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import torch |
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import numpy as np |
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import re |
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import soundfile |
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import utils |
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import commons |
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import os |
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import librosa |
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from text import text_to_sequence |
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from mel_processing import spectrogram_torch |
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from models import SynthesizerTrn |
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class OpenVoiceBaseClass(object): |
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def __init__(self, |
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config_path, |
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device='cuda:0'): |
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if 'cuda' in device: |
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assert torch.cuda.is_available() |
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hps = utils.get_hparams_from_file(config_path) |
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model = SynthesizerTrn( |
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len(getattr(hps, 'symbols', [])), |
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hps.data.filter_length // 2 + 1, |
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n_speakers=hps.data.n_speakers, |
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**hps.model, |
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).to(device) |
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model.eval() |
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self.model = model |
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self.hps = hps |
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self.device = device |
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def load_ckpt(self, ckpt_path): |
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checkpoint_dict = torch.load(ckpt_path, map_location=torch.device(self.device)) |
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a, b = self.model.load_state_dict(checkpoint_dict['model'], strict=False) |
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print("Loaded checkpoint '{}'".format(ckpt_path)) |
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print('missing/unexpected keys:', a, b) |
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class BaseSpeakerTTS(OpenVoiceBaseClass): |
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language_marks = { |
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"english": "EN", |
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"chinese": "ZH", |
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} |
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@staticmethod |
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def get_text(text, hps, is_symbol): |
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text_norm = text_to_sequence(text, hps.symbols, [] if is_symbol else hps.data.text_cleaners) |
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if hps.data.add_blank: |
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text_norm = commons.intersperse(text_norm, 0) |
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text_norm = torch.LongTensor(text_norm) |
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return text_norm |
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@staticmethod |
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def audio_numpy_concat(segment_data_list, sr, speed=1.): |
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audio_segments = [] |
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for segment_data in segment_data_list: |
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audio_segments += segment_data.reshape(-1).tolist() |
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audio_segments += [0] * int((sr * 0.05)/speed) |
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audio_segments = np.array(audio_segments).astype(np.float32) |
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return audio_segments |
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@staticmethod |
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def split_sentences_into_pieces(text, language_str): |
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texts = utils.split_sentence(text, language_str=language_str) |
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print(" > Text splitted to sentences.") |
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print('\n'.join(texts)) |
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print(" > ===========================") |
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return texts |
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def tts(self, text, output_path, speaker, language='English', speed=1.0): |
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mark = self.language_marks.get(language.lower(), None) |
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assert mark is not None, f"language {language} is not supported" |
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texts = self.split_sentences_into_pieces(text, mark) |
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audio_list = [] |
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for t in texts: |
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t = re.sub(r'([a-z])([A-Z])', r'\1 \2', t) |
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t = f'[{mark}]{t}[{mark}]' |
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stn_tst = self.get_text(t, self.hps, False) |
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device = self.device |
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speaker_id = self.hps.speakers[speaker] |
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with torch.no_grad(): |
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x_tst = stn_tst.unsqueeze(0).to(device) |
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x_tst_lengths = torch.LongTensor([stn_tst.size(0)]).to(device) |
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sid = torch.LongTensor([speaker_id]).to(device) |
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audio = self.model.infer(x_tst, x_tst_lengths, sid=sid, noise_scale=0.667, noise_scale_w=0.6, |
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length_scale=1.0 / speed)[0][0, 0].data.cpu().float().numpy() |
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audio_list.append(audio) |
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audio = self.audio_numpy_concat(audio_list, sr=self.hps.data.sampling_rate, speed=speed) |
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if output_path is None: |
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return audio |
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else: |
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soundfile.write(output_path, audio, self.hps.data.sampling_rate) |
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class ToneColorConverter(OpenVoiceBaseClass): |
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def __init__(self, *args, **kwargs): |
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super().__init__(*args, **kwargs) |
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self.watermark_model = None |
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def extract_se(self, ref_wav_list, se_save_path=None): |
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if isinstance(ref_wav_list, str): |
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ref_wav_list = [ref_wav_list] |
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device = self.device |
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hps = self.hps |
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gs = [] |
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for fname in ref_wav_list: |
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audio_ref, sr = librosa.load(fname, sr=hps.data.sampling_rate) |
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y = torch.FloatTensor(audio_ref) |
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y = y.to(device) |
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y = y.unsqueeze(0) |
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y = spectrogram_torch(y, hps.data.filter_length, |
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hps.data.sampling_rate, hps.data.hop_length, hps.data.win_length, |
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center=False).to(device) |
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with torch.no_grad(): |
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g = self.model.ref_enc(y.transpose(1, 2)).unsqueeze(-1) |
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gs.append(g.detach()) |
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gs = torch.stack(gs).mean(0) |
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if se_save_path is not None: |
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os.makedirs(os.path.dirname(se_save_path), exist_ok=True) |
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torch.save(gs.cpu(), se_save_path) |
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return gs |
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def convert(self, audio_src_path, src_se, tgt_se, output_path=None, tau=0.3, message="default"): |
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hps = self.hps |
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audio, sample_rate = librosa.load(audio_src_path, sr=hps.data.sampling_rate) |
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audio = torch.tensor(audio).float() |
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with torch.no_grad(): |
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y = torch.FloatTensor(audio).to(self.device) |
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y = y.unsqueeze(0) |
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spec = spectrogram_torch(y, hps.data.filter_length, |
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hps.data.sampling_rate, hps.data.hop_length, hps.data.win_length, |
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center=False).to(self.device) |
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spec_lengths = torch.LongTensor([spec.size(-1)]).to(self.device) |
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audio = self.model.voice_conversion(spec, spec_lengths, sid_src=src_se, sid_tgt=tgt_se, tau=tau)[0][ |
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0, 0].data.cpu().float().numpy() |
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audio = self.add_watermark(audio, message) |
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if output_path is None: |
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return audio |
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else: |
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soundfile.write(output_path, audio, hps.data.sampling_rate) |
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def add_watermark(self, audio, message): |
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if self.watermark_model is None: |
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return audio |
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device = self.device |
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bits = utils.string_to_bits(message).reshape(-1) |
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n_repeat = len(bits) // 32 |
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K = 16000 |
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coeff = 2 |
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for n in range(n_repeat): |
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trunck = audio[(coeff * n) * K: (coeff * n + 1) * K] |
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if len(trunck) != K: |
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print('Audio too short, fail to add watermark') |
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break |
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message_npy = bits[n * 32: (n + 1) * 32] |
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with torch.no_grad(): |
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signal = torch.FloatTensor(trunck).to(device)[None] |
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message_tensor = torch.FloatTensor(message_npy).to(device)[None] |
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signal_wmd_tensor = self.watermark_model.encode(signal, message_tensor) |
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signal_wmd_npy = signal_wmd_tensor.detach().cpu().squeeze() |
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audio[(coeff * n) * K: (coeff * n + 1) * K] = signal_wmd_npy |
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return audio |
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def detect_watermark(self, audio, n_repeat): |
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bits = [] |
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K = 16000 |
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coeff = 2 |
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for n in range(n_repeat): |
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trunck = audio[(coeff * n) * K: (coeff * n + 1) * K] |
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if len(trunck) != K: |
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print('Audio too short, fail to detect watermark') |
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return 'Fail' |
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with torch.no_grad(): |
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signal = torch.FloatTensor(trunck).to(self.device).unsqueeze(0) |
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message_decoded_npy = (self.watermark_model.decode(signal) >= 0.5).int().detach().cpu().numpy().squeeze() |
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bits.append(message_decoded_npy) |
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bits = np.stack(bits).reshape(-1, 8) |
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message = utils.bits_to_string(bits) |
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return message |
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