OmniGen-JP / OmniGen /utils.py
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import logging
from PIL import Image
import torch
import numpy as np
def create_logger(logging_dir):
"""
Create a logger that writes to a log file and stdout.
"""
logging.basicConfig(
level=logging.INFO,
format='[\033[34m%(asctime)s\033[0m] %(message)s',
datefmt='%Y-%m-%d %H:%M:%S',
handlers=[logging.StreamHandler(), logging.FileHandler(f"{logging_dir}/log.txt")]
)
logger = logging.getLogger(__name__)
return logger
@torch.no_grad()
def update_ema(ema_model, model, decay=0.9999):
"""
Step the EMA model towards the current model.
"""
ema_params = dict(ema_model.named_parameters())
for name, param in model.named_parameters():
# TODO: Consider applying only to params that require_grad to avoid small numerical changes of pos_embed
ema_params[name].mul_(decay).add_(param.data, alpha=1 - decay)
def requires_grad(model, flag=True):
"""
Set requires_grad flag for all parameters in a model.
"""
for p in model.parameters():
p.requires_grad = flag
def center_crop_arr(pil_image, image_size):
"""
Center cropping implementation from ADM.
https://github.com/openai/guided-diffusion/blob/8fb3ad9197f16bbc40620447b2742e13458d2831/guided_diffusion/image_datasets.py#L126
"""
while min(*pil_image.size) >= 2 * image_size:
pil_image = pil_image.resize(
tuple(x // 2 for x in pil_image.size), resample=Image.BOX
)
scale = image_size / min(*pil_image.size)
pil_image = pil_image.resize(
tuple(round(x * scale) for x in pil_image.size), resample=Image.BICUBIC
)
arr = np.array(pil_image)
crop_y = (arr.shape[0] - image_size) // 2
crop_x = (arr.shape[1] - image_size) // 2
return Image.fromarray(arr[crop_y: crop_y + image_size, crop_x: crop_x + image_size])
def crop_arr(pil_image, max_image_size):
while min(*pil_image.size) >= 2 * max_image_size:
pil_image = pil_image.resize(
tuple(x // 2 for x in pil_image.size), resample=Image.BOX
)
if max(*pil_image.size) > max_image_size:
scale = max_image_size / max(*pil_image.size)
pil_image = pil_image.resize(
tuple(round(x * scale) for x in pil_image.size), resample=Image.BICUBIC
)
if min(*pil_image.size) < 16:
scale = 16 / min(*pil_image.size)
pil_image = pil_image.resize(
tuple(round(x * scale) for x in pil_image.size), resample=Image.BICUBIC
)
arr = np.array(pil_image)
crop_y1 = (arr.shape[0] % 16) // 2
crop_y2 = arr.shape[0] % 16 - crop_y1
crop_x1 = (arr.shape[1] % 16) // 2
crop_x2 = arr.shape[1] % 16 - crop_x1
arr = arr[crop_y1:arr.shape[0]-crop_y2, crop_x1:arr.shape[1]-crop_x2]
return Image.fromarray(arr)
def vae_encode(vae, x, weight_dtype):
if x is not None:
if vae.config.shift_factor is not None:
x = vae.encode(x).latent_dist.sample()
x = (x - vae.config.shift_factor) * vae.config.scaling_factor
else:
x = vae.encode(x).latent_dist.sample().mul_(vae.config.scaling_factor)
x = x.to(weight_dtype)
return x
def vae_encode_list(vae, x, weight_dtype):
latents = []
for img in x:
img = vae_encode(vae, img, weight_dtype)
latents.append(img)
return latents