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TANGO / SMPLer-X /cover2eamge.py

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	import smplx
	import torch
	import pickle
	import numpy as np

	# # Global: Load the SMPL-X model once
	# smplx_model = smplx.create(
	# "/content/drive/MyDrive/003_Codes/TANGO-JointEmbedding/beat2/smplx_models/",
	# model_type='smplx',
	# gender='NEUTRAL_2020',
	# use_face_contour=False,
	# num_betas=10,
	# num_expression_coeffs=10,
	# ext='npz',
	# use_pca=False,
	# ).to("cuda").eval()

	# device = "cuda"

	def extract_frame_number(file_name):
	match = re.search(r'(\d{5})', file_name)
	if match:
	return int(match.group(1))
	return None

	def merge_npz_files(npz_files, output_file):
	npz_files = sorted(npz_files, key=lambda x: extract_frame_number(os.path.basename(x)))
	merged_data = {}
	for file in npz_files:
	data = np.load(file)
	for key in data.files:
	if key not in merged_data:
	merged_data[key] = []
	merged_data[key].append(data[key])
	for key in merged_data:
	merged_data[key] = np.stack(merged_data[key], axis=0)
	np.savez(output_file, **merged_data)

	# smplierx data
	def npz_to_npz_v2(pkl_path, npz_path):
	# Load the pickle file
	pkl_example = np.load(pkl_path, allow_pickle=True)

	bs = 1
	n = pkl_example["expression"].shape[0] # Assuming this is the batch size

	# Convert numpy arrays to torch tensors
	def to_tensor(numpy_array):
	return torch.tensor(numpy_array, dtype=torch.float32).to(device)

	# Ensure that betas are loaded from the pickle data, converting them to torch tensors
	betas = to_tensor(pkl_example["betas"]).reshape(n, -1)
	transl = to_tensor(pkl_example["transl"]).reshape(n, -1)
	expression = to_tensor(pkl_example["expression"]).reshape(n, -1)
	jaw_pose = to_tensor(pkl_example["jaw_pose"]).reshape(n, -1)
	global_orient = to_tensor(pkl_example["global_orient"]).reshape(n, -1)
	body_pose_axis = to_tensor(pkl_example["body_pose"]).reshape(n, -1)
	left_hand_pose = to_tensor(pkl_example['left_hand_pose']).reshape(n, -1)
	right_hand_pose = to_tensor(pkl_example['right_hand_pose']).reshape(n, -1)
	leye_pose = to_tensor(pkl_example['leye_pose']).reshape(n, -1)
	reye_pose = to_tensor(pkl_example['reye_pose']).reshape(n, -1)

	# print(left_hand_pose.shape, right_hand_pose.shape)

	# Pass the loaded data into the SMPL-X model
	gt_vertex = smplx_model(
	betas=betas,
	transl=transl, # Translation
	expression=expression, # Expression
	jaw_pose=jaw_pose, # Jaw pose
	global_orient=global_orient, # Global orientation
	body_pose=body_pose_axis, # Body pose
	left_hand_pose=left_hand_pose, # Left hand pose
	right_hand_pose=right_hand_pose, # Right hand pose
	return_full_pose=True,
	leye_pose=leye_pose, # Left eye pose
	reye_pose=reye_pose, # Right eye pose
	)

	# Save the relevant data to an npz file
	np.savez(npz_path,
	betas=np.zeros((n, 300)),
	poses=gt_vertex["full_pose"].cpu().numpy(),
	expressions=np.zeros((n, 100)),
	trans=pkl_example["transl"].reshape(n, -1),
	model='smplx2020',
	gender='neutral',
	mocap_frame_rate=30,
	)

	# smplierx data
	def npz_to_npz(pkl_path, npz_path):
	# Load the pickle file
	pkl_example = np.load(pkl_path, allow_pickle=True)
	n = pkl_example["expression"].shape[0] # Assuming this is the batch size
	full_pose = np.concatenate([pkl_example["global_orient"], pkl_example["body_pose"], pkl_example["jaw_pose"], pkl_example["leye_pose"], pkl_example["reye_pose"], pkl_example["left_hand_pose"], pkl_example["right_hand_pose"]], axis=1)
	# print(full_pose.shape)
	np.savez(npz_path,
	betas=np.zeros(300),
	poses=full_pose.reshape(n, -1),
	expressions=np.zeros((n, 100)),
	trans=np.zeros((n, 3)),
	model='smplx2020',
	gender='neutral',
	mocap_frame_rate=30,
	)
	if __name__ == "__main__":
	npz_to_npz("/content/drive/MyDrive/003_Codes/TANGO/SMPLer-X/demo/outputs/results_smplx.npz", "/content/drive/MyDrive/003_Codes/TANGO/SMPLer-X/demo/outputs/results_smplx_emage.npz")