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98 lines
4.2 KiB
Python
98 lines
4.2 KiB
Python
import torch
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from torch.utils.data import DataLoader
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from synthesizer.hparams import hparams_debug_string
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from synthesizer.synthesizer_dataset import SynthesizerDataset, collate_synthesizer
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from synthesizer.models.tacotron import Tacotron
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from synthesizer.utils.text import text_to_sequence
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from synthesizer.utils.symbols import symbols
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import numpy as np
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from pathlib import Path
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from tqdm import tqdm
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def run_synthesis(in_dir, out_dir, model_dir, hparams):
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# This generates ground truth-aligned mels for vocoder training
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synth_dir = Path(out_dir).joinpath("mels_gta")
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synth_dir.mkdir(exist_ok=True)
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print(hparams_debug_string(hparams))
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# Check for GPU
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if torch.cuda.is_available():
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device = torch.device("cuda")
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if hparams.synthesis_batch_size % torch.cuda.device_count() != 0:
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raise ValueError("`hparams.synthesis_batch_size` must be evenly divisible by n_gpus!")
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else:
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device = torch.device("cpu")
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print("Synthesizer using device:", device)
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# Instantiate Tacotron model
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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=0., # Use zero dropout for gta mels
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stop_threshold=hparams.tts_stop_threshold,
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speaker_embedding_size=hparams.speaker_embedding_size).to(device)
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# Load the weights
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model_dir = Path(model_dir)
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model_fpath = model_dir.joinpath(model_dir.stem).with_suffix(".pt")
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print("\nLoading weights at %s" % model_fpath)
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model.load(model_fpath)
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print("Tacotron weights loaded from step %d" % model.step)
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# Synthesize using same reduction factor as the model is currently trained
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r = np.int32(model.r)
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# Set model to eval mode (disable gradient and zoneout)
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model.eval()
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# Initialize the dataset
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in_dir = Path(in_dir)
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metadata_fpath = in_dir.joinpath("train.txt")
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mel_dir = in_dir.joinpath("mels")
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embed_dir = in_dir.joinpath("embeds")
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dataset = SynthesizerDataset(metadata_fpath, mel_dir, embed_dir, hparams)
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data_loader = DataLoader(dataset,
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collate_fn=lambda batch: collate_synthesizer(batch, r),
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batch_size=hparams.synthesis_batch_size,
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num_workers=2,
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shuffle=False,
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pin_memory=True)
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# Generate GTA mels
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meta_out_fpath = Path(out_dir).joinpath("synthesized.txt")
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with open(meta_out_fpath, "w") as file:
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for i, (texts, mels, embeds, idx) in tqdm(enumerate(data_loader), total=len(data_loader)):
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texts = texts.to(device)
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mels = mels.to(device)
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embeds = embeds.to(device)
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# Parallelize model onto GPUS using workaround due to python bug
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if device.type == "cuda" and torch.cuda.device_count() > 1:
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_, mels_out, _ = data_parallel_workaround(model, texts, mels, embeds)
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else:
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_, mels_out, _ = model(texts, mels, embeds)
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for j, k in enumerate(idx):
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# Note: outputs mel-spectrogram files and target ones have same names, just different folders
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mel_filename = Path(synth_dir).joinpath(dataset.metadata[k][1])
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mel_out = mels_out[j].detach().cpu().numpy().T
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# Use the length of the ground truth mel to remove padding from the generated mels
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mel_out = mel_out[:int(dataset.metadata[k][4])]
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# Write the spectrogram to disk
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np.save(mel_filename, mel_out, allow_pickle=False)
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# Write metadata into the synthesized file
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file.write("|".join(dataset.metadata[k]))
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