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Dragreal / utils /dataset.py

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	import os, io, csv, math, random
	import numpy as np
	from einops import rearrange

	import torch
	from decord import VideoReader
	import cv2

	import torchvision.transforms as transforms
	from torch.utils.data.dataset import Dataset
	# from utils.util import zero_rank_print
	#from torchvision.io import read_image
	from PIL import Image
	def pil_image_to_numpy(image, is_maks = False):
	"""Convert a PIL image to a NumPy array."""

	if is_maks:
	image = image.resize((256, 256))
	image = (np.array(image)==1)*1
	image = cv2.cvtColor(image.astype(np.uint8), cv2.COLOR_GRAY2RGB)
	# if image.mode != 'RGB':
	# image = image.convert('RGB')

	# print(np.unique(np.array(image)))
	return image
	else:
	if image.mode != 'RGB':
	image = image.convert('RGB')
	image = image.resize((256, 256))
	return np.array(image)

	def numpy_to_pt(images: np.ndarray, is_mask=False) -> torch.FloatTensor:
	"""Convert a NumPy image to a PyTorch tensor."""
	if images.ndim == 3:
	images = images[..., None]
	images = torch.from_numpy(images.transpose(0, 3, 1, 2))
	if is_mask:
	return images.float()
	else:
	return images.float() / 255


	class WebVid10M(Dataset):
	def __init__(
	self,video_folder,ann_folder,motion_folder,
	sample_size=256, sample_stride=4, sample_n_frames=14,
	):

	self.dataset = [i for i in os.listdir(video_folder)]
	# self.dataset = ["cce03c2a9b"]
	self.length = len(self.dataset)
	print(f"data scale: {self.length}")
	random.shuffle(self.dataset)
	self.video_folder = video_folder
	self.sample_stride = sample_stride
	self.sample_n_frames = sample_n_frames
	self.ann_folder = ann_folder
	self.motion_values_folder=motion_folder
	print("length",len(self.dataset))
	sample_size = tuple(sample_size) if not isinstance(sample_size, int) else (sample_size, sample_size)
	print("sample size",sample_size)
	self.pixel_transforms = transforms.Compose([
	# transforms.RandomHorizontalFlip(),
	transforms.Resize(sample_size),
	# transforms.CenterCrop(sample_size),
	transforms.Normalize(mean=[0.5, 0.5, 0.5], std=[0.5, 0.5, 0.5], inplace=True),
	])

	def center_crop(self,img):
	h, w = img.shape[-2:] # Assuming img shape is [C, H, W] or [B, C, H, W]
	min_dim = min(h, w)
	top = (h - min_dim) // 2
	left = (w - min_dim) // 2
	return img[..., top:top+min_dim, left:left+min_dim]


	def get_batch(self, idx):
	def sort_frames(frame_name):
	return int(frame_name.split('.')[0])



	while True:
	videoid = self.dataset[idx]
	# videoid = video_dict['videoid']

	preprocessed_dir = os.path.join(self.video_folder, videoid)
	ann_folder = os.path.join(self.ann_folder, videoid)
	motion_values_file = os.path.join(self.motion_values_folder, videoid, videoid + "_average_motion.txt")

	if not os.path.exists(ann_folder):
	idx = random.randint(0, len(self.dataset) - 1)
	continue

	# Sort and limit the number of image and depth files to 14
	image_files = sorted(os.listdir(preprocessed_dir), key=sort_frames)[:14]
	depth_files = sorted(os.listdir(ann_folder), key=sort_frames)[:14]

	# print(image_files)
	# print(depth_files)
	# Check if there are enough frames for both image and depth
	# if len(image_files) < 14 or len(depth_files) < 14:
	# idx = random.randint(0, len(self.dataset) - 1)
	# continue

	# Load image frames
	numpy_images = np.array([pil_image_to_numpy(Image.open(os.path.join(preprocessed_dir, img))) for img in image_files])
	pixel_values = numpy_to_pt(numpy_images)

	# Load depth frames
	numpy_depth_images = np.array([pil_image_to_numpy(Image.open(os.path.join(ann_folder, df)).convert('P'),True) for df in depth_files])
	#
	mask_pixel_values = numpy_to_pt(numpy_depth_images,True)
	# print(np.unique(depth_pixel_values))


	# Load motion values
	motion_values = 180
	# with open(motion_values_file, 'r') as file:
	# motion_values = float(file.read().strip())

	return pixel_values, mask_pixel_values, motion_values




	def __len__(self):
	return self.length

	def normalize(self, images):
	"""
	Normalize an image array to [-1,1].
	"""
	return 2.0 * images - 1.0

	def __getitem__(self, idx):

	#while True:
	# try:
	pixel_values, depth_pixel_values,motion_values = self.get_batch(idx)
	# break
	# except Exception as e:
	# print(e)
	# idx = random.randint(0, self.length - 1)
	# print()
	pixel_values = self.normalize(pixel_values)

	sample = dict(pixel_values=pixel_values, depth_pixel_values=depth_pixel_values,motion_values=motion_values)
	return sample




	if __name__ == "__main__":
	from util import save_videos_grid

	dataset = WebVid10M(
	video_folder = "/mmu-ocr/weijiawu/MovieDiffusion/svd-temporal-controlnet/data/ref-youtube-vos/train/JPEGImages",
	ann_folder = "/mmu-ocr/weijiawu/MovieDiffusion/svd-temporal-controlnet/data/ref-youtube-vos/train/Annotations",
	motion_folder = "",
	sample_size=256,
	sample_stride=4, sample_n_frames=16
	)
	# import pdb
	# pdb.set_trace()

	dataloader = torch.utils.data.DataLoader(dataset, batch_size=1, num_workers=16,)
	for idx, batch in enumerate(dataloader):
	images = batch["pixel_values"][0].permute(0,2,3,1)*255
	masks = batch["depth_pixel_values"][0].permute(0,2,3,1)

	print(batch["pixel_values"].shape)

	for i in range(images.shape[0]):
	image = images[i].numpy().astype(np.uint8)
	mask = masks[i].numpy().astype(np.uint8)*255
	print(np.unique(mask))
	cv2.imwrite("./vis/image_{}.jpg".format(i), image)
	cv2.imwrite("./vis/mask_{}.jpg".format(i), mask)
	# save_videos_grid(batch["pixel_values"][i:i+1].permute(0,2,1,3,4), os.path.join(".", f"{idx}-{i}.mp4"), rescale=True)
	break