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engine.py
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engine.py
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from __future__ import division, print_function, absolute_import
import time
import numpy as np
import os.path as osp
import datetime
from collections import OrderedDict
import torch
from torch.nn import functional as F
from torch.utils.tensorboard import SummaryWriter
from torchreid import metrics
from torchreid.utils import (
MetricMeter, AverageMeter, re_ranking, open_all_layers, save_checkpoint,
open_specified_layers, visualize_ranked_results
)
from torchreid.losses import DeepSupervision
class Engine(object):
r"""A generic base Engine class for both image- and video-reid.
Args:
datamanager (DataManager): an instance of ``torchreid.data.ImageDataManager``
or ``torchreid.data.VideoDataManager``.
use_gpu (bool, optional): use gpu. Default is True.
"""
def __init__(self, datamanager, use_gpu=True):
self.datamanager = datamanager
self.train_loader = self.datamanager.train_loader
self.test_loader = self.datamanager.test_loader
self.use_gpu = (torch.cuda.is_available() and use_gpu)
self.writer = None
self.epoch = 0
self.model = None
self.optimizer = None
self.scheduler = None
self._models = OrderedDict()
self._optims = OrderedDict()
self._scheds = OrderedDict()
def register_model(self, name='model', model=None, optim=None, sched=None):
if self.__dict__.get('_models') is None:
raise AttributeError(
'Cannot assign model before super().__init__() call'
)
if self.__dict__.get('_optims') is None:
raise AttributeError(
'Cannot assign optim before super().__init__() call'
)
if self.__dict__.get('_scheds') is None:
raise AttributeError(
'Cannot assign sched before super().__init__() call'
)
self._models[name] = model
self._optims[name] = optim
self._scheds[name] = sched
def get_model_names(self, names=None):
names_real = list(self._models.keys())
if names is not None:
if not isinstance(names, list):
names = [names]
for name in names:
assert name in names_real
return names
else:
return names_real
def save_model(self, epoch, rank1, save_dir, is_best=False):
names = self.get_model_names()
for name in names:
save_checkpoint(
{
'state_dict': self._models[name].state_dict(),
'epoch': epoch + 1,
'rank1': rank1,
'optimizer': self._optims[name].state_dict(),
'scheduler': self._scheds[name].state_dict()
},
osp.join(save_dir, name),
is_best=is_best
)
def set_model_mode(self, mode='train', names=None):
assert mode in ['train', 'eval', 'test']
names = self.get_model_names(names)
for name in names:
if mode == 'train':
self._models[name].train()
else:
self._models[name].eval()
def get_current_lr(self, names=None):
names = self.get_model_names(names)
name = names[0]
return self._optims[name].param_groups[-1]['lr']
def update_lr(self, names=None):
names = self.get_model_names(names)
for name in names:
if self._scheds[name] is not None:
self._scheds[name].step()
def run(
self,
save_dir='log',
max_epoch=0,
start_epoch=0,
print_freq=10,
fixbase_epoch=0,
open_layers=None,
start_eval=0,
eval_freq=-1,
test_only=False,
dist_metric='euclidean',
normalize_feature=False,
visrank=False,
visrank_topk=10,
use_metric_cuhk03=False,
ranks=[1, 5, 10, 20],
rerank=False
):
r"""A unified pipeline for training and evaluating a model.
Args:
save_dir (str): directory to save model.
max_epoch (int): maximum epoch.
start_epoch (int, optional): starting epoch. Default is 0.
print_freq (int, optional): print_frequency. Default is 10.
fixbase_epoch (int, optional): number of epochs to train ``open_layers`` (new layers)
while keeping base layers frozen. Default is 0. ``fixbase_epoch`` is counted
in ``max_epoch``.
open_layers (str or list, optional): layers (attribute names) open for training.
start_eval (int, optional): from which epoch to start evaluation. Default is 0.
eval_freq (int, optional): evaluation frequency. Default is -1 (meaning evaluation
is only performed at the end of training).
test_only (bool, optional): if True, only runs evaluation on test datasets.
Default is False.
dist_metric (str, optional): distance metric used to compute distance matrix
between query and gallery. Default is "euclidean".
normalize_feature (bool, optional): performs L2 normalization on feature vectors before
computing feature distance. Default is False.
visrank (bool, optional): visualizes ranked results. Default is False. It is recommended to
enable ``visrank`` when ``test_only`` is True. The ranked images will be saved to
"save_dir/visrank_dataset", e.g. "save_dir/visrank_market1501".
visrank_topk (int, optional): top-k ranked images to be visualized. Default is 10.
use_metric_cuhk03 (bool, optional): use single-gallery-shot setting for cuhk03.
Default is False. This should be enabled when using cuhk03 classic split.
ranks (list, optional): cmc ranks to be computed. Default is [1, 5, 10, 20].
rerank (bool, optional): uses person re-ranking (by Zhong et al. CVPR'17).
Default is False. This is only enabled when test_only=True.
"""
if visrank and not test_only:
raise ValueError(
'visrank can be set to True only if test_only=True'
)
if test_only:
self.test(
dist_metric=dist_metric,
normalize_feature=normalize_feature,
visrank=visrank,
visrank_topk=visrank_topk,
save_dir=save_dir,
use_metric_cuhk03=use_metric_cuhk03,
ranks=ranks,
rerank=rerank
)
return
if self.writer is None:
self.writer = SummaryWriter(log_dir=save_dir)
time_start = time.time()
self.start_epoch = start_epoch
self.max_epoch = max_epoch
print('=> Start training')
for self.epoch in range(self.start_epoch, self.max_epoch):
self.train(
print_freq=print_freq,
fixbase_epoch=fixbase_epoch,
open_layers=open_layers
)
if (self.epoch + 1) >= start_eval \
and eval_freq > 0 \
and (self.epoch+1) % eval_freq == 0 \
and (self.epoch + 1) != self.max_epoch:
rank1 = self.test(
dist_metric=dist_metric,
normalize_feature=normalize_feature,
visrank=visrank,
visrank_topk=visrank_topk,
save_dir=save_dir,
use_metric_cuhk03=use_metric_cuhk03,
ranks=ranks
)
self.save_model(self.epoch, rank1, save_dir)
if self.max_epoch > 0:
print('=> Final test')
rank1 = self.test(
dist_metric=dist_metric,
normalize_feature=normalize_feature,
visrank=visrank,
visrank_topk=visrank_topk,
save_dir=save_dir,
use_metric_cuhk03=use_metric_cuhk03,
ranks=ranks
)
self.save_model(self.epoch, rank1, save_dir)
elapsed = round(time.time() - time_start)
elapsed = str(datetime.timedelta(seconds=elapsed))
print('Elapsed {}'.format(elapsed))
if self.writer is not None:
self.writer.close()
def train(self, print_freq=10, fixbase_epoch=0, open_layers=None):
losses = MetricMeter()
batch_time = AverageMeter()
data_time = AverageMeter()
self.set_model_mode('train')
self.two_stepped_transfer_learning(
self.epoch, fixbase_epoch, open_layers
)
self.num_batches = len(self.train_loader)
end = time.time()
for self.batch_idx, data in enumerate(self.train_loader):
data_time.update(time.time() - end)
loss_summary = self.forward_backward(data)
batch_time.update(time.time() - end)
losses.update(loss_summary)
if (self.batch_idx + 1) % print_freq == 0:
nb_this_epoch = self.num_batches - (self.batch_idx + 1)
nb_future_epochs = (
self.max_epoch - (self.epoch + 1)
) * self.num_batches
eta_seconds = batch_time.avg * (nb_this_epoch+nb_future_epochs)
eta_str = str(datetime.timedelta(seconds=int(eta_seconds)))
print(
'epoch: [{0}/{1}][{2}/{3}]\t'
'time {batch_time.val:.3f} ({batch_time.avg:.3f})\t'
'data {data_time.val:.3f} ({data_time.avg:.3f})\t'
'eta {eta}\t'
'{losses}\t'
'lr {lr:.6f}'.format(
self.epoch + 1,
self.max_epoch,
self.batch_idx + 1,
self.num_batches,
batch_time=batch_time,
data_time=data_time,
eta=eta_str,
losses=losses,
lr=self.get_current_lr()
)
)
if self.writer is not None:
n_iter = self.epoch * self.num_batches + self.batch_idx
self.writer.add_scalar('Train/time', batch_time.avg, n_iter)
self.writer.add_scalar('Train/data', data_time.avg, n_iter)
for name, meter in losses.meters.items():
self.writer.add_scalar('Train/' + name, meter.avg, n_iter)
self.writer.add_scalar(
'Train/lr', self.get_current_lr(), n_iter
)
end = time.time()
self.update_lr()
def forward_backward(self, data):
raise NotImplementedError
def test(
self,
dist_metric='euclidean',
normalize_feature=False,
visrank=False,
visrank_topk=10,
save_dir='',
use_metric_cuhk03=False,
ranks=[1, 5, 10, 20],
rerank=False
):
r"""Tests model on target datasets.
.. note::
This function has been called in ``run()``.
.. note::
The test pipeline implemented in this function suits both image- and
video-reid. In general, a subclass of Engine only needs to re-implement
``extract_features()`` and ``parse_data_for_eval()`` (most of the time),
but not a must. Please refer to the source code for more details.
"""
self.set_model_mode('eval')
targets = list(self.test_loader.keys())
for name in targets:
domain = 'source' if name in self.datamanager.sources else 'target'
print('##### Evaluating {} ({}) #####'.format(name, domain))
query_loader = self.test_loader[name]['query']
gallery_loader = self.test_loader[name]['gallery']
rank1, mAP = self._evaluate(
dataset_name=name,
query_loader=query_loader,
gallery_loader=gallery_loader,
dist_metric=dist_metric,
normalize_feature=normalize_feature,
visrank=visrank,
visrank_topk=visrank_topk,
save_dir=save_dir,
use_metric_cuhk03=use_metric_cuhk03,
ranks=ranks,
rerank=rerank
)
if self.writer is not None:
self.writer.add_scalar(f'Test/{name}/rank1', rank1, self.epoch)
self.writer.add_scalar(f'Test/{name}/mAP', mAP, self.epoch)
return rank1
@torch.no_grad()
def _evaluate(
self,
dataset_name='',
query_loader=None,
gallery_loader=None,
dist_metric='euclidean',
normalize_feature=False,
visrank=False,
visrank_topk=10,
save_dir='',
use_metric_cuhk03=False,
ranks=[1, 5, 10, 20],
rerank=False
):
batch_time = AverageMeter()
def _feature_extraction(data_loader):
f_, pids_, camids_ = [], [], []
for batch_idx, data in enumerate(data_loader):
imgs, pids, camids = self.parse_data_for_eval(data)
if self.use_gpu:
imgs = imgs.cuda()
end = time.time()
features = self.extract_features(imgs)
batch_time.update(time.time() - end)
features = features.cpu()
f_.append(features)
pids_.extend(pids.tolist())
camids_.extend(camids.tolist())
f_ = torch.cat(f_, 0)
pids_ = np.asarray(pids_)
camids_ = np.asarray(camids_)
return f_, pids_, camids_
print('Extracting features from query set ...')
qf, q_pids, q_camids = _feature_extraction(query_loader)
print('Done, obtained {}-by-{} matrix'.format(qf.size(0), qf.size(1)))
print('Extracting features from gallery set ...')
gf, g_pids, g_camids = _feature_extraction(gallery_loader)
print('Done, obtained {}-by-{} matrix'.format(gf.size(0), gf.size(1)))
print('Speed: {:.4f} sec/batch'.format(batch_time.avg))
if normalize_feature:
print('Normalzing features with L2 norm ...')
qf = F.normalize(qf, p=2, dim=1)
gf = F.normalize(gf, p=2, dim=1)
print(
'Computing distance matrix with metric={} ...'.format(dist_metric)
)
distmat = metrics.compute_distance_matrix(qf, gf, dist_metric)
distmat = distmat.numpy()
if rerank:
print('Applying person re-ranking ...')
distmat_qq = metrics.compute_distance_matrix(qf, qf, dist_metric)
distmat_gg = metrics.compute_distance_matrix(gf, gf, dist_metric)
distmat = re_ranking(distmat, distmat_qq, distmat_gg)
print('Computing CMC and mAP ...')
cmc, mAP = metrics.evaluate_rank(
distmat,
q_pids,
g_pids,
q_camids,
g_camids,
use_metric_cuhk03=use_metric_cuhk03
)
print('** Results **')
print('mAP: {:.1%}'.format(mAP))
print('CMC curve')
for r in ranks:
print('Rank-{:<3}: {:.1%}'.format(r, cmc[r - 1]))
if visrank:
visualize_ranked_results(
distmat,
self.datamanager.fetch_test_loaders(dataset_name),
self.datamanager.data_type,
width=self.datamanager.width,
height=self.datamanager.height,
save_dir=osp.join(save_dir, 'visrank_' + dataset_name),
topk=visrank_topk
)
return cmc[0], mAP
def compute_loss(self, criterion, outputs, targets):
if isinstance(outputs, (tuple, list)):
loss = DeepSupervision(criterion, outputs, targets)
else:
loss = criterion(outputs, targets)
return loss
def extract_features(self, input):
return self.model(input)
def parse_data_for_train(self, data):
imgs = data['img']
pids = data['pid']
return imgs, pids
def parse_data_for_eval(self, data):
imgs = data['img']
pids = data['pid']
camids = data['camid']
return imgs, pids, camids
def two_stepped_transfer_learning(
self, epoch, fixbase_epoch, open_layers, model=None
):
"""Two-stepped transfer learning.
The idea is to freeze base layers for a certain number of epochs
and then open all layers for training.
Reference: https://arxiv.org/abs/1611.05244
"""
model = self.model if model is None else model
if model is None:
return
if (epoch + 1) <= fixbase_epoch and open_layers is not None:
print(
'* Only train {} (epoch: {}/{})'.format(
open_layers, epoch + 1, fixbase_epoch
)
)
open_specified_layers(model, open_layers)
else:
open_all_layers(model)