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trainer.py
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trainer.py
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import torch
from ldm.models.diffusion.ddim import DDIMSampler
from ldm.models.diffusion.plms import PLMSSampler
from ldm.util import instantiate_from_config
import numpy as np
import random
import time
from dataset.concat_dataset import ConCatDataset #, collate_fn
from torch.utils.data.distributed import DistributedSampler
from torch.utils.data import DataLoader
from torch.utils.tensorboard import SummaryWriter
import os
import shutil
import torchvision
from convert_ckpt import add_additional_channels
import math
from torch.nn.parallel import DistributedDataParallel as DDP
from tqdm import tqdm
from distributed import get_rank, synchronize, get_world_size
from transformers import get_cosine_schedule_with_warmup, get_constant_schedule_with_warmup
from copy import deepcopy
from inpaint_mask_func import draw_masks_from_boxes
from ldm.modules.attention import BasicTransformerBlock
try:
from apex import amp
except:
pass
# = = = = = = = = = = = = = = = = = = useful functions = = = = = = = = = = = = = = = = = #
class ImageCaptionSaver:
def __init__(self, base_path, nrow=8, normalize=True, scale_each=True, range=(-1,1) ):
self.base_path = base_path
self.nrow = nrow
self.normalize = normalize
self.scale_each = scale_each
self.range = range
def __call__(self, images, real, masked_real, captions, seen):
save_path = os.path.join(self.base_path, str(seen).zfill(8)+'.png')
torchvision.utils.save_image( images, save_path, nrow=self.nrow, normalize=self.normalize, scale_each=self.scale_each, range=self.range )
save_path = os.path.join(self.base_path, str(seen).zfill(8)+'_real.png')
torchvision.utils.save_image( real, save_path, nrow=self.nrow)
if masked_real is not None:
# only inpaiting mode case
save_path = os.path.join(self.base_path, str(seen).zfill(8)+'_mased_real.png')
torchvision.utils.save_image( masked_real, save_path, nrow=self.nrow, normalize=self.normalize, scale_each=self.scale_each, range=self.range)
assert images.shape[0] == len(captions)
save_path = os.path.join(self.base_path, 'captions.txt')
with open(save_path, "a") as f:
f.write( str(seen).zfill(8) + ':\n' )
for cap in captions:
f.write( cap + '\n' )
f.write( '\n' )
def read_official_ckpt(ckpt_path):
"Read offical pretrained SD ckpt and convert into my style"
state_dict = torch.load(ckpt_path, map_location="cpu")["state_dict"]
out = {}
out["model"] = {}
out["text_encoder"] = {}
out["autoencoder"] = {}
out["unexpected"] = {}
out["diffusion"] = {}
for k,v in state_dict.items():
if k.startswith('model.diffusion_model'):
out["model"][k.replace("model.diffusion_model.", "")] = v
elif k.startswith('cond_stage_model'):
out["text_encoder"][k.replace("cond_stage_model.", "")] = v
elif k.startswith('first_stage_model'):
out["autoencoder"][k.replace("first_stage_model.", "")] = v
elif k in ["model_ema.decay", "model_ema.num_updates"]:
out["unexpected"][k] = v
else:
out["diffusion"][k] = v
return out
def batch_to_device(batch, device):
for k in batch:
if isinstance(batch[k], torch.Tensor):
batch[k] = batch[k].to(device)
return batch
def sub_batch(batch, num=1):
# choose first num in given batch
num = num if num > 1 else 1
for k in batch:
batch[k] = batch[k][0:num]
return batch
def wrap_loader(loader):
while True:
for batch in loader: # TODO: it seems each time you have the same order for all epoch??
yield batch
def disable_grads(model):
for p in model.parameters():
p.requires_grad = False
def count_params(params):
total_trainable_params_count = 0
for p in params:
total_trainable_params_count += p.numel()
print("total_trainable_params_count is: ", total_trainable_params_count)
def update_ema(target_params, source_params, rate=0.99):
for targ, src in zip(target_params, source_params):
targ.detach().mul_(rate).add_(src, alpha=1 - rate)
def create_expt_folder_with_auto_resuming(OUTPUT_ROOT, name):
name = os.path.join( OUTPUT_ROOT, name )
writer = None
checkpoint = None
if os.path.exists(name):
all_tags = os.listdir(name)
all_existing_tags = [ tag for tag in all_tags if tag.startswith('tag') ]
all_existing_tags.sort()
all_existing_tags = all_existing_tags[::-1]
for previous_tag in all_existing_tags:
potential_ckpt = os.path.join( name, previous_tag, 'checkpoint_latest.pth' )
if os.path.exists(potential_ckpt):
checkpoint = potential_ckpt
if get_rank() == 0:
print('auto-resuming ckpt found '+ potential_ckpt)
break
curr_tag = 'tag'+str(len(all_existing_tags)).zfill(2)
name = os.path.join( name, curr_tag ) # output/name/tagxx
else:
name = os.path.join( name, 'tag00' ) # output/name/tag00
if get_rank() == 0:
os.makedirs(name)
os.makedirs( os.path.join(name,'Log') )
writer = SummaryWriter( os.path.join(name,'Log') )
return name, writer, checkpoint
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = #
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = #
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = #
class Trainer:
def __init__(self, config):
self.config = config
self.device = torch.device("cuda")
self.l_simple_weight = 1
self.name, self.writer, checkpoint = create_expt_folder_with_auto_resuming(config.OUTPUT_ROOT, config.name)
if get_rank() == 0:
shutil.copyfile(config.yaml_file, os.path.join(self.name, "train_config_file.yaml") )
self.config_dict = vars(config)
torch.save( self.config_dict, os.path.join(self.name, "config_dict.pth") )
# = = = = = = = = = = = = = = = = = create model and diffusion = = = = = = = = = = = = = = = = = #
self.model = instantiate_from_config(config.model).to(self.device)
self.autoencoder = instantiate_from_config(config.autoencoder).to(self.device)
self.text_encoder = instantiate_from_config(config.text_encoder).to(self.device)
self.diffusion = instantiate_from_config(config.diffusion).to(self.device)
state_dict = read_official_ckpt( os.path.join(config.DATA_ROOT, config.official_ckpt_name) )
# modify the input conv for SD if necessary (grounding as unet input; inpaint)
additional_channels = self.model.additional_channel_from_downsampler
if self.config.inpaint_mode:
additional_channels += 5 # 5 = 4(latent) + 1(mask)
add_additional_channels(state_dict["model"], additional_channels)
self.input_conv_train = True if additional_channels>0 else False
# load original SD ckpt (with inuput conv may be modified)
missing_keys, unexpected_keys = self.model.load_state_dict( state_dict["model"], strict=False )
assert unexpected_keys == []
original_params_names = list( state_dict["model"].keys() ) # used for sanity check later
self.autoencoder.load_state_dict( state_dict["autoencoder"] )
self.text_encoder.load_state_dict( state_dict["text_encoder"] )
self.diffusion.load_state_dict( state_dict["diffusion"] )
self.autoencoder.eval()
self.text_encoder.eval()
disable_grads(self.autoencoder)
disable_grads(self.text_encoder)
# = = = = = = = = = = = = = load from ckpt: (usually for inpainting training) = = = = = = = = = = = = = #
if self.config.ckpt is not None:
first_stage_ckpt = torch.load(self.config.ckpt, map_location="cpu")
self.model.load_state_dict(first_stage_ckpt["model"])
# = = = = = = = = = = = = = = = = = create opt = = = = = = = = = = = = = = = = = #
params = []
trainable_names = []
all_params_name = []
for name, p in self.model.named_parameters():
if ("transformer_blocks" in name) and ("fuser" in name):
# New added Attention layers
params.append(p)
trainable_names.append(name)
elif "position_net" in name:
# Grounding token processing network
params.append(p)
trainable_names.append(name)
elif "downsample_net" in name:
# Grounding downsample network (used in input)
params.append(p)
trainable_names.append(name)
elif (self.input_conv_train) and ("input_blocks.0.0.weight" in name):
# First conv layer was modified, thus need to train
params.append(p)
trainable_names.append(name)
else:
# Following make sure we do not miss any new params
# all new added trainable params have to be haddled above
# otherwise it will trigger the following error
assert name in original_params_names, name
all_params_name.append(name)
self.opt = torch.optim.AdamW(params, lr=config.base_learning_rate, weight_decay=config.weight_decay)
count_params(params)
# = = = = = EMA... It is worse than normal model in early experiments, thus never enabled later = = = = = = = = = #
if config.enable_ema:
self.master_params = list(self.model.parameters())
self.ema = deepcopy(self.model)
self.ema_params = list(self.ema.parameters())
self.ema.eval()
# = = = = = = = = = = = = = = = = = = = = create scheduler = = = = = = = = = = = = = = = = = = = = #
if config.scheduler_type == "cosine":
self.scheduler = get_cosine_schedule_with_warmup(self.opt, num_warmup_steps=config.warmup_steps, num_training_steps=config.total_iters)
elif config.scheduler_type == "constant":
self.scheduler = get_constant_schedule_with_warmup(self.opt, num_warmup_steps=config.warmup_steps)
else:
assert False
# = = = = = = = = = = = = = = = = = = = = create data = = = = = = = = = = = = = = = = = = = = #
train_dataset_repeats = config.train_dataset_repeats if 'train_dataset_repeats' in config else None
dataset_train = ConCatDataset(config.train_dataset_names, config.DATA_ROOT, train=True, repeats=train_dataset_repeats)
sampler = DistributedSampler(dataset_train, seed=config.seed) if config.distributed else None
loader_train = DataLoader( dataset_train, batch_size=config.batch_size,
shuffle=(sampler is None),
num_workers=config.workers,
pin_memory=True,
sampler=sampler)
self.dataset_train = dataset_train
self.loader_train = wrap_loader(loader_train)
if get_rank() == 0:
total_image = dataset_train.total_images()
print("Total training images: ", total_image)
# = = = = = = = = = = = = = = = = = = = = load from autoresuming ckpt = = = = = = = = = = = = = = = = = = = = #
self.starting_iter = 0
if checkpoint is not None:
checkpoint = torch.load(checkpoint, map_location="cpu")
self.model.load_state_dict(checkpoint["model"])
if config.enable_ema:
self.ema.load_state_dict(checkpoint["ema"])
self.opt.load_state_dict(checkpoint["opt"])
self.scheduler.load_state_dict(checkpoint["scheduler"])
self.starting_iter = checkpoint["iters"]
if self.starting_iter >= config.total_iters:
synchronize()
print("Training finished. Start exiting")
exit()
# = = = = = = = = = = = = = = = = = = = = misc and ddp = = = = = = = = = = = = = = = = = = = =#
# func return input for grounding tokenizer
self.grounding_tokenizer_input = instantiate_from_config(config.grounding_tokenizer_input)
self.model.grounding_tokenizer_input = self.grounding_tokenizer_input
# func return input for grounding downsampler
self.grounding_downsampler_input = None
if 'grounding_downsampler_input' in config:
self.grounding_downsampler_input = instantiate_from_config(config.grounding_downsampler_input)
if get_rank() == 0:
self.image_caption_saver = ImageCaptionSaver(self.name)
if config.distributed:
self.model = DDP( self.model, device_ids=[config.local_rank], output_device=config.local_rank, broadcast_buffers=False )
@torch.no_grad()
def get_input(self, batch):
z = self.autoencoder.encode( batch["image"] )
context = self.text_encoder.encode( batch["caption"] )
_t = torch.rand(z.shape[0]).to(z.device)
t = (torch.pow(_t, 1) * 1000).long()
t = torch.where(t!=1000, t, 999) # if 1000, then replace it with 999
inpainting_extra_input = None
if self.config.inpaint_mode:
# extra input for the inpainting model
inpainting_mask = draw_masks_from_boxes(batch['boxes'], 64, randomize_fg_mask=self.config.randomize_fg_mask, random_add_bg_mask=self.config.random_add_bg_mask).cuda()
masked_z = z*inpainting_mask
inpainting_extra_input = torch.cat([masked_z,inpainting_mask], dim=1)
grounding_extra_input = None
if self.grounding_downsampler_input != None:
grounding_extra_input = self.grounding_downsampler_input.prepare(batch)
return z, t, context, inpainting_extra_input, grounding_extra_input
def run_one_step(self, batch):
x_start, t, context, inpainting_extra_input, grounding_extra_input = self.get_input(batch)
noise = torch.randn_like(x_start)
x_noisy = self.diffusion.q_sample(x_start=x_start, t=t, noise=noise)
grounding_input = self.grounding_tokenizer_input.prepare(batch)
input = dict(x=x_noisy,
timesteps=t,
context=context,
inpainting_extra_input=inpainting_extra_input,
grounding_extra_input=grounding_extra_input,
grounding_input=grounding_input)
model_output = self.model(input)
loss = torch.nn.functional.mse_loss(model_output, noise) * self.l_simple_weight
self.loss_dict = {"loss": loss.item()}
return loss
def start_training(self):
iterator = tqdm(range(self.starting_iter, self.config.total_iters), desc='Training progress', disable=get_rank() != 0 )
self.model.train()
for iter_idx in iterator: # note: iter_idx is not from 0 if resume training
self.iter_idx = iter_idx
self.opt.zero_grad()
batch = next(self.loader_train)
batch_to_device(batch, self.device)
loss = self.run_one_step(batch)
loss.backward()
self.opt.step()
self.scheduler.step()
if self.config.enable_ema:
update_ema(self.ema_params, self.master_params, self.config.ema_rate)
if (get_rank() == 0):
if (iter_idx % 10 == 0):
self.log_loss()
if (iter_idx == 0) or ( iter_idx % self.config.save_every_iters == 0 ) or (iter_idx == self.config.total_iters-1):
self.save_ckpt_and_result()
synchronize()
synchronize()
print("Training finished. Start exiting")
exit()
def log_loss(self):
for k, v in self.loss_dict.items():
self.writer.add_scalar( k, v, self.iter_idx+1 ) # we add 1 as the actual name
@torch.no_grad()
def save_ckpt_and_result(self):
model_wo_wrapper = self.model.module if self.config.distributed else self.model
iter_name = self.iter_idx + 1 # we add 1 as the actual name
if not self.config.disable_inference_in_training:
# Do an inference on one training batch
batch_here = self.config.batch_size
batch = sub_batch( next(self.loader_train), batch_here)
batch_to_device(batch, self.device)
if "boxes" in batch:
real_images_with_box_drawing = [] # we save this durining trianing for better visualization
for i in range(batch_here):
temp_data = {"image": batch["image"][i], "boxes":batch["boxes"][i]}
im = self.dataset_train.datasets[0].vis_getitem_data(out=temp_data, return_tensor=True, print_caption=False)
real_images_with_box_drawing.append(im)
real_images_with_box_drawing = torch.stack(real_images_with_box_drawing)
else:
# keypoint case
real_images_with_box_drawing = batch["image"]*0.5 + 0.5
uc = self.text_encoder.encode( batch_here*[""] )
context = self.text_encoder.encode( batch["caption"] )
plms_sampler = PLMSSampler(self.diffusion, model_wo_wrapper)
shape = (batch_here, model_wo_wrapper.in_channels, model_wo_wrapper.image_size, model_wo_wrapper.image_size)
# extra input for inpainting
inpainting_extra_input = None
if self.config.inpaint_mode:
z = self.autoencoder.encode( batch["image"] )
inpainting_mask = draw_masks_from_boxes(batch['boxes'], 64, randomize_fg_mask=self.config.randomize_fg_mask, random_add_bg_mask=self.config.random_add_bg_mask).cuda()
masked_z = z*inpainting_mask
inpainting_extra_input = torch.cat([masked_z,inpainting_mask], dim=1)
grounding_extra_input = None
if self.grounding_downsampler_input != None:
grounding_extra_input = self.grounding_downsampler_input.prepare(batch)
grounding_input = self.grounding_tokenizer_input.prepare(batch)
input = dict( x=None,
timesteps=None,
context=context,
inpainting_extra_input=inpainting_extra_input,
grounding_extra_input=grounding_extra_input,
grounding_input=grounding_input )
samples = plms_sampler.sample(S=50, shape=shape, input=input, uc=uc, guidance_scale=5)
autoencoder_wo_wrapper = self.autoencoder # Note itself is without wrapper since we do not train that.
samples = autoencoder_wo_wrapper.decode(samples).cpu()
samples = torch.clamp(samples, min=-1, max=1)
masked_real_image = batch["image"]*torch.nn.functional.interpolate(inpainting_mask, size=(512, 512)) if self.config.inpaint_mode else None
self.image_caption_saver(samples, real_images_with_box_drawing, masked_real_image, batch["caption"], iter_name)
ckpt = dict(model = model_wo_wrapper.state_dict(),
text_encoder = self.text_encoder.state_dict(),
autoencoder = self.autoencoder.state_dict(),
diffusion = self.diffusion.state_dict(),
opt = self.opt.state_dict(),
scheduler= self.scheduler.state_dict(),
iters = self.iter_idx+1,
config_dict=self.config_dict,
)
if self.config.enable_ema:
ckpt["ema"] = self.ema.state_dict()
torch.save( ckpt, os.path.join(self.name, "checkpoint_"+str(iter_name).zfill(8)+".pth") )
torch.save( ckpt, os.path.join(self.name, "checkpoint_latest.pth") )