def test(cfg: Namespace) -> None:
assert cfg.checkpoint not in [None, ""]
assert cfg.device == "cpu" or (cfg.device == "cuda"
and T.cuda.is_available())
exp_dir = ROOT_EXP_DIR / cfg.exp_name
os.makedirs(exp_dir / "out", exist_ok=True)
cfg.to_file(exp_dir / "test_config.json")
logger.info(f"[exp dir={exp_dir}]")
model = CAE()
model.load_state_dict(T.load(cfg.checkpoint))
model.eval()
if cfg.device == "cuda":
model.cuda()
logger.info(f"[model={cfg.checkpoint}] on {cfg.device}")
dataloader = DataLoader(dataset=ImageFolder720p(cfg.dataset_path),
batch_size=1,
shuffle=cfg.shuffle)
logger.info(f"[dataset={cfg.dataset_path}]")
loss_criterion = nn.MSELoss()
for batch_idx, data in enumerate(dataloader, start=1):
img, patches, _ = data
if cfg.device == "cuda":
patches = patches.cuda()
if batch_idx % cfg.batch_every == 0:
pass
out = T.zeros(6, 10, 3, 128, 128)
avg_loss = 0
for i in range(6):
for j in range(10):
x = patches[:, :, i, j, :, :].cuda()
y = model(x)
out[i, j] = y.data
loss = loss_criterion(y, x)
avg_loss += (1 / 60) * loss.item()
logger.debug("[%5d/%5d] avg_loss: %f", batch_idx, len(dataloader),
avg_loss)
# save output
out = np.transpose(out, (0, 3, 1, 4, 2))
out = np.reshape(out, (768, 1280, 3))
out = np.transpose(out, (2, 0, 1))
y = T.cat((img[0], out), dim=2)
save_imgs(
imgs=y.unsqueeze(0),
to_size=(3, 768, 2 * 1280),
name=exp_dir / f"out/test_{batch_idx}.png",
)
def test(cfg: Namespace) -> None:
assert cfg.checkpoint not in [None, ""]
assert cfg.device == "cpu" or (cfg.device == "cuda"
and T.cuda.is_available())
exp_dir = ROOT_EXP_DIR / cfg.exp_name
os.makedirs(exp_dir / "out", exist_ok=True)
cfg.to_file(exp_dir / "test_config.json")
logger.info(f"[exp dir={exp_dir}]")
model = CAE()
model.load_state_dict(T.load(cfg.checkpoint))
model.eval()
if cfg.device == "cuda":
model.cuda()
logger.info(f"[model={cfg.checkpoint}] on {cfg.device}")
dataloader = DataLoader(dataset=ImageFolder720p(cfg.dataset_path),
batch_size=1,
shuffle=cfg.shuffle)
logger.info(f"[dataset={cfg.dataset_path}]")
loss_criterion = nn.MSELoss()
for batch_idx, data in enumerate(dataloader, start=2):
img, patches, _ = data
print('the patches shape is:', patches.shape)
# print(_)
# plt.imshow(patches[0,:,3,1,:,:].permute(1,2,0))
# # plt.imshow(patches[0].permute(1,2,0))
# plt.show()
if cfg.device == "cuda":
patches = patches.cuda()
if batch_idx % cfg.batch_every == 0:
pass
out = T.zeros(6, 10, 3, 128, 128)
avg_loss = 0
foo = []
for i in range(6):
for j in range(10):
x = patches[:, :, i, j, :, :].cuda()
print('the x shape is:', x.shape)
y = model(x)
print('hellyy', y.shape)
def train(cfg: Namespace) -> None:
print(cfg.device)
assert cfg.device == 'cpu' or (cfg.device == 'cuda'
and T.cuda.is_available())
logger.info('training: experiment %s' % (cfg.exp_name))
# make dir-tree
exp_dir = ROOT_DIR / 'experiments' / cfg.exp_name
for d in ['out', 'checkpoint', 'logs']:
os.makedirs(exp_dir / d, exist_ok=True)
cfg.to_file(exp_dir / 'train_config.txt')
# tb writer
writer = SummaryWriter(exp_dir / 'logs')
model = CAE()
model.train()
if cfg.device == 'cuda':
model.cuda()
logger.info(f'loaded model on {cfg.device}')
dataset = ImageFolder720p(cfg.dataset_path)
dataloader = DataLoader(dataset,
batch_size=cfg.batch_size,
shuffle=cfg.shuffle,
num_workers=cfg.num_workers)
logger.info('loaded dataset')
optimizer = optim.Adam(model.parameters(),
lr=cfg.learning_rate,
weight_decay=1e-5)
loss_criterion = nn.MSELoss()
avg_loss, epoch_avg = 0.0, 0.0
ts = 0
# EPOCHS
for epoch_idx in range(cfg.start_epoch, cfg.num_epochs + 1):
# BATCHES
for batch_idx, data in enumerate(dataloader, start=1):
img, patches, _ = data
if cfg.device == 'cuda':
patches = patches.cuda()
avg_loss_per_image = 0.0
for i in range(6):
for j in range(10):
optimizer.zero_grad()
x = patches[:, :, i, j, :, :]
y = model(x)
loss = loss_criterion(y, x)
avg_loss_per_image += (1 / 60) * loss.item()
loss.backward()
optimizer.step()
avg_loss += avg_loss_per_image
epoch_avg += avg_loss_per_image
if batch_idx % cfg.batch_every == 0:
writer.add_scalar('train/avg_loss', avg_loss / cfg.batch_every,
ts)
for name, param in model.named_parameters():
writer.add_histogram(name, param, ts)
logger.debug('[%3d/%3d][%5d/%5d] avg_loss: %.8f' %
(epoch_idx, cfg.num_epochs, batch_idx,
len(dataloader), avg_loss / cfg.batch_every))
avg_loss = 0.0
ts += 1
# -- end batch every
if batch_idx % cfg.save_every == 0:
out = T.zeros(6, 10, 3, 128, 128)
for i in range(6):
for j in range(10):
x = patches[0, :, i, j, :, :].unsqueeze(0).cuda()
out[i, j] = model(x).cpu().data
out = np.transpose(out, (0, 3, 1, 4, 2))
out = np.reshape(out, (768, 1280, 3))
out = np.transpose(out, (2, 0, 1))
y = T.cat((img[0], out), dim=2).unsqueeze(0)
save_imgs(imgs=y,
to_size=(3, 768, 2 * 1280),
name=exp_dir / f'out/{epoch_idx}_{batch_idx}.png')
# -- end save every
# -- end batches
if epoch_idx % cfg.epoch_every == 0:
epoch_avg /= (len(dataloader) * cfg.epoch_every)
writer.add_scalar('train/epoch_avg_loss',
avg_loss / cfg.batch_every,
epoch_idx // cfg.epoch_every)
logger.info('Epoch avg = %.8f' % epoch_avg)
epoch_avg = 0.0
T.save(model.state_dict(),
exp_dir / f'checkpoint/model_{epoch_idx}.state')
# -- end epoch every
# -- end epoch
# save final model
T.save(model.state_dict(), exp_dir / 'model_final.state')
# cleaning
writer.close()
def train(cfg: Namespace) -> None:
assert cfg.device == "cpu" or (cfg.device == "cuda"
and T.cuda.is_available())
root_dir = Path(__file__).resolve().parents[1]
logger.info("training: experiment %s" % (cfg.exp_name))
# make dir-tree
exp_dir = root_dir / "experiments" / cfg.exp_name
for d in ["out", "checkpoint", "logs"]:
os.makedirs(exp_dir / d, exist_ok=True)
cfg.to_file(exp_dir / "train_config.json")
# tb tb_writer
tb_writer = SummaryWriter(exp_dir / "logs")
logger.info("started tensorboard writer")
model = CAE()
model.train()
if cfg.device == "cuda":
model.cuda()
logger.info(f"loaded model on {cfg.device}")
dataloader = DataLoader(
dataset=ImageFolder720p(cfg.dataset_path),
batch_size=cfg.batch_size,
shuffle=cfg.shuffle,
num_workers=cfg.num_workers,
)
logger.info(f"loaded dataset from {cfg.dataset_path}")
optimizer = optim.Adam(model.parameters(),
lr=cfg.learning_rate,
weight_decay=1e-5)
loss_criterion = nn.MSELoss()
avg_loss, epoch_avg = 0.0, 0.0
ts = 0
# EPOCHS
for epoch_idx in range(cfg.start_epoch, cfg.num_epochs + 1):
# BATCHES
for batch_idx, data in enumerate(dataloader, start=1):
img, patches, _ = data
if cfg.device == "cuda":
patches = patches.cuda()
avg_loss_per_image = 0.0
for i in range(6):
for j in range(10):
optimizer.zero_grad()
x = patches[:, :, i, j, :, :]
y = model(x)
loss = loss_criterion(y, x)
avg_loss_per_image += (1 / 60) * loss.item()
loss.backward()
optimizer.step()
avg_loss += avg_loss_per_image
epoch_avg += avg_loss_per_image
if batch_idx % cfg.batch_every == 0:
tb_writer.add_scalar("train/avg_loss",
avg_loss / cfg.batch_every, ts)
for name, param in model.named_parameters():
tb_writer.add_histogram(name, param, ts)
logger.debug("[%3d/%3d][%5d/%5d] avg_loss: %.8f" % (
epoch_idx,
cfg.num_epochs,
batch_idx,
len(dataloader),
avg_loss / cfg.batch_every,
))
avg_loss = 0.0
ts += 1
# -- end batch every
if batch_idx % cfg.save_every == 0:
out = T.zeros(6, 10, 3, 128, 128)
for i in range(6):
for j in range(10):
x = patches[0, :, i, j, :, :].unsqueeze(0).cuda()
out[i, j] = model(x).cpu().data
out = np.transpose(out, (0, 3, 1, 4, 2))
out = np.reshape(out, (768, 1280, 3))
out = np.transpose(out, (2, 0, 1))
y = T.cat((img[0], out), dim=2).unsqueeze(0)
save_imgs(
imgs=y,
to_size=(3, 768, 2 * 1280),
name=exp_dir / f"out/{epoch_idx}_{batch_idx}.png",
)
# -- end save every
# -- end batches
if epoch_idx % cfg.epoch_every == 0:
epoch_avg /= len(dataloader) * cfg.epoch_every
tb_writer.add_scalar(
"train/epoch_avg_loss",
avg_loss / cfg.batch_every,
epoch_idx // cfg.epoch_every,
)
logger.info("Epoch avg = %.8f" % epoch_avg)
epoch_avg = 0.0
T.save(model.state_dict(),
exp_dir / f"checkpoint/model_{epoch_idx}.pth")
# -- end epoch every
# -- end epoch
# save final model
T.save(model.state_dict(), exp_dir / "model_final.pth")
# cleaning
tb_writer.close()
os.makedirs(exp_dir,exist_ok=True)
dataset = custom_single()
dataloader = DataLoader(
dataset=dataset,
batch_size=16,
shuffle=False,
num_workers=4,
)
model = CAE()
model.eval()
state_dict = torch.load(path)
model.load_state_dict(state_dict)
model = model.cuda()
# for batch_idx, data in enumerate(dataloader, start=1):
# patches, _ = data
# patches = patches.float().cuda()
# break
# out = T.zeros(33, 32, 3, 128, 128)
# all_patches = dataset.patches
# all_patches = all_patches.reshape(33,32,3,128,128)
# for i in range(33):
# for j in range(32):
# x = all_patches[i,j,...].unsqueeze(0).cuda().float()
# out[i, j] = model(x.float()).cpu().data