mirror of
https://github.com/babysor/MockingBird.git
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172 lines
6.8 KiB
Python
172 lines
6.8 KiB
Python
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import torch
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from synthesizer import audio
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from synthesizer.hparams import hparams
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from synthesizer.models.tacotron import Tacotron
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from synthesizer.utils.symbols import symbols
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from synthesizer.utils.text import text_to_sequence
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from vocoder.display import simple_table
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from pathlib import Path
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from typing import Union, List
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import numpy as np
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import librosa
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class Synthesizer:
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sample_rate = hparams.sample_rate
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hparams = hparams
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def __init__(self, model_fpath: Path, verbose=True):
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"""
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The model isn't instantiated and loaded in memory until needed or until load() is called.
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:param model_fpath: path to the trained model file
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:param verbose: if False, prints less information when using the model
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"""
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self.model_fpath = model_fpath
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self.verbose = verbose
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# Check for GPU
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if torch.cuda.is_available():
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self.device = torch.device("cuda")
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else:
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self.device = torch.device("cpu")
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if self.verbose:
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print("Synthesizer using device:", self.device)
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# Tacotron model will be instantiated later on first use.
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self._model = None
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def is_loaded(self):
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"""
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Whether the model is loaded in memory.
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"""
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return self._model is not None
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def load(self):
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"""
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Instantiates and loads the model given the weights file that was passed in the constructor.
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"""
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self._model = Tacotron(embed_dims=hparams.tts_embed_dims,
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num_chars=len(symbols),
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encoder_dims=hparams.tts_encoder_dims,
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decoder_dims=hparams.tts_decoder_dims,
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n_mels=hparams.num_mels,
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fft_bins=hparams.num_mels,
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postnet_dims=hparams.tts_postnet_dims,
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encoder_K=hparams.tts_encoder_K,
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lstm_dims=hparams.tts_lstm_dims,
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postnet_K=hparams.tts_postnet_K,
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num_highways=hparams.tts_num_highways,
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dropout=hparams.tts_dropout,
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stop_threshold=hparams.tts_stop_threshold,
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speaker_embedding_size=hparams.speaker_embedding_size).to(self.device)
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self._model.load(self.model_fpath)
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self._model.eval()
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if self.verbose:
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print("Loaded synthesizer \"%s\" trained to step %d" % (self.model_fpath.name, self._model.state_dict()["step"]))
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def synthesize_spectrograms(self, texts: List[str],
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embeddings: Union[np.ndarray, List[np.ndarray]],
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return_alignments=False):
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"""
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Synthesizes mel spectrograms from texts and speaker embeddings.
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:param texts: a list of N text prompts to be synthesized
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:param embeddings: a numpy array or list of speaker embeddings of shape (N, 256)
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:param return_alignments: if True, a matrix representing the alignments between the
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characters
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and each decoder output step will be returned for each spectrogram
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:return: a list of N melspectrograms as numpy arrays of shape (80, Mi), where Mi is the
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sequence length of spectrogram i, and possibly the alignments.
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"""
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# Load the model on the first request.
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if not self.is_loaded():
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self.load()
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# Print some info about the model when it is loaded
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tts_k = self._model.get_step() // 1000
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simple_table([("Tacotron", str(tts_k) + "k"),
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("r", self._model.r)])
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# Preprocess text inputs
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inputs = [text_to_sequence(text.strip(), hparams.tts_cleaner_names) for text in texts]
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if not isinstance(embeddings, list):
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embeddings = [embeddings]
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# Batch inputs
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batched_inputs = [inputs[i:i+hparams.synthesis_batch_size]
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for i in range(0, len(inputs), hparams.synthesis_batch_size)]
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batched_embeds = [embeddings[i:i+hparams.synthesis_batch_size]
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for i in range(0, len(embeddings), hparams.synthesis_batch_size)]
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specs = []
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for i, batch in enumerate(batched_inputs, 1):
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if self.verbose:
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print(f"\n| Generating {i}/{len(batched_inputs)}")
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# Pad texts so they are all the same length
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text_lens = [len(text) for text in batch]
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max_text_len = max(text_lens)
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chars = [pad1d(text, max_text_len) for text in batch]
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chars = np.stack(chars)
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# Stack speaker embeddings into 2D array for batch processing
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speaker_embeds = np.stack(batched_embeds[i-1])
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# Convert to tensor
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chars = torch.tensor(chars).long().to(self.device)
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speaker_embeddings = torch.tensor(speaker_embeds).float().to(self.device)
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# Inference
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_, mels, alignments = self._model.generate(chars, speaker_embeddings)
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mels = mels.detach().cpu().numpy()
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for m in mels:
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# Trim silence from end of each spectrogram
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while np.max(m[:, -1]) < hparams.tts_stop_threshold:
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m = m[:, :-1]
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specs.append(m)
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if self.verbose:
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print("\n\nDone.\n")
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return (specs, alignments) if return_alignments else specs
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@staticmethod
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def load_preprocess_wav(fpath):
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"""
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Loads and preprocesses an audio file under the same conditions the audio files were used to
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train the synthesizer.
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"""
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wav = librosa.load(str(fpath), hparams.sample_rate)[0]
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if hparams.rescale:
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wav = wav / np.abs(wav).max() * hparams.rescaling_max
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return wav
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@staticmethod
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def make_spectrogram(fpath_or_wav: Union[str, Path, np.ndarray]):
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"""
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Creates a mel spectrogram from an audio file in the same manner as the mel spectrograms that
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were fed to the synthesizer when training.
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"""
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if isinstance(fpath_or_wav, str) or isinstance(fpath_or_wav, Path):
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wav = Synthesizer.load_preprocess_wav(fpath_or_wav)
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else:
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wav = fpath_or_wav
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mel_spectrogram = audio.melspectrogram(wav, hparams).astype(np.float32)
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return mel_spectrogram
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@staticmethod
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def griffin_lim(mel):
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"""
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Inverts a mel spectrogram using Griffin-Lim. The mel spectrogram is expected to have been built
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with the same parameters present in hparams.py.
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"""
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return audio.inv_mel_spectrogram(mel, hparams)
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def pad1d(x, max_len, pad_value=0):
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return np.pad(x, (0, max_len - len(x)), mode="constant", constant_values=pad_value)
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