g_check.SetPoint(g_check_i, cboxes.index(pbox) + 0.5, float(i) + 0.5) g_check_i += 1 imp = pdata[p][POI] g_impacts_hi.SetPointError(i, 0, imp[2] - imp[1], 0.5, 0.5) g_impacts_lo.SetPointError(i, imp[1] - imp[0], 0, 0.5, 0.5) max_impact = max( max_impact, abs(imp[1] - imp[0]), abs(imp[2] - imp[1])) col = colors.get(tp, 2) if args.color_groups is not None and len(pdata[p]['groups']) == 1: col = color_groups.get(pdata[p]['groups'][0], 1) h_pulls.GetYaxis().SetBinLabel( i + 1, ('#color[%i]{%s}'% (col, Translate(pdata[p]['name'], translate)))) # Style and draw the pulls histo if externalPullDef: plot.Set(h_pulls.GetXaxis(), TitleSize=0.04, LabelSize=0.03, Title=CP.returnTitle(args.pullDef)) else: plot.Set(h_pulls.GetXaxis(), TitleSize=0.04, LabelSize=0.03, Title='(#hat{#theta}-#theta_{0})/#Delta#theta') plot.Set(h_pulls.GetYaxis(), LabelSize=0.021, TickLength=0.0) h_pulls.GetYaxis().LabelsOption('v') h_pulls.Draw() for i in redo_boxes: newbox = boxes[i].Clone() newbox.Clear() newbox.SetY1(newbox.GetY1()+0.005) newbox.SetY2(newbox.GetY2()-0.005) newbox.SetX1(ROOT.gStyle.GetPadLeftMargin()+0.001) newbox.SetX2(0.7-0.001) newbox.Draw()
col = colors.get(tp, 2) if args.color_groups is not None and len(pdata[p]['groups']) >= 1: for p_grp in pdata[p]['groups']: if p_grp in color_groups: col = color_groups[p_grp] break h_pulls.GetYaxis().SetBinLabel( i + 1, ('#color[%i]{%s}' % (col, Translate(pdata[p]['name'], translate)))) # Style and draw the pulls histo if externalPullDef: plot.Set(h_pulls.GetXaxis(), TitleSize=0.04, LabelSize=0.03, Title=CP.returnTitle(args.pullDef)) else: plot.Set(h_pulls.GetXaxis(), TitleSize=0.04, LabelSize=0.03, Title='(#hat{#theta}-#theta_{0})/#Delta#theta') plot.Set(h_pulls.GetYaxis(), LabelSize=args.label_size, TickLength=0.0) h_pulls.GetYaxis().LabelsOption('v') h_pulls.Draw() for i in redo_boxes: newbox = boxes[i].Clone() newbox.Clear() newbox.SetY1(newbox.GetY1() + 0.005) newbox.SetY2(newbox.GetY2() - 0.005)