def plotCostsAtRank( runs ): sessid = str(runs[0].get_session_id()) yValueLists = [ (FiguresConfig.avgPlotName, stats.get_average_cumulated_costs_at_total_rank_range( runs ) ), ('top50%', stats.get_average_top_cumulated_costs_at_total_rank_range( runs, proportion=50 ) ), ('bottom50%', stats.get_average_top_cumulated_costs_at_total_rank_range( runs, proportion=50, bottom=True ) ), ('avg +1SD', stats.get_avg_cumulated_cost_plusSD_at_total_rank_range( runs, increment = 1, factor = 1 ) ), ('avg -1SD', stats.get_avg_cumulated_cost_plusSD_at_total_rank_range( runs, increment = 1, factor = -1 ) ) ] defaultPlot( 'rank', 'cost', stats.get_max_rank_range( runs ), yValueLists, stats.get_amount_of_runs_at_total_rank_range(runs), get_filename('costAtRank', runs))
def handle_stats( runs ): output = cStringIO.StringIO() writer = csv.writer( output ) def catWrite(listA,listB): copy = listA[:] copy.extend( listB ) writer.writerow( copy ) catWrite( [ 'rank' ], stats.get_max_rank_range( runs ) ) catWrite( [ 'amt runs' ], stats.get_amount_of_runs_at_total_rank_range( runs ) ) catWrite( [ 'avg gain' ], stats.get_average_cumulated_gains_at_total_rank_range( runs ) ) catWrite( [ 'max gain' ], stats.get_max_cumulated_gains_at_total_rank_range( runs ) ) catWrite( [ 'min gain' ], stats.get_min_cumulated_gains_at_total_rank_range( runs ) ) catWrite( [ 'avg cost' ], stats.get_average_cumulated_costs_at_total_rank_range( runs ) ) catWrite( [ 'max cost' ], stats.get_max_cumulated_costs_at_total_rank_range( runs ) ) catWrite( [ 'min cost' ], stats.get_min_cumulated_costs_at_total_rank_range( runs ) ) writer.writerow([]) costInterval = 10 catWrite( [ 'cost' ], stats.get_min_cost_range( runs, costInterval ) ) catWrite( [ 'amt runs' ], stats.get_amount_of_runs_at_cost_range( runs, costInterval ) ) catWrite( [ 'avg gain' ], stats.get_average_cumulated_gains_at_cost_range( runs, costInterval ) ) catWrite( [ 'max gain' ], stats.get_max_cumulated_gains_at_cost_range( runs, costInterval ) ) catWrite( [ 'min gain' ], stats.get_min_cumulated_gains_at_cost_range( runs, costInterval ) ) writer.writerow([]) writer.writerow( [ 'avgTotalRank', stats.get_average_total_rank(runs)] ) writer.writerow( [ 'avgGain', stats.get_average_cumulated_gain(runs)] ) writer.writerow( [ 'avgCost', stats.get_average_cumulated_cost(runs)] ) writer.writerow( [ 'maxTotalRank', stats.get_max_total_rank(runs)] ) writer.writerow( [ 'maxGain', stats.get_max_cumulated_gain(runs)] ) writer.writerow( [ 'maxCost', stats.get_max_cumulated_cost(runs)] ) writer.writerow( [ 'minTotalRank', stats.get_min_total_rank(runs)] ) writer.writerow( [ 'minGain', stats.get_min_cumulated_gain(runs)] ) writer.writerow( [ 'minCost', stats.get_min_cumulated_cost(runs)] ) writer.writerow( [ 'varTotalRank', stats.get_total_rank_variance(runs)] ) writer.writerow( [ 'varGain', stats.get_cumulated_gain_variance(runs)] ) writer.writerow( [ 'varCost', stats.get_cumulated_cost_variance(runs)] ) return output.getvalue()
def handle_stats( runs ): return 'avgGainsRank = ' + repr(stats.get_average_cumulated_gains_at_total_rank_range( runs )) + '\n' \ + 'maxGainsRank = ' + repr(stats.get_max_cumulated_gains_at_total_rank_range( runs )) + '\n' \ + 'minGainsRank = ' + repr(stats.get_min_cumulated_gains_at_total_rank_range( runs )) + '\n' \ + 'avgGainsCost = ' + repr(stats.get_average_cumulated_gains_at_cost_range( runs, 10 )) + '\n' \ + 'maxGainsCost = ' + repr(stats.get_max_cumulated_gains_at_cost_range( runs, 10 )) + '\n' \ + 'minGainsCost = ' + repr(stats.get_min_cumulated_gains_at_cost_range( runs, 10 )) + '\n' \ + 'avgCostsRank = ' + repr(stats.get_average_cumulated_costs_at_total_rank_range( runs )) + '\n' \ + 'maxCostsRank = ' + repr(stats.get_max_cumulated_costs_at_total_rank_range( runs )) + '\n' \ + 'minCostsRank = ' + repr(stats.get_min_cumulated_costs_at_total_rank_range( runs )) + '\n' \ + 'avgTotalRank = ' + repr(stats.get_average_total_rank(runs)) + '\n' \ + 'avgGain = ' + repr(stats.get_average_cumulated_gain(runs)) + '\n' \ + 'avgCost = ' + repr(stats.get_average_cumulated_cost(runs)) + '\n' \ + 'maxTotalRank = ' + repr(stats.get_max_total_rank(runs)) + '\n' \ + 'maxGain = ' + repr(stats.get_max_cumulated_gain(runs)) + '\n' \ + 'maxCost = ' + repr(stats.get_max_cumulated_cost(runs)) + '\n' \ + 'minTotalRank = ' + repr(stats.get_min_total_rank(runs)) + '\n' \ + 'minGain = ' + repr(stats.get_min_cumulated_gain(runs)) + '\n' \ + 'minCost = ' + repr(stats.get_min_cumulated_cost(runs)) + '\n' \ + 'varTotalRank = ' + repr(stats.get_total_rank_variance(runs)) + '\n' \ + 'varGain = ' + repr(stats.get_cumulated_gain_variance(runs)) + '\n' \ + 'varCost = ' + repr(stats.get_cumulated_cost_variance(runs))
def handle_stats(runs): return 'avgGainsRank = ' + repr(stats.get_average_cumulated_gains_at_total_rank_range( runs )) + '\n' \ + 'maxGainsRank = ' + repr(stats.get_max_cumulated_gains_at_total_rank_range( runs )) + '\n' \ + 'minGainsRank = ' + repr(stats.get_min_cumulated_gains_at_total_rank_range( runs )) + '\n' \ + 'avgGainsCost = ' + repr(stats.get_average_cumulated_gains_at_cost_range( runs, 10 )) + '\n' \ + 'maxGainsCost = ' + repr(stats.get_max_cumulated_gains_at_cost_range( runs, 10 )) + '\n' \ + 'minGainsCost = ' + repr(stats.get_min_cumulated_gains_at_cost_range( runs, 10 )) + '\n' \ + 'avgCostsRank = ' + repr(stats.get_average_cumulated_costs_at_total_rank_range( runs )) + '\n' \ + 'maxCostsRank = ' + repr(stats.get_max_cumulated_costs_at_total_rank_range( runs )) + '\n' \ + 'minCostsRank = ' + repr(stats.get_min_cumulated_costs_at_total_rank_range( runs )) + '\n' \ + 'avgTotalRank = ' + repr(stats.get_average_total_rank(runs)) + '\n' \ + 'avgGain = ' + repr(stats.get_average_cumulated_gain(runs)) + '\n' \ + 'avgCost = ' + repr(stats.get_average_cumulated_cost(runs)) + '\n' \ + 'maxTotalRank = ' + repr(stats.get_max_total_rank(runs)) + '\n' \ + 'maxGain = ' + repr(stats.get_max_cumulated_gain(runs)) + '\n' \ + 'maxCost = ' + repr(stats.get_max_cumulated_cost(runs)) + '\n' \ + 'minTotalRank = ' + repr(stats.get_min_total_rank(runs)) + '\n' \ + 'minGain = ' + repr(stats.get_min_cumulated_gain(runs)) + '\n' \ + 'minCost = ' + repr(stats.get_min_cumulated_cost(runs)) + '\n' \ + 'varTotalRank = ' + repr(stats.get_total_rank_variance(runs)) + '\n' \ + 'varGain = ' + repr(stats.get_cumulated_gain_variance(runs)) + '\n' \ + 'varCost = ' + repr(stats.get_cumulated_cost_variance(runs))
def plotCostsAtRank(runs): sessid = str(runs[0].get_session_id()) yValueLists = [ (FiguresConfig.avgPlotName, stats.get_average_cumulated_costs_at_total_rank_range(runs)), ('top50%', stats.get_average_top_cumulated_costs_at_total_rank_range( runs, proportion=50)), ('bottom50%', stats.get_average_top_cumulated_costs_at_total_rank_range( runs, proportion=50, bottom=True)), ('avg +1SD', stats.get_avg_cumulated_cost_plusSD_at_total_rank_range(runs, increment=1, factor=1)), ('avg -1SD', stats.get_avg_cumulated_cost_plusSD_at_total_rank_range(runs, increment=1, factor=-1)) ] defaultPlot('rank', 'cost', stats.get_max_rank_range(runs), yValueLists, stats.get_amount_of_runs_at_total_rank_range(runs), get_filename('costAtRank', runs))