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import os
import csv
import logging
from dateutil.parser import parse
from utils.colored_logger_with_timestamp import init_colorful_root_logger
def analyze_all_results(logic, keys, logs, outputs):
return map(lambda k: logic(logs[k], outputs[k]), keys)
def analyze_all_results_average(logic, keys, logs, outputs, missing_is_zero):
results = map(lambda k: logic(logs[k], outputs[k]), keys)
inner_keys = set(reduce(lambda x, y: x + y, map(lambda r: r.keys(), results)))
for i in range(max(inner_keys)):
if i not in inner_keys:
inner_keys.add(i)
inner_keys = sorted(inner_keys)
for result in results:
for ik in inner_keys:
if ik not in result.keys():
if missing_is_zero:
result[ik] = 0
else:
result[ik] = result[ik - 1]
final_results = {}
for ik in inner_keys:
data = map(lambda r: r[ik], results)
final_results[ik] = (sum(data) / float(len(data)), min(data), max(data))
return final_results
def get_datasets_size(folder, prefix, suffix):
iterations = set()
for f in os.listdir(os.path.join(folder, 'datasets')):
if f.startswith(prefix) and f.endswith(suffix):
iterations.add(int(f[len(prefix):-len(suffix)]))
result = {}
for i in iterations:
with open(os.path.join(folder, 'datasets', '{0}{1}{2}'.format(prefix, i, suffix)), 'r') as f:
result[i] = len(filter(lambda l: len(l.strip()) > 0, f.readlines()))
return result
def get_timings(log, marker, until=1):
def get_time(line):
index = line.find(' ')
return parse(line[index - 10: index + 8])
result = {}
with open(log, 'r') as f:
lines = filter(lambda y: len(y) > 0, map(lambda x: x.strip(), f.readlines()))
for i in range(len(lines)):
if marker in lines[i]:
line = lines[i][:]
line = line[line.find(' (iteration ') + 12:]
line = line[:line.find(')')]
result[int(line)] = (get_time(lines[i + until]) - get_time(lines[i])).total_seconds()
return result
def num_of_iterations(keys, logs, outputs, out):
def logic(log, output):
with open(log, 'r') as f:
lines = filter(lambda l: len(l.strip()) > 0, f.readlines())
last_line = lines[-1]
last_line = last_line[last_line.find('%) in ') + 6:]
last_line = last_line[:last_line.find(' ')]
return int(last_line)
data = analyze_all_results(logic, keys, logs, outputs)
out.writerow(['Number of Iterations'])
out.writerow(['', 'Raw:'] + data)
out.writerow(['', 'Min:', min(data), '', 'Max:', max(data), '', 'Average:', sum(data) / len(data)])
out.writerow([])
def remaining_test_size(keys, logs, outputs, out):
def logic(log, output):
return get_datasets_size(output, 'test', '.corpus.hl')
data = analyze_all_results_average(logic, keys, logs, outputs, missing_is_zero=False)
out.writerow(['Remaining test size'])
out.writerow(['', 'Average:'])
out.writerow(['', '', 'Raw:'] + map(lambda k: data[k][0], sorted(data.keys())))
out.writerow(['', '', 'Ratio:'] + map(lambda k: data[k][0] / float(data[0][0]), sorted(data.keys())))
out.writerow(['', 'Min:'])
out.writerow(['', '', 'Raw:'] + map(lambda k: data[k][1], sorted(data.keys())))
out.writerow(['', '', 'Ratio:'] + map(lambda k: data[k][1] / float(data[0][1]), sorted(data.keys())))
out.writerow(['', 'Max:'])
out.writerow(['', '', 'Raw:'] + map(lambda k: data[k][2], sorted(data.keys())))
out.writerow(['', '', 'Ratio:'] + map(lambda k: data[k][2] / float(data[0][2]), sorted(data.keys())))
out.writerow([])
out.writerow(['Successful test samples'])
out.writerow(['', 'Average:'])
out.writerow(['', '', 'Raw:'] + map(lambda k: data[0][0] - data[k][0], sorted(data.keys())))
out.writerow(['', '', 'Ratio:'] + map(lambda k: (data[0][0] - data[k][0]) / float(data[0][0]), sorted(data.keys())))
out.writerow(['', 'Min:'])
out.writerow(['', '', 'Raw:'] + map(lambda k: data[0][2] - data[k][2], sorted(data.keys())))
out.writerow(['', '', 'Ratio:'] + map(lambda k: (data[0][2] - data[k][2]) / float(data[0][2]), sorted(data.keys())))
out.writerow(['', 'Max:'])
out.writerow(['', '', 'Raw:'] + map(lambda k: data[0][1] - data[k][1], sorted(data.keys())))
out.writerow(['', '', 'Ratio:'] + map(lambda k: (data[0][1] - data[k][1]) / float(data[0][1]), sorted(data.keys())))
out.writerow([])
def train_size(keys, logs, outputs, out):
def logic(log, output):
return get_datasets_size(output, 'train', '.corpus.hl')
data = analyze_all_results_average(logic, keys, logs, outputs, missing_is_zero=False)
out.writerow(['Train set size'])
out.writerow(['', 'Average:'])
out.writerow([''] + map(lambda k: data[k][0], sorted(data.keys())))
out.writerow(['', 'Min:'])
out.writerow([''] + map(lambda k: data[k][1], sorted(data.keys())))
out.writerow(['', 'Max:'])
out.writerow([''] + map(lambda k: data[k][2], sorted(data.keys())))
out.writerow([])
def train_time(keys, logs, outputs, out):
def logic(log, output):
return get_timings(log, 'Training model ')
data = analyze_all_results_average(logic, keys, logs, outputs, missing_is_zero=True)
out.writerow(['Training time (seconds)'])
out.writerow(['', 'Average:'])
out.writerow([''] + map(lambda k: data[k][0], sorted(data.keys())))
out.writerow(['', 'Min:'])
out.writerow([''] + map(lambda k: data[k][1], sorted(data.keys())))
out.writerow(['', 'Max:'])
out.writerow([''] + map(lambda k: data[k][2], sorted(data.keys())))
out.writerow([])
def translate_time(keys, logs, outputs, out):
def logic(log, output):
return get_timings(log, 'Translating dataset ')
data = analyze_all_results_average(logic, keys, logs, outputs, missing_is_zero=True)
out.writerow(['Translation time (seconds)'])
out.writerow(['', 'Average:'])
out.writerow([''] + map(lambda k: data[k][0], sorted(data.keys())))
out.writerow(['', 'Min:'])
out.writerow([''] + map(lambda k: data[k][1], sorted(data.keys())))
out.writerow(['', 'Max:'])
out.writerow([''] + map(lambda k: data[k][2], sorted(data.keys())))
out.writerow([])
def evaluate_time(keys, logs, outputs, out):
def logic(log, output):
return get_timings(log, 'Evaluating latest results ')
data = analyze_all_results_average(logic, keys, logs, outputs, missing_is_zero=True)
out.writerow(['Evaluation time (seconds)'])
out.writerow(['', 'Average:'])
out.writerow([''] + map(lambda k: data[k][0], sorted(data.keys())))
out.writerow(['', 'Min:'])
out.writerow([''] + map(lambda k: data[k][1], sorted(data.keys())))
out.writerow(['', 'Max:'])
out.writerow([''] + map(lambda k: data[k][2], sorted(data.keys())))
out.writerow([])
def iteration_time(keys, logs, outputs, out):
def logic(log, output):
return get_timings(log, 'Training model ', until=4)
data = analyze_all_results_average(logic, keys, logs, outputs, missing_is_zero=True)
out.writerow(['Iteration time (seconds)'])
out.writerow(['', 'Average:'])
out.writerow([''] + map(lambda k: data[k][0], sorted(data.keys())))
out.writerow(['', 'Min:'])
out.writerow([''] + map(lambda k: data[k][1], sorted(data.keys())))
out.writerow(['', 'Max:'])
out.writerow([''] + map(lambda k: data[k][2], sorted(data.keys())))
out.writerow([])
def train_epochs(keys, logs, outputs, out):
def logic_last(log, output):
iterations = set()
for f in os.listdir(os.path.join(output, 'outputs')):
if f.startswith('train'):
iterations.add(int(f[len('train'):]))
result = {}
for i in iterations:
with open(os.path.join(output, 'outputs', '{0}{1}'.format('train', i)), 'r') as f:
lines = filter(lambda l: len(l.strip()) > 0, f.readlines())
last_epoch = int(lines[-3][len('last epoch is '):])
result[i] = last_epoch
return result
def logic_best(log, output):
iterations = set()
for f in os.listdir(os.path.join(output, 'outputs')):
if f.startswith('train'):
iterations.add(int(f[len('train'):]))
result = {}
for i in iterations:
with open(os.path.join(output, 'outputs', '{0}{1}'.format('train', i)), 'r') as f:
lines = filter(lambda l: len(l.strip()) > 0, f.readlines())
best_epoch = int(lines[-2][len('best epoch is '):])
result[i] = best_epoch
return result
data = analyze_all_results_average(logic_last, keys, logs, outputs, missing_is_zero=True)
out.writerow(['Last training epoch'])
out.writerow(['', 'Average:'])
out.writerow([''] + map(lambda k: data[k][0], sorted(data.keys())))
out.writerow(['', 'Min:'])
out.writerow([''] + map(lambda k: data[k][1], sorted(data.keys())))
out.writerow(['', 'Max:'])
out.writerow([''] + map(lambda k: data[k][2], sorted(data.keys())))
out.writerow([])
data = analyze_all_results_average(logic_best, keys, logs, outputs, missing_is_zero=True)
out.writerow(['Best training epoch'])
out.writerow(['', 'Average:'])
out.writerow([''] + map(lambda k: data[k][0], sorted(data.keys())))
out.writerow(['', 'Min:'])
out.writerow([''] + map(lambda k: data[k][1], sorted(data.keys())))
out.writerow(['', 'Max:'])
out.writerow([''] + map(lambda k: data[k][2], sorted(data.keys())))
out.writerow([])
analysis_funcs = [num_of_iterations, remaining_test_size, train_size, train_time, translate_time, evaluate_time,
iteration_time, train_epochs]
def analyze_results(input, output, funcs=analysis_funcs):
logs = {}
outputs = {}
for f in os.listdir(input):
path = os.path.join(input, f)
if os.path.isdir(path) and f.startswith('output'):
outputs[int(f[6:])] = path
if os.path.isfile(path) and f.startswith('log'):
logs[int(f[3:])] = path
keys = set()
for i in logs.keys():
if i not in outputs.keys():
logging.info('Ignoring log{0}, no matching output folder'.format(i))
else:
keys.add(i)
for i in outputs.keys():
if i not in logs.keys():
logging.info('Ignoring output{0}, no matching log file'.format(i))
else:
keys.add(i)
with open(output, 'w') as fout:
csvout = csv.writer(fout)
csvout.writerow(['Number of experiments:', len(keys)])
csvout.writerow([])
for f in funcs:
f(sorted(keys), logs, outputs, csvout)
if __name__ == "__main__":
import argparse
parser = argparse.ArgumentParser(description="Analyze results of Active Learner")
parser.add_argument('input', type=str, help="Folder used as input")
parser.add_argument('output', type=str, help="Output file name")
parser.add_argument('-v', '--verbose', action='store_const', const=True, help='Be verbose')
parser.add_argument('--debug', action='store_const', const=True, help='Enable debug prints')
args = parser.parse_args()
init_colorful_root_logger(logging.getLogger(''), vars(args))
analyze_results(input=args.input, output=args.output)