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train_on_real_data.py
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train_on_real_data.py
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# Copyright (c) Meta Platforms, Inc. and affiliates.
# All rights reserved.
# This source code is licensed under the license found in the
# LICENSE file in the root directory of this source tree.
import os
import random
import torch
import signal
import socket
import sys
import json
import numpy as np
import argparse
import logging
from pathlib import Path
from tqdm import tqdm
import torch.optim as optim
import torchvision
from torch.utils.data import DataLoader
from torch.cuda.amp import GradScaler
from pytorch_lightning.lite import LightningLite
from cotracker.models.bootstap_predictor import TAPIRPredictor
from cotracker.models.core.cotracker.cotracker import CoTracker2
from cotracker.models.core.cotracker.cotracker3_offline import CoTrackerThreeOffline
from cotracker.models.core.cotracker.cotracker3_online import CoTrackerThreeOnline
from cotracker.utils.visualizer import Visualizer
from cotracker.evaluation.core.evaluator import Evaluator
from cotracker.datasets.utils import collate_fn, collate_fn_train, dataclass_to_cuda_
from cotracker.models.core.model_utils import (
get_uniformly_sampled_pts,
get_points_on_a_grid,
get_sift_sampled_pts,
get_superpoint_sampled_pts,
)
from cotracker.models.core.cotracker.losses import sequence_loss
from cotracker.models.build_cotracker import build_cotracker
from cotracker.utils.train_utils import (
Logger,
get_eval_dataloader,
sig_handler,
term_handler,
run_test_eval,
)
def fetch_optimizer(args, model):
"""Create the optimizer and learning rate scheduler"""
total_params = sum(p.numel() for p in model.parameters() if p.requires_grad)
print(f"Total number of parameters: {total_params}")
for name, param in model.named_parameters():
if "vis_conf_head" in name:
param.requires_grad = False
optimizer = optim.AdamW(
model.parameters(), lr=args.lr, weight_decay=args.wdecay, eps=1e-8
)
scheduler = optim.lr_scheduler.OneCycleLR(
optimizer,
args.lr,
args.num_steps + 100,
pct_start=0.0,
cycle_momentum=False,
anneal_strategy="cos",
)
return optimizer, scheduler
def forward_batch(batch, model, args, teacher_models):
video = batch.video
trajs_g = batch.trajectory
vis_g = batch.visibility
valids = batch.valid
B, T, C, H, W = video.shape
assert C == 3
B, T, N, D = trajs_g.shape
device = video.device
failed_sample = False
if args.real_data_filter_sift:
queries = get_sift_sampled_pts(video, N, T, [H, W], device=device)
if queries.shape[1] < N:
logging.warning(
f"SIFT wasn't able to extract enough features: {queries.shape[1]}"
)
failed_sample = True
queries = get_uniformly_sampled_pts(N, T, [H, W], device=device)
elif args.real_data_filter_superpoint:
queries = get_superpoint_sampled_pts(video, N, T, [H, W], device=device)
if queries.shape[1] < N:
logging.warning("SuperPoint wasn't able to extract enough features")
failed_sample = True
queries = get_uniformly_sampled_pts(N, T, [H, W], device=device)
else:
queries = get_uniformly_sampled_pts(N, T, [H, W], device=device)
# Inference with additional points sampled on a regular grid usually makes predictions better.
# So we sample these points and discard them thereafter
teacher_model_ind = random.choice(range(len(teacher_models)))
teacher_model_type, teacher_model = teacher_models[teacher_model_ind]
uniform_size = grid_size = sift_size = 0
queries_cat = queries.clone()
if "online" in teacher_model_type:
grid_size = args.train_grid_size
sift_size = args.train_sift_size
if grid_size > 0:
xy = get_points_on_a_grid(grid_size, [H, W], device=device)
xy = torch.cat([torch.zeros_like(xy[:, :, :1]), xy], dim=2) #
queries_cat = torch.cat([queries_cat, xy], dim=1) #
if sift_size > 0:
xy = get_sift_sampled_pts(video, sift_size, T, [H, W], device=device)
if xy.shape[1] == sift_size:
queries_cat = torch.cat([queries_cat, xy], dim=1) #
else:
sift_size = 0
elif "offline" in teacher_model_type:
uniform_size = 100
if uniform_size > 0:
xy = get_uniformly_sampled_pts(uniform_size, T, [H, W], device=device)
queries_cat = torch.cat([queries_cat, xy], dim=1) #
elif teacher_model_type == "tapir":
pass
else:
raise ValueError(f"Model type {teacher_model_type} doesn't exist")
if "cotracker_three" in teacher_model_type:
with torch.no_grad():
(
trajs_g,
vis_g,
confidence,
__,
) = teacher_model(video, queries_cat)
else:
with torch.no_grad():
trajs_g, vis_g, *_ = teacher_model(video, queries_cat)
confidence = torch.ones_like(vis_g)
# discarding additional points
if sift_size > 0 or grid_size > 0 or uniform_size > 0:
trajs_g = trajs_g[:, :, : -(grid_size**2) - sift_size - uniform_size]
vis_g = vis_g[:, :, : -(grid_size**2) - sift_size - uniform_size]
confidence = confidence[:, :, : -(grid_size**2) - sift_size - uniform_size]
vis_g = vis_g > 0.9
batch.trajectory = trajs_g
batch.visibility = vis_g
if args.model_name == "cotracker_three":
if (
torch.isnan(queries).any()
or torch.isnan(trajs_g).any()
or queries.abs().max() > 1500
):
logging.warning("failed_sample")
queries = torch.ones_like(queries).to(queries.device).float()
valids = torch.zeros_like(valids).to(valids.device).float()
tracks, visibility, confidence, train_data = model(
video=video, queries=queries, iters=args.train_iters, is_train=True
)
coord_predictions, vis_predictions, confidence_predicitons, valid_mask = (
train_data
)
if failed_sample:
valid_mask = torch.zeros_like(vis_g)
logging.warning("Making mask zero for failed sample")
vis_gts = []
invis_gts = []
traj_gts = []
valids_gts = []
if args.offline_model:
S = T
seq_len = (S // 2) + 1
else:
S = args.sliding_window_len
seq_len = T
for ind in range(0, seq_len - S // 2, S // 2):
vis_gts.append(vis_g[:, ind : ind + S].float())
invis_gts.append(1 - vis_g[:, ind : ind + S].float())
traj_gts.append(trajs_g[:, ind : ind + S, :, :2])
valids_gts.append(valids[:, ind : ind + S] * valid_mask[:, ind : ind + S])
seq_loss = sequence_loss(
coord_predictions,
traj_gts,
valids_gts,
vis=vis_gts,
gamma=0.8,
add_huber_loss=True,
loss_only_for_visible=True,
)
output = {
"flow": {"predictions": (tracks[0].detach() * valid_mask[..., None])[0]}
}
output["flow"]["loss"] = seq_loss.mean() * 0.05
output["flow"]["queries"] = queries.clone()
output["flow"]["query_frame"] = queries[0, :, 0].cpu().int()
output["visibility"] = {
"predictions": visibility[0].detach(),
}
if not (teacher_model_type == "tapir" or args.train_only_visible_points):
seq_loss_invisible = sequence_loss(
coord_predictions,
traj_gts,
valids_gts,
vis=invis_gts,
gamma=0.8,
add_huber_loss=False,
loss_only_for_visible=True,
)
output["flow_invisible"] = {"loss": seq_loss_invisible.mean() * 0.01}
return output
else:
predictions, visibility, train_data = model(
video=video, queries=queries, iters=args.train_iters, is_train=True
)
coord_predictions, vis_predictions, valid_mask = train_data
if failed_sample:
valid_mask = torch.zeros_like(valid_mask)
logging.warning("Making mask zero for failed sample")
vis_gts = []
traj_gts = []
valids_gts = []
delta = 6
S = args.sliding_window_len
pred_ind = 0
for ind in range(0, args.sequence_len - S // 2, S // 2):
vis_gts.append(vis_g[:, ind : ind + S])
traj_gts.append(trajs_g[:, ind : ind + S])
if (
teacher_model_type == "tapir"
or teacher_model_type == "online_cotracker_three"
or args.train_only_visible_points
):
valids_gts.append(
valids[:, ind : ind + S]
* valid_mask[:, ind : ind + S]
* vis_g[:, ind : ind + S]
> 0.9
)
else:
valids_gts.append(
valids[:, ind : ind + S] * valid_mask[:, ind : ind + S]
)
pred_ind += 1
seq_loss = sequence_loss(
coord_predictions,
traj_gts,
vis_gts,
valids_gts,
gamma=0.8,
loss_only_for_visible_pts=False,
)
batch.trajectory = batch.trajectory * valid_mask[..., None]
output = {"flow": {}}
output["flow"]["predictions"] = (predictions.detach() * valid_mask[..., None])[
0
]
output["flow"]["loss"] = seq_loss.mean()
output["flow"]["query_frame"] = queries[0, :, 0].cpu().int()
output["visibility"] = {
"predictions": visibility[0].detach(),
}
return output
class Lite(LightningLite):
def run(self, args):
def seed_everything(seed: int):
random.seed(seed)
os.environ["PYTHONHASHSEED"] = str(seed)
np.random.seed(seed)
torch.manual_seed(seed)
torch.cuda.manual_seed(seed)
torch.backends.cudnn.deterministic = True
torch.backends.cudnn.benchmark = False
seed_everything(0)
def seed_worker(worker_id):
worker_seed = torch.initial_seed() % 2**32
np.random.seed(worker_seed)
random.seed(worker_seed)
g = torch.Generator()
g.manual_seed(0)
if self.global_rank == 0:
eval_dataloaders = []
for ds_name in args.eval_datasets:
eval_dataloaders.append(
(ds_name, get_eval_dataloader(args.dataset_root, ds_name))
)
if not args.debug:
final_dataloaders = [dl for dl in eval_dataloaders]
ds_name = "tapvid_kinetics_first"
final_dataloaders.append(
(ds_name, get_eval_dataloader(args.dataset_root, ds_name))
)
ds_name = "tapvid_robotap"
final_dataloaders.append(
(ds_name, get_eval_dataloader(args.dataset_root, ds_name))
)
ds_name = "dynamic_replica"
final_dataloaders.append(
(ds_name, get_eval_dataloader(args.dataset_root, ds_name))
)
evaluator = Evaluator(args.ckpt_path)
visualizer = Visualizer(
save_dir=args.ckpt_path,
pad_value=180,
fps=1,
show_first_frame=0,
tracks_leave_trace=0,
)
if args.model_name == "cotracker":
model = CoTracker2(
stride=args.model_stride,
window_len=args.sliding_window_len,
num_virtual_tracks=args.num_virtual_tracks,
model_resolution=args.crop_size,
)
elif args.model_name == "cotracker_three":
if args.offline_model:
model = CoTrackerThreeOffline(
stride=4,
corr_radius=3,
window_len=60,
model_resolution=(384, 512),
linear_layer_for_vis_conf=True,
)
else:
model = CoTrackerThreeOnline(
stride=4,
corr_radius=3,
window_len=16,
model_resolution=(384, 512),
linear_layer_for_vis_conf=True,
)
else:
raise ValueError(f"Model {args.model_name} doesn't exist")
with open(args.ckpt_path + "/meta.json", "w") as file:
json.dump(vars(args), file, sort_keys=True, indent=4)
model.cuda()
teacher_models = []
from cotracker.datasets import real_dataset
train_dataset = real_dataset.RealDataset(
crop_size=args.crop_size,
seq_len=args.sequence_len,
traj_per_sample=args.traj_per_sample,
random_frame_rate=args.random_frame_rate,
random_seq_len=args.offline_model,
data_splits=args.real_data_splits,
random_resize=False,
limit_samples=args.limit_samples,
)
if args.model_name == "cotracker":
teacher_model_online = (
build_cotracker(
window_len=args.sliding_window_len, checkpoint=args.restore_ckpt
)
.cuda()
.eval()
)
teacher_models.append(("online", teacher_model_online))
elif args.model_name == "cotracker_three":
teacher_model_online = (
build_cotracker(
window_len=16,
offline=False,
checkpoint="./checkpoints/cotracker2v1.pth",
v2=True,
)
.cuda()
.eval()
)
teacher_models.append(("online", teacher_model_online))
else:
raise ValueError(f"Model {args.model_name} doesn't exist")
online_checkpoint = "./checkpoints/baseline_online.pth"
if args.model_name == "cotracker_three" and not args.offline_model:
online_checkpoint = args.restore_ckpt
print("online_checkpoint", online_checkpoint)
teacher_model_online_cot_three = (
build_cotracker(checkpoint=online_checkpoint, offline=False, window_len=16)
.cuda()
.eval()
)
teacher_models.append(
("online_cotracker_three", teacher_model_online_cot_three)
)
offline_checkpoint = "./checkpoints/baseline_offline.pth"
if args.model_name == "cotracker_three" and args.offline_model:
offline_checkpoint = args.restore_ckpt
teacher_model_offline_cot_three = (
build_cotracker(checkpoint=offline_checkpoint, offline=True, window_len=60)
.cuda()
.eval()
)
teacher_models.append(
("offline_cotracker_three", teacher_model_offline_cot_three)
)
teacher_model_tapir = TAPIRPredictor()
teacher_models.append(("tapir", teacher_model_tapir))
train_loader = DataLoader(
train_dataset,
batch_size=args.batch_size,
shuffle=True,
num_workers=args.num_workers,
worker_init_fn=seed_worker,
generator=g,
pin_memory=True,
collate_fn=collate_fn_train,
drop_last=True,
)
train_loader = self.setup_dataloaders(train_loader, move_to_device=False)
print("LEN TRAIN LOADER", len(train_loader))
optimizer, scheduler = fetch_optimizer(args, model)
total_steps = 0
if self.global_rank == 0:
logger = Logger(model, scheduler, args.ckpt_path)
folder_ckpts = [
f
for f in os.listdir(args.ckpt_path)
if not os.path.isdir(f) and f.endswith(".pth") and not "final" in f
]
if len(folder_ckpts) > 0:
ckpt_path = sorted(folder_ckpts)[-1]
ckpt = self.load(os.path.join(args.ckpt_path, ckpt_path))
logging.info(f"Loading checkpoint {ckpt_path}")
if "model" in ckpt:
model.load_state_dict(ckpt["model"])
else:
model.load_state_dict(ckpt)
if "optimizer" in ckpt:
logging.info("Load optimizer")
optimizer.load_state_dict(ckpt["optimizer"])
if "scheduler" in ckpt:
logging.info("Load scheduler")
scheduler.load_state_dict(ckpt["scheduler"])
if "total_steps" in ckpt:
total_steps = ckpt["total_steps"]
logging.info(f"Load total_steps {total_steps}")
elif args.restore_ckpt is not None:
assert args.restore_ckpt.endswith(".pth") or args.restore_ckpt.endswith(
".pt"
)
logging.info("Loading checkpoint...")
state_dict = self.load(args.restore_ckpt)
if "model" in state_dict:
state_dict = state_dict["model"]
if list(state_dict.keys())[0].startswith("module."):
state_dict = {
k.replace("module.", ""): v for k, v in state_dict.items()
}
model.load_state_dict(state_dict, strict=True)
logging.info(f"Done loading checkpoint")
model, optimizer = self.setup(model, optimizer, move_to_device=False)
# model.cuda()
model.train()
save_freq = args.save_freq
scaler = GradScaler(enabled=False)
should_keep_training = True
global_batch_num = 0
epoch = -1
if self.global_rank == 0 and args.validate_at_start:
run_test_eval(
evaluator,
model,
eval_dataloaders,
logger.writer,
total_steps,
)
model.train()
torch.cuda.empty_cache()
while should_keep_training:
epoch += 1
for i_batch, batch in enumerate(tqdm(train_loader)):
batch, gotit = batch
if not all(gotit):
print("batch is None")
continue
dataclass_to_cuda_(batch)
optimizer.zero_grad()
assert model.training
output = forward_batch(
batch, model, args, teacher_models=teacher_models
)
loss = 0
for k, v in output.items():
if "loss" in v:
loss += v["loss"]
if self.global_rank == 0:
for k, v in output.items():
if "loss" in v:
logger.writer.add_scalar(
f"live_{k}_loss", v["loss"].item(), total_steps
)
if "metrics" in v:
logger.push(v["metrics"], k)
if total_steps % save_freq == save_freq - 1:
visualizer.visualize(
video=batch.video.clone(),
tracks=batch.trajectory.clone(),
visibility=batch.visibility.clone(),
filename="train_gt_traj",
query_frame=output["flow"]["query_frame"],
writer=logger.writer,
step=total_steps,
)
visualizer.visualize(
video=batch.video.clone(),
tracks=output["flow"]["predictions"][None],
visibility=output["visibility"]["predictions"][None] > 0.6,
filename="train_pred_traj",
query_frame=output["flow"]["query_frame"],
writer=logger.writer,
step=total_steps,
)
if len(output) > 1:
logger.writer.add_scalar(
f"live_total_loss", loss.item(), total_steps
)
logger.writer.add_scalar(
f"learning_rate", optimizer.param_groups[0]["lr"], total_steps
)
global_batch_num += 1
self.barrier()
self.backward(scaler.scale(loss))
scaler.unscale_(optimizer)
torch.nn.utils.clip_grad_norm_(model.parameters(), 10.0)
scaler.step(optimizer)
scheduler.step()
scaler.update()
total_steps += 1
if self.global_rank == 0:
if i_batch >= len(train_loader) - 1:
if (epoch + 1) % args.save_every_n_epoch == 0:
ckpt_iter = "0" * (6 - len(str(total_steps))) + str(
total_steps
)
save_path = Path(
f"{args.ckpt_path}/model_{args.model_name}_{ckpt_iter}.pth"
)
save_dict = {
"model": model.module.module.state_dict(),
"optimizer": optimizer.state_dict(),
"scheduler": scheduler.state_dict(),
"total_steps": total_steps,
}
logging.info(f"Saving file {save_path}")
self.save(save_dict, save_path)
if (epoch + 1) % args.evaluate_every_n_epoch == 0:
run_test_eval(
evaluator,
model,
eval_dataloaders,
logger.writer,
total_steps,
)
model.train()
torch.cuda.empty_cache()
self.barrier()
if total_steps > args.num_steps:
should_keep_training = False
break
if self.global_rank == 0:
print("FINISHED TRAINING")
PATH = f"{args.ckpt_path}/{args.model_name}_final.pth"
torch.save(model.module.module.state_dict(), PATH)
run_test_eval(
evaluator, model, final_dataloaders, logger.writer, total_steps
)
logger.close()
if __name__ == "__main__":
signal.signal(signal.SIGUSR1, sig_handler)
signal.signal(signal.SIGTERM, term_handler)
parser = argparse.ArgumentParser()
parser.add_argument("--model_name", default="cotracker_three", help="model name")
parser.add_argument("--restore_ckpt", help="path to restore a checkpoint")
parser.add_argument("--ckpt_path", help="path to save checkpoints")
parser.add_argument(
"--batch_size", type=int, default=4, help="batch size used during training."
)
parser.add_argument("--num_nodes", type=int, default=1)
parser.add_argument(
"--num_workers", type=int, default=10, help="number of dataloader workers"
)
parser.add_argument(
"--mixed_precision", action="store_true", help="use mixed precision"
)
parser.add_argument("--lr", type=float, default=0.0005, help="max learning rate.")
parser.add_argument(
"--wdecay", type=float, default=0.00001, help="Weight decay in optimizer."
)
parser.add_argument(
"--num_steps", type=int, default=200000, help="length of training schedule."
)
parser.add_argument(
"--evaluate_every_n_epoch",
type=int,
default=1,
help="evaluate during training after every n epochs, after every epoch by default",
)
parser.add_argument(
"--save_every_n_epoch",
type=int,
default=1,
help="save checkpoints during training after every n epochs, after every epoch by default",
)
parser.add_argument(
"--validate_at_start",
action="store_true",
help="whether to run evaluation before training starts",
)
parser.add_argument(
"--save_freq",
type=int,
default=100,
help="frequency of trajectory visualization during training",
)
parser.add_argument(
"--traj_per_sample",
type=int,
default=768,
help="the number of trajectories to sample for training",
)
parser.add_argument(
"--dataset_root", type=str, help="path lo all the datasets (train and eval)"
)
parser.add_argument(
"--train_iters",
type=int,
default=4,
help="number of updates to the disparity field in each forward pass.",
)
parser.add_argument(
"--sequence_len", type=int, default=8, help="train sequence length"
)
parser.add_argument(
"--eval_datasets",
nargs="+",
default=["tapvid_davis_first"],
help="what datasets to use for evaluation",
)
parser.add_argument(
"--num_virtual_tracks",
type=int,
default=None,
help="stride of the CoTracker feature network",
)
parser.add_argument(
"--dont_use_augs",
action="store_true",
help="don't apply augmentations during training",
)
parser.add_argument(
"--sample_vis_1st_frame",
action="store_true",
help="only sample trajectories with points visible on the first frame",
)
parser.add_argument(
"--sliding_window_len",
type=int,
default=8,
help="length of the CoTracker sliding window",
)
parser.add_argument(
"--model_stride",
type=int,
default=8,
help="stride of the CoTracker feature network",
)
parser.add_argument(
"--crop_size",
type=int,
nargs="+",
default=[384, 512],
help="crop videos to this resolution during training",
)
parser.add_argument(
"--eval_max_seq_len",
type=int,
default=1000,
help="maximum length of evaluation videos",
)
parser.add_argument(
"--debug",
action="store_true",
help="saves launch time for faster debug",
)
parser.add_argument(
"--random_frame_rate",
action="store_true",
help="random_frame_rate",
)
parser.add_argument(
"--real_data_splits",
type=int,
nargs="+",
default=[0],
help="real data folders",
)
parser.add_argument(
"--loss_only_for_visible_pts",
action="store_true",
help="compute sequence loss only for visible points",
)
parser.add_argument(
"--real_data_filter_sift",
action="store_true",
help="select point to track based on SIFT features",
)
parser.add_argument(
"--train_grid_size",
type=int,
default=5,
help="number of extra regular grid points that we sample at training. This number will be squared",
)
parser.add_argument(
"--train_sift_size",
type=int,
default=0,
help="number of extra SIFT points that we sample at training.",
)
parser.add_argument(
"--real_data_filter_superpoint",
action="store_true",
help="select point to track based on SuperPoint features",
)
parser.add_argument(
"--train_only_visible_points",
action="store_true",
help="Loss only for visible points",
)
parser.add_argument(
"--offline_model",
action="store_true",
help="training the offline model",
)
parser.add_argument(
"--clean_kubric",
action="store_true",
help="filtering out bad tracks in Kubric",
)
parser.add_argument(
"--random_number_traj",
action="store_true",
help="when training on Kubric, sampling a random number \
of tracks between 1 and args.traj_per_sample",
)
parser.add_argument(
"--random_seq_len",
action="store_true",
help="when training on Kubric, cropping the sequence \
to have a length between 10 and args.sequence_len frames",
)
parser.add_argument(
"--uniform_query_sampling_method",
action="store_true",
help="Whether to sample points uniformly across time. Kubric training only",
)
parser.add_argument(
"--limit_samples", type=int, default=10000, help="limit samples on real data"
)
args = parser.parse_args()
logging.basicConfig(
level=logging.INFO,
format="%(asctime)s %(levelname)-8s [%(filename)s:%(lineno)d] %(message)s",
)
Path(args.ckpt_path).mkdir(exist_ok=True, parents=True)
from pytorch_lightning.strategies import DDPStrategy
Lite(
strategy=DDPStrategy(find_unused_parameters=False),
devices="auto",
accelerator="gpu",
precision="bf16" if args.mixed_precision else 32,
num_nodes=args.num_nodes,
# precision=32,
).run(args)