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import os
import ffmpeg
from datetime import datetime
from pathlib import Path
import numpy as np
import cv2
import torch
import spaces
from scipy.spatial.transform import Rotation as R
from scipy.interpolate import interp1d
from diffusers import AutoencoderKL, DDIMScheduler
from einops import repeat
from omegaconf import OmegaConf
from PIL import Image
from torchvision import transforms
from transformers import CLIPVisionModelWithProjection
from src.models.pose_guider import PoseGuider
from src.models.unet_2d_condition import UNet2DConditionModel
from src.models.unet_3d import UNet3DConditionModel
from src.pipelines.pipeline_pose2vid_long import Pose2VideoPipeline
from src.utils.util import save_videos_grid
from src.audio_models.model import Audio2MeshModel
from src.utils.audio_util import prepare_audio_feature
from src.utils.mp_utils import LMKExtractor
from src.utils.draw_util import FaceMeshVisualizer
from src.utils.pose_util import project_points
def matrix_to_euler_and_translation(matrix):
rotation_matrix = matrix[:3, :3]
translation_vector = matrix[:3, 3]
rotation = R.from_matrix(rotation_matrix)
euler_angles = rotation.as_euler('xyz', degrees=True)
return euler_angles, translation_vector
def smooth_pose_seq(pose_seq, window_size=5):
smoothed_pose_seq = np.zeros_like(pose_seq)
for i in range(len(pose_seq)):
start = max(0, i - window_size // 2)
end = min(len(pose_seq), i + window_size // 2 + 1)
smoothed_pose_seq[i] = np.mean(pose_seq[start:end], axis=0)
return smoothed_pose_seq
def get_headpose_temp(input_video):
lmk_extractor = LMKExtractor()
cap = cv2.VideoCapture(input_video)
total_frames = int(cap.get(cv2.CAP_PROP_FRAME_COUNT))
fps = cap.get(cv2.CAP_PROP_FPS)
trans_mat_list = []
while cap.isOpened():
ret, frame = cap.read()
if not ret:
break
result = lmk_extractor(frame)
trans_mat_list.append(result['trans_mat'].astype(np.float32))
cap.release()
trans_mat_arr = np.array(trans_mat_list)
# compute delta pose
trans_mat_inv_frame_0 = np.linalg.inv(trans_mat_arr[0])
pose_arr = np.zeros([trans_mat_arr.shape[0], 6])
for i in range(pose_arr.shape[0]):
pose_mat = trans_mat_inv_frame_0 @ trans_mat_arr[i]
euler_angles, translation_vector = matrix_to_euler_and_translation(pose_mat)
pose_arr[i, :3] = euler_angles
pose_arr[i, 3:6] = translation_vector
# interpolate to 30 fps
new_fps = 30
old_time = np.linspace(0, total_frames / fps, total_frames)
new_time = np.linspace(0, total_frames / fps, int(total_frames * new_fps / fps))
pose_arr_interp = np.zeros((len(new_time), 6))
for i in range(6):
interp_func = interp1d(old_time, pose_arr[:, i])
pose_arr_interp[:, i] = interp_func(new_time)
pose_arr_smooth = smooth_pose_seq(pose_arr_interp)
return pose_arr_smooth
@spaces.GPU
def audio2video(input_audio, ref_img, headpose_video=None, size=512, steps=25, length=150, seed=42):
fps = 30
cfg = 3.5
config = OmegaConf.load('./configs/prompts/animation_audio.yaml')
if config.weight_dtype == "fp16":
weight_dtype = torch.float16
else:
weight_dtype = torch.float32
audio_infer_config = OmegaConf.load(config.audio_inference_config)
# prepare model
a2m_model = Audio2MeshModel(audio_infer_config['a2m_model'])
a2m_model.load_state_dict(torch.load(audio_infer_config['pretrained_model']['a2m_ckpt']), strict=False)
a2m_model.cuda().eval()
vae = AutoencoderKL.from_pretrained(
config.pretrained_vae_path,
).to("cuda", dtype=weight_dtype)
reference_unet = UNet2DConditionModel.from_pretrained(
config.pretrained_base_model_path,
subfolder="unet",
).to(dtype=weight_dtype, device="cuda")
inference_config_path = config.inference_config
infer_config = OmegaConf.load(inference_config_path)
denoising_unet = UNet3DConditionModel.from_pretrained_2d(
config.pretrained_base_model_path,
config.motion_module_path,
subfolder="unet",
unet_additional_kwargs=infer_config.unet_additional_kwargs,
).to(dtype=weight_dtype, device="cuda")
pose_guider = PoseGuider(noise_latent_channels=320, use_ca=True).to(device="cuda", dtype=weight_dtype) # not use cross attention
image_enc = CLIPVisionModelWithProjection.from_pretrained(
config.image_encoder_path
).to(dtype=weight_dtype, device="cuda")
sched_kwargs = OmegaConf.to_container(infer_config.noise_scheduler_kwargs)
scheduler = DDIMScheduler(**sched_kwargs)
generator = torch.manual_seed(seed)
width, height = size, size
# load pretrained weights
denoising_unet.load_state_dict(
torch.load(config.denoising_unet_path, map_location="cpu"),
strict=False,
)
reference_unet.load_state_dict(
torch.load(config.reference_unet_path, map_location="cpu"),
)
pose_guider.load_state_dict(
torch.load(config.pose_guider_path, map_location="cpu"),
)
pipe = Pose2VideoPipeline(
vae=vae,
image_encoder=image_enc,
reference_unet=reference_unet,
denoising_unet=denoising_unet,
pose_guider=pose_guider,
scheduler=scheduler,
)
pipe = pipe.to("cuda", dtype=weight_dtype)
date_str = datetime.now().strftime("%Y%m%d")
time_str = datetime.now().strftime("%H%M")
save_dir_name = f"{time_str}--seed_{seed}-{size}x{size}"
save_dir = Path(f"output/{date_str}/{save_dir_name}")
save_dir.mkdir(exist_ok=True, parents=True)
lmk_extractor = LMKExtractor()
vis = FaceMeshVisualizer(forehead_edge=False)
ref_image_np = cv2.cvtColor(ref_img, cv2.COLOR_RGB2BGR)
# TODO: 人脸检测+裁剪
ref_image_np = cv2.resize(ref_image_np, (size, size))
ref_image_pil = Image.fromarray(cv2.cvtColor(ref_image_np, cv2.COLOR_BGR2RGB))
face_result = lmk_extractor(ref_image_np)
if face_result is None:
return None
lmks = face_result['lmks'].astype(np.float32)
ref_pose = vis.draw_landmarks((ref_image_np.shape[1], ref_image_np.shape[0]), lmks, normed=True)
sample = prepare_audio_feature(input_audio, wav2vec_model_path=audio_infer_config['a2m_model']['model_path'])
sample['audio_feature'] = torch.from_numpy(sample['audio_feature']).float().cuda()
sample['audio_feature'] = sample['audio_feature'].unsqueeze(0)
# inference
pred = a2m_model.infer(sample['audio_feature'], sample['seq_len'])
pred = pred.squeeze().detach().cpu().numpy()
pred = pred.reshape(pred.shape[0], -1, 3)
pred = pred + face_result['lmks3d']
if headpose_video is not None:
pose_seq = get_headpose_temp(headpose_video)
else:
pose_seq = np.load(config['pose_temp'])
mirrored_pose_seq = np.concatenate((pose_seq, pose_seq[-2:0:-1]), axis=0)
cycled_pose_seq = np.tile(mirrored_pose_seq, (sample['seq_len'] // len(mirrored_pose_seq) + 1, 1))[:sample['seq_len']]
# project 3D mesh to 2D landmark
projected_vertices = project_points(pred, face_result['trans_mat'], cycled_pose_seq, [height, width])
pose_images = []
for i, verts in enumerate(projected_vertices):
lmk_img = vis.draw_landmarks((width, height), verts, normed=False)
pose_images.append(lmk_img)
pose_list = []
pose_tensor_list = []
pose_transform = transforms.Compose(
[transforms.Resize((height, width)), transforms.ToTensor()]
)
args_L = len(pose_images) if length==0 or length > len(pose_images) else length
for pose_image_np in pose_images[: args_L]:
pose_image_pil = Image.fromarray(cv2.cvtColor(pose_image_np, cv2.COLOR_BGR2RGB))
pose_tensor_list.append(pose_transform(pose_image_pil))
pose_image_np = cv2.resize(pose_image_np, (width, height))
pose_list.append(pose_image_np)
pose_list = np.array(pose_list)
video_length = len(pose_tensor_list)
video = pipe(
ref_image_pil,
pose_list,
ref_pose,
width,
height,
video_length,
steps,
cfg,
generator=generator,
).videos
save_path = f"{save_dir}/{size}x{size}_{time_str}_noaudio.mp4"
save_videos_grid(
video,
save_path,
n_rows=1,
fps=fps,
)
stream = ffmpeg.input(save_path)
audio = ffmpeg.input(input_audio)
ffmpeg.output(stream.video, audio.audio, save_path.replace('_noaudio.mp4', '.mp4'), vcodec='copy', acodec='aac').run()
os.remove(save_path)
return save_path.replace('_noaudio.mp4', '.mp4')
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