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import os

import torch

import random

import torch.utils.data as data

import numpy as np

import copy

from PIL import Image

IMG_EXTENSIONS = ['.jpg', '.JPG', '.jpeg', '.JPEG', '.png', '.PNG']

def is_image_file(filename):

return any(filename.endswith(extension) for extension in IMG_EXTENSIONS)

class SkyImages(data.Dataset):

def __init__(self, configs, transform, temporal_sample=None, train=True):

self.configs = configs

self.data_path = configs.data_path

self.transform = transform

self.temporal_sample = temporal_sample

self.target_video_len = self.configs.num_frames

self.frame_interval = self.configs.frame_interval

self.data_all, self.video_frame_all = self.load_video_frames(self.data_path)

# sky video frames

random.shuffle(self.video_frame_all)

self.use_image_num = configs.use_image_num

def __getitem__(self, index):

video_index = index % self.video_num

vframes = self.data_all[video_index]

total_frames = len(vframes)

# Sampling video frames

start_frame_ind, end_frame_ind = self.temporal_sample(total_frames)

assert end_frame_ind - start_frame_ind >= self.target_video_len

frame_indice = np.linspace(start_frame_ind, end_frame_ind-1, num=self.target_video_len, dtype=int) # start, stop, num=50

select_video_frames = vframes[frame_indice[0]: frame_indice[-1]+1: self.frame_interval]

video_frames = []

for path in select_video_frames:

video_frame = torch.as_tensor(np.array(Image.open(path), dtype=np.uint8, copy=True)).unsqueeze(0)

video_frames.append(video_frame)

video_clip = torch.cat(video_frames, dim=0).permute(0, 3, 1, 2)

video_clip = self.transform(video_clip)

# get video frames

images = []

for i in range(self.use_image_num):

while True:

try:

video_frame_path = self.video_frame_all[index+i]

image = torch.as_tensor(np.array(Image.open(video_frame_path), dtype=np.uint8, copy=True)).unsqueeze(0)

images.append(image)

break

except Exception as e:

index = random.randint(0, self.video_frame_num - self.use_image_num)

images = torch.cat(images, dim=0).permute(0, 3, 1, 2)

images = self.transform(images)

assert len(images) == self.use_image_num

video_cat = torch.cat([video_clip, images], dim=0)

return {'video': video_cat, 'video_name': 1}

def __len__(self):

return self.video_frame_num

def load_video_frames(self, dataroot):

data_all = []

frames_all = []

frame_list = os.walk(dataroot)

for _, meta in enumerate(frame_list):

root = meta[0]

try:

frames = sorted(meta[2], key=lambda item: int(item.split('.')[0].split('_')[-1]))

except:

print(meta[0]) # root

print(meta[2]) # files

frames = [os.path.join(root, item) for item in frames if is_image_file(item)]

if len(frames) > max(0, self.target_video_len * self.frame_interval): # need all > (16 * frame-interval) videos

# if len(frames) >= max(0, self.target_video_len): # need all > 16 frames videos

data_all.append(frames)

for frame in frames:

frames_all.append(frame)

self.video_num = len(data_all)

self.video_frame_num = len(frames_all)

return data_all, frames_all

if __name__ == '__main__':

import argparse

import torchvision

import video_transforms

import torch.utils.data as data

from torchvision import transforms

from torchvision.utils import save_image

parser = argparse.ArgumentParser()

parser.add_argument("--num_frames", type=int, default=16)

parser.add_argument("--frame_interval", type=int, default=3)

parser.add_argument("--data-path", type=str, default="/path/to/datasets/sky_timelapse/sky_train/")

parser.add_argument("--use-image-num", type=int, default=5)

config = parser.parse_args()

target_video_len = config.num_frames

temporal_sample = video_transforms.TemporalRandomCrop(target_video_len * config.frame_interval)

trans = transforms.Compose([

video_transforms.ToTensorVideo(),

# video_transforms.CenterCropVideo(256),

video_transforms.CenterCropResizeVideo(256),

# video_transforms.RandomHorizontalFlipVideo(),

transforms.Normalize(mean=[0.5, 0.5, 0.5], std=[0.5, 0.5, 0.5], inplace=True)

])

taichi_dataset = SkyImages(config, transform=trans, temporal_sample=temporal_sample)

print(len(taichi_dataset))

taichi_dataloader = data.DataLoader(dataset=taichi_dataset, batch_size=1, shuffle=False, num_workers=1)

for i, video_data in enumerate(taichi_dataloader):

print(video_data['video'].shape)

# print(video_data.dtype)

# for i in range(target_video_len):

# save_image(video_data[0][i], os.path.join('./test_data', '%04d.png' % i), normalize=True, value_range=(-1, 1))

# video_ = ((video_data[0] * 0.5 + 0.5) * 255).add_(0.5).clamp_(0, 255).to(dtype=torch.uint8).cpu().permute(0, 2, 3, 1)

# torchvision.io.write_video('./test_data' + 'test.mp4', video_, fps=8)

# exit()