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SadTalker / src /generate_batch.py

shadowcun

new version of sadtalker

9ab094a 12 months ago

No virus

4.45 kB

	import os

	from tqdm import tqdm
	import torch
	import numpy as np
	import random
	import scipy.io as scio
	import src.utils.audio as audio

	def crop_pad_audio(wav, audio_length):
	if len(wav) > audio_length:
	wav = wav[:audio_length]
	elif len(wav) < audio_length:
	wav = np.pad(wav, [0, audio_length - len(wav)], mode='constant', constant_values=0)
	return wav

	def parse_audio_length(audio_length, sr, fps):
	bit_per_frames = sr / fps

	num_frames = int(audio_length / bit_per_frames)
	audio_length = int(num_frames * bit_per_frames)

	return audio_length, num_frames

	def generate_blink_seq(num_frames):
	ratio = np.zeros((num_frames,1))
	frame_id = 0
	while frame_id in range(num_frames):
	start = 80
	if frame_id+start+9<=num_frames - 1:
	ratio[frame_id+start:frame_id+start+9, 0] = [0.5,0.6,0.7,0.9,1, 0.9, 0.7,0.6,0.5]
	frame_id = frame_id+start+9
	else:
	break
	return ratio

	def generate_blink_seq_randomly(num_frames):
	ratio = np.zeros((num_frames,1))
	if num_frames<=20:
	return ratio
	frame_id = 0
	while frame_id in range(num_frames):
	start = random.choice(range(min(10,num_frames), min(int(num_frames/2), 70)))
	if frame_id+start+5<=num_frames - 1:
	ratio[frame_id+start:frame_id+start+5, 0] = [0.5, 0.9, 1.0, 0.9, 0.5]
	frame_id = frame_id+start+5
	else:
	break
	return ratio

	def get_data(first_coeff_path, audio_path, device, ref_eyeblink_coeff_path, still=False, idlemode=False, length_of_audio=False, use_blink=True):

	syncnet_mel_step_size = 16
	fps = 25

	pic_name = os.path.splitext(os.path.split(first_coeff_path)[-1])[0]
	audio_name = os.path.splitext(os.path.split(audio_path)[-1])[0]


	if idlemode:
	num_frames = int(length_of_audio * 25)
	indiv_mels = np.zeros((num_frames, 80, 16))
	else:
	wav = audio.load_wav(audio_path, 16000)
	wav_length, num_frames = parse_audio_length(len(wav), 16000, 25)
	wav = crop_pad_audio(wav, wav_length)
	orig_mel = audio.melspectrogram(wav).T
	spec = orig_mel.copy() # nframes 80
	indiv_mels = []

	for i in tqdm(range(num_frames), 'mel:'):
	start_frame_num = i-2
	start_idx = int(80. * (start_frame_num / float(fps)))
	end_idx = start_idx + syncnet_mel_step_size
	seq = list(range(start_idx, end_idx))
	seq = [ min(max(item, 0), orig_mel.shape[0]-1) for item in seq ]
	m = spec[seq, :]
	indiv_mels.append(m.T)
	indiv_mels = np.asarray(indiv_mels) # T 80 16

	ratio = generate_blink_seq_randomly(num_frames) # T
	source_semantics_path = first_coeff_path
	source_semantics_dict = scio.loadmat(source_semantics_path)
	ref_coeff = source_semantics_dict['coeff_3dmm'][:1,:70] #1 70
	ref_coeff = np.repeat(ref_coeff, num_frames, axis=0)

	if ref_eyeblink_coeff_path is not None:
	ratio[:num_frames] = 0
	refeyeblink_coeff_dict = scio.loadmat(ref_eyeblink_coeff_path)
	refeyeblink_coeff = refeyeblink_coeff_dict['coeff_3dmm'][:,:64]
	refeyeblink_num_frames = refeyeblink_coeff.shape[0]
	if refeyeblink_num_frames<num_frames:
	div = num_frames//refeyeblink_num_frames
	re = num_frames%refeyeblink_num_frames
	refeyeblink_coeff_list = [refeyeblink_coeff for i in range(div)]
	refeyeblink_coeff_list.append(refeyeblink_coeff[:re, :64])
	refeyeblink_coeff = np.concatenate(refeyeblink_coeff_list, axis=0)
	print(refeyeblink_coeff.shape[0])

	ref_coeff[:, :64] = refeyeblink_coeff[:num_frames, :64]

	indiv_mels = torch.FloatTensor(indiv_mels).unsqueeze(1).unsqueeze(0) # bs T 1 80 16

	if use_blink:
	ratio = torch.FloatTensor(ratio).unsqueeze(0) # bs T
	else:
	ratio = torch.FloatTensor(ratio).unsqueeze(0).fill_(0.)
	# bs T
	ref_coeff = torch.FloatTensor(ref_coeff).unsqueeze(0) # bs 1 70

	indiv_mels = indiv_mels.to(device)
	ratio = ratio.to(device)
	ref_coeff = ref_coeff.to(device)

	return {'indiv_mels': indiv_mels,
	'ref': ref_coeff,
	'num_frames': num_frames,
	'ratio_gt': ratio,
	'audio_name': audio_name, 'pic_name': pic_name}