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logger.py
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logger.py
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# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved.
#
# This source code is licensed under the MIT license found in the
# LICENSE file in the root directory of this source tree.
import csv
import datetime
from collections import defaultdict
import numpy as np
import torch
import torchvision
from termcolor import colored
from torch.utils.tensorboard import SummaryWriter
COMMON_TRAIN_FORMAT = [('frame', 'F', 'int'), ('step', 'S', 'int'),
('episode', 'E', 'int'), ('episode_length', 'L', 'int'),
('episode_reward', 'R', 'float'),
('buffer_size', 'BS', 'int'), ('fps', 'FPS', 'float'),
('total_time', 'T', 'time')]
COMMON_EVAL_FORMAT = [('frame', 'F', 'int'), ('step', 'S', 'int'),
('episode', 'E', 'int'), ('episode_length', 'L', 'int'),
('episode_reward', 'R', 'float'),
('total_time', 'T', 'time')]
class AverageMeter(object):
def __init__(self):
self._sum = 0
self._count = 0
def update(self, value, n=1):
self._sum += value
self._count += n
def value(self):
return self._sum / max(1, self._count)
class MetersGroup(object):
def __init__(self, csv_file_name, formating):
self._csv_file_name = csv_file_name
self._formating = formating
self._meters = defaultdict(AverageMeter)
self._csv_file = None
self._csv_writer = None
def log(self, key, value, n=1):
self._meters[key].update(value, n)
def _prime_meters(self):
data = dict()
for key, meter in self._meters.items():
if key.startswith('train'):
key = key[len('train') + 1:]
else:
key = key[len('eval') + 1:]
key = key.replace('/', '_')
data[key] = meter.value()
return data
def _remove_old_entries(self, data):
rows = []
with self._csv_file_name.open('r') as f:
reader = csv.DictReader(f)
for row in reader:
if float(row['episode']) >= data['episode']:
break
rows.append(row)
with self._csv_file_name.open('w') as f:
writer = csv.DictWriter(f,
fieldnames=sorted(data.keys()),
restval=0.0)
writer.writeheader()
for row in rows:
writer.writerow(row)
def _dump_to_csv(self, data):
if self._csv_writer is None:
should_write_header = True
if self._csv_file_name.exists():
self._remove_old_entries(data)
should_write_header = False
self._csv_file = self._csv_file_name.open('a')
self._csv_writer = csv.DictWriter(self._csv_file,
fieldnames=sorted(data.keys()),
restval=0.0)
if should_write_header:
self._csv_writer.writeheader()
self._csv_writer.writerow(data)
self._csv_file.flush()
def _format(self, key, value, ty):
if ty == 'int':
value = int(value)
return f'{key}: {value}'
elif ty == 'float':
return f'{key}: {value:.04f}'
elif ty == 'time':
value = str(datetime.timedelta(seconds=int(value)))
return f'{key}: {value}'
else:
raise f'invalid format type: {ty}'
def _dump_to_console(self, data, prefix):
prefix = colored(prefix, 'yellow' if prefix == 'train' else 'green')
pieces = [f'| {prefix: <14}']
for key, disp_key, ty in self._formating:
value = data.get(key, 0)
pieces.append(self._format(disp_key, value, ty))
print(' | '.join(pieces))
def dump(self, step, prefix):
if len(self._meters) == 0:
return
data = self._prime_meters()
data['frame'] = step
self._dump_to_csv(data)
self._dump_to_console(data, prefix)
self._meters.clear()
class Logger(object):
def __init__(self, log_dir, use_tb):
self._log_dir = log_dir
self._train_mg = MetersGroup(log_dir / 'train.csv',
formating=COMMON_TRAIN_FORMAT)
self._eval_mg = MetersGroup(log_dir / 'eval.csv',
formating=COMMON_EVAL_FORMAT)
if use_tb:
self._sw = SummaryWriter(str(log_dir / 'tb'))
else:
self._sw = None
def _try_sw_log(self, key, value, step):
if self._sw is not None:
self._sw.add_scalar(key, value, step)
def log(self, key, value, step):
assert key.startswith('train') or key.startswith('eval')
if type(value) == torch.Tensor:
value = value.item()
self._try_sw_log(key, value, step)
mg = self._train_mg if key.startswith('train') else self._eval_mg
mg.log(key, value)
def log_metrics(self, metrics, step, ty):
for key, value in metrics.items():
self.log(f'{ty}/{key}', value, step)
def dump(self, step, ty=None):
if ty is None or ty == 'eval':
self._eval_mg.dump(step, 'eval')
if ty is None or ty == 'train':
self._train_mg.dump(step, 'train')
def log_and_dump_ctx(self, step, ty):
return LogAndDumpCtx(self, step, ty)
class LogAndDumpCtx:
def __init__(self, logger, step, ty):
self._logger = logger
self._step = step
self._ty = ty
def __enter__(self):
return self
def __call__(self, key, value):
self._logger.log(f'{self._ty}/{key}', value, self._step)
def __exit__(self, *args):
self._logger.dump(self._step, self._ty)