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ddsp-demo / DDSP-SVC /main.py

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	import os
	import torch
	import librosa
	import argparse
	import numpy as np
	import soundfile as sf
	import pyworld as pw
	import parselmouth
	import hashlib
	from ast import literal_eval
	from slicer import Slicer
	from ddsp.vocoder import load_model, F0_Extractor, Volume_Extractor, Units_Encoder
	from ddsp.core import upsample
	from enhancer import Enhancer
	from tqdm import tqdm

	def parse_args(args=None, namespace=None):
	"""Parse command-line arguments."""
	parser = argparse.ArgumentParser()
	parser.add_argument(
	"-m",
	"--model_path",
	type=str,
	required=True,
	help="path to the model file",
	)
	parser.add_argument(
	"-d",
	"--device",
	type=str,
	default=None,
	required=False,
	help="cpu or cuda, auto if not set")
	parser.add_argument(
	"-i",
	"--input",
	type=str,
	required=True,
	help="path to the input audio file",
	)
	parser.add_argument(
	"-o",
	"--output",
	type=str,
	required=True,
	help="path to the output audio file",
	)
	parser.add_argument(
	"-id",
	"--spk_id",
	type=str,
	required=False,
	default=1,
	help="speaker id (for multi-speaker model) \| default: 1",
	)
	parser.add_argument(
	"-mix",
	"--spk_mix_dict",
	type=str,
	required=False,
	default="None",
	help="mix-speaker dictionary (for multi-speaker model) \| default: None",
	)
	parser.add_argument(
	"-k",
	"--key",
	type=str,
	required=False,
	default=0,
	help="key changed (number of semitones) \| default: 0",
	)
	parser.add_argument(
	"-e",
	"--enhance",
	type=str,
	required=False,
	default='true',
	help="true or false \| default: true",
	)
	parser.add_argument(
	"-pe",
	"--pitch_extractor",
	type=str,
	required=False,
	default='crepe',
	help="pitch extrator type: parselmouth, dio, harvest, crepe (default)",
	)
	parser.add_argument(
	"-fmin",
	"--f0_min",
	type=str,
	required=False,
	default=50,
	help="min f0 (Hz) \| default: 50",
	)
	parser.add_argument(
	"-fmax",
	"--f0_max",
	type=str,
	required=False,
	default=1100,
	help="max f0 (Hz) \| default: 1100",
	)
	parser.add_argument(
	"-th",
	"--threhold",
	type=str,
	required=False,
	default=-60,
	help="response threhold (dB) \| default: -60",
	)
	parser.add_argument(
	"-eak",
	"--enhancer_adaptive_key",
	type=str,
	required=False,
	default=0,
	help="adapt the enhancer to a higher vocal range (number of semitones) \| default: 0",
	)
	return parser.parse_args(args=args, namespace=namespace)


	def split(audio, sample_rate, hop_size, db_thresh = -40, min_len = 5000):
	slicer = Slicer(
	sr=sample_rate,
	threshold=db_thresh,
	min_length=min_len)
	chunks = dict(slicer.slice(audio))
	result = []
	for k, v in chunks.items():
	tag = v["split_time"].split(",")
	if tag[0] != tag[1]:
	start_frame = int(int(tag[0]) // hop_size)
	end_frame = int(int(tag[1]) // hop_size)
	if end_frame > start_frame:
	result.append((
	start_frame,
	audio[int(start_frame * hop_size) : int(end_frame * hop_size)]))
	return result


	def cross_fade(a: np.ndarray, b: np.ndarray, idx: int):
	result = np.zeros(idx + b.shape[0])
	fade_len = a.shape[0] - idx
	np.copyto(dst=result[:idx], src=a[:idx])
	k = np.linspace(0, 1.0, num=fade_len, endpoint=True)
	result[idx: a.shape[0]] = (1 - k) * a[idx:] + k * b[: fade_len]
	np.copyto(dst=result[a.shape[0]:], src=b[fade_len:])
	return result


	if __name__ == '__main__':
	# parse commands
	cmd = parse_args()

	#device = 'cpu'
	device = cmd.device
	if device is None:
	device = 'cuda' if torch.cuda.is_available() else 'cpu'

	# load ddsp model
	model, args = load_model(cmd.model_path, device=device)

	# load input
	audio, sample_rate = librosa.load(cmd.input, sr=None)
	if len(audio.shape) > 1:
	audio = librosa.to_mono(audio)
	hop_size = args.data.block_size * sample_rate / args.data.sampling_rate

	# get MD5 hash from wav file
	md5_hash = ""
	with open(cmd.input, 'rb') as f:
	data = f.read()
	md5_hash = hashlib.md5(data).hexdigest()
	print("MD5: " + md5_hash)

	cache_dir_path = os.path.join(os.path.dirname(__file__), "cache")
	cache_file_path = os.path.join(cache_dir_path, f"{cmd.pitch_extractor}_{hop_size}_{cmd.f0_min}_{cmd.f0_max}_{md5_hash}.npy")

	is_cache_available = os.path.exists(cache_file_path)
	if is_cache_available:
	# f0 cache load
	print('Loading pitch curves for input audio from cache directory...')
	f0 = np.load(cache_file_path, allow_pickle=False)
	else:
	# extract f0
	print('Pitch extractor type: ' + cmd.pitch_extractor)
	pitch_extractor = F0_Extractor(
	cmd.pitch_extractor,
	sample_rate,
	hop_size,
	float(cmd.f0_min),
	float(cmd.f0_max))
	print('Extracting the pitch curve of the input audio...')
	f0 = pitch_extractor.extract(audio, uv_interp = True, device = device)

	# f0 cache save
	os.makedirs(cache_dir_path, exist_ok=True)
	np.save(cache_file_path, f0, allow_pickle=False)

	f0 = torch.from_numpy(f0).float().to(device).unsqueeze(-1).unsqueeze(0)

	# key change
	f0 = f0 * 2 ** (float(cmd.key) / 12)

	# extract volume
	print('Extracting the volume envelope of the input audio...')
	volume_extractor = Volume_Extractor(hop_size)
	volume = volume_extractor.extract(audio)
	mask = (volume > 10 ** (float(cmd.threhold) / 20)).astype('float')
	mask = np.pad(mask, (4, 4), constant_values=(mask[0], mask[-1]))
	mask = np.array([np.max(mask[n : n + 9]) for n in range(len(mask) - 8)])
	mask = torch.from_numpy(mask).float().to(device).unsqueeze(-1).unsqueeze(0)
	mask = upsample(mask, args.data.block_size).squeeze(-1)
	volume = torch.from_numpy(volume).float().to(device).unsqueeze(-1).unsqueeze(0)

	# load units encoder
	if args.data.encoder == 'cnhubertsoftfish':
	cnhubertsoft_gate = args.data.cnhubertsoft_gate
	else:
	cnhubertsoft_gate = 10
	units_encoder = Units_Encoder(
	args.data.encoder,
	args.data.encoder_ckpt,
	args.data.encoder_sample_rate,
	args.data.encoder_hop_size,
	cnhubertsoft_gate=cnhubertsoft_gate,
	device = device)

	# load enhancer
	if cmd.enhance == 'true':
	print('Enhancer type: ' + args.enhancer.type)
	enhancer = Enhancer(args.enhancer.type, args.enhancer.ckpt, device=device)
	else:
	print('Enhancer type: none (using raw output of ddsp)')

	# speaker id or mix-speaker dictionary
	spk_mix_dict = literal_eval(cmd.spk_mix_dict)
	if spk_mix_dict is not None:
	print('Mix-speaker mode')
	else:
	print('Speaker ID: '+ str(int(cmd.spk_id)))
	spk_id = torch.LongTensor(np.array([[int(cmd.spk_id)]])).to(device)

	# forward and save the output
	result = np.zeros(0)
	current_length = 0
	segments = split(audio, sample_rate, hop_size)
	print('Cut the input audio into ' + str(len(segments)) + ' slices')
	with torch.no_grad():
	for segment in tqdm(segments):
	start_frame = segment[0]
	seg_input = torch.from_numpy(segment[1]).float().unsqueeze(0).to(device)
	seg_units = units_encoder.encode(seg_input, sample_rate, hop_size)

	seg_f0 = f0[:, start_frame : start_frame + seg_units.size(1), :]
	seg_volume = volume[:, start_frame : start_frame + seg_units.size(1), :]

	seg_output, _, (s_h, s_n) = model(seg_units, seg_f0, seg_volume, spk_id = spk_id, spk_mix_dict = spk_mix_dict)
	seg_output = mask[:, start_frame args.data.block_size : (start_frame + seg_units.size(1)) * args.data.block_size]

	if cmd.enhance == 'true':
	seg_output, output_sample_rate = enhancer.enhance(
	seg_output,
	args.data.sampling_rate,
	seg_f0,
	args.data.block_size,
	adaptive_key = cmd.enhancer_adaptive_key)
	else:
	output_sample_rate = args.data.sampling_rate

	seg_output = seg_output.squeeze().cpu().numpy()

	silent_length = round(start_frame * args.data.block_size * output_sample_rate / args.data.sampling_rate) - current_length
	if silent_length >= 0:
	result = np.append(result, np.zeros(silent_length))
	result = np.append(result, seg_output)
	else:
	result = cross_fade(result, seg_output, current_length + silent_length)
	current_length = current_length + silent_length + len(seg_output)
	sf.write(cmd.output, result, output_sample_rate)