColor(10); myStyle->SetTitleFontSize(0.05); // myStyle->SetTitleH(0); // Set the height of the title box // myStyle->SetTitleW(0); // Set the width of the title box // myStyle->SetTitleX(0); // Set the position of the title box // myStyle->SetTitleY(0.985); // Set the position of the title box // myStyle->SetTitleStyle(Style_t style = 1001); // myStyle->SetTitleBorderSize(2); // For the axis titles: myStyle->SetTitleColor(1, "XYZ"); myStyle->SetTitleFont(42, "XYZ"); myStyle->SetTitleSize(0.06, "XYZ"); // myStyle->SetTitleXSize(Float_t size = 0.02); // Another way to set the size? // myStyle->SetTitleYSize(Float_t size = 0.02); myStyle->SetTitleXOffset(1.2); myStyle->SetTitleYOffset(1.2); myStyle->SetTitleOffset(1.2, "Y"); // Another way to set the Offset // For the axis labels: myStyle->SetLabelColor(1, "XYZ"); myStyle->SetLabelFont(42, "XYZ"); myStyle->SetLabelOffset(0.007, "XYZ"); myStyle->SetLabelSize(0.05, "XYZ"); // For the axis: myStyle->SetAxisColor(1, "XYZ"); myStyle->SetStripDecimals(kTRUE); myStyle->SetTickLength(0.03, "XYZ"); myStyle->SetNdivisions(510, "XYZ"); myStyle->SetPadTickX(0); // To get tick marks on the opposite side of the frame myStyle->SetPadTickY(0); // Change for log plots: myStyle->SetOptLogx(0); myStyle->SetOptLogy(0); myStyle->SetOptLogz(0); myStyle->SetPalette(1,0); // Postscript options: // myStyle->SetPaperSize(15.,15.); // myStyle->SetLineScalePS(Float_t scale = 3); // myStyle->SetLineStyleString(Int_t i, const char* text); // myStyle->SetHeaderPS(const char* header); // myStyle->SetTitlePS(const char* pstitle); // myStyle->SetBarOffset(Float_t baroff = 0.5); // myStyle->SetBarWidth(Float_t barwidth = 0.5); // myStyle->SetPaintTextFormat(const char* format = "g"); // myStyle->SetPalette(Int_t ncolors = 0, Int_t* colors = 0); // myStyle->SetTimeOffset(Double_t toffset); // myStyle->SetHistMinimumZero(kTRUE); myStyle->cd(); } //end of: void getMyStyle(void){
void setTDRStyle() { TStyle *tdrStyle = new TStyle("tdrStyle","Style for P-TDR"); // For the canvas: tdrStyle->SetCanvasBorderMode(0); tdrStyle->SetCanvasColor(kWhite); tdrStyle->SetCanvasDefH(600); //Height of canvas tdrStyle->SetCanvasDefW(600); //Width of canvas tdrStyle->SetCanvasDefX(0); //POsition on screen tdrStyle->SetCanvasDefY(0); // For the Pad: tdrStyle->SetPadBorderMode(0); // tdrStyle->SetPadBorderSize(Width_t size = 1); tdrStyle->SetPadColor(kWhite); tdrStyle->SetPadGridX(false); tdrStyle->SetPadGridY(false); tdrStyle->SetGridColor(0); tdrStyle->SetGridStyle(3); tdrStyle->SetGridWidth(1); // For the frame: tdrStyle->SetFrameBorderMode(0); tdrStyle->SetFrameBorderSize(1); tdrStyle->SetFrameFillColor(0); tdrStyle->SetFrameFillStyle(0); tdrStyle->SetFrameLineColor(1); tdrStyle->SetFrameLineStyle(1); tdrStyle->SetFrameLineWidth(1); // For the histo: // tdrStyle->SetHistFillColor(1); // tdrStyle->SetHistFillStyle(0); tdrStyle->SetHistLineColor(1); tdrStyle->SetHistLineStyle(0); tdrStyle->SetHistLineWidth(1); // tdrStyle->SetLegoInnerR(Float_t rad = 0.5); // tdrStyle->SetNumberContours(Int_t number = 20); tdrStyle->SetEndErrorSize(2); // tdrStyle->SetErrorMarker(20); // tdrStyle->SetErrorX(0.); tdrStyle->SetMarkerStyle(20); //For the fit/function: tdrStyle->SetOptFit(1); tdrStyle->SetFitFormat("5.4g"); tdrStyle->SetFuncColor(2); tdrStyle->SetFuncStyle(1); tdrStyle->SetFuncWidth(1); //For the date: tdrStyle->SetOptDate(0); // tdrStyle->SetDateX(Float_t x = 0.01); // tdrStyle->SetDateY(Float_t y = 0.01); // For the statistics box: tdrStyle->SetOptFile(0); tdrStyle->SetOptStat(0); // To display the mean and RMS: SetOptStat("mr"); tdrStyle->SetStatColor(kWhite); tdrStyle->SetStatFont(42); tdrStyle->SetStatFontSize(0.025); tdrStyle->SetStatTextColor(1); tdrStyle->SetStatFormat("6.4g"); tdrStyle->SetStatBorderSize(1); tdrStyle->SetStatH(0.1); tdrStyle->SetStatW(0.15); // tdrStyle->SetStatStyle(Style_t style = 1001); // tdrStyle->SetStatX(Float_t x = 0); // tdrStyle->SetStatY(Float_t y = 0); // Margins: tdrStyle->SetPadTopMargin(0.05); tdrStyle->SetPadBottomMargin(0.13); tdrStyle->SetPadLeftMargin(0.16); tdrStyle->SetPadRightMargin(0.02); // For the Global title: tdrStyle->SetOptTitle(0); tdrStyle->SetTitleFont(42); tdrStyle->SetTitleColor(1); tdrStyle->SetTitleTextColor(1); tdrStyle->SetTitleFillColor(10); tdrStyle->SetTitleFontSize(0.05); // tdrStyle->SetTitleH(0); // Set the height of the title box // tdrStyle->SetTitleW(0); // Set the width of the title box // tdrStyle->SetTitleX(0); // Set the position of the title box // tdrStyle->SetTitleY(0.985); // Set the position of the title box // tdrStyle->SetTitleStyle(Style_t style = 1001); // tdrStyle->SetTitleBorderSize(2); // For the axis titles: tdrStyle->SetTitleColor(1, "XYZ"); tdrStyle->SetTitleFont(42, "XYZ"); tdrStyle->SetTitleSize(0.06, "XYZ"); // tdrStyle->SetTitleXSize(Float_t size = 0.02); // Another way to set the size? // tdrStyle->SetTitleYSize(Float_t size = 0.02); tdrStyle->SetTitleXOffset(0.9); tdrStyle->SetTitleYOffset(1.4); // tdrStyle->SetTitleOffset(1.1, "Y"); // Another way to set the Offset // For the axis labels: tdrStyle->SetLabelColor(1, "XYZ"); tdrStyle->SetLabelFont(42, "XYZ"); tdrStyle->SetTitleSize(0.06, "XYZ"); // tdrStyle->SetTitleXSize(Float_t size = 0.02); // Another way to set the size? // tdrStyle->SetTitleYSize(Float_t size = 0.02); tdrStyle->SetTitleXOffset(0.9); tdrStyle->SetTitleYOffset(1.4); // tdrStyle->SetTitleOffset(1.1, "Y"); // Another way to set the Offset // For the axis labels: tdrStyle->SetLabelColor(1, "XYZ"); tdrStyle->SetLabelFont(42, "XYZ"); tdrStyle->SetLabelOffset(0.007, "XYZ"); tdrStyle->SetLabelSize(0.05, "XYZ"); // For the axis: tdrStyle->SetAxisColor(1, "XYZ"); tdrStyle->SetStripDecimals(kTRUE); tdrStyle->SetTickLength(0.03, "XYZ"); tdrStyle->SetNdivisions(510, "XYZ"); tdrStyle->SetPadTickX(1); // To get tick marks on the opposite side of the frame tdrStyle->SetPadTickY(1); // Change for log plots: tdrStyle->SetOptLogx(0); tdrStyle->SetOptLogy(0); tdrStyle->SetOptLogz(0); // Postscript options: tdrStyle->SetPaperSize(20.,20.); // tdrStyle->SetLineScalePS(Float_t scale = 3); // tdrStyle->SetLineStyleString(Int_t i, const char* text); // tdrStyle->SetHeaderPS(const char* header); // tdrStyle->SetTitlePS(const char* pstitle); // tdrStyle->SetBarOffset(Float_t baroff = 0.5); // tdrStyle->SetBarWidth(Float_t barwidth = 0.5); // tdrStyle->SetPaintTextFormat(const char* format = "g"); // tdrStyle->SetPalette(Int_t ncolors = 0, Int_t* colors = 0); // tdrStyle->SetTimeOffset(Double_t toffset); // tdrStyle->SetHistMinimumZero(kTRUE); tdrStyle->cd(); }
//------------------------------------------------------------------------------- void setIStyle() { TStyle* IStyle = new TStyle("IStyle","Ignazio Style"); gROOT->Reset(); gROOT->SetStyle("Plain"); // For the Global title: IStyle->SetOptTitle(1); // In general I want global title! IStyle->SetTitleFont(42); IStyle->SetTitleColor(1); IStyle->SetTitleTextColor(1); IStyle->SetTitleFillColor(10); IStyle->SetTitleFontSize(0.05); IStyle->SetCanvasBorderMode(0); IStyle->SetCanvasColor(kWhite); IStyle->SetCanvasDefH(400); //Height of canvas IStyle->SetCanvasDefW(600); //Width of canvas IStyle->SetPadBorderMode(0); IStyle->SetPadColor(kWhite); /* // Pad Margins: //----------------------------- IStyle->SetPadTopMargin(0.05); IStyle->SetPadBottomMargin(0.13); IStyle->SetPadLeftMargin(0.16); IStyle->SetPadRightMargin(0.02); */ // For the frame: //----------------------------- IStyle->SetFrameBorderMode(0); IStyle->SetFrameBorderSize(1); IStyle->SetFrameFillColor(kWhite); IStyle->SetFrameFillStyle(0); IStyle->SetFrameLineColor(1); IStyle->SetFrameLineStyle(1); IStyle->SetFrameLineWidth(1); // For the histo: //----------------------------- IStyle->SetHistLineWidth(1); IStyle->SetHistLineColor(kBlack); IStyle->SetEndErrorSize(2); IStyle->SetErrorX(0.); // IStyle->SetMarkerStyle(kFullDotSmall); // IStyle->SetMarkerStyle(kFullDotMedium); IStyle->SetMarkerStyle(kFullDotLarge); // IStyle->SetMarkerStyle(kFullCircle); // For the statistics box: //----------------------------- /* gStyle->SetOptStat("option-string"); Where option string can contain:- n ; name of histogram is printed e ; number of entries printed m ; mean value printed r ; rms printed u ; number of underflows printed o ; number of overflows printed i ; integral of bins printed Example: gStyle->SetOptStat("ne"); print only name of histogram and number of entries. To remove it altogther:- gStyle->SetOptStat(""); */ // IStyle->SetOptStat("emr"); /* The parameter mode can be = ksiourmen (default = 000001111) k = 1; kurtosis printed k = 2; kurtosis and kurtosis error printed s = 1; skewness printed s = 2; skewness and skewness error printed i = 1; integral of bins printed o = 1; number of overflows printed u = 1; number of underflows printed r = 1; rms printed r = 2; rms and rms error printed m = 1; mean value printed m = 2; mean and mean error values printed e = 1; number of entries printed n = 1; name of histogram is printed Example: gStyle->SetOptStat(11); print only name of histogram and number of entries. gStyle->SetOptStat(1101); displays the name of histogram, mean value and RMS. WARNING: never call SetOptStat(000111); but SetOptStat(1111), 0001111 will be taken as an octal number !! WARNING: SetOptStat(1) is taken as SetOptStat(1111) (for back compatibility with older versions. If you want to print only the name of the histogram call SetOptStat(1000000001). NOTE that in case of 2-D histograms, when selecting just underflow (10000) or overflow (100000), the stats box will show all combinations of underflow/overflows and not just one single number! */ // IStyle->SetOptStat(1110); IStyle->SetOptStat(0); IStyle->SetStatColor(kWhite); IStyle->SetStatFont(42); // For fitting: //----------------------------- IStyle->SetFuncWidth(1); // for the fit function IStyle->SetFuncColor(kBlack); // for the fit function IStyle->SetOptFit(111); // IStyle->SetOptFit(0) to get rid of IStyle->SetStatW(0.18); // set width of stat box IStyle->SetStatFontSize(0.04); // set the font size for stat box /* // Change for log plots: IStyle->SetOptLogx(0); IStyle->SetOptLogy(0); IStyle->SetOptLogz(0) */ // IStyle->SetPalette(1); palette(); IStyle->cd(); // this becomes now the current style gStyle }