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"""
THis is the main file for the gradio web demo. It uses the CogVideoX-5B model to generate videos gradio web demo.
set environment variable OPENAI_API_KEY to use the OpenAI API to enhance the prompt.
Usage:
OpenAI_API_KEY=your_openai_api_key OPENAI_BASE_URL=https://api.openai.com/v1 python inference/gradio_web_demo.py
"""
import math
import os
import random
import threading
import time
import cv2
import tempfile
import imageio_ffmpeg
import gradio as gr
import torch
from PIL import Image
# from diffusers import (
# CogVideoXPipeline,
# CogVideoXDPMScheduler,
# CogVideoXVideoToVideoPipeline,
# CogVideoXImageToVideoPipeline,
# CogVideoXTransformer3DModel,
# )
from typing import Union, List
from CogVideoX.pipeline_rgba import CogVideoXPipeline
from CogVideoX.rgba_utils import *
from diffusers import CogVideoXDPMScheduler
from diffusers.utils import load_video, load_image, export_to_video
from datetime import datetime, timedelta
from diffusers.image_processor import VaeImageProcessor
import moviepy.editor as mp
import numpy as np
from huggingface_hub import hf_hub_download, snapshot_download
import gc
device = "cuda" if torch.cuda.is_available() else "cpu"
# hf_hub_download(repo_id="ai-forever/Real-ESRGAN", filename="RealESRGAN_x4.pth", local_dir="model_real_esran")
hf_hub_download(repo_id="wileewang/TransPixar", filename="cogvideox_rgba_lora.safetensors", local_dir="model_cogvideox_rgba_lora")
# snapshot_download(repo_id="AlexWortega/RIFE", local_dir="model_rife")
pipe = CogVideoXPipeline.from_pretrained("THUDM/CogVideoX-5B", torch_dtype=torch.bfloat16)
# pipe.enable_sequential_cpu_offload()
pipe.vae.enable_slicing()
pipe.vae.enable_tiling()
pipe.scheduler = CogVideoXDPMScheduler.from_config(pipe.scheduler.config, timestep_spacing="trailing")
seq_length = 2 * (
(480 // pipe.vae_scale_factor_spatial // 2)
* (720 // pipe.vae_scale_factor_spatial // 2)
* ((13 - 1) // pipe.vae_scale_factor_temporal + 1)
)
prepare_for_rgba_inference(
pipe.transformer,
rgba_weights_path="model_cogvideox_rgba_lora/cogvideox_rgba_lora.safetensors",
device="cuda",
dtype=torch.bfloat16,
text_length=226,
seq_length=seq_length, # this is for the creation of attention mask.
)
# pipe.transformer.to(memory_format=torch.channels_last)
# pipe.transformer = torch.compile(pipe.transformer, mode="max-autotune", fullgraph=True)
# pipe_image.transformer.to(memory_format=torch.channels_last)
# pipe_image.transformer = torch.compile(pipe_image.transformer, mode="max-autotune", fullgraph=True)
os.makedirs("./output", exist_ok=True)
os.makedirs("./gradio_tmp", exist_ok=True)
# upscale_model = utils.load_sd_upscale("model_real_esran/RealESRGAN_x4.pth", device)
# frame_interpolation_model = load_rife_model("model_rife")
sys_prompt = """You are part of a team of bots that creates videos. You work with an assistant bot that will draw anything you say in square brackets.
For example , outputting " a beautiful morning in the woods with the sun peaking through the trees " will trigger your partner bot to output an video of a forest morning , as described. You will be prompted by people looking to create detailed , amazing videos. The way to accomplish this is to take their short prompts and make them extremely detailed and descriptive.
There are a few rules to follow:
You will only ever output a single video description per user request.
When modifications are requested , you should not simply make the description longer . You should refactor the entire description to integrate the suggestions.
Other times the user will not want modifications , but instead want a new image . In this case , you should ignore your previous conversation with the user.
Video descriptions must have the same num of words as examples below. Extra words will be ignored.
"""
def save_video(tensor: Union[List[np.ndarray], List[Image.Image]], fps: int = 8, prefix='rgb'):
timestamp = datetime.now().strftime("%Y%m%d_%H%M%S")
video_path = f"./output/{prefix}_{timestamp}.mp4"
os.makedirs(os.path.dirname(video_path), exist_ok=True)
export_to_video(tensor, video_path, fps=fps)
return video_path
def resize_if_unfit(input_video, progress=gr.Progress(track_tqdm=True)):
width, height = get_video_dimensions(input_video)
if width == 720 and height == 480:
processed_video = input_video
else:
processed_video = center_crop_resize(input_video)
return processed_video
def get_video_dimensions(input_video_path):
reader = imageio_ffmpeg.read_frames(input_video_path)
metadata = next(reader)
return metadata["size"]
def center_crop_resize(input_video_path, target_width=720, target_height=480):
cap = cv2.VideoCapture(input_video_path)
orig_width = int(cap.get(cv2.CAP_PROP_FRAME_WIDTH))
orig_height = int(cap.get(cv2.CAP_PROP_FRAME_HEIGHT))
orig_fps = cap.get(cv2.CAP_PROP_FPS)
total_frames = int(cap.get(cv2.CAP_PROP_FRAME_COUNT))
width_factor = target_width / orig_width
height_factor = target_height / orig_height
resize_factor = max(width_factor, height_factor)
inter_width = int(orig_width * resize_factor)
inter_height = int(orig_height * resize_factor)
target_fps = 8
ideal_skip = max(0, math.ceil(orig_fps / target_fps) - 1)
skip = min(5, ideal_skip) # Cap at 5
while (total_frames / (skip + 1)) < 49 and skip > 0:
skip -= 1
processed_frames = []
frame_count = 0
total_read = 0
while frame_count < 49 and total_read < total_frames:
ret, frame = cap.read()
if not ret:
break
if total_read % (skip + 1) == 0:
resized = cv2.resize(frame, (inter_width, inter_height), interpolation=cv2.INTER_AREA)
start_x = (inter_width - target_width) // 2
start_y = (inter_height - target_height) // 2
cropped = resized[start_y : start_y + target_height, start_x : start_x + target_width]
processed_frames.append(cropped)
frame_count += 1
total_read += 1
cap.release()
with tempfile.NamedTemporaryFile(suffix=".mp4", delete=False) as temp_file:
temp_video_path = temp_file.name
fourcc = cv2.VideoWriter_fourcc(*"mp4v")
out = cv2.VideoWriter(temp_video_path, fourcc, target_fps, (target_width, target_height))
for frame in processed_frames:
out.write(frame)
out.release()
return temp_video_path
def infer(
prompt: str,
num_inference_steps: int,
guidance_scale: float,
seed: int = -1,
progress=gr.Progress(track_tqdm=True),
):
if seed == -1:
seed = random.randint(0, 2**8 - 1)
pipe.to(device)
video_pt = pipe(
prompt=prompt + ", isolated background",
num_videos_per_prompt=1,
num_inference_steps=num_inference_steps,
num_frames=13,
use_dynamic_cfg=True,
output_type="latent",
guidance_scale=guidance_scale,
generator=torch.Generator(device=device).manual_seed(int(seed)),
).frames
# pipe.to("cpu")
gc.collect()
return (video_pt, seed)
def convert_to_gif(video_path):
clip = mp.VideoFileClip(video_path)
clip = clip.set_fps(8)
clip = clip.resize(height=240)
gif_path = video_path.replace(".mp4", ".gif")
clip.write_gif(gif_path, fps=8)
return gif_path
def delete_old_files():
while True:
now = datetime.now()
cutoff = now - timedelta(minutes=10)
directories = ["./output", "./gradio_tmp"]
for directory in directories:
for filename in os.listdir(directory):
file_path = os.path.join(directory, filename)
if os.path.isfile(file_path):
file_mtime = datetime.fromtimestamp(os.path.getmtime(file_path))
if file_mtime < cutoff:
os.remove(file_path)
time.sleep(600)
threading.Thread(target=delete_old_files, daemon=True).start()
# examples_videos = [["example_videos/horse.mp4"], ["example_videos/kitten.mp4"], ["example_videos/train_running.mp4"]]
# examples_images = [["example_images/beach.png"], ["example_images/street.png"], ["example_images/camping.png"]]
with gr.Blocks() as demo:
gr.Markdown("""
<div style="text-align: center; font-size: 32px; font-weight: bold; margin-bottom: 20px;">
TransPixar + CogVideoX-5B Huggingface Space🤗
</div>
<div style="text-align: center;">
<a href="https://huggingface.co./wileewang/TransPixar">🤗 TransPixar LoRA Hub</a> |
<a href="https://github.com/wileewang/TransPixar">🌐 Github</a> |
<a href="https://arxiv.org/pdf/2408.06072">📜 arxiv </a>
</div>
<div style="text-align: center; font-size: 15px; font-weight: bold; color: red; margin-bottom: 20px;">
⚠️ This demo is for academic research and experiential use only.
</div>
""")
with gr.Row():
with gr.Column():
# with gr.Accordion("I2V: Image Input (cannot be used simultaneously with video input)", open=False):
# image_input = gr.Image(label="Input Image (will be cropped to 720 * 480)")
# examples_component_images = gr.Examples(examples_images, inputs=[image_input], cache_examples=False)
# with gr.Accordion("V2V: Video Input (cannot be used simultaneously with image input)", open=False):
# video_input = gr.Video(label="Input Video (will be cropped to 49 frames, 6 seconds at 8fps)")
# strength = gr.Slider(0.1, 1.0, value=0.8, step=0.01, label="Strength")
# examples_component_videos = gr.Examples(examples_videos, inputs=[video_input], cache_examples=False)
prompt = gr.Textbox(label="Prompt (Less than 200 Words)", placeholder="Enter your prompt here", lines=5)
with gr.Group():
with gr.Column():
with gr.Row():
seed_param = gr.Number(
label="Inference Seed (Enter a positive number, -1 for random)", value=-1
)
# with gr.Row():
# enable_scale = gr.Checkbox(label="Super-Resolution (720 × 480 -> 2880 × 1920)", value=False)
# enable_rife = gr.Checkbox(label="Frame Interpolation (8fps -> 16fps)", value=False)
# gr.Markdown(
# "✨In this demo, we use [RIFE](https://github.com/hzwer/ECCV2022-RIFE) for frame interpolation and [Real-ESRGAN](https://github.com/xinntao/Real-ESRGAN) for upscaling(Super-Resolution).<br>&nbsp;&nbsp;&nbsp;&nbsp;The entire process is based on open-source solutions."
# )
generate_button = gr.Button("🎬 Generate Video")
# Add the note at the bottom-left
with gr.Row():
gr.Markdown(
"""
**Note:** The RGB is a premultiplied version to avoid the color decontamination problem.
It can directly composite with a background using:
```
composite = rgb + (1 - alpha) * background
```
"""
)
with gr.Column():
rgb_video_output = gr.Video(label="Generate RGB Video", width=720, height=480)
alpha_video_output = gr.Video(label="Generate Alpha Video", width=720, height=480)
with gr.Row():
download_rgb_video_button = gr.File(label="📥 Download RGB Video", visible=False)
download_alpha_video_button = gr.File(label="📥 Download Alpha Video", visible=False)
seed_text = gr.Number(label="Seed Used for Video Generation", visible=False)
def generate(
prompt,
seed_value,
progress=gr.Progress(track_tqdm=True)
):
latents, seed = infer(
prompt,
num_inference_steps=25, # NOT Changed
guidance_scale=7.0, # NOT Changed
seed=seed_value,
progress=progress,
)
latents_rgb, latents_alpha = latents.chunk(2, dim=1)
frames_rgb = decode_latents(pipe, latents_rgb)
frames_alpha = decode_latents(pipe, latents_alpha)
pooled_alpha = np.max(frames_alpha, axis=-1, keepdims=True)
frames_alpha_pooled = np.repeat(pooled_alpha, 3, axis=-1)
premultiplied_rgb = frames_rgb * frames_alpha_pooled
rgb_video_path = save_video(premultiplied_rgb[0], fps=8, prefix='rgb')
rgb_video_update = gr.update(visible=True, value=rgb_video_path)
alpha_video_path = save_video(frames_alpha_pooled[0], fps=8, prefix='alpha')
alpha_video_update = gr.update(visible=True, value=alpha_video_path)
seed_update = gr.update(visible=True, value=seed)
return rgb_video_path, alpha_video_path, rgb_video_update, alpha_video_update, seed_update
generate_button.click(
generate,
inputs=[prompt, seed_param],
outputs=[rgb_video_output, alpha_video_output, download_rgb_video_button, download_alpha_video_button, seed_text],
)
if __name__ == "__main__":
demo.queue(max_size=15)
demo.launch()