def addToTable(self, table, cut): body = '%s ' %cut k = self.effwjet.keys() k.sort() for i in k: qcd = Timer.formatErrorPair(self.effqcd[i][0], self.effqcd[i][1]) body += '& %s ' % (qcd) table += body + "\\\\ \n" return table
def makeTable(self): header = '\\begin{table}[!ht] \n' header += '\\begin{tabular}{@{} lccc} \n' header += '\\toprule \n' header += 'isolation & top-signal& W+Jets & QCD \\\\ \n' header += '\\midrule \n' body = '' k = self.effwjet.keys() k.sort() for i in k: top = Timer.formatErrorPair(self.effsig[i][0], self.effsig[i][1]) wjets = Timer.formatErrorPair(self.effwjet[i][0], self.effwjet[i][1]) qcd = Timer.formatErrorPair(self.effqcd[i][0], self.effqcd[i][1]) body += '%s & %s & %s & %s\\\\ \n ' % (i, top, wjets, qcd) # body += '%s & %1.3f $\\pm$ %1.3f & %1.3f $\\pm$ %1.3f & %1.3f $\\pm$ %1.3f \\\\ \n ' % (i, self.effsig[i][0], self.effsig[i][1], self.effwjet[i][0], self.effwjet[i][1], self.effqcd[i][0], self.effqcd[i][1]) footer = '\\bottomrule \n' footer += '\\end{tabular} \n' footer += '\\caption{Isolation efficiencies for top-signal, W+jets and QCD} \n' footer += '\\label{tab:iso} \n' footer += '\\end{table} \n' table = header + '\n' + body + '\n' + footer + '\n' table += '\n\n' self.addToTables(table)