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singing_voice_conversion / processors /content_extractor.py

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	# Copyright (c) 2023 Amphion.
	#
	# This source code is licensed under the MIT license found in the
	# LICENSE file in the root directory of this source tree.

	import os
	import torch
	import numpy as np
	import yaml
	import copy
	from tqdm import tqdm
	from torchaudio.compliance import kaldi
	from torch.nn.utils.rnn import pad_sequence
	from torch.utils.data import DataLoader
	from fairseq import checkpoint_utils
	from transformers import AutoModel, Wav2Vec2FeatureExtractor

	from utils.io_optim import (
	TorchaudioDataset,
	LibrosaDataset,
	FFmpegDataset,
	collate_batch,
	)
	from modules import whisper_extractor as whisper
	from modules.wenet_extractor.utils.init_model import init_model
	from modules.wenet_extractor.utils.checkpoint import load_checkpoint

	"""
	Extractor for content features
	1. whisper
	2. contentvec
	3. wenet
	4. mert

	Pipeline:
	in preprocess.py:
	call extract_utt_content_features() to extract content features for each utterance
	extract_utt_content_features() envelopes the following steps:
	1. load the model (whisper, contentvec, wenet)
	2. extract the content features
	3. save the content features into files
	in svc_dataset.py:
	call offline_align() to align the content features to the given target length

	"""

	"""
	Extractor Usage:
	1. initialize an instance of extractor
	extractor = WhisperExtractor(cfg)
	2. load the specified model
	extractor.load_model()
	3. extract the content features
	extractor.extract_content(utt) for single utterance
	extractor.extract_content_batch(utts) for batch utterances
	4. save the content features
	extractor.save_feature(utt, content_feature) for single utterance
	"""


	class BaseExtractor:
	def __init__(self, cfg):
	self.cfg = cfg
	self.extractor_type = None
	self.model = None

	def offline_align(self, content, target_len):
	"""
	args:
	content: (source_len, dim)
	target_len: target length
	return:
	mapped_feature: (target_len, dim)
	"""
	target_hop = self.cfg.preprocess.hop_size

	assert self.extractor_type in ["whisper", "contentvec", "wenet"]
	if self.extractor_type == "whisper":
	source_hop = (
	self.cfg.preprocess.whisper_frameshift
	* self.cfg.preprocess.whisper_downsample_rate
	* self.cfg.preprocess.sample_rate
	)
	elif self.extractor_type == "contentvec":
	source_hop = (
	self.cfg.preprocess.contentvec_frameshift
	* self.cfg.preprocess.sample_rate
	)
	elif self.extractor_type == "wenet":
	source_hop = (
	self.cfg.preprocess.wenet_frameshift
	* self.cfg.preprocess.wenet_downsample_rate
	* self.cfg.preprocess.sample_rate
	)
	source_hop = int(source_hop)
	factor = np.gcd(source_hop, target_hop)
	source_hop //= factor
	target_hop //= factor

	# (source_len, 256)
	_, width = content.shape
	# slice the content from padded feature
	source_len = min(target_len * target_hop // source_hop + 1, len(content))

	# const ~= target_len * target_hop
	const = source_len * source_hop // target_hop * target_hop

	# (source_len * source_hop, dim)
	up_sampling_feats = np.repeat(content, source_hop, axis=0)
	# (const, dim) -> (const/target_hop, target_hop, dim) -> (const/target_hop, dim)
	down_sampling_feats = np.average(
	up_sampling_feats[:const].reshape(-1, target_hop, width), axis=1
	)

	err = abs(target_len - len(down_sampling_feats))
	if err > 8:
	# err_log_dir is indeterminate
	err_log_dir = os.path.join(
	self.cfg.preprocess.processed_dir, "align_max_err.log"
	)
	try:
	with open(err_log_dir, "r") as f:
	err_num = int(f.read())
	except:
	with open(err_log_dir, "w") as f:
	f.write("0")
	err_num = 0
	if err > err_num:
	with open(err_log_dir, "w") as f:
	f.write(str(err))

	if len(down_sampling_feats) < target_len:
	# (1, dim) -> (err, dim)
	end = down_sampling_feats[-1][None, :].repeat(err, axis=0)
	down_sampling_feats = np.concatenate([down_sampling_feats, end], axis=0)

	# (target_len, dim)
	mapped_feature = down_sampling_feats[:target_len]

	return mapped_feature

	def save_feature(self, utt, content_feature):
	"""Save a single utternace to path {cfg.preprocess.processed_dir}

	Args:
	utt (dict): one item in metadata, containing information for one utterance
	content_feature (tensor): content feature of one utterance
	"""
	uid = utt["Uid"]
	assert self.extractor_type != None
	out_dir = os.path.join(
	self.cfg.preprocess.processed_dir, utt["Dataset"], self.extractor_type
	)
	os.makedirs(out_dir, exist_ok=True)
	save_path = os.path.join(out_dir, uid + ".npy")
	# only keep effective parts
	duration = utt["Duration"]
	if self.extractor_type == "whisper":
	frameshift = (
	self.cfg.preprocess.whisper_frameshift
	* self.cfg.preprocess.whisper_downsample_rate
	) # 20ms
	elif self.extractor_type == "contentvec":
	frameshift = self.cfg.preprocess.contentvec_frameshift # 20ms
	elif self.extractor_type == "wenet":
	frameshift = (
	self.cfg.preprocess.wenet_frameshift
	* self.cfg.preprocess.wenet_downsample_rate
	) # 40ms
	elif self.extractor_type == "mert":
	frameshift = self.cfg.preprocess.mert_frameshift
	else:
	raise NotImplementedError
	# calculate the number of valid frames
	num_frames = int(np.ceil((duration - frameshift) / frameshift)) + 1
	# (num_frames, dim) -> (valid_frames, dim)
	assert (
	len(content_feature.shape) == 2
	), "content feature shape error, it should be (num_frames, dim)"
	content_feature = content_feature[:num_frames, :]
	np.save(save_path, content_feature.cpu().detach().numpy())


	class WhisperExtractor(BaseExtractor):
	def __init__(self, config):
	super(WhisperExtractor, self).__init__(config)
	self.extractor_type = "whisper"

	def load_model(self):
	# load whisper checkpoint
	print("Loading Whisper Model...")

	checkpoint_file = (
	self.cfg.preprocess.whisper_model_path
	if "whisper_model_path" in self.cfg.preprocess
	else None
	)
	model = whisper.load_model(
	self.cfg.preprocess.whisper_model, checkpoint_file=checkpoint_file
	)
	if torch.cuda.is_available():
	print("Using GPU...\n")
	model = model.cuda()
	else:
	print("Using CPU...\n")

	self.model = model.eval()

	def extract_content_features(self, wavs, lens):
	"""extract content features from a batch of dataloader
	Args:
	wavs: tensor (batch_size, T)
	lens: list
	"""
	# wavs: (batch, max_len)
	wavs = whisper.pad_or_trim(wavs)
	# batch_mel: (batch, 80, 3000)
	batch_mel = whisper.log_mel_spectrogram(wavs).to(self.model.device)
	with torch.no_grad():
	# (batch, 1500, 1024)
	features = self.model.embed_audio(batch_mel)
	return features


	class ContentvecExtractor(BaseExtractor):
	def __init__(self, cfg):
	super(ContentvecExtractor, self).__init__(cfg)
	self.extractor_type = "contentvec"

	def load_model(self):
	assert self.model == None
	# Load model
	ckpt_path = self.cfg.preprocess.contentvec_file
	print("Load Contentvec Model...")

	models, saved_cfg, task = checkpoint_utils.load_model_ensemble_and_task(
	[ckpt_path],
	suffix="",
	)
	model = models[0]
	model.eval()

	if torch.cuda.is_available():
	# print("Using GPU...\n")
	model = model.cuda()

	self.model = model

	def extract_content_features(self, wavs, lens):
	"""extract content features from a batch of dataloader
	Args:
	wavs: tensor (batch, T)
	lens: list
	"""
	device = next(self.model.parameters()).device
	wavs = wavs.to(device) # (batch, max_len)
	padding_mask = torch.eq(wavs, torch.zeros_like(wavs)).to(device)
	with torch.no_grad():
	logits = self.model.extract_features(
	source=wavs, padding_mask=padding_mask, output_layer=12
	)
	# feats: (batch, T, 256)
	feats = self.model.final_proj(logits[0])
	return feats


	class WenetExtractor(BaseExtractor):
	def __init__(self, config):
	super(WenetExtractor, self).__init__(config)
	self.extractor_type = "wenet"

	def load_model(self):
	wenet_cfg = self.cfg.preprocess.wenet_config
	wenet_model_path = self.cfg.preprocess.wenet_model_path
	# load Wenet config
	with open(wenet_cfg, "r") as w:
	wenet_configs = yaml.load(w, Loader=yaml.FullLoader)
	self.extract_conf = copy.deepcopy(wenet_configs["dataset_conf"])
	print("Loading Wenet Model...")
	self.model = init_model(wenet_configs)
	load_checkpoint(self.model, wenet_model_path)

	if torch.cuda.is_available():
	print("Using GPU...\n")
	self.model = self.model.cuda()
	else:
	print("Using CPU...\n")

	self.model = self.model.eval()

	def extract_content_features(self, wavs, lens):
	"""extract content features from a batch of dataloader
	Args:
	wavs: tensor
	lens: list
	"""
	feats_list = []
	lengths_list = []

	device = next(self.model.parameters()).device
	# Extract fbank/mfcc features by kaldi
	assert self.extract_conf is not None, "load model first!"
	feats_type = self.extract_conf.get("feats_type", "fbank")
	assert feats_type in ["fbank", "mfcc"]

	for idx, wav in enumerate(wavs):
	# wav: (T)
	wav = wav[: lens[idx]].to(device)

	# pad one frame to compensate for the frame cut off after feature extraction
	pad_tensor = torch.zeros(160, device=wav.device)
	wav = torch.cat((wav, pad_tensor), dim=-1)
	wav *= 1 << 15

	wav = wav.unsqueeze(0) # (T) -> (1, T)
	if feats_type == "fbank":
	fbank_conf = self.extract_conf.get("fbank_conf", {})
	feat = kaldi.fbank(
	wav,
	sample_frequency=16000,
	num_mel_bins=fbank_conf["num_mel_bins"],
	frame_length=fbank_conf["frame_length"],
	frame_shift=fbank_conf["frame_shift"],
	dither=fbank_conf["dither"],
	)
	elif feats_type == "mfcc":
	mfcc_conf = self.extract_conf.get("mfcc", {})
	feat = kaldi.mfcc(
	wav,
	sample_frequency=16000,
	num_mel_bins=mfcc_conf["num_mel_bins"],
	frame_length=mfcc_conf["frame_length"],
	frame_shift=mfcc_conf["frame_shift"],
	dither=mfcc_conf["dither"],
	num_ceps=mfcc_conf.get("num_ceps", 40),
	high_freq=mfcc_conf.get("high_freq", 0.0),
	low_freq=mfcc_conf.get("low_freq", 20.0),
	)
	feats_list.append(feat)
	lengths_list.append(feat.shape[0])

	feats_lengths = torch.tensor(lengths_list, dtype=torch.int32).to(device)
	feats_tensor = pad_sequence(feats_list, batch_first=True).to(
	device
	) # (batch, len, 80)

	features = self.model.encoder_extractor(
	feats_tensor,
	feats_lengths,
	decoding_chunk_size=-1,
	num_decoding_left_chunks=-1,
	simulate_streaming=False,
	)
	return features


	class MertExtractor(BaseExtractor):
	def __init__(self, cfg):
	super(MertExtractor, self).__init__(cfg)
	self.extractor_type = "mert"
	self.preprocessor = None

	def load_model(self):
	assert self.model == None
	assert self.preprocessor == None

	print("Loading MERT Model: ...", self.cfg.preprocess.mert_model)

	local_mert_path = "/mnt/workspace/fangzihao/acce/Amphion/pretrained/MERT"

	model_name = self.cfg.preprocess.mert_model
	model = AutoModel.from_pretrained(local_mert_path, trust_remote_code=True)

	if torch.cuda.is_available():
	model = model.cuda()
	preprocessor = Wav2Vec2FeatureExtractor.from_pretrained(
	local_mert_path, trust_remote_code=True
	)

	self.model = model
	self.preprocessor = preprocessor

	def extract_content_features(self, wavs, lens):
	"""extract content features from a batch of dataloader
	Args:
	wavs: tensor (batch, T)
	lens: list
	"""
	with torch.no_grad():
	sample_rate = self.preprocessor.sampling_rate
	device = next(self.model.parameters()).device
	assert (
	sample_rate == self.cfg.preprocess.mert_sample_rate
	), "mert sample rate mismatch, expected {}, got {}".format(
	self.cfg.preprocess.mert_sample_rate, sample_rate
	)
	mert_features = []
	# wav: (len)
	for wav in wavs:
	# {input_values: tensor, attention_mask: tensor}
	inputs = self.preprocessor(
	wavs, sampling_rate=sample_rate, return_tensors="pt"
	).to(device)

	outputs = self.model(**inputs, output_hidden_states=True)
	# (25 layers, time steps, 1024 feature_dim)
	all_layer_hidden_states = torch.stack(outputs.hidden_states).squeeze()
	# (1, frame_len, 1024) -> (frame_len, 1024)
	feature = outputs.hidden_states[
	self.cfg.preprocess.mert_feature_layer
	].squeeze(0)
	mert_features.append(feature)

	return mert_features


	def extract_utt_content_features_dataloader(cfg, metadata, num_workers):
	dataset_name = metadata[0]["Dataset"]

	if cfg.preprocess.extract_whisper_feature:
	feat_dir = os.path.join(cfg.preprocess.processed_dir, dataset_name, "whisper")
	os.makedirs(feat_dir, exist_ok=True)
	feat_files_num = len(os.listdir(feat_dir))

	if feat_files_num != len(metadata):
	whisper_waveforms = FFmpegDataset(
	cfg, dataset_name, cfg.preprocess.whisper_sample_rate, metadata=metadata
	)
	data_loader = DataLoader(
	whisper_waveforms,
	num_workers=num_workers,
	shuffle=False,
	pin_memory=cfg.preprocess.pin_memory,
	batch_size=cfg.preprocess.content_feature_batch_size,
	collate_fn=collate_batch,
	drop_last=False,
	)
	extractor = WhisperExtractor(cfg)
	extractor.load_model()
	for batch_idx, items in enumerate(tqdm(data_loader)):
	_metadata, wavs, lens = items

	batch_content_features = extractor.extract_content_features(
	wavs,
	lens,
	)
	for index, utt in enumerate(_metadata):
	extractor.save_feature(utt, batch_content_features[index])

	if cfg.preprocess.extract_contentvec_feature:
	feat_dir = os.path.join(
	cfg.preprocess.processed_dir, dataset_name, "contentvec"
	)
	os.makedirs(feat_dir, exist_ok=True)
	feat_files_num = len(os.listdir(feat_dir))

	if feat_files_num != len(metadata):
	contentvec_waveforms = LibrosaDataset(
	cfg,
	dataset_name,
	cfg.preprocess.contentvec_sample_rate,
	metadata=metadata,
	)
	data_loader = DataLoader(
	contentvec_waveforms,
	num_workers=num_workers,
	shuffle=False,
	pin_memory=cfg.preprocess.pin_memory,
	batch_size=cfg.preprocess.content_feature_batch_size,
	collate_fn=collate_batch,
	drop_last=False,
	)
	extractor = ContentvecExtractor(cfg)
	extractor.load_model()
	for batch_idx, items in enumerate(tqdm(data_loader)):
	_metadata, wavs, lens = items

	batch_content_features = extractor.extract_content_features(wavs, lens)
	for index, utt in enumerate(_metadata):
	extractor.save_feature(utt, batch_content_features[index])

	if cfg.preprocess.extract_wenet_feature:
	feat_dir = os.path.join(cfg.preprocess.processed_dir, dataset_name, "wenet")
	os.makedirs(feat_dir, exist_ok=True)
	feat_files_num = len(os.listdir(feat_dir))

	if feat_files_num != len(metadata):
	wenet_waveforms = TorchaudioDataset(
	cfg, dataset_name, cfg.preprocess.wenet_sample_rate, metadata=metadata
	)
	data_loader = DataLoader(
	wenet_waveforms,
	num_workers=num_workers,
	shuffle=False,
	pin_memory=cfg.preprocess.pin_memory,
	batch_size=cfg.preprocess.content_feature_batch_size,
	collate_fn=collate_batch,
	drop_last=False,
	)
	extractor = WenetExtractor(cfg)
	extractor.load_model()
	for batch_idx, items in enumerate(tqdm(data_loader)):
	_metadata, wavs, lens = items

	batch_content_features = extractor.extract_content_features(
	wavs,
	lens,
	)
	for index, utt in enumerate(_metadata):
	extractor.save_feature(utt, batch_content_features[index])

	if cfg.preprocess.extract_mert_feature:
	feat_dir = os.path.join(cfg.preprocess.processed_dir, dataset_name, "mert")
	os.makedirs(feat_dir, exist_ok=True)
	feat_files_num = len(os.listdir(feat_dir))

	if feat_files_num != len(metadata):
	mert_waveforms = TorchaudioDataset(
	cfg, dataset_name, cfg.preprocess.mert_sample_rate, metadata=metadata
	)
	data_loader = DataLoader(
	mert_waveforms,
	num_workers=num_workers,
	shuffle=False,
	pin_memory=cfg.preprocess.pin_memory,
	batch_size=cfg.preprocess.content_feature_batch_size,
	collate_fn=collate_batch,
	drop_last=False,
	)
	extractor = MertExtractor(cfg)
	extractor.load_model()
	for batch_idx, items in enumerate(tqdm(data_loader)):
	_metadata, wavs, lens = items

	batch_content_features = extractor.extract_content_features(
	wavs,
	lens,
	)
	for index, utt in enumerate(_metadata):
	extractor.save_feature(utt, batch_content_features[index])