#coding=utf-8 import sys import argparse import matplotlib.pyplot as plt def parse_args(): parser = argparse.ArgumentParser('Parse Log') parser.add_argument( '--file_path', '-f', type=str, help='the path of the log file') parser.add_argument( '--sample_rate', '-s', type=float, default=1.0, help='the rate to take samples from log') parser.add_argument( '--log_period', '-p', type=int, default=1, help='the period of log') args = parser.parse_args() return args def parse_file(file_name): loss = [] error = [] with open(file_name) as f: for i, line in enumerate(f): line = line.strip() if not line.startswith('pass'): continue line_split = line.split(' ') if len(line_split) != 5: continue loss_str = line_split[2][:-1] cur_loss = float(loss_str.split('=')[-1]) loss.append(cur_loss) err_str = line_split[3][:-1] cur_err = float(err_str.split('=')[-1]) error.append(cur_err) accuracy = [1.0 - err for err in error] return loss, accuracy def sample(metric, sample_rate): interval = int(1.0 / sample_rate) if interval > len(metric): return metric[:1] num = len(metric) / interval idx = [interval * i for i in range(num)] metric_sample = [metric[id] for id in idx] return metric_sample def plot_metric(metric, batch_id, graph_title): plt.figure() plt.title(graph_title) plt.plot(batch_id, metric) plt.xlabel('batch') plt.ylabel(graph_title) plt.savefig(graph_title + '.jpg') plt.close() def main(): args = parse_args() assert args.sample_rate > 0. and args.sample_rate <= 1.0, "The sample rate should in the range (0, 1]." loss, accuracy = parse_file(args.file_path) batch = [args.log_period * i for i in range(len(loss))] batch_sample = sample(batch, args.sample_rate) loss_sample = sample(loss, args.sample_rate) accuracy_sample = sample(accuracy, args.sample_rate) plot_metric(loss_sample, batch_sample, 'loss') plot_metric(accuracy_sample, batch_sample, 'accuracy') if __name__ == '__main__': main()