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train_parall.py
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train_parall.py
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'''
@author: insightface
'''
import os
import sys
import math
import random
import logging
import pickle
import sklearn
import numpy as np
from image_iter import FaceImageIter
import mxnet as mx
from mxnet import ndarray as nd
import argparse
import mxnet.optimizer as optimizer
from config import config, default, generate_config
sys.path.append(os.path.join(os.path.dirname(__file__), 'symbol'))
sys.path.append(os.path.join(os.path.dirname(__file__), 'common'))
import verification
import fresnet
import fmobilefacenet
import fmobilenet
import fmnasnet
import fdensenet
import vargfacenet
logger = logging.getLogger()
logger.setLevel(logging.INFO)
args = None
def parse_args():
parser = argparse.ArgumentParser(description='Train parall face network')
# general
parser.add_argument('--dataset',
default=default.dataset,
help='dataset config')
parser.add_argument('--network',
default=default.network,
help='network config')
parser.add_argument('--loss', default=default.loss, help='loss config')
args, rest = parser.parse_known_args()
generate_config(args.network, args.dataset, args.loss)
parser.add_argument('--models-root',
default=default.models_root,
help='root directory to save model.')
parser.add_argument('--pretrained',
default=default.pretrained,
help='pretrained model to load')
parser.add_argument('--pretrained-epoch',
type=int,
default=default.pretrained_epoch,
help='pretrained epoch to load')
parser.add_argument(
'--ckpt',
type=int,
default=default.ckpt,
help=
'checkpoint saving option. 0: discard saving. 1: save when necessary. 2: always save'
)
parser.add_argument(
'--verbose',
type=int,
default=default.verbose,
help='do verification testing and model saving every verbose batches')
parser.add_argument('--lr',
type=float,
default=default.lr,
help='start learning rate')
parser.add_argument('--lr-steps',
type=str,
default=default.lr_steps,
help='steps of lr changing')
parser.add_argument('--wd',
type=float,
default=default.wd,
help='weight decay')
parser.add_argument('--mom',
type=float,
default=default.mom,
help='momentum')
parser.add_argument('--frequent',
type=int,
default=default.frequent,
help='')
parser.add_argument('--per-batch-size',
type=int,
default=default.per_batch_size,
help='batch size in each context')
parser.add_argument('--kvstore',
type=str,
default=default.kvstore,
help='kvstore setting')
parser.add_argument('--worker-id',
type=int,
default=0,
help='worker id for dist training, starts from 0')
parser.add_argument('--extra-model-name',
type=str,
default='',
help='extra model name')
args = parser.parse_args()
return args
def get_symbol_embedding():
embedding = eval(config.net_name).get_symbol()
all_label = mx.symbol.Variable('softmax_label')
#embedding = mx.symbol.BlockGrad(embedding)
all_label = mx.symbol.BlockGrad(all_label)
out_list = [embedding, all_label]
out = mx.symbol.Group(out_list)
return out
def get_symbol_arcface(args):
embedding = mx.symbol.Variable('data')
all_label = mx.symbol.Variable('softmax_label')
gt_label = all_label
is_softmax = True
#print('call get_sym_arcface with', args, config)
if config.loss_name == 'margin_softmax':
_weight = mx.symbol.Variable("fc7_%d_weight" % args._ctxid,
shape=(args.ctx_num_classes *
config.loss_K, config.emb_size),
lr_mult=config.fc7_lr_mult,
wd_mult=config.fc7_wd_mult)
nweight = mx.symbol.L2Normalization(_weight, mode='instance')
nembedding = mx.symbol.L2Normalization(embedding,
mode='instance',
name='fc1n_%d' % args._ctxid)
fc7 = mx.sym.FullyConnected(data=nembedding,
weight=nweight,
no_bias=True,
num_hidden=args.ctx_num_classes *
config.loss_K,
name='fc7_%d' % args._ctxid)
if config.loss_K > 1:
sim_s3 = mx.symbol.reshape(
fc7, (-1, args.ctx_num_classes, config.loss_K))
sim = mx.symbol.max(sim_s3, axis=2)
fc7 = sim
if config.loss_m1 != 1.0 or config.loss_m2 != 0.0 or config.loss_m3 != 0.0:
gt_one_hot = mx.sym.one_hot(gt_label,
depth=args.ctx_num_classes,
on_value=1.0,
off_value=0.0)
if config.loss_m1 == 1.0 and config.loss_m2 == 0.0:
_one_hot = gt_one_hot * args.margin_b
fc7 = fc7 - _one_hot
else:
fc7_onehot = fc7 * gt_one_hot
cos_t = fc7_onehot
t = mx.sym.arccos(cos_t)
if config.loss_m1 != 1.0:
t = t * config.loss_m1
if config.loss_m2 != 0.0:
t = t + config.loss_m2
margin_cos = mx.sym.cos(t)
if config.loss_m3 != 0.0:
margin_cos = margin_cos - config.loss_m3
margin_fc7 = margin_cos
margin_fc7_onehot = margin_fc7 * gt_one_hot
diff = margin_fc7_onehot - fc7_onehot
fc7 = fc7 + diff
fc7 = fc7 * config.loss_s
out_list = []
out_list.append(fc7)
if config.loss_name == 'softmax': #softmax
out_list.append(gt_label)
out = mx.symbol.Group(out_list)
return out
def train_net(args):
#_seed = 727
#random.seed(_seed)
#np.random.seed(_seed)
#mx.random.seed(_seed)
ctx = []
cvd = os.environ['CUDA_VISIBLE_DEVICES'].strip()
if len(cvd) > 0:
for i in range(len(cvd.split(','))):
ctx.append(mx.gpu(i))
if len(ctx) == 0:
ctx = [mx.cpu()]
print('use cpu')
else:
print('gpu num:', len(ctx))
if len(args.extra_model_name) == 0:
prefix = os.path.join(
args.models_root,
'%s-%s-%s' % (args.network, args.loss, args.dataset), 'model')
else:
prefix = os.path.join(
args.models_root, '%s-%s-%s-%s' %
(args.network, args.loss, args.dataset, args.extra_model_name),
'model')
prefix_dir = os.path.dirname(prefix)
print('prefix', prefix)
if not os.path.exists(prefix_dir):
os.makedirs(prefix_dir)
args.ctx_num = len(ctx)
if args.per_batch_size == 0:
args.per_batch_size = 128
args.batch_size = args.per_batch_size * args.ctx_num
args.rescale_threshold = 0
args.image_channel = config.image_shape[2]
config.batch_size = args.batch_size
config.per_batch_size = args.per_batch_size
data_dir = config.dataset_path
path_imgrec = None
path_imglist = None
image_size = config.image_shape[0:2]
assert len(image_size) == 2
assert image_size[0] == image_size[1]
print('image_size', image_size)
print('num_classes', config.num_classes)
path_imgrec = os.path.join(data_dir, "train.rec")
data_shape = (args.image_channel, image_size[0], image_size[1])
num_workers = config.num_workers
global_num_ctx = num_workers * args.ctx_num
if config.num_classes % global_num_ctx == 0:
args.ctx_num_classes = config.num_classes // global_num_ctx
else:
args.ctx_num_classes = config.num_classes // global_num_ctx + 1
args.local_num_classes = args.ctx_num_classes * args.ctx_num
args.local_class_start = args.local_num_classes * args.worker_id
#if len(args.partial)==0:
# local_classes_range = (0, args.num_classes)
#else:
# _vec = args.partial.split(',')
# local_classes_range = (int(_vec[0]), int(_vec[1]))
#args.partial_num_classes = local_classes_range[1] - local_classes_range[0]
#args.partial_start = local_classes_range[0]
print('Called with argument:', args, config)
mean = None
begin_epoch = 0
base_lr = args.lr
base_wd = args.wd
base_mom = args.mom
arg_params = None
aux_params = None
if len(args.pretrained) == 0:
esym = get_symbol_embedding()
asym = get_symbol_arcface
else:
assert False
if config.num_workers == 1:
from parall_module_local_v1 import ParallModule
else:
from parall_module_dist import ParallModule
model = ParallModule(
context=ctx,
symbol=esym,
data_names=['data'],
label_names=['softmax_label'],
asymbol=asym,
args=args,
)
val_dataiter = None
train_dataiter = FaceImageIter(
batch_size=args.batch_size,
data_shape=data_shape,
path_imgrec=path_imgrec,
shuffle=True,
rand_mirror=config.data_rand_mirror,
mean=mean,
cutoff=config.data_cutoff,
color_jittering=config.data_color,
images_filter=config.data_images_filter,
)
if config.net_name == 'fresnet' or config.net_name == 'fmobilefacenet':
initializer = mx.init.Xavier(rnd_type='gaussian',
factor_type="out",
magnitude=2) #resnet style
else:
initializer = mx.init.Xavier(rnd_type='uniform',
factor_type="in",
magnitude=2)
_rescale = 1.0 / args.batch_size
opt = optimizer.SGD(learning_rate=base_lr,
momentum=base_mom,
wd=base_wd,
rescale_grad=_rescale)
_cb = mx.callback.Speedometer(args.batch_size, args.frequent)
ver_list = []
ver_name_list = []
for name in config.val_targets:
path = os.path.join(data_dir, name + ".bin")
if os.path.exists(path):
data_set = verification.load_bin(path, image_size)
ver_list.append(data_set)
ver_name_list.append(name)
print('ver', name)
def ver_test(nbatch):
results = []
for i in range(len(ver_list)):
acc1, std1, acc2, std2, xnorm, embeddings_list = verification.test(
ver_list[i], model, args.batch_size, 10, None, None)
print('[%s][%d]XNorm: %f' % (ver_name_list[i], nbatch, xnorm))
#print('[%s][%d]Accuracy: %1.5f+-%1.5f' % (ver_name_list[i], nbatch, acc1, std1))
print('[%s][%d]Accuracy-Flip: %1.5f+-%1.5f' %
(ver_name_list[i], nbatch, acc2, std2))
results.append(acc2)
return results
highest_acc = [0.0, 0.0] #lfw and target
#for i in range(len(ver_list)):
# highest_acc.append(0.0)
global_step = [0]
save_step = [0]
lr_steps = [int(x) for x in args.lr_steps.split(',')]
print('lr_steps', lr_steps)
def _batch_callback(param):
#global global_step
global_step[0] += 1
mbatch = global_step[0]
for step in lr_steps:
if mbatch == step:
opt.lr *= 0.1
print('lr change to', opt.lr)
break
_cb(param)
if mbatch % 1000 == 0:
print('lr-batch-epoch:', opt.lr, param.nbatch, param.epoch)
if mbatch >= 0 and mbatch % args.verbose == 0:
acc_list = ver_test(mbatch)
save_step[0] += 1
msave = save_step[0]
do_save = False
is_highest = False
if len(acc_list) > 0:
#lfw_score = acc_list[0]
#if lfw_score>highest_acc[0]:
# highest_acc[0] = lfw_score
# if lfw_score>=0.998:
# do_save = True
score = sum(acc_list)
if acc_list[-1] >= highest_acc[-1]:
if acc_list[-1] > highest_acc[-1]:
is_highest = True
else:
if score >= highest_acc[0]:
is_highest = True
highest_acc[0] = score
highest_acc[-1] = acc_list[-1]
#if lfw_score>=0.99:
# do_save = True
if is_highest:
do_save = True
if args.ckpt == 0:
do_save = False
elif args.ckpt == 2:
do_save = True
elif args.ckpt == 3:
msave = 1
if do_save:
print('saving', msave)
if config.ckpt_embedding:
arg, aux = model.get_export_params()
else:
arg, aux = model.get_params()
all_layers = model.symbol.get_internals()
_sym = all_layers['fc1_output']
mx.model.save_checkpoint(prefix, msave, _sym, arg, aux)
print('[%d]Accuracy-Highest: %1.5f' % (mbatch, highest_acc[-1]))
if config.max_steps > 0 and mbatch > config.max_steps:
sys.exit(0)
epoch_cb = None
train_dataiter = mx.io.PrefetchingIter(train_dataiter)
model.fit(
train_dataiter,
begin_epoch=begin_epoch,
num_epoch=999999,
eval_data=val_dataiter,
#eval_metric = eval_metrics,
kvstore=args.kvstore,
optimizer=opt,
#optimizer_params = optimizer_params,
initializer=initializer,
arg_params=arg_params,
aux_params=aux_params,
allow_missing=True,
batch_end_callback=_batch_callback,
epoch_end_callback=epoch_cb)
def main():
global args
args = parse_args()
train_net(args)
if __name__ == '__main__':
main()