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singing_voice_conversion / utils /mert.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.

	# This code is modified from https://huggingface.co/m-a-p/MERT-v1-330M

	import torch
	from tqdm import tqdm
	import numpy as np

	from transformers import Wav2Vec2FeatureExtractor
	from transformers import AutoModel
	import torchaudio
	import torchaudio.transforms as T
	from sklearn.preprocessing import StandardScaler


	def mert_encoder(model, processor, audio_path, hps):
	"""
	# mert default sr: 24000
	"""
	with torch.no_grad():
	resample_rate = processor.sampling_rate
	device = next(model.parameters()).device

	input_audio, sampling_rate = torchaudio.load(audio_path)
	input_audio = input_audio.squeeze()

	if sampling_rate != resample_rate:
	resampler = T.Resample(sampling_rate, resample_rate)
	input_audio = resampler(input_audio)

	inputs = processor(
	input_audio, sampling_rate=resample_rate, return_tensors="pt"
	).to(
	device
	) # {input_values: tensor, attention_mask: tensor}

	outputs = model(**inputs, output_hidden_states=True) # list: len is 25

	# [25 layer, Time steps, 1024 feature_dim]
	# all_layer_hidden_states = torch.stack(outputs.hidden_states).squeeze()
	# mert_features.append(all_layer_hidden_states)

	feature = outputs.hidden_states[
	hps.mert_feature_layer
	].squeeze() # [1, frame len, 1024] -> [frame len, 1024]

	return feature.cpu().detach().numpy()


	def mert_features_normalization(raw_mert_features):
	normalized_mert_features = list()

	mert_features = np.array(raw_mert_features)
	scaler = StandardScaler().fit(mert_features)
	for raw_mert_feature in raw_mert_feature:
	normalized_mert_feature = scaler.transform(raw_mert_feature)
	normalized_mert_features.append(normalized_mert_feature)
	return normalized_mert_features


	def get_mapped_mert_features(raw_mert_features, mapping_features, fast_mapping=True):
	source_hop = 320
	target_hop = 256

	factor = np.gcd(source_hop, target_hop)
	source_hop //= factor
	target_hop //= factor
	print(
	"Mapping source's {} frames => target's {} frames".format(
	target_hop, source_hop
	)
	)

	mert_features = []
	for index, mapping_feat in enumerate(tqdm(mapping_features)):
	# mapping_feat: (mels_frame_len, n_mels)
	target_len = mapping_feat.shape[0]

	# (frame_len, 1024)
	raw_feats = raw_mert_features[index].cpu().numpy()
	source_len, width = raw_feats.shape

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

	# (source_len * source_hop, dim)
	up_sampling_feats = np.repeat(raw_feats, 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 > 3:
	print("index:", index)
	print("mels:", mapping_feat.shape)
	print("raw mert vector:", raw_feats.shape)
	print("up_sampling:", up_sampling_feats.shape)
	print("const:", const)
	print("down_sampling_feats:", down_sampling_feats.shape)
	exit()
	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)
	feats = down_sampling_feats[:target_len]
	mert_features.append(feats)

	return mert_features


	def load_mert_model(hps):
	print("Loading MERT Model: ", hps.mert_model)

	# Load model
	model_name = hps.mert_model
	model = AutoModel.from_pretrained(model_name, trust_remote_code=True)

	if torch.cuda.is_available():
	model = model.cuda()

	# model = model.eval()

	preprocessor = Wav2Vec2FeatureExtractor.from_pretrained(
	model_name, trust_remote_code=True
	)
	return model, preprocessor


	# loading the corresponding preprocessor config
	# def load_preprocessor (model_name="m-a-p/MERT-v1-330M"):
	# print('load_preprocessor...')
	# preprocessor = Wav2Vec2FeatureExtractor.from_pretrained(model_name,trust_remote_code=True)
	# return preprocessor