def draw_box(boxList,xl,xr,yl,yr,opacity=1,color=1,style=1001,lstyle=1,lw=3): from ROOT import TBox b=TBox(xl,yl,xr,yr) b.SetBit(ROOT.kCanDelete) b.SetFillStyle(style) b.SetFillColorAlpha(color, opacity) b.SetLineColor(color) b.SetLineWidth(lw) b.SetLineStyle(lstyle) b.Draw() boxList.append(b)
def pullsVertical_noBonly(fileName): content = filterPullFile(fileName) nbins, off = len(content), 0.10 # Graphs h_pulls = TH2F("pulls", "", 6, -3., 3., nbins, 0, nbins) S_pulls = TGraphAsymmErrors(nbins) boxes = [] canvas = TCanvas("canvas", "Pulls", 720, 300 + nbins * 18) #nbins*20) canvas.cd() canvas.SetGrid(0, 1) canvas.SetTopMargin(0.01) canvas.SetRightMargin(0.01) canvas.SetBottomMargin(0.10) canvas.SetLeftMargin(0.40) canvas.SetTicks(1, 1) for i, s in enumerate(content): l = s.split() h_pulls.GetYaxis().SetBinLabel(i + 1, l[0]) S_pulls.SetPoint(i, float(l[3]), float(i + 1) - 0.5) S_pulls.SetPointError(i, float(l[4]), float(l[4]), 0., 0.) h_pulls.GetXaxis().SetTitle("(#hat{#theta} - #theta_{0}) / #Delta#theta") h_pulls.GetXaxis().SetLabelOffset(0.0) h_pulls.GetXaxis().SetTitleOffset(0.8) h_pulls.GetXaxis().SetLabelSize(0.045) h_pulls.GetXaxis().SetTitleSize(0.050) h_pulls.GetYaxis().SetLabelSize(0.046) h_pulls.GetYaxis().SetNdivisions(nbins, 0, 0) S_pulls.SetFillColor(kBlack) S_pulls.SetLineColor(kBlack) S_pulls.SetMarkerColor(kBlack) S_pulls.SetLineWidth(2) S_pulls.SetMarkerStyle(20) S_pulls.SetMarkerSize(1) box1 = TBox(-1., 0., 1., nbins) #box1.SetFillStyle(3001) # 3001 checkered #box1.SetFillStyle(0) box1.SetFillColor(kGreen + 1) # 417 box1.SetLineWidth(2) box1.SetLineStyle(2) box1.SetLineColor(kGreen + 1) # 417 box2 = TBox(-2., 0., 2., nbins) #box2.SetFillStyle(3001) # 3001 checkered #box2.SetFillStyle(0) box2.SetFillColor(kOrange) # 800 box2.SetLineWidth(2) box2.SetLineStyle(2) box2.SetLineColor(kOrange) # 800 leg = TLegend(0.01, 0.01, 0.3, 0.15) leg.SetTextSize(0.05) leg.SetBorderSize(0) leg.SetFillStyle(0) leg.SetFillColor(0) #leg.SetNColumns(2) leg.AddEntry(S_pulls, "S+B fit", "lp") if text: leg.AddEntry(0, text, "") h_pulls.Draw("") box2.Draw() box1.Draw() S_pulls.Draw("P6SAME") leg.Draw() canvas.RedrawAxis() canvas.Print(outName + ".png") canvas.Print(outName + ".pdf") if not gROOT.IsBatch(): raw_input("Press Enter to continue...")
def pullsVertical(fileName): content = filterPullFile(fileName) nbins, off = len(content), 0.10 b_pulls = TH1F("b_pulls", ";;Pulls", nbins, 0. - off, nbins - off) s_pulls = TH1F("s_pulls", ";;Pulls", nbins, 0. + off, nbins + off) # for i, s in enumerate(content): l = s.split() b_pulls.GetXaxis().SetBinLabel(i + 1, l[0]) s_pulls.GetXaxis().SetBinLabel(i + 1, l[0]) b_pulls.SetBinContent(i + 1, float(l[1])) b_pulls.SetBinError(i + 1, float(l[2])) s_pulls.SetBinContent(i + 1, float(l[3])) s_pulls.SetBinError(i + 1, float(l[4])) b_pulls.SetFillStyle(3005) b_pulls.SetFillColor(923) b_pulls.SetLineColor(923) b_pulls.SetLineWidth(1) b_pulls.SetMarkerStyle(20) b_pulls.SetMarkerSize(1.25) s_pulls.SetLineColor(602) s_pulls.SetMarkerColor(602) s_pulls.SetMarkerStyle(24) #24 s_pulls.SetLineWidth(1) b_pulls.GetYaxis().SetRangeUser(-2.5, 2.5) # Graphs h_pulls = TH2F("pulls", "", 6, -3., 3., nbins, 0, nbins) B_pulls = TGraphAsymmErrors(nbins) S_pulls = TGraphAsymmErrors(nbins) boxes = [] canvas = TCanvas("canvas", "Pulls", 600, 150 + nbins * 10) #nbins*20) canvas.cd() canvas.SetGrid(0, 1) canvas.GetPad(0).SetTopMargin(0.01) canvas.GetPad(0).SetRightMargin(0.01) canvas.GetPad(0).SetBottomMargin(0.05) canvas.GetPad(0).SetLeftMargin(0.25) #(0.25)#(0.065) canvas.GetPad(0).SetTicks(1, 1) for i, s in enumerate(content): l = s.split() if "1034h" in l[0]: l[0] = "CMS_PDF_13TeV" h_pulls.GetYaxis().SetBinLabel(i + 1, l[0].replace('CMS2016_', '')) #C #y1 = gStyle.GetPadBottomMargin() #y2 = 1. - gStyle.GetPadTopMargin() #h = (y2 - y1) / float(nbins) #y1 = y1 + float(i) * h #y2 = y1 + h #box = TPaveText(0, y1, 1, y2, 'NDC') #box.SetFillColor(0) #box.SetTextSize(0.02) #box.SetBorderSize(0) #box.SetTextAlign(12) #box.SetMargin(0.005) #if i % 2 == 0: # box.SetFillColor(18) #box.Draw() #boxes.append(box) B_pulls.SetPoint(i + 1, float(l[1]), float(i + 1) - 0.3) #C B_pulls.SetPointError(i + 1, float(l[2]), float(l[2]), 0., 0.) #C for i, s in enumerate(content): l = s.split() S_pulls.SetPoint(i + 1, float(l[3]), float(i + 1) - 0.7) #C S_pulls.SetPointError(i + 1, float(l[4]), float(l[4]), 0., 0.) #C h_pulls.GetXaxis().SetTitle("(#hat{#theta} - #theta_{0}) / #Delta#theta") h_pulls.GetXaxis().SetLabelOffset(-0.01) h_pulls.GetXaxis().SetTitleOffset(.6) h_pulls.GetYaxis().SetNdivisions(nbins, 0, 0) B_pulls.SetFillColor(1) B_pulls.SetLineColor(1) B_pulls.SetLineStyle(1) B_pulls.SetLineWidth(2) B_pulls.SetMarkerColor(1) B_pulls.SetMarkerStyle(20) B_pulls.SetMarkerSize(1) #(0.75) S_pulls.SetFillColor(629) S_pulls.SetLineColor(629) S_pulls.SetMarkerColor(629) S_pulls.SetLineWidth(2) S_pulls.SetMarkerStyle(20) S_pulls.SetMarkerSize(1) box1 = TBox(-1., 0., 1., nbins) box1.SetFillStyle(3001) #box1.SetFillStyle(0) box1.SetFillColor(417) box1.SetLineWidth(2) box1.SetLineStyle(2) box1.SetLineColor(417) box2 = TBox(-2., 0., 2., nbins) box2.SetFillStyle(3001) #box2.SetFillStyle(0) box2.SetFillColor(800) box2.SetLineWidth(2) box2.SetLineStyle(2) box2.SetLineColor(800) leg = TLegend(0.1, -0.05, 0.7, 0.08) leg.SetBorderSize(0) leg.SetFillStyle(0) leg.SetFillColor(0) leg.SetNColumns(2) leg.AddEntry(B_pulls, "B-only fit", "lp") leg.AddEntry(S_pulls, "S+B fit", "lp") if text: leg.AddEntry(0, text, "") h_pulls.Draw("") box2.Draw() box1.Draw() B_pulls.Draw("P6SAME") S_pulls.Draw("P6SAME") leg.Draw() # drawCMS(35867, "Preliminary") # drawAnalysis("VH") # drawRegion(outName) canvas.Print(outName + ".png") canvas.Print(outName + ".pdf") if not gROOT.IsBatch(): raw_input("Press Enter to continue...")
c_xy = TCanvas("c_xy") h_xy.Draw() h_xy_mc.Draw("same") h_xy_corr.Draw("same") h_xy_corr.SetMarkerColor(kBlue + 1) h_xy_mc.SetMarkerColor(kRed + 1) h_xy.GetYaxis().SetTitleOffset(1.37) c_xy.Update() c_spacecharge.cd() tpc_xy = TBox(x_start, y_start, x_end, y_end) tpc_xy.SetLineWidth(3) tpc_xy.SetLineStyle(2) tpc_xy.SetFillStyle(0) tpc_xy.SetFillStyle(0) tpc_xy.SetLineWidth(3) h_xy.Draw("col") h_xy.GetYaxis().SetTitleOffset(1.3) #h_xy_corr.Draw("col") h_xy_corr.GetYaxis().SetTitleOffset(1.3) preliminary = TPaveText(0.48, 0.74, 0.81, 0.84, "NDC") preliminary.SetShadowColor(0) preliminary.SetBorderSize(0) preliminary.SetFillStyle(0) preliminary.AddText("MicroBooNE Preliminary") #preliminary.Draw() tpc_xy.Draw()
def stackedPlot(self, var, logy = False, pdfName = None, Silent = False): if not pdfName: pdfName = 'total' xvar = self.ws.var(var) nbins = xvar.getBins() if hasattr(self.pars, 'plotRanges'): xvar.setRange('plotRange', self.pars.plotRanges[var][1], self.pars.plotRanges[var][2]) xvar.setBins(self.pars.plotRanges[var][0], 'plotBins') else: xvar.setRange('plotRange', xvar.getMin(), xvar.getMax()) xvar.setBins(nbins, 'plotBins') sframe = xvar.frame() sframe.SetName("%s_stacked" % var) pdf = self.ws.pdf(pdfName) if isinstance(pdf, RooAddPdf): compList = RooArgList(pdf.pdfList()) else: compList = None data = self.ws.data('data_obs') nexp = pdf.expectedEvents(self.ws.set('obsSet')) if not Silent: print pdf.GetName(),'expected: %.0f' % (nexp) print 'data events: %.0f' % (data.sumEntries()) if nexp < 1: nexp = data.sumEntries() theComponents = [] if self.pars.includeSignal: theComponents += self.pars.signals theComponents += self.pars.backgrounds data.plotOn(sframe, RooFit.Invisible(), RooFit.Binning('plotBins')) # dataHist = RooAbsData.createHistogram(data,'dataHist_%s' % var, xvar, # RooFit.Binning('%sBinning' % var)) # #dataHist.Scale(1., 'width') # invData = RooHist(dataHist, 1., 1, RooAbsData.SumW2, 1.0, False) # #invData.Print('v') # sframe.addPlotable(invData, 'pe', True, True) for (idx,component) in enumerate(theComponents): if not Silent: print 'plotting',component,'...', if hasattr(self.pars, '%sPlotting' % (component)): plotCharacteristics = getattr(self.pars, '%sPlotting' % \ (component)) else: plotCharacteristics = {'color' : colorwheel[idx%6], 'title' : component } compCmd = RooCmdArg.none() if compList: compSet = RooArgSet(compList) if compSet.getSize() > 0: compCmd = RooFit.Components(compSet) removals = compList.selectByName('%s*' % component) compList.remove(removals) if not Silent: print 'events', self.ws.function('f_%s_norm' % component).getVal() sys.stdout.flush() if abs(self.ws.function('f_%s_norm' % component).getVal()) >= 1.: pdf.plotOn(sframe, #RooFit.ProjWData(data), RooFit.DrawOption('LF'), RooFit.FillStyle(1001), RooFit.FillColor(plotCharacteristics['color']), RooFit.LineColor(plotCharacteristics['color']), RooFit.VLines(), RooFit.Range('plotRange'), RooFit.NormRange('plotRange'), RooFit.Normalization(nexp, RooAbsReal.NumEvent), compCmd ) tmpCurve = sframe.getCurve() tmpCurve.SetName(component) tmpCurve.SetTitle(plotCharacteristics['title']) if 'visible' in plotCharacteristics: sframe.setInvisible(component, plotCharacteristics['visible']) data.plotOn(sframe, RooFit.Name('theData'), RooFit.Binning('plotBins')) sframe.getHist('theData').SetTitle('data') # theData = RooHist(dataHist, 1., 1, RooAbsData.SumW2, 1.0, True) # theData.SetName('theData') # theData.SetTitle('data') # sframe.addPlotable(theData, 'pe') if (logy): sframe.SetMinimum(0.01) sframe.SetMaximum(1.0e6) else: sframe.SetMaximum(sframe.GetMaximum()*1.35) pass excluded = (var in self.pars.exclude) bname = var if not excluded: for v in self.pars.exclude: if hasattr(self.pars, 'varNames') and \ (self.pars.varNames[v] == var): excluded = True bname = v if excluded: blinder = TBox(self.pars.exclude[bname][0], sframe.GetMinimum(), self.pars.exclude[bname][1], sframe.GetMaximum()) # blinder.SetName('blinder') # blinder.SetTitle('signal region') blinder.SetFillColor(kBlack) if self.pars.blind: blinder.SetFillStyle(1001) else: blinder.SetFillStyle(0) blinder.SetLineStyle(2) sframe.addObject(blinder) elif self.pars.blind: if not Silent: print "blind but can't find exclusion region for", var print 'excluded',excluded,self.pars.exclude print 'hiding data points' sframe.setInvisible('theData', True) #sframe.GetYaxis().SetTitle('Events / GeV') # dataHist.IsA().Destructor(dataHist) if not Silent: print xvar.setBins(nbins) return sframe