LIPREAD / train.py

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	import torch
	import torch.nn as nn
	from torch.utils.data import DataLoader
	import os
	from dataset import MyDataset
	import numpy as np
	import time
	from model import LipCoordNet
	import torch.optim as optim
	from tensorboardX import SummaryWriter
	import options as opt
	from tqdm import tqdm


	def dataset2dataloader(dataset, num_workers=opt.num_workers, shuffle=True):
	return DataLoader(
	dataset,
	batch_size=opt.batch_size,
	shuffle=shuffle,
	num_workers=num_workers,
	drop_last=False,
	pin_memory=opt.pin_memory,
	)


	def show_lr(optimizer):
	lr = []
	for param_group in optimizer.param_groups:
	lr += [param_group["lr"]]
	return np.array(lr).mean()


	def ctc_decode(y):
	y = y.argmax(-1)
	return [MyDataset.ctc_arr2txt(y[_], start=1) for _ in range(y.size(0))]


	def test(model, net):
	with torch.no_grad():
	dataset = MyDataset(
	opt.video_path,
	opt.anno_path,
	opt.coords_path,
	opt.val_list,
	opt.vid_padding,
	opt.txt_padding,
	"test",
	)

	print("num_test_data:{}".format(len(dataset.data)))
	model.eval()
	loader = dataset2dataloader(dataset, shuffle=False)
	loss_list = []
	wer = []
	cer = []
	crit = nn.CTCLoss()
	tic = time.time()
	print("RUNNING VALIDATION")
	pbar = tqdm(loader)
	for i_iter, input in enumerate(pbar):
	vid = input.get("vid").cuda(non_blocking=opt.pin_memory)
	txt = input.get("txt").cuda(non_blocking=opt.pin_memory)
	vid_len = input.get("vid_len").cuda(non_blocking=opt.pin_memory)
	txt_len = input.get("txt_len").cuda(non_blocking=opt.pin_memory)
	coord = input.get("coord").cuda(non_blocking=opt.pin_memory)

	y = net(vid, coord)

	loss = (
	crit(
	y.transpose(0, 1).log_softmax(-1),
	txt,
	vid_len.view(-1),
	txt_len.view(-1),
	)
	.detach()
	.cpu()
	.numpy()
	)
	loss_list.append(loss)
	pred_txt = ctc_decode(y)

	truth_txt = [MyDataset.arr2txt(txt[_], start=1) for _ in range(txt.size(0))]
	wer.extend(MyDataset.wer(pred_txt, truth_txt))
	cer.extend(MyDataset.cer(pred_txt, truth_txt))
	if i_iter % opt.display == 0:
	v = 1.0 * (time.time() - tic) / (i_iter + 1)
	eta = v * (len(loader) - i_iter) / 3600.0

	print("".join(101 * "-"))
	print("{:<50}\|{:>50}".format("predict", "truth"))
	print("".join(101 * "-"))
	for predict, truth in list(zip(pred_txt, truth_txt))[:10]:
	print("{:<50}\|{:>50}".format(predict, truth))
	print("".join(101 * "-"))
	print(
	"test_iter={},eta={},wer={},cer={}".format(
	i_iter, eta, np.array(wer).mean(), np.array(cer).mean()
	)
	)
	print("".join(101 * "-"))

	return (np.array(loss_list).mean(), np.array(wer).mean(), np.array(cer).mean())


	def train(model, net):
	dataset = MyDataset(
	opt.video_path,
	opt.anno_path,
	opt.coords_path,
	opt.train_list,
	opt.vid_padding,
	opt.txt_padding,
	"train",
	)

	loader = dataset2dataloader(dataset)
	optimizer = optim.Adam(
	model.parameters(), lr=opt.base_lr, weight_decay=0.0, amsgrad=True
	)

	print("num_train_data:{}".format(len(dataset.data)))
	crit = nn.CTCLoss()
	tic = time.time()

	train_wer = []
	for epoch in range(opt.max_epoch):
	print(f"RUNNING EPOCH {epoch}")
	pbar = tqdm(loader)

	for i_iter, input in enumerate(pbar):
	model.train()
	vid = input.get("vid").cuda(non_blocking=opt.pin_memory)
	txt = input.get("txt").cuda(non_blocking=opt.pin_memory)
	vid_len = input.get("vid_len").cuda(non_blocking=opt.pin_memory)
	txt_len = input.get("txt_len").cuda(non_blocking=opt.pin_memory)
	coord = input.get("coord").cuda(non_blocking=opt.pin_memory)

	optimizer.zero_grad()
	y = net(vid, coord)
	loss = crit(
	y.transpose(0, 1).log_softmax(-1),
	txt,
	vid_len.view(-1),
	txt_len.view(-1),
	)
	loss.backward()

	if opt.is_optimize:
	optimizer.step()

	tot_iter = i_iter + epoch * len(loader)

	pred_txt = ctc_decode(y)

	truth_txt = [MyDataset.arr2txt(txt[_], start=1) for _ in range(txt.size(0))]
	train_wer.extend(MyDataset.wer(pred_txt, truth_txt))

	if tot_iter % opt.display == 0:
	v = 1.0 * (time.time() - tic) / (tot_iter + 1)
	eta = (len(loader) - i_iter) * v / 3600.0

	writer.add_scalar("train loss", loss, tot_iter)
	writer.add_scalar("train wer", np.array(train_wer).mean(), tot_iter)
	print("".join(101 * "-"))
	print("{:<50}\|{:>50}".format("predict", "truth"))
	print("".join(101 * "-"))

	for predict, truth in list(zip(pred_txt, truth_txt))[:3]:
	print("{:<50}\|{:>50}".format(predict, truth))
	print("".join(101 * "-"))
	print(
	"epoch={},tot_iter={},eta={},loss={},train_wer={}".format(
	epoch, tot_iter, eta, loss, np.array(train_wer).mean()
	)
	)
	print("".join(101 * "-"))

	if tot_iter % opt.test_step == 0:
	(loss, wer, cer) = test(model, net)
	print(
	"i_iter={},lr={},loss={},wer={},cer={}".format(
	tot_iter, show_lr(optimizer), loss, wer, cer
	)
	)
	writer.add_scalar("val loss", loss, tot_iter)
	writer.add_scalar("wer", wer, tot_iter)
	writer.add_scalar("cer", cer, tot_iter)
	savename = "{}_loss_{}_wer_{}_cer_{}.pt".format(
	opt.save_prefix, loss, wer, cer
	)
	(path, name) = os.path.split(savename)
	if not os.path.exists(path):
	os.makedirs(path)
	torch.save(model.state_dict(), savename)
	if not opt.is_optimize:
	exit()


	if __name__ == "__main__":
	print("Loading options...")
	os.environ["CUDA_VISIBLE_DEVICES"] = opt.gpu
	writer = SummaryWriter()
	model = LipCoordNet()
	model = model.cuda()
	net = nn.DataParallel(model).cuda()

	if hasattr(opt, "weights"):
	pretrained_dict = torch.load(opt.weights)
	model_dict = model.state_dict()
	pretrained_dict = {
	k: v
	for k, v in pretrained_dict.items()
	if k in model_dict.keys() and v.size() == model_dict[k].size()
	}

	# freeze the pretrained layers
	for k, param in pretrained_dict.items():
	param.requires_grad = False

	missed_params = [
	k for k, v in model_dict.items() if not k in pretrained_dict.keys()
	]
	print(
	"loaded params/tot params:{}/{}".format(
	len(pretrained_dict), len(model_dict)
	)
	)
	print("miss matched params:{}".format(missed_params))
	model_dict.update(pretrained_dict)
	model.load_state_dict(model_dict)

	torch.manual_seed(opt.random_seed)
	torch.cuda.manual_seed_all(opt.random_seed)
	torch.backends.cudnn.benchmark = True

	train(model, net)