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utils.py
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utils.py
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# --------------------------------------------------------
# BEIT: BERT Pre-Training of Image Transformers (https://arxiv.org/abs/2106.08254)
# Github source: https://github.com/microsoft/unilm/tree/master/beit
# Copyright (c) 2021 Microsoft
# Licensed under The MIT License [see LICENSE for details]
# By Hangbo Bao
# Based on timm, DINO and DeiT code bases
# https://github.com/rwightman/pytorch-image-models/tree/master/timm
# https://github.com/facebookresearch/deit
# https://github.com/facebookresearch/dino
# --------------------------------------------------------'
import io
import os
import math
import time
import json
from collections import defaultdict, deque
import datetime
import numpy as np
from timm.utils import get_state_dict
from pathlib import Path
import torch
import torch.distributed as dist
from torch._six import inf
from modeling_discrete_vae import Dalle_VAE, DiscreteVAE, VQ_GAN
from tensorboardX import SummaryWriter
class SmoothedValue(object):
"""Track a series of values and provide access to smoothed values over a
window or the global series average.
"""
def __init__(self, window_size=20, fmt=None):
if fmt is None:
fmt = "{median:.4f} ({global_avg:.4f})"
self.deque = deque(maxlen=window_size)
self.total = 0.0
self.count = 0
self.fmt = fmt
def update(self, value, n=1):
self.deque.append(value)
self.count += n
self.total += value * n
def synchronize_between_processes(self):
"""
Warning: does not synchronize the deque!
"""
if not is_dist_avail_and_initialized():
return
t = torch.tensor([self.count, self.total], dtype=torch.float64, device='cuda')
dist.barrier()
dist.all_reduce(t)
t = t.tolist()
self.count = int(t[0])
self.total = t[1]
@property
def median(self):
d = torch.tensor(list(self.deque))
return d.median().item()
@property
def avg(self):
d = torch.tensor(list(self.deque), dtype=torch.float32)
return d.mean().item()
@property
def global_avg(self):
return self.total / self.count
@property
def max(self):
return max(self.deque)
@property
def value(self):
return self.deque[-1]
def __str__(self):
return self.fmt.format(
median=self.median,
avg=self.avg,
global_avg=self.global_avg,
max=self.max,
value=self.value)
class MetricLogger(object):
def __init__(self, delimiter="\t"):
self.meters = defaultdict(SmoothedValue)
self.delimiter = delimiter
def update(self, **kwargs):
for k, v in kwargs.items():
if v is None:
continue
if isinstance(v, torch.Tensor):
v = v.item()
assert isinstance(v, (float, int))
self.meters[k].update(v)
def __getattr__(self, attr):
if attr in self.meters:
return self.meters[attr]
if attr in self.__dict__:
return self.__dict__[attr]
raise AttributeError("'{}' object has no attribute '{}'".format(
type(self).__name__, attr))
def __str__(self):
loss_str = []
for name, meter in self.meters.items():
loss_str.append(
"{}: {}".format(name, str(meter))
)
return self.delimiter.join(loss_str)
def synchronize_between_processes(self):
for meter in self.meters.values():
meter.synchronize_between_processes()
def add_meter(self, name, meter):
self.meters[name] = meter
def log_every(self, iterable, print_freq, header=None):
i = 0
if not header:
header = ''
start_time = time.time()
end = time.time()
iter_time = SmoothedValue(fmt='{avg:.4f}')
data_time = SmoothedValue(fmt='{avg:.4f}')
space_fmt = ':' + str(len(str(len(iterable)))) + 'd'
log_msg = [
header,
'[{0' + space_fmt + '}/{1}]',
'eta: {eta}',
'{meters}',
'time: {time}',
'data: {data}'
]
if torch.cuda.is_available():
log_msg.append('max mem: {memory:.0f}')
log_msg = self.delimiter.join(log_msg)
MB = 1024.0 * 1024.0
for obj in iterable:
data_time.update(time.time() - end)
yield obj
iter_time.update(time.time() - end)
if i % print_freq == 0 or i == len(iterable) - 1:
eta_seconds = iter_time.global_avg * (len(iterable) - i)
eta_string = str(datetime.timedelta(seconds=int(eta_seconds)))
if torch.cuda.is_available():
print(log_msg.format(
i, len(iterable), eta=eta_string,
meters=str(self),
time=str(iter_time), data=str(data_time),
memory=torch.cuda.max_memory_allocated() / MB))
else:
print(log_msg.format(
i, len(iterable), eta=eta_string,
meters=str(self),
time=str(iter_time), data=str(data_time)))
i += 1
end = time.time()
total_time = time.time() - start_time
total_time_str = str(datetime.timedelta(seconds=int(total_time)))
print('{} Total time: {} ({:.4f} s / it)'.format(
header, total_time_str, total_time / len(iterable)))
class TensorboardLogger(object):
def __init__(self, log_dir):
self.writer = SummaryWriter(logdir=log_dir)
self.step = 0
def set_step(self, step=None):
if step is not None:
self.step = step
else:
self.step += 1
def update(self, head='scalar', step=None, **kwargs):
for k, v in kwargs.items():
if v is None:
continue
if isinstance(v, torch.Tensor):
v = v.item()
assert isinstance(v, (float, int))
self.writer.add_scalar(head + "/" + k, v, self.step if step is None else step)
def flush(self):
self.writer.flush()
def _load_checkpoint_for_ema(model_ema, checkpoint):
"""
Workaround for ModelEma._load_checkpoint to accept an already-loaded object
"""
mem_file = io.BytesIO()
torch.save(checkpoint, mem_file)
mem_file.seek(0)
model_ema._load_checkpoint(mem_file)
def setup_for_distributed(is_master):
"""
This function disables printing when not in master process
"""
import builtins as __builtin__
builtin_print = __builtin__.print
def print(*args, **kwargs):
force = kwargs.pop('force', False)
if is_master or force:
builtin_print(*args, **kwargs)
__builtin__.print = print
def is_dist_avail_and_initialized():
if not dist.is_available():
return False
if not dist.is_initialized():
return False
return True
def get_world_size():
if not is_dist_avail_and_initialized():
return 1
return dist.get_world_size()
def get_rank():
if not is_dist_avail_and_initialized():
return 0
return dist.get_rank()
def is_main_process():
return get_rank() == 0
def save_on_master(*args, **kwargs):
if is_main_process():
torch.save(*args, **kwargs)
def init_distributed_mode(args):
if args.dist_on_itp:
args.rank = int(os.environ['OMPI_COMM_WORLD_RANK'])
args.world_size = int(os.environ['OMPI_COMM_WORLD_SIZE'])
args.gpu = int(os.environ['OMPI_COMM_WORLD_LOCAL_RANK'])
args.dist_url = "tcp://%s:%s" % (os.environ['MASTER_ADDR'], os.environ['MASTER_PORT'])
os.environ['LOCAL_RANK'] = str(args.gpu)
os.environ['RANK'] = str(args.rank)
os.environ['WORLD_SIZE'] = str(args.world_size)
# ["RANK", "WORLD_SIZE", "MASTER_ADDR", "MASTER_PORT", "LOCAL_RANK"]
elif 'RANK' in os.environ and 'WORLD_SIZE' in os.environ:
args.rank = int(os.environ["RANK"])
args.world_size = int(os.environ['WORLD_SIZE'])
args.gpu = int(os.environ['LOCAL_RANK'])
elif 'SLURM_PROCID' in os.environ:
args.rank = int(os.environ['SLURM_PROCID'])
args.gpu = args.rank % torch.cuda.device_count()
else:
print('Not using distributed mode')
args.distributed = False
return
args.distributed = True
torch.cuda.set_device(args.gpu)
args.dist_backend = 'nccl'
print('| distributed init (rank {}): {}, gpu {}'.format(
args.rank, args.dist_url, args.gpu), flush=True)
torch.distributed.init_process_group(backend=args.dist_backend, init_method=args.dist_url,
world_size=args.world_size, rank=args.rank)
torch.distributed.barrier()
setup_for_distributed(args.rank == 0)
def load_state_dict(model, state_dict, prefix='', ignore_missing="relative_position_index"):
missing_keys = []
unexpected_keys = []
error_msgs = []
# copy state_dict so _load_from_state_dict can modify it
metadata = getattr(state_dict, '_metadata', None)
state_dict = state_dict.copy()
if metadata is not None:
state_dict._metadata = metadata
def load(module, prefix=''):
local_metadata = {} if metadata is None else metadata.get(
prefix[:-1], {})
module._load_from_state_dict(
state_dict, prefix, local_metadata, True, missing_keys, unexpected_keys, error_msgs)
for name, child in module._modules.items():
if child is not None:
load(child, prefix + name + '.')
load(model, prefix=prefix)
warn_missing_keys = []
ignore_missing_keys = []
for key in missing_keys:
keep_flag = True
for ignore_key in ignore_missing.split('|'):
if ignore_key in key:
keep_flag = False
break
if keep_flag:
warn_missing_keys.append(key)
else:
ignore_missing_keys.append(key)
missing_keys = warn_missing_keys
if len(missing_keys) > 0:
print("Weights of {} not initialized from pretrained model: {}".format(
model.__class__.__name__, missing_keys))
if len(unexpected_keys) > 0:
print("Weights from pretrained model not used in {}: {}".format(
model.__class__.__name__, unexpected_keys))
if len(ignore_missing_keys) > 0:
print("Ignored weights of {} not initialized from pretrained model: {}".format(
model.__class__.__name__, ignore_missing_keys))
if len(error_msgs) > 0:
print('\n'.join(error_msgs))
class NativeScalerWithGradNormCount:
state_dict_key = "amp_scaler"
def __init__(self):
self._scaler = torch.cuda.amp.GradScaler()
def __call__(self, loss, optimizer, clip_grad=None, parameters=None, create_graph=False, update_grad=True):
self._scaler.scale(loss).backward(create_graph=create_graph)
if update_grad:
if clip_grad is not None:
assert parameters is not None
self._scaler.unscale_(optimizer) # unscale the gradients of optimizer's assigned params in-place
norm = torch.nn.utils.clip_grad_norm_(parameters, clip_grad)
else:
self._scaler.unscale_(optimizer)
norm = get_grad_norm_(parameters)
self._scaler.step(optimizer)
self._scaler.update()
else:
norm = None
return norm
def state_dict(self):
return self._scaler.state_dict()
def load_state_dict(self, state_dict):
self._scaler.load_state_dict(state_dict)
def get_grad_norm_(parameters, norm_type: float = 2.0) -> torch.Tensor:
if isinstance(parameters, torch.Tensor):
parameters = [parameters]
parameters = [p for p in parameters if p.grad is not None]
norm_type = float(norm_type)
if len(parameters) == 0:
return torch.tensor(0.)
device = parameters[0].grad.device
if norm_type == inf:
total_norm = max(p.grad.detach().abs().max().to(device) for p in parameters)
else:
total_norm = torch.norm(torch.stack([torch.norm(p.grad.detach(), norm_type).to(device) for p in parameters]), norm_type)
return total_norm
def cosine_scheduler(base_value, final_value, epochs, niter_per_ep, warmup_epochs=0,
start_warmup_value=0, warmup_steps=-1):
warmup_schedule = np.array([])
warmup_iters = warmup_epochs * niter_per_ep
if warmup_steps > 0:
warmup_iters = warmup_steps
print("Set warmup steps = %d" % warmup_iters)
if warmup_epochs > 0:
warmup_schedule = np.linspace(start_warmup_value, base_value, warmup_iters)
iters = np.arange(epochs * niter_per_ep - warmup_iters)
schedule = np.array(
[final_value + 0.5 * (base_value - final_value) * (1 + math.cos(math.pi * i / (len(iters)))) for i in iters])
schedule = np.concatenate((warmup_schedule, schedule))
assert len(schedule) == epochs * niter_per_ep
return schedule
def save_model(args, epoch, model, model_without_ddp, optimizer, loss_scaler, model_ema=None):
output_dir = Path(args.output_dir)
epoch_name = str(epoch)
if loss_scaler is not None:
checkpoint_paths = [output_dir / ('checkpoint-%s.pth' % epoch_name)]
for checkpoint_path in checkpoint_paths:
to_save = {
'model': model_without_ddp.state_dict(),
'optimizer': optimizer.state_dict(),
'epoch': epoch,
'scaler': loss_scaler.state_dict(),
'args': args,
}
if model_ema is not None:
to_save['model_ema'] = get_state_dict(model_ema)
save_on_master(to_save, checkpoint_path)
else:
client_state = {'epoch': epoch}
if model_ema is not None:
client_state['model_ema'] = get_state_dict(model_ema)
model.save_checkpoint(save_dir=args.output_dir, tag="checkpoint-%s" % epoch_name, client_state=client_state)
def auto_load_model(args, model, model_without_ddp, optimizer, loss_scaler, model_ema=None):
output_dir = Path(args.output_dir)
if loss_scaler is not None:
# torch.amp
if args.auto_resume and len(args.resume) == 0:
import glob
all_checkpoints = glob.glob(os.path.join(output_dir, 'checkpoint-*.pth'))
latest_ckpt = -1
for ckpt in all_checkpoints:
t = ckpt.split('-')[-1].split('.')[0]
if t.isdigit():
latest_ckpt = max(int(t), latest_ckpt)
if latest_ckpt >= 0:
args.resume = os.path.join(output_dir, 'checkpoint-%d.pth' % latest_ckpt)
print("Auto resume checkpoint: %s" % args.resume)
if args.resume:
if args.resume.startswith('https'):
checkpoint = torch.hub.load_state_dict_from_url(
args.resume, map_location='cpu', check_hash=True)
else:
checkpoint = torch.load(args.resume, map_location='cpu')
# try:
msg = model_without_ddp.load_state_dict(checkpoint['model'])
# except:
# msg = model_without_ddp.load_state_dict(checkpoint['module'])
print(msg)
print("Resume checkpoint %s" % args.resume)
if 'optimizer' in checkpoint and 'epoch' in checkpoint:
optimizer.load_state_dict(checkpoint['optimizer'])
try:
args.start_epoch = checkpoint['epoch'] + 1
except:
pass
if hasattr(args, 'model_ema') and args.model_ema:
_load_checkpoint_for_ema(model_ema, checkpoint['model_ema'])
if 'scaler' in checkpoint:
loss_scaler.load_state_dict(checkpoint['scaler'])
print("With optim & sched!")
else:
# deepspeed, only support '--auto_resume'.
if args.auto_resume:
import glob
all_checkpoints = glob.glob(os.path.join(output_dir, 'checkpoint-*'))
latest_ckpt = -1
for ckpt in all_checkpoints:
t = ckpt.split('-')[-1].split('.')[0]
if t.isdigit():
latest_ckpt = max(int(t), latest_ckpt)
if latest_ckpt >= 0:
args.resume = os.path.join(output_dir, 'checkpoint-%d' % latest_ckpt)
print("Auto resume checkpoint: %d" % latest_ckpt)
_, client_states = model.load_checkpoint(args.output_dir, tag='checkpoint-%d' % latest_ckpt)
args.start_epoch = client_states['epoch'] + 1
if model_ema is not None:
if args.model_ema:
_load_checkpoint_for_ema(model_ema, client_states['model_ema'])
def create_d_vae(weight_path, d_vae_type, image_size, device):
if d_vae_type == "dall-e":
return get_dalle_vae(weight_path, image_size, device)
elif d_vae_type == "vqgan":
return get_vq_gan(weight_path, image_size, device)
elif d_vae_type == "vqgan_ema":
return get_vq_gan(weight_path, image_size, device, is_gumbel=False)
elif d_vae_type == "customized":
return get_d_vae(weight_path, image_size, device)
else:
raise NotImplementedError()
def get_dalle_vae(weight_path, image_size, device):
vae = Dalle_VAE(image_size)
vae.load_model(model_dir=weight_path, device=device)
return vae
def get_vq_gan(weight_path, image_size, device, is_gumbel=True):
model = VQ_GAN(image_size, is_gumbel=is_gumbel)
model.load_model(model_dir=weight_path, device=device)
return model
def get_d_vae(weight_path, image_size, device):
NUM_TOKENS = 8192
NUM_LAYERS = 3
EMB_DIM = 512
HID_DIM = 256
state_dict = torch.load(os.path.join(weight_path, "pytorch_model.bin"), map_location="cpu")["weights"]
model = DiscreteVAE(
image_size=image_size,
num_layers=NUM_LAYERS,
num_tokens=NUM_TOKENS,
codebook_dim=EMB_DIM,
hidden_dim=HID_DIM,
).to(device)
model.load_state_dict(state_dict)
return model
def create_ds_config(args):
args.deepspeed_config = os.path.join(args.output_dir, "deepspeed_config.json")
with open(args.deepspeed_config, mode="w") as writer:
ds_config = {
"train_batch_size": args.batch_size * args.update_freq * get_world_size(),
"train_micro_batch_size_per_gpu": args.batch_size,
"steps_per_print": 1000,
"optimizer": {
"type": "Adam",
"adam_w_mode": True,
"params": {
"lr": args.lr,
"weight_decay": args.weight_decay,
"bias_correction": True,
"betas": [
0.9,
0.999
],
"eps": 1e-8
}
},
"fp16": {
"enabled": True,
"loss_scale": 0,
"initial_scale_power": 7,
"loss_scale_window": 128
}
}
writer.write(json.dumps(ds_config, indent=2))