abhishek's picture
abhishek HF staff
Update app.py
331ab4c
import gradio as gr
import subprocess
import yaml
from tqdm import tqdm
import imageio
import numpy as np
from skimage.transform import resize
from skimage import img_as_ubyte
import torch
from sync_batchnorm import DataParallelWithCallback
from modules.generator import OcclusionAwareGenerator
from modules.keypoint_detector import KPDetector
from animate import normalize_kp
def load_checkpoints(config_path, checkpoint_path, cpu=False):
with open(config_path) as f:
config = yaml.load(f)
generator = OcclusionAwareGenerator(
**config["model_params"]["generator_params"], **config["model_params"]["common_params"]
)
if not cpu:
generator.cuda()
kp_detector = KPDetector(**config["model_params"]["kp_detector_params"], **config["model_params"]["common_params"])
if not cpu:
kp_detector.cuda()
if cpu:
checkpoint = torch.load(checkpoint_path, map_location=torch.device("cpu"))
else:
checkpoint = torch.load(checkpoint_path)
generator.load_state_dict(checkpoint["generator"])
kp_detector.load_state_dict(checkpoint["kp_detector"])
if not cpu:
generator = DataParallelWithCallback(generator)
kp_detector = DataParallelWithCallback(kp_detector)
generator.eval()
kp_detector.eval()
return generator, kp_detector
def make_animation(
source_image, driving_video, generator, kp_detector, relative=True, adapt_movement_scale=True, cpu=False
):
with torch.no_grad():
predictions = []
source = torch.tensor(source_image[np.newaxis].astype(np.float32)).permute(0, 3, 1, 2)
if not cpu:
source = source.cuda()
driving = torch.tensor(np.array(driving_video)[np.newaxis].astype(np.float32)).permute(0, 4, 1, 2, 3)
kp_source = kp_detector(source)
kp_driving_initial = kp_detector(driving[:, :, 0])
for frame_idx in tqdm(range(driving.shape[2])):
driving_frame = driving[:, :, frame_idx]
if not cpu:
driving_frame = driving_frame.cuda()
kp_driving = kp_detector(driving_frame)
kp_norm = normalize_kp(
kp_source=kp_source,
kp_driving=kp_driving,
kp_driving_initial=kp_driving_initial,
use_relative_movement=relative,
use_relative_jacobian=relative,
adapt_movement_scale=adapt_movement_scale,
)
out = generator(source, kp_source=kp_source, kp_driving=kp_norm)
predictions.append(np.transpose(out["prediction"].data.cpu().numpy(), [0, 2, 3, 1])[0])
return predictions
def inference(video, image):
# trim video to 8 seconds
cmd = f"ffmpeg -y -ss 00:00:00 -i {video} -to 00:00:08 -c copy video_input.mp4"
subprocess.run(cmd.split())
video = "video_input.mp4"
source_image = imageio.imread(image)
reader = imageio.get_reader(video)
fps = reader.get_meta_data()["fps"]
driving_video = []
try:
for im in reader:
driving_video.append(im)
except RuntimeError:
pass
reader.close()
source_image = resize(source_image, (256, 256))[..., :3]
driving_video = [resize(frame, (256, 256))[..., :3] for frame in driving_video]
predictions = make_animation(
source_image,
driving_video,
generator,
kp_detector,
relative=True,
adapt_movement_scale=True,
cpu=True,
)
imageio.mimsave("result.mp4", [img_as_ubyte(frame) for frame in predictions], fps=fps)
imageio.mimsave("driving.mp4", [img_as_ubyte(frame) for frame in driving_video], fps=fps)
cmd = f"ffmpeg -y -i result.mp4 -i {video} -c copy -map 0:0 -map 1:1 -shortest out.mp4"
subprocess.run(cmd.split())
cmd = "ffmpeg -y -i driving.mp4 -i out.mp4 -filter_complex hstack=inputs=2 final.mp4"
subprocess.run(cmd.split())
return "final.mp4"
title = "First Order Motion Model"
description = "Gradio demo for First Order Motion Model. Read more at the links below. Upload a video file (cropped to face), a facial image and have fun :D. Please note that your video will be trimmed to first 8 seconds."
article = "<p style='text-align: center'><a href='https://papers.nips.cc/paper/2019/file/31c0b36aef265d9221af80872ceb62f9-Paper.pdf' target='_blank'>First Order Motion Model for Image Animation</a> | <a href='https://github.com/AliaksandrSiarohin/first-order-model' target='_blank'>Github Repo</a></p>"
examples = [["bella_porch.mp4", "julien.png"]]
generator, kp_detector = load_checkpoints(
config_path="config/vox-256.yaml",
checkpoint_path="weights/vox-adv-cpk.pth.tar",
cpu=True,
)
iface = gr.Interface(
inference,
[
gr.inputs.Video(type="mp4"),
gr.inputs.Image(type="filepath"),
],
outputs=gr.outputs.Video(label="Output Video"),
examples=examples,
enable_queue=True,
title=title,
article=article,
description=description,
)
iface.launch(debug=True)