def reset_session(save_path, model, vggface, train_batchA, train_batchB):
model.save_weights(path=save_path)
K.clear_session()
model = FaceswapGANModel(**arch_config)
model.load_weights(path=save_path)
#vggface = VGGFace(include_top=False, model='resnet50', input_shape=(224, 224, 3))
vggface = RESNET50(include_top=False, weights=None, input_shape=(224, 224, 3))
vggface.load_weights("rcmalli_vggface_tf_notop_resnet50.h5")
model.build_pl_model(vggface_model=vggface, before_activ=loss_config["PL_before_activ"])
train_batchA = DataLoader(train_A, train_AnB, batchSize, img_dirA_bm_eyes,
RESOLUTION, num_cpus, K.get_session(), **da_config)
train_batchB = DataLoader(train_B, train_AnB, batchSize, img_dirB_bm_eyes,
RESOLUTION, num_cpus, K.get_session(), **da_config)
def reset_session(save_path, model, person='A'):
model.save_weights(path=save_path)
K.clear_session()
model = FaceswapGANModel(**arch_config)
model.load_weights(path=save_path)
vggface = VGGFace(include_top=False, model='resnet50', input_shape=(224, 224, 3))
model.build_pl_model(vggface_model=vggface, before_activ=loss_config["PL_before_activ"])
if person == 'A':
train_batch = DataLoader(gen_person_img, all_img, batchSize, gen_img_dir_bm_eyes,
RESOLUTION, num_cpus, K.get_session(), **da_config)
else:
train_batch = DataLoader(person_img, all_img, batchSize, img_dir_bm_eyes,
RESOLUTION, num_cpus, K.get_session(), **da_config)
return model, vggface, train_batch
def reset_session(save_path):
global model, vggface
global train_batchA, train_batchB
model.save_weights(path=save_path)
del model
del vggface
del train_batchA
del train_batchB
K.clear_session()
model = FaceswapGANModel(**arch_config)
model.load_weights(path=save_path)
vggface = VGGFace(include_top=False, model='resnet50', input_shape=(224, 224, 3))
model.build_pl_model(vggface_model=vggface, before_activ=loss_config["PL_before_activ"])
train_batchA = DataLoader(train_A, train_AnB, batchSize, img_dirA_bm_eyes,
RESOLUTION, num_cpus, K.get_session(), **da_config)
train_batchB = DataLoader(train_B, train_AnB, batchSize, img_dirB_bm_eyes,
RESOLUTION, num_cpus, K.get_session(), **da_config)
loss_config['use_PL'] = False
loss_config["PL_before_activ"] = True
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.
loss_config['lr_factor'] = 1.
loss_config['use_cyclic_loss'] = False
from networks.faceswap_gan_model import FaceswapGANModel
from data_loader.data_loader import DataLoader
from utils import showG, showG_mask, showG_eyes
model = FaceswapGANModel(**arch_config)
from keras_vggface.vggface import VGGFace
vggface = VGGFace(include_top=False, model='resnet50', input_shape=(224, 224, 3))
model.build_pl_model(vggface_model=vggface, before_activ=loss_config["PL_before_activ"])
model.build_train_functions(loss_weights=loss_weights, **loss_config)
# Create ./models directory
Path(f"models").mkdir(parents=True, exist_ok=True)
# Get filenames
train_A = glob.glob(img_dirA+"/*.*")
train_B = glob.glob(img_dirB+"/*.*")
train_AnB = train_A + train_B
assert len(train_A), "No image found in " + str(img_dirA)
assert len(train_B), "No image found in " + str(img_dirB)
print ("Number of images in folder A: " + str(len(train_A)))
def train_person(person, gen_person):
# Number of CPU cores
num_cpus = os.cpu_count()
# Batch size
batchSize = 2
assert (batchSize != 1 and batchSize % 2 == 0), "batchSize should be an even number."
# Path to training images
img_dir = f'./faces/{person}'
img_dir_bm_eyes = f"./binary_masks/{person}"
gen_img_dir = f'./faces/{gen_person}'
gen_img_dir_bm_eyes = f"./binary_masks/{gen_person}"
# Path to saved model weights
models_dir = f"./models/{gen_person}2{person}"
da_config, arch_config, loss_weights, loss_config = get_model_params()
model = FaceswapGANModel(**arch_config)
model.load_weights(path=models_dir)
vggface = RESNET50(include_top=False, weights=None, input_shape=(224, 224, 3))
vggface.load_weights("rcmalli_vggface_tf_notop_resnet50.h5")
# VGGFace ResNet50
vggface = VGGFace(include_top=False, model='resnet50', input_shape=(224, 224, 3))
model.build_pl_model(vggface_model=vggface, before_activ=loss_config["PL_before_activ"])
model.build_train_functions(loss_weights=loss_weights, **loss_config)
# Create ./models directory
Path(models_dir).mkdir(parents=True, exist_ok=True)
# Get filenames
person_img = glob.glob(img_dir + f"/raw_faces/*.*")
gen_person_img = glob.glob(gen_img_dir + f"/raw_faces/*.*")
all_img = person_img + gen_person_img
assert len(person_img), "No image found in " + str(img_dir)
print("Number of images in folder: " + str(len(person_img)))
if da_config["use_bm_eyes"]:
assert len(glob.glob(img_dir_bm_eyes + "/*.*")), "No binary mask found in " + str(img_dir_bm_eyes)
assert len(glob.glob(img_dir_bm_eyes + "/*.*")) == len(person_img), \
"Number of faceA images does not match number of their binary masks. Can be caused by any none image file in the folder."
train_batchA = DataLoader(person_img, all_img, batchSize, img_dir_bm_eyes,
RESOLUTION, num_cpus, K.get_session(), **da_config)
train_batchB = DataLoader(gen_person_img, all_img, batchSize, gen_img_dir_bm_eyes,
RESOLUTION, num_cpus, K.get_session(), **da_config)
# _, tA, bmA = train_batchA.get_next_batch()
# _, tB, bmB = train_batchB.get_next_batch()
# showG_eyes(tA, tB, bmA, bmB, batchSize)
t0 = time.time()
gen_iterations = 0
errGA_sum = errGB_sum = errDA_sum = errDB_sum = 0
errGAs = {}
errGBs = {}
# Dictionaries are ordered in Python 3.6
for k in ['ttl', 'adv', 'recon', 'edge', 'pl']:
errGAs[k] = 0
errGBs[k] = 0
display_iters = 300
backup_iters = 5000
TOTAL_ITERS = 10000
def reset_session(save_path, model, person='A'):
model.save_weights(path=save_path)
K.clear_session()
model = FaceswapGANModel(**arch_config)
model.load_weights(path=save_path)
vggface = VGGFace(include_top=False, model='resnet50', input_shape=(224, 224, 3))
model.build_pl_model(vggface_model=vggface, before_activ=loss_config["PL_before_activ"])
if person == 'A':
train_batch = DataLoader(gen_person_img, all_img, batchSize, gen_img_dir_bm_eyes,
RESOLUTION, num_cpus, K.get_session(), **da_config)
else:
train_batch = DataLoader(person_img, all_img, batchSize, img_dir_bm_eyes,
RESOLUTION, num_cpus, K.get_session(), **da_config)
return model, vggface, train_batch
while gen_iterations <= TOTAL_ITERS:
# Loss function automation
if gen_iterations == (TOTAL_ITERS // 5 - display_iters // 2):
clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.0
model, vggface, train_batchA = reset_session(models_dir, model)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Done.")
elif gen_iterations == (TOTAL_ITERS // 5 + TOTAL_ITERS // 10 - display_iters // 2):
clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.5
model, vggface, train_batchA = reset_session(models_dir, model)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Complete.")
elif gen_iterations == (2 * TOTAL_ITERS // 5 - display_iters // 2):
clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.2
model, vggface, train_batchA = reset_session(models_dir, model)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Done.")
elif gen_iterations == (TOTAL_ITERS // 2 - display_iters // 2):
clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.4
model, vggface, train_batchA = reset_session(models_dir, model)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Done.")
elif gen_iterations == (2 * TOTAL_ITERS // 3 - display_iters // 2):
clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.
loss_config['lr_factor'] = 0.3
model, vggface, train_batchA = reset_session(models_dir, model)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Done.")
elif gen_iterations == (8 * TOTAL_ITERS // 10 - display_iters // 2):
clear_output()
# データのswapが割と肝っぽいぞ
# よく考えたら当たり前だけども(従来のDAを作ることが目的ではない,千賀の画像を入力して千賀の画像が出てきても
# ダメじゃん,人が変わらなきゃ)
model.decoder_A.load_weights(f"{models_dir}/decoder_A.h5") # swap decoders
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.1
loss_config['lr_factor'] = 0.3
model, vggface, train_batchA = reset_session(models_dir, model, person='B')
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Done.")
elif gen_iterations == (9 * TOTAL_ITERS // 10 - display_iters // 2):
clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.0
loss_config['lr_factor'] = 0.1
model, vggface, train_batchA = reset_session(models_dir, model, person='B')
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Done.")
if gen_iterations == 5:
print("working.")
# Train dicriminators for one batch
data_A = train_batchA.get_next_batch()
errDA = model.train_one_batch_D(data_A=data_A)
errDA_sum += errDA[0]
# Train generators for one batch
data_A = train_batchA.get_next_batch()
errGA = model.train_one_batch_G(data_A=data_A)
errGA_sum += errGA[0]
for i, k in enumerate(['ttl', 'adv', 'recon', 'edge', 'pl']):
errGAs[k] += errGA[i]
gen_iterations += 1
# Visualization
if gen_iterations % display_iters == 0:
clear_output()
# Display loss information
show_loss_config(loss_config)
print("----------")
print('[iter %d] Loss_DA: %f Loss_DB: %f Loss_GA: %f Loss_GB: %f time: %f'
% (gen_iterations, errDA_sum / display_iters, errDB_sum / display_iters,
errGA_sum / display_iters, errGB_sum / display_iters, time.time() - t0))
print("----------")
print("Generator loss details:")
print(f'[Adversarial loss]')
print(f'GA: {errGAs["adv"] / display_iters:.4f} GB: {errGBs["adv"] / display_iters:.4f}')
print(f'[Reconstruction loss]')
print(f'GA: {errGAs["recon"] / display_iters:.4f} GB: {errGBs["recon"] / display_iters:.4f}')
print(f'[Edge loss]')
print(f'GA: {errGAs["edge"] / display_iters:.4f} GB: {errGBs["edge"] / display_iters:.4f}')
if loss_config['use_PL'] == True:
print(f'[Perceptual loss]')
try:
print(f'GA: {errGAs["pl"][0] / display_iters:.4f}')
except:
print(f'GA: {errGAs["pl"] / display_iters:.4f}')
errGA_sum = errGB_sum = errDA_sum = errDB_sum = 0
for k in ['ttl', 'adv', 'recon', 'edge', 'pl']:
errGAs[k] = 0
errGBs[k] = 0
# Display images
# print("----------")
# wA, tA, _ = train_batchA.get_next_batch()
# print("Transformed (masked) results:")
# showG(tA, tB, model.path_A, model.path_B, batchSize)
# print("Masks:")
# showG_mask(tA, tB, model.path_mask_A, model.path_mask_B, batchSize)
# print("Reconstruction results:")
# showG(wA, wB, model.path_bgr_A, model.path_bgr_B, batchSize)
# Save models
model.save_weights(path=models_dir)
# Backup models
if gen_iterations % backup_iters == 0:
bkup_dir = f"{models_dir}/backup_iter{gen_iterations}"
Path(bkup_dir).mkdir(parents=True, exist_ok=True)
model.save_weights(path=bkup_dir)
def train(ITERS):
K.set_learning_phase(1)
#K.set_learning_phase(0) # set to 0 in inference phase
# Number of CPU cores
num_cpus = os.cpu_count()
# Input/Output resolution
RESOLUTION = 64 # 64x64, 128x128, 256x256
assert (RESOLUTION % 64) == 0, "RESOLUTION should be 64, 128, or 256."
# Batch size
# batchSize = 8
batchSize = 2
# Use motion blurs (data augmentation)
# set True if training data contains images extracted from videos
use_da_motion_blur = False
# Use eye-aware training
# require images generated from prep_binary_masks.ipynb
use_bm_eyes = True
use_bm_eyes = False
# Probability of random color matching (data augmentation)
prob_random_color_match = 0.5
da_config = {
"prob_random_color_match": prob_random_color_match,
"use_da_motion_blur": use_da_motion_blur,
"use_bm_eyes": use_bm_eyes
}
session_config = tf.ConfigProto(log_device_placement=False,
allow_soft_placement=True)
# please do not use the totality of the GPU memory
session_config.gpu_options.per_process_gpu_memory_fraction = 0.90
# Path to training images
dataDir = '/home/wh/hdd/work/xj/AI_anchors/faceswap-GAN-master'
img_dirA = './faces/faceA/aligned_faces' #经过对齐后人脸的文件夹
img_dirB = './faces/faceB/aligned_faces'
img_dirA_bm_eyes = "./faces/faceA/binary_masks_eyes" #与对齐人脸对应的mask,用于合成,主要是GAN如果不加mask会差一些
img_dirB_bm_eyes = "./faces/faceB/binary_masks_eyes"
# Path to saved model weights
models_dir = "./models"
#Path(f"models").mkdir(parents=True, exist_ok=True)
if not os.path.exists(models_dir):
os.mkdir(models_dir)
# Architecture configuration
arch_config = {}
arch_config['IMAGE_SHAPE'] = (RESOLUTION, RESOLUTION, 3)
arch_config['use_self_attn'] = True
arch_config[
'norm'] = "instancenorm" # instancenorm, batchnorm, layernorm, groupnorm, none
arch_config['model_capacity'] = "standard" # standard, lite
# Loss function weights configuration,各种loss的权重系数
loss_weights = {}
loss_weights['w_D'] = 0.1 # Discriminator
loss_weights['w_recon'] = 1. # L1 reconstruction loss
loss_weights['w_edge'] = 0.1 # edge loss
loss_weights['w_eyes'] = 30. # reconstruction and edge loss on eyes area
loss_weights['w_pl'] = (0.01, 0.1, 0.3, 0.1
) # perceptual loss (0.003, 0.03, 0.3, 0.3)
# Init. loss config. 迭代多少次后会用哪种loss
loss_config = {}
loss_config[
"gan_training"] = "mixup_LSGAN" # "mixup_LSGAN" or "relativistic_avg_LSGAN"
loss_config['use_PL'] = False
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.
loss_config['lr_factor'] = 1.
loss_config['use_cyclic_loss'] = False
print('CONFIGURE DONE')
print('step1')
# Get filenames
#train_A = glob.glob(img_dirA+"/*.*")
#train_B = glob.glob(img_dirB+"/*.*")
train_A = getDirFnPath(img_dirA)
train_B = getDirFnPath(img_dirB)
train_AnB = train_A + train_B
assert len(train_A), "No image found in " + str(img_dirA)
assert len(train_B), "No image found in " + str(img_dirB)
print("Number of images in folder A: " + str(len(train_A)))
print("Number of images in folder B: " + str(len(train_B)))
print('step2')
#define models
global model
model = FaceswapGANModel(**arch_config)
print('DEFINE MODELS DONE')
model.load_weights(path=models_dir)
# VGGFace ResNet50,
# 用vgg的目的是为了对比提取的特征是否一致(将原始图和生成图用VGG提取固定层feat,然后比较feat的距离)
global vggface
vggface = VGGFace(include_top=False,
model='resnet50',
input_shape=(224, 224, 3))
#vggface.summary()
model.build_pl_model(vggface_model=vggface)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print('BUILD MODELS DONE')
if use_bm_eyes:
assert len(glob.glob(
img_dirA_bm_eyes +
"/*.*")), "No binary mask found in " + str(img_dirA_bm_eyes)
assert len(glob.glob(
img_dirB_bm_eyes +
"/*.*")), "No binary mask found in " + str(img_dirB_bm_eyes)
assert len(glob.glob(img_dirA_bm_eyes+"/*.*")) == len(train_A), \
"Number of faceA images does not match number of their binary masks. Can be caused by any none image file in the folder."
assert len(glob.glob(img_dirB_bm_eyes+"/*.*")) == len(train_B), \
"Number of faceB images does not match number of their binary masks. Can be caused by any none image file in the folder."
def show_loss_config(loss_config):
for config, value in loss_config.items():
print(f"{config} = {value}")
def reset_session(save_path):
global model, vggface
global train_batchA, train_batchB
model.save_weights(path=save_path)
del model
del vggface
del train_batchA
del train_batchB
K.clear_session()
model = FaceswapGANModel(**arch_config)
model.load_weights(path=save_path)
vggface = VGGFace(include_top=False,
model='resnet50',
input_shape=(224, 224, 3))
model.build_pl_model(vggface_model=vggface)
train_batchA = DataLoader(train_A, train_AnB, batchSize,
img_dirA_bm_eyes, RESOLUTION, num_cpus,
K.get_session(), **da_config)
train_batchB = DataLoader(train_B, train_AnB, batchSize,
img_dirB_bm_eyes, RESOLUTION, num_cpus,
K.get_session(), **da_config)
print('RESET_SESSION DONE')
print('step3')
# Start training
t0 = time.time()
gen_iterations = 0
errGA_sum = errGB_sum = errDA_sum = errDB_sum = 0
errGAs = {}
errGBs = {}
# Dictionaries are ordered in Python 3.6
for k in ['ttl', 'adv', 'recon', 'edge', 'pl']:
errGAs[k] = 0
errGBs[k] = 0
display_iters = 300
backup_iters = 5000
TOTAL_ITERS = ITERS // 1
# TOTAL_ITERS = 10000
print('step4')
global train_batchA, train_batchB
train_batchA = DataLoader(train_A, train_AnB, batchSize,
img_dirA_bm_eyes, RESOLUTION, num_cpus,
K.get_session(), **da_config)
train_batchB = DataLoader(train_B, train_AnB, batchSize,
img_dirB_bm_eyes, RESOLUTION, num_cpus,
K.get_session(), **da_config)
print('step5')
print('DATALOADER DONE')
show_iters = 50
print("START TRAINING")
while gen_iterations <= TOTAL_ITERS:
#print(gen_iterations)
# Loss function automation
if gen_iterations == (TOTAL_ITERS // 5 - display_iters // 2):
#clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.0
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights,
**loss_config)
print("Done.")
elif gen_iterations == (TOTAL_ITERS // 5 + TOTAL_ITERS // 10 -
display_iters // 2):
#clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.5
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights,
**loss_config)
print("Complete.")
elif gen_iterations == (2 * TOTAL_ITERS // 5 - display_iters // 2):
#clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.2
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights,
**loss_config)
print("Done.")
elif gen_iterations == (TOTAL_ITERS // 2 - display_iters // 2):
#clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.4
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights,
**loss_config)
print("Done.")
elif gen_iterations == (2 * TOTAL_ITERS // 3 - display_iters // 2):
#clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.
loss_config['lr_factor'] = 0.3
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights,
**loss_config)
print("Done.")
elif gen_iterations == (8 * TOTAL_ITERS // 10 - display_iters // 2):
#clear_output()
model.decoder_A.load_weights(
"models/decoder_B.h5") # swap decoders
model.decoder_B.load_weights(
"models/decoder_A.h5") # swap decoders
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.1
loss_config['lr_factor'] = 0.3
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights,
**loss_config)
print("Done.")
elif gen_iterations == (9 * TOTAL_ITERS // 10 - display_iters // 2):
#clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.0
loss_config['lr_factor'] = 0.1
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights,
**loss_config)
print("Done.")
# Train dicriminators for one batch
data_A = train_batchA.get_next_batch(
) # 每次返回一张原始图,一张随机扭曲的图,以及与原始图像对应的mask
data_B = train_batchB.get_next_batch()
errDA, errDB = model.train_one_batch_D(data_A=data_A, data_B=data_B)
errDA_sum += errDA[0]
errDB_sum += errDB[0]
# Train generators for one batch
data_A = train_batchA.get_next_batch()
data_B = train_batchB.get_next_batch()
errGA, errGB = model.train_one_batch_G(data_A=data_A, data_B=data_B)
errGA_sum += errGA[0]
errGB_sum += errGB[0]
for i, k in enumerate(['ttl', 'adv', 'recon', 'edge', 'pl']):
errGAs[k] += errGA[i]
errGBs[k] += errGB[i]
gen_iterations += 1
if gen_iterations % show_iters == 0:
#print('iter: %d, Loss_GA: %f, Loss_G: %f' % (gen_iterations, errGA_sum / display_iters, errGB_sum / display_iters))
# Display loss information
#show_loss_config(loss_config)
print(
'[iter %d] Loss_DA: %f Loss_DB: %f Loss_GA: %f Loss_GB: %f time: %f'
%
(gen_iterations, float(errDA_sum / show_iters),
float(errDB_sum / show_iters), float(errGA_sum / show_iters),
float(errGB_sum / show_iters), time.time() - t0))
for k in ['ttl', 'adv', 'recon', 'edge', 'pl']:
errGAs[k] = 0
errGBs[k] = 0
errGA_sum = errGB_sum = errDA_sum = errDB_sum = 0
# Display images
wA, tA, _ = train_batchA.get_next_batch()
wB, tB, _ = train_batchB.get_next_batch()
tran_res = showG(tA, tB, model.path_A, model.path_B, batchSize)
mask_res = showG_mask(tA, tB, model.path_mask_A, model.path_mask_B,
batchSize)
rec_res = showG(wA, wB, model.path_bgr_A, model.path_bgr_B,
batchSize)
#mask_res1 = cv2.cvtColor(mask_res, cv2.COLOR_GRAY2BGR)
fname = "./logs/images/tran_mask_rec_%d.jpg" % (gen_iterations)
res = np.vstack([tran_res, mask_res, rec_res])
cv2.imwrite(fname, res)
#fname = "./logs/images/mask_%d.jpg" % (gen_iterations)
#cv2.imwrite(fname, mask_res)
# Visualization delete
if gen_iterations % display_iters == 0:
# Save models
model.save_weights(path=models_dir)
# Backup models
if gen_iterations % backup_iters == 0:
bkup_dir = f"{models_dir}/backup_iter{gen_iterations}"
#Path(bkup_dir).mkdir(parents=True, exist_ok=True)
if not os.path.exists(bkup_dir):
os.mkdir(bkup_dir)
model.save_weights(path=bkup_dir)
print('TRAIN DONE')
def run(img_dirA, img_dirB, TOTAL_ITERS = 40000):
global model, vggface
img_dirA_bm_eyes = f"{img_dirA}/binary_masks_eyes2"
img_dirB_bm_eyes = f"{img_dirB}/binary_masks_eyes2"
# Path to saved model weights
models_dir = "./models"
# Number of CPU cores
num_cpus = os.cpu_count()
# Input/Output resolution
RESOLUTION = 64 # 64x64, 128x128, 256x256
assert (RESOLUTION % 64) == 0, "RESOLUTION should be 64, 128, or 256."
# Batch size
batchSize = 8
assert (batchSize != 1 and batchSize % 2 == 0) , "batchSize should be an even number."
# Use motion blurs (data augmentation)
# set True if training data contains images extracted from videos
use_da_motion_blur = False
# Use eye-aware training
# require images generated from prep_binary_masks.ipynb
use_bm_eyes = True
# Probability of random color matching (data augmentation)
prob_random_color_match = 0.5
da_config = {
"prob_random_color_match": prob_random_color_match,
"use_da_motion_blur": use_da_motion_blur,
"use_bm_eyes": use_bm_eyes
}
# Architecture configuration
arch_config = {}
arch_config['IMAGE_SHAPE'] = (RESOLUTION, RESOLUTION, 3)
arch_config['use_self_attn'] = True
arch_config['norm'] = "instancenorm" # instancenorm, batchnorm, layernorm, groupnorm, none
arch_config['model_capacity'] = "standard" # standard, lite
# VGGFace ResNet50
vggface = VGGFace(include_top=False, model='resnet50', input_shape=(224, 224, 3))
# Loss function weights configuration
loss_weights = {}
loss_weights['w_D'] = 0.1 # Discriminator
loss_weights['w_recon'] = 1. # L1 reconstruction loss
loss_weights['w_edge'] = 0.1 # edge loss
loss_weights['w_eyes'] = 30. # reconstruction and edge loss on eyes area
loss_weights['w_pl'] = (0.01, 0.1, 0.3, 0.1) # perceptual loss (0.003, 0.03, 0.3, 0.3)
# Init. loss config.
loss_config = {}
loss_config["gan_training"] = "mixup_LSGAN" # "mixup_LSGAN" or "relativistic_avg_LSGAN"
loss_config['use_PL'] = False
loss_config["PL_before_activ"] = False
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.
loss_config['lr_factor'] = 1.
loss_config['use_cyclic_loss'] = False
from networks.faceswap_gan_model import FaceswapGANModel
model = FaceswapGANModel(**arch_config)
model.load_weights(path=models_dir)
from colab_demo.vggface_models import RESNET50
vggface = RESNET50(include_top=False, weights=None, input_shape=(224, 224, 3))
vggface.load_weights("rcmalli_vggface_tf_notop_resnet50.h5")
#vggface.summary()
model.build_pl_model(vggface_model=vggface, before_activ=loss_config["PL_before_activ"])
model.build_train_functions(loss_weights=loss_weights, **loss_config)
from data_loader.data_loader import DataLoader
# Create ./models directory
Path(f"models").mkdir(parents=True, exist_ok=True)
# Get filenames
faces_A = f"{img_dirA}/raw_faces"
faces_B = f"{img_dirB}/raw_faces"
train_A = glob.glob(f"{faces_A}/*.*")
train_B = glob.glob(f"{faces_B}/*.*")
train_AnB = train_A + train_B
assert len(train_A), f"No image found in {faces_A}"
assert len(train_B), f"No image found in {faces_B}"
print ("Number of images in folder A: " + str(len(train_A)))
print ("Number of images in folder B: " + str(len(train_B)))
if use_bm_eyes:
assert len(glob.glob(img_dirA_bm_eyes+"/*.*")), "No binary mask found in " + str(img_dirA_bm_eyes)
assert len(glob.glob(img_dirB_bm_eyes+"/*.*")), "No binary mask found in " + str(img_dirB_bm_eyes)
assert len(glob.glob(img_dirA_bm_eyes+"/*.*")) == len(train_A), \
"Number of faceA images does not match number of their binary masks. Can be caused by any none image file in the folder."
assert len(glob.glob(img_dirB_bm_eyes+"/*.*")) == len(train_B), \
"Number of faceB images does not match number of their binary masks. Can be caused by any none image file in the folder."
def show_loss_config(loss_config):
for config, value in loss_config.items():
print(f"{config} = {value}")
def reset_session(save_path):
global model, vggface
global train_batchA, train_batchB
model.save_weights(path=save_path)
del model
del vggface
del train_batchA
del train_batchB
K.clear_session()
model = FaceswapGANModel(**arch_config)
model.load_weights(path=save_path)
vggface = VGGFace(include_top=False, model='resnet50', input_shape=(224, 224, 3))
model.build_pl_model(vggface_model=vggface, before_activ=loss_config["PL_before_activ"])
train_batchA = DataLoader(train_A, train_AnB, batchSize, img_dirA_bm_eyes,
RESOLUTION, num_cpus, K.get_session(), **da_config)
train_batchB = DataLoader(train_B, train_AnB, batchSize, img_dirB_bm_eyes,
RESOLUTION, num_cpus, K.get_session(), **da_config)
# Start training
t0 = time.time()
# This try/except is meant to resume training that was accidentally interrupted
try:
gen_iterations
print(f"Resume training from iter {gen_iterations}.")
except:
gen_iterations = 0
errGA_sum = errGB_sum = errDA_sum = errDB_sum = 0
errGAs = {}
errGBs = {}
# Dictionaries are ordered in Python 3.6
for k in ['ttl', 'adv', 'recon', 'edge', 'pl']:
errGAs[k] = 0
errGBs[k] = 0
display_iters = 300
backup_iters = 5000
global train_batchA, train_batchB
train_batchA = DataLoader(train_A, train_AnB, batchSize, img_dirA_bm_eyes,
RESOLUTION, num_cpus, K.get_session(), **da_config)
train_batchB = DataLoader(train_B, train_AnB, batchSize, img_dirB_bm_eyes,
RESOLUTION, num_cpus, K.get_session(), **da_config)
clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.0
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Done.")
while gen_iterations <= TOTAL_ITERS:
# Loss function automation
if gen_iterations == (TOTAL_ITERS//5 - display_iters//2):
clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.0
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Done.")
elif gen_iterations == (TOTAL_ITERS//5 + TOTAL_ITERS//10 - display_iters//2):
clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.5
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Complete.")
elif gen_iterations == (2*TOTAL_ITERS//5 - display_iters//2):
clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.2
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Done.")
elif gen_iterations == (TOTAL_ITERS//2 - display_iters//2):
clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.4
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Done.")
elif gen_iterations == (2*TOTAL_ITERS//3 - display_iters//2):
clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.
loss_config['lr_factor'] = 0.3
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Done.")
elif gen_iterations == (8*TOTAL_ITERS//10 - display_iters//2):
clear_output()
model.decoder_A.load_weights("models/decoder_B.h5") # swap decoders
model.decoder_B.load_weights("models/decoder_A.h5") # swap decoders
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.1
loss_config['lr_factor'] = 0.3
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Done.")
elif gen_iterations == (9*TOTAL_ITERS//10 - display_iters//2):
clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.0
loss_config['lr_factor'] = 0.1
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
print("Done.")
if gen_iterations == 5:
print ("working.")
# Train dicriminators for one batch
data_A = train_batchA.get_next_batch()
data_B = train_batchB.get_next_batch()
errDA, errDB = model.train_one_batch_D(data_A=data_A, data_B=data_B)
errDA_sum +=errDA[0]
errDB_sum +=errDB[0]
# Train generators for one batch
data_A = train_batchA.get_next_batch()
data_B = train_batchB.get_next_batch()
errGA, errGB = model.train_one_batch_G(data_A=data_A, data_B=data_B)
errGA_sum += errGA[0]
errGB_sum += errGB[0]
for i, k in enumerate(['ttl', 'adv', 'recon', 'edge', 'pl']):
errGAs[k] += errGA[i]
errGBs[k] += errGB[i]
gen_iterations+=1
# Visualization
if gen_iterations % display_iters == 0:
clear_output()
# Display loss information
show_loss_config(loss_config)
print("----------")
print('[iter %d] Loss_DA: %f Loss_DB: %f Loss_GA: %f Loss_GB: %f time: %f'
% (gen_iterations, errDA_sum/display_iters, errDB_sum/display_iters,
errGA_sum/display_iters, errGB_sum/display_iters, time.time()-t0))
print("----------")
print("Generator loss details:")
print(f'[Adversarial loss]')
print(f'GA: {errGAs["adv"]/display_iters:.4f} GB: {errGBs["adv"]/display_iters:.4f}')
print(f'[Reconstruction loss]')
print(f'GA: {errGAs["recon"]/display_iters:.4f} GB: {errGBs["recon"]/display_iters:.4f}')
print(f'[Edge loss]')
print(f'GA: {errGAs["edge"]/display_iters:.4f} GB: {errGBs["edge"]/display_iters:.4f}')
if loss_config['use_PL'] == True:
print(f'[Perceptual loss]')
try:
print(f'GA: {errGAs["pl"][0]/display_iters:.4f} GB: {errGBs["pl"][0]/display_iters:.4f}')
except:
print(f'GA: {errGAs["pl"]/display_iters:.4f} GB: {errGBs["pl"]/display_iters:.4f}')
# Display images
print("----------")
wA, tA, _ = train_batchA.get_next_batch()
wB, tB, _ = train_batchB.get_next_batch()
print("Transformed (masked) results:")
showG(tA, tB, model.path_A, model.path_B, batchSize)
print("Masks:")
showG_mask(tA, tB, model.path_mask_A, model.path_mask_B, batchSize)
print("Reconstruction results:")
showG(wA, wB, model.path_bgr_A, model.path_bgr_B, batchSize)
errGA_sum = errGB_sum = errDA_sum = errDB_sum = 0
for k in ['ttl', 'adv', 'recon', 'edge', 'pl']:
errGAs[k] = 0
errGBs[k] = 0
# Save models
model.save_weights(path=models_dir)
# Backup models
if gen_iterations % backup_iters == 0:
bkup_dir = f"{models_dir}/backup_iter{gen_iterations}"
Path(bkup_dir).mkdir(parents=True, exist_ok=True)
model.save_weights(path=bkup_dir)
# Path to saved model weights
models_dir = args.models_dir
Path(models_dir).mkdir(parents=True, exist_ok=True)
samples_dir = args.samples_dir
Path(samples_dir).mkdir(parents=True, exist_ok=True)
batchSize = args.batch_size
display_iters = args.display_iter
backup_iters = args.backup_iter
TOTAL_ITERS = args.total_iter
'''define model'''
model = FaceswapGANModel(**arch_config)
vggface = VGGFace(include_top=False,
model='resnet50',
input_shape=(224, 224, 3))
model.build_pl_model(vggface_model=vggface)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
'''define data_geneator and load images'''
# Get filenames
train_A = glob.glob(img_dirA + "/*.*g")
train_B = glob.glob(img_dirB + "/*.*g")
train_AnB = train_A + train_B
assert len(train_A), "No image found in " + str(img_dirA)
assert len(train_B), "No image found in " + str(img_dirB)
print("Number of images in folder A: " + str(len(train_A)))
print("Number of images in folder B: " + str(len(train_B)))
if da_config['use_bm_eyes']:
assert len(glob.glob(
img_dirA_bm_eyes +
"/*.*g")), "No binary mask found in " + str(img_dirA_bm_eyes)
def train(ITERS):
K.set_learning_phase(1)
#K.set_learning_phase(0) # set to 0 in inference phase
# Number of CPU cores
num_cpus = os.cpu_count()
# Input/Output resolution
RESOLUTION = 64 # 64x64, 128x128, 256x256
assert (RESOLUTION % 64) == 0, "RESOLUTION should be 64, 128, or 256."
# Batch size
# batchSize = 8
batchSize = 4
# Use motion blurs (data augmentation)
# set True if training data contains images extracted from videos
use_da_motion_blur = False
# Use eye-aware training
# require images generated from prep_binary_masks.ipynb
use_bm_eyes = True
#use_bm_eyes = False
# Probability of random color matching (data augmentation)
prob_random_color_match = 0.5
da_config = {
"prob_random_color_match": prob_random_color_match,
"use_da_motion_blur": use_da_motion_blur,
"use_bm_eyes": use_bm_eyes
}
session_config = tf.ConfigProto(log_device_placement=False,
allow_soft_placement=True)
# please do not use the totality of the GPU memory
session_config.gpu_options.per_process_gpu_memory_fraction = 0.90
# Path to training images
img_dirA = './faceA'
img_dirB = './faceB'
#img_dirA_bm_eyes = "./binary_masks/faceA_eyes"
#img_dirB_bm_eyes = "./binary_masks/faceB_eyes"
img_dirA_bm_eyes = "./faceA/binary_masks_eyes"
img_dirB_bm_eyes = "./faceB/binary_masks_eyes"
# Path to saved model weights
models_dir = "./models"
Path(f"models").mkdir(parents=True, exist_ok=True)
# Architecture configuration
arch_config = {}
arch_config['IMAGE_SHAPE'] = (RESOLUTION, RESOLUTION, 3)
arch_config['use_self_attn'] = True
arch_config[
'norm'] = "instancenorm" # instancenorm, batchnorm, layernorm, groupnorm, none
arch_config['model_capacity'] = "standard" # standard, lite
# Loss function weights configuration
loss_weights = {}
loss_weights['w_D'] = 0.1 # Discriminator
loss_weights['w_recon'] = 1. # L1 reconstruction loss
loss_weights['w_edge'] = 0.1 # edge loss
loss_weights['w_eyes'] = 30. # reconstruction and edge loss on eyes area
loss_weights['w_pl'] = (0.01, 0.1, 0.3, 0.1
) # perceptual loss (0.003, 0.03, 0.3, 0.3)
# Init. loss config.
loss_config = {}
loss_config[
"gan_training"] = "mixup_LSGAN" # "mixup_LSGAN" or "relativistic_avg_LSGAN"
loss_config['use_PL'] = False
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.
loss_config['lr_factor'] = 1.
loss_config['use_cyclic_loss'] = False
print('CONFIGURE DONE')
#define models
from networks.faceswap_gan_model import FaceswapGANModel
global model
model = FaceswapGANModel(**arch_config)
print('DEFINE MODELS DONE')
model.load_weights(path=models_dir)
from keras_vggface.vggface import VGGFace
# VGGFace ResNet50
global vggface
vggface = VGGFace(include_top=False,
model='resnet50',
input_shape=(224, 224, 3))
#vggface.summary()
model.build_pl_model(vggface_model=vggface)
model.build_train_functions(loss_weights=loss_weights, **loss_config)
from data_loader.data_loader import DataLoader
# Get filenames
train_A = glob.glob(img_dirA + "/*.*")
train_B = glob.glob(img_dirB + "/*.*")
train_AnB = train_A + train_B
assert len(train_A), "No image found in " + str(img_dirA)
assert len(train_B), "No image found in " + str(img_dirB)
print("Number of images in folder A: " + str(len(train_A)))
print("Number of images in folder B: " + str(len(train_B)))
if use_bm_eyes:
assert len(glob.glob(
img_dirA_bm_eyes +
"/*.*")), "No binary mask found in " + str(img_dirA_bm_eyes)
assert len(glob.glob(
img_dirB_bm_eyes +
"/*.*")), "No binary mask found in " + str(img_dirB_bm_eyes)
assert len(glob.glob(img_dirA_bm_eyes+"/*.*")) == len(train_A), \
"Number of faceA images does not match number of their binary masks. Can be caused by any none image file in the folder."
assert len(glob.glob(img_dirB_bm_eyes+"/*.*")) == len(train_B), \
"Number of faceB images does not match number of their binary masks. Can be caused by any none image file in the folder."
def show_loss_config(loss_config):
for config, value in loss_config.items():
print(f"{config} = {value}")
def reset_session(save_path):
global model, vggface
global train_batchA, train_batchB
model.save_weights(path=save_path)
del model
del vggface
del train_batchA
del train_batchB
K.clear_session()
model = FaceswapGANModel(**arch_config)
model.load_weights(path=save_path)
vggface = VGGFace(include_top=False,
model='resnet50',
input_shape=(224, 224, 3))
model.build_pl_model(vggface_model=vggface)
train_batchA = DataLoader(train_A, train_AnB, batchSize,
img_dirA_bm_eyes, RESOLUTION, num_cpus,
K.get_session(), **da_config)
train_batchB = DataLoader(train_B, train_AnB, batchSize,
img_dirB_bm_eyes, RESOLUTION, num_cpus,
K.get_session(), **da_config)
print('RESET_SESSION DONE')
# Start training
t0 = time.time()
gen_iterations = 0
errGA_sum = errGB_sum = errDA_sum = errDB_sum = 0
errGAs = {}
errGBs = {}
# Dictionaries are ordered in Python 3.6
for k in ['ttl', 'adv', 'recon', 'edge', 'pl']:
errGAs[k] = 0
errGBs[k] = 0
display_iters = 300
backup_iters = 5000
TOTAL_ITERS = ITERS // 1
# TOTAL_ITERS = 10000
global train_batchA, train_batchB
train_batchA = DataLoader(train_A, train_AnB, batchSize,
img_dirA_bm_eyes, RESOLUTION, num_cpus,
K.get_session(), **da_config)
train_batchB = DataLoader(train_B, train_AnB, batchSize,
img_dirB_bm_eyes, RESOLUTION, num_cpus,
K.get_session(), **da_config)
print('DATALOADER DONE')
print("START TRAINING")
while gen_iterations <= TOTAL_ITERS:
print(gen_iterations)
# Loss function automation
if gen_iterations == (TOTAL_ITERS // 5 - display_iters // 2):
#clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.0
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights,
**loss_config)
print("Done.")
elif gen_iterations == (TOTAL_ITERS // 5 + TOTAL_ITERS // 10 -
display_iters // 2):
#clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.5
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights,
**loss_config)
print("Complete.")
elif gen_iterations == (2 * TOTAL_ITERS // 5 - display_iters // 2):
#clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.2
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights,
**loss_config)
print("Done.")
elif gen_iterations == (TOTAL_ITERS // 2 - display_iters // 2):
#clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.4
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights,
**loss_config)
print("Done.")
elif gen_iterations == (2 * TOTAL_ITERS // 3 - display_iters // 2):
#clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.
loss_config['lr_factor'] = 0.3
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights,
**loss_config)
print("Done.")
elif gen_iterations == (8 * TOTAL_ITERS // 10 - display_iters // 2):
#clear_output()
model.decoder_A.load_weights(
"models/decoder_B.h5") # swap decoders
model.decoder_B.load_weights(
"models/decoder_A.h5") # swap decoders
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = True
loss_config['m_mask'] = 0.1
loss_config['lr_factor'] = 0.3
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights,
**loss_config)
print("Done.")
elif gen_iterations == (9 * TOTAL_ITERS // 10 - display_iters // 2):
#clear_output()
loss_config['use_PL'] = True
loss_config['use_mask_hinge_loss'] = False
loss_config['m_mask'] = 0.0
loss_config['lr_factor'] = 0.1
reset_session(models_dir)
print("Building new loss funcitons...")
show_loss_config(loss_config)
model.build_train_functions(loss_weights=loss_weights,
**loss_config)
print("Done.")
# Train dicriminators for one batch
data_A = train_batchA.get_next_batch()
data_B = train_batchB.get_next_batch()
errDA, errDB = model.train_one_batch_D(data_A=data_A, data_B=data_B)
errDA_sum += errDA[0]
errDB_sum += errDB[0]
# Train generators for one batch
data_A = train_batchA.get_next_batch()
data_B = train_batchB.get_next_batch()
errGA, errGB = model.train_one_batch_G(data_A=data_A, data_B=data_B)
errGA_sum += errGA[0]
errGB_sum += errGB[0]
for i, k in enumerate(['ttl', 'adv', 'recon', 'edge', 'pl']):
errGAs[k] += errGA[i]
errGBs[k] += errGB[i]
gen_iterations += 1
# Visualization delete
if gen_iterations % display_iters == 0:
# Save models
model.save_weights(path=models_dir)
# Backup models
if gen_iterations % backup_iters == 0:
bkup_dir = f"{models_dir}/backup_iter{gen_iterations}"
Path(bkup_dir).mkdir(parents=True, exist_ok=True)
model.save_weights(path=bkup_dir)
print('TRAIN DONE')